New Upstream Release - python-suitesparse-graphblas
Ready changes
Summary
Merged new upstream version: 7.4.4.0 (was: 7.4.0.0).
Diff
diff --git a/.flake8 b/.flake8
new file mode 100644
index 0000000..414785b
--- /dev/null
+++ b/.flake8
@@ -0,0 +1,8 @@
+[flake8]
+max-line-length = 100
+inline-quotes = "
+extend-ignore =
+ E203,
+# E203 whitespace before ':' (to be compatible with black)
+per-file-ignores =
+ suitesparse_graphblas/io/binary.py:C408
diff --git a/.gitattributes b/.gitattributes
deleted file mode 100644
index b6e1e78..0000000
--- a/.gitattributes
+++ /dev/null
@@ -1 +0,0 @@
-suitesparse_graphblas/_version.py export-subst
diff --git a/.github/workflows/lint.yml b/.github/workflows/lint.yml
new file mode 100644
index 0000000..5ef2b10
--- /dev/null
+++ b/.github/workflows/lint.yml
@@ -0,0 +1,21 @@
+name: Lint via pre-commit
+
+on:
+ pull_request:
+ push:
+ branches-ignore:
+ - main
+
+permissions:
+ contents: read
+
+jobs:
+ pre-commit:
+ name: pre-commit-hooks
+ runs-on: ubuntu-latest
+ steps:
+ - uses: actions/checkout@v3
+ - uses: actions/setup-python@v4
+ with:
+ python-version: "3.10"
+ - uses: pre-commit/action@v3.0.0
diff --git a/.github/workflows/test.yml b/.github/workflows/test.yml
index 1f110a9..78f5f44 100644
--- a/.github/workflows/test.yml
+++ b/.github/workflows/test.yml
@@ -19,10 +19,12 @@ jobs:
# os: ["ubuntu-latest"]
# source: ["source"]
python-version: ["3.8", "3.9", "3.10", "3.11"]
- graphblas-version: ["7.4.0"]
+ graphblas-version: ["7.4.4"]
steps:
- name: Checkout
uses: actions/checkout@v3
+ with:
+ fetch-depth: 0
- name: Conda
uses: conda-incubator/setup-miniconda@v2
with:
@@ -40,8 +42,15 @@ jobs:
run: |
# This isn't working! Why not?
# sh suitesparse.sh refs/tags/${{ matrix.graphblas-version }}
+
+ # From tag
curl -L https://github.com/DrTimothyAldenDavis/GraphBLAS/archive/refs/tags/v${{ matrix.graphblas-version }}.tar.gz | tar xzf -
pushd GraphBLAS-${{ matrix.graphblas-version }}/build
+
+ # From branch
+ # curl -L https://github.com/DrTimothyAldenDavis/GraphBLAS/tarball/${{ matrix.graphblas-version }} | tar xzf -
+ # pushd DrTim*/build
+
echo ${CONDA_PREFIX}
cmake -DCMAKE_INSTALL_PREFIX=${CONDA_PREFIX} -DCMAKE_INSTALL_LIBDIR=lib -DCMAKE_BUILD_TYPE=Release ..
cat Makefile
@@ -50,18 +59,13 @@ jobs:
popd
- name: Build
run: |
- python setup.py build_ext --inplace
- python setup.py develop
+ pip install -e . --no-deps
- name: Test
env:
CYTHON_COVERAGE: true
run: |
coverage run --branch -m pytest
coverage run -a --branch suitesparse_graphblas/tests/test_initialize.py
- - name: Lint
- run: |
- black *py suitesparse_graphblas --check --diff
- flake8 *py suitesparse_graphblas
- name: create_headers.py check
if: (! contains(matrix.os, 'windows'))
run: |
diff --git a/.github/workflows/wheels.yml b/.github/workflows/wheels.yml
index f2fda55..0799d87 100644
--- a/.github/workflows/wheels.yml
+++ b/.github/workflows/wheels.yml
@@ -4,36 +4,165 @@ on:
release:
types: [created]
+ # Enable Run Workflow button in GitHub UI
+ workflow_dispatch:
+
+concurrency:
+ group: ${{ github.workflow }}-${{ github.ref }}
+ cancel-in-progress: true
+
jobs:
- wheels:
+ build_sdist:
+ name: Build SDist
+ runs-on: ubuntu-latest
+ steps:
+ - uses: actions/checkout@v3
+ with:
+ fetch-depth: 0
+
+ - name: Build SDist
+ run: pipx run build --sdist
+
+ - name: Check metadata
+ run: pipx run twine check dist/*
+
+ - uses: actions/upload-artifact@v3
+ with:
+ path: dist/*.tar.gz
+
+
+ build_wheels:
+ name: Wheels on ${{ matrix.platform_id }} - ${{ matrix.os }}
runs-on: ${{ matrix.os }}
- defaults:
- run:
- shell: bash -l {0}
strategy:
fail-fast: false
matrix:
- os: ["ubuntu-latest"]
+ # Loosely based on scikit-learn's config:
+ # https://github.com/scikit-learn/scikit-learn/blob/main/.github/workflows/wheels.yml
+ include:
+ - os: windows-latest
+ python-version: "3.8"
+ platform_id: win_amd64
+
+ # Linux 64 bit manylinux2014
+ - os: ubuntu-latest
+ python-version: "3.8"
+ platform_id: manylinux_x86_64
+ manylinux_image: manylinux2014
+
+ # Use x86 macOS runner to build both x86 and ARM. GitHub does not offer M1/M2 yet (only self-hosted).
+ - os: macos-latest
+ python-version: "3.8"
+ platform_id: macosx_x86_64
+
steps:
- - name: Checkout
- uses: actions/checkout@v3
- - name: Set up Python
- uses: actions/setup-python@v4
- with:
- python-version: '3.8'
- - name: Upgrade pip
- run: |
- python -m pip install --upgrade pip
- - name: Build manylinux Python wheels
- uses: RalfG/python-wheels-manylinux-build@v0.4.2-manylinux2014_x86_64
- with:
- python-versions: 'cp38-cp38 cp39-cp39'
- build-requirements: 'cffi numpy>=1.19,<1.20 cython'
- pre-build-command: ${{ format('sh suitesparse.sh {0}', github.ref) }}
- - name: Publish wheels to PyPI
- env:
- TWINE_USERNAME: __token__
- TWINE_PASSWORD: ${{ secrets.PYPI_TOKEN }}
- run: |
- pip install twine
- twine upload dist/*-manylinux*.whl
+ - uses: actions/checkout@v3
+ with:
+ fetch-depth: 0
+
+ - uses: actions/setup-python@v4
+ with:
+ python-version: ${{ matrix.python-version }}
+
+# - name: Install tools (macOS)
+# if: contains(matrix.os, 'macos')
+# # Install coreutils which includes `nproc` used by `make -j` in suitesparse.sh
+# #
+# # GitHub actions comes with libomp already installed, but for its native arch only. Must build universal one
+# # manually so that both x86 and arm builds can be built.
+# run: |
+# brew install coreutils
+# brew install libomp
+# sh add_arm_to_libomp_dylib.sh
+
+ - name: Build Wheels
+ env:
+ # very verbose
+ CIBW_BUILD_VERBOSITY: 3
+
+ # Build SuiteSparse
+ CIBW_BEFORE_ALL: bash suitesparse.sh ${{ github.ref }}
+
+ # CMAKE_GNUtoMS=ON asks suitesparse.sh to build libraries in MSVC style on Windows.
+ CIBW_ENVIRONMENT_WINDOWS: CMAKE_GNUtoMS=ON GRAPHBLAS_PREFIX="C:/GraphBLAS"
+
+ # macOS libomp requires special configs. BREW_LIBOMP=1 asks suitesparse.sh to include them.
+ CIBW_ENVIRONMENT_MACOS: BREW_LIBOMP="1"
+
+ # Uncomment to only build CPython wheels
+# CIBW_BUILD: "cp*"
+
+ # macOS: build x86_64 and arm64
+ #CIBW_ARCHS_MACOS: "x86_64 arm64"
+
+ # No 32-bit builds
+ CIBW_SKIP: "*-win32 *_i686 *musl*"
+
+ # Use delvewheel on Windows.
+ # This copies graphblas.dll into the wheel. "repair" in cibuildwheel parlance includes copying any shared
+ # libraries from the build host into the wheel to make the wheel self-contained.
+ # Cibuildwheel includes tools for this for Linux and macOS, and they recommend delvewheel for Windows.
+ # Note: Currently using a workaround: --no-mangle instead of stripping graphblas.dll
+ # see https://github.com/adang1345/delvewheel/issues/33
+ CIBW_BEFORE_BUILD_WINDOWS: "pip install delvewheel"
+ CIBW_REPAIR_WHEEL_COMMAND_WINDOWS: "delvewheel repair --add-path \"C:\\GraphBLAS\\bin\" --no-mangle \"libgomp-1.dll;libgcc_s_seh-1.dll\" -w {dest_dir} {wheel}"
+
+ # make cibuildwheel install test dependencies from pyproject.toml
+ CIBW_TEST_EXTRAS: "test"
+
+ # run tests
+ CIBW_TEST_COMMAND: "pytest --pyargs suitesparse_graphblas"
+
+ # GitHub Actions macOS Intel runner cannot run ARM tests.
+ CIBW_TEST_SKIP: "*-macosx_arm64"
+
+ run: |
+ python -m pip install cibuildwheel
+ python -m cibuildwheel --output-dir wheelhouse .
+ shell: bash
+
+ - uses: actions/upload-artifact@v3
+ id: uploadAttempt1
+ continue-on-error: true
+ with:
+ path: wheelhouse/*.whl
+ if-no-files-found: error
+
+ # Retry upload if first attempt failed. This happens somewhat randomly and for irregular reasons.
+ # Logic is a duplicate of previous step.
+ - uses: actions/upload-artifact@v3
+ id: uploadAttempt2
+ if: steps.uploadAttempt1.outcome == 'failure'
+ continue-on-error: false
+ with:
+ path: wheelhouse/*.whl
+ if-no-files-found: error
+
+ upload_all:
+ name: Upload to PyPI
+ needs: [build_wheels, build_sdist]
+ runs-on: ubuntu-latest
+ if: github.repository == 'GraphBLAS/python-suitesparse-graphblas'
+# if: github.event_name == 'release' && github.event.action == 'published'
+
+ steps:
+ - uses: actions/setup-python@v4
+ with:
+ python-version: "3.x"
+
+ - uses: actions/download-artifact@v3
+ with:
+ name: artifact
+ path: dist
+
+ - uses: pypa/gh-action-pypi-publish@release/v1
+ with:
+ # PyPI does not allow replacing a file. Without this flag the entire action fails if even a single duplicate exists.
+ skip-existing: true
+ verbose: true
+ # Real PyPI:
+ password: ${{ secrets.PYPI_TOKEN }}
+
+ # Test PyPI:
+# password: ${{ secrets.TEST_PYPI_API_TOKEN }}
+# repository_url: https://test.pypi.org/legacy/
diff --git a/.gitignore b/.gitignore
index 2b09537..e382cda 100644
--- a/.gitignore
+++ b/.gitignore
@@ -4,7 +4,9 @@ __pycache__/
*$py.class
# C extensions
+*.c
*.so
+*.dll
# Distribution / packaging
.Python
@@ -26,6 +28,10 @@ share/python-wheels/
.installed.cfg
*.egg
MANIFEST
+wheelhouse
+
+# Wheel building stuff
+GraphBLAS-*/
# PyInstaller
# Usually these files are written by a python script from a template
diff --git a/.pre-commit-config.yaml b/.pre-commit-config.yaml
new file mode 100644
index 0000000..d8ef4a1
--- /dev/null
+++ b/.pre-commit-config.yaml
@@ -0,0 +1,76 @@
+# https://pre-commit.com/
+#
+# Before first use: `pre-commit install`
+# To run: `pre-commit run --all-files`
+# To update: `pre-commit autoupdate`
+# - &flake8_dependencies below needs updated manually
+fail_fast: true
+default_language_version:
+ python: python3
+repos:
+ - repo: https://github.com/pre-commit/pre-commit-hooks
+ rev: v4.4.0
+ hooks:
+ - id: check-added-large-files
+ - id: check-ast
+ - id: check-toml
+ - id: check-yaml
+ - id: debug-statements
+ - id: end-of-file-fixer
+ - id: mixed-line-ending
+ # - id: trailing-whitespace
+ - repo: https://github.com/abravalheri/validate-pyproject
+ rev: v0.12.2
+ hooks:
+ - id: validate-pyproject
+ name: Validate pyproject.toml
+ - repo: https://github.com/myint/autoflake
+ rev: v2.1.1
+ hooks:
+ - id: autoflake
+ args: [--in-place]
+ - repo: https://github.com/pycqa/isort
+ rev: 5.12.0
+ hooks:
+ - id: isort
+ - repo: https://github.com/asottile/pyupgrade
+ rev: v3.3.1
+ hooks:
+ - id: pyupgrade
+ args: [--py38-plus]
+ # - repo: https://github.com/MarcoGorelli/auto-walrus
+ # rev: v0.2.2
+ # hooks:
+ # - id: auto-walrus
+ # args: [--line-length, "100"]
+ - repo: https://github.com/psf/black
+ rev: 23.3.0
+ hooks:
+ - id: black
+ # - id: black-jupyter
+ - repo: https://github.com/PyCQA/flake8
+ rev: 6.0.0
+ hooks:
+ - id: flake8
+ additional_dependencies: &flake8_dependencies
+ # These versions need updated manually
+ - flake8==6.0.0
+ - flake8-comprehensions==3.11.1
+ - flake8-bugbear==23.3.23
+ # - flake8-simplify==0.20.0
+ - repo: https://github.com/asottile/yesqa
+ rev: v1.4.0
+ hooks:
+ - id: yesqa
+ additional_dependencies: *flake8_dependencies
+ # `pyroma` may help keep our package standards up to date if best practices change.
+ # This is a "low value" check though and too slow to run as part of pre-commit.
+ # - repo: https://github.com/regebro/pyroma
+ # rev: "4.2"
+ # hooks:
+ # - id: pyroma
+ # args: [-n, "10", .]
+ - repo: https://github.com/pre-commit/pre-commit-hooks
+ rev: v4.4.0
+ hooks:
+ - id: no-commit-to-branch # no commit directly to main
diff --git a/MANIFEST.in b/MANIFEST.in
index 3e2a1a0..61cd04d 100644
--- a/MANIFEST.in
+++ b/MANIFEST.in
@@ -1,9 +1,8 @@
include setup.py
+include build_graphblas_cffi.py
include README.md
include LICENSE
include suitesparse_graphblas/*.pxd
include suitesparse_graphblas/*.pyx
include suitesparse_graphblas/*.c
include suitesparse_graphblas/*.h
-include versioneer.py
-include suitesparse_graphblas/_version.py
diff --git a/add_arm_to_libomp_dylib.sh b/add_arm_to_libomp_dylib.sh
new file mode 100755
index 0000000..8492c7c
--- /dev/null
+++ b/add_arm_to_libomp_dylib.sh
@@ -0,0 +1,18 @@
+#!/bin/sh
+
+#mkdir x86lib
+mkdir armlib
+
+# download and unzip both x86 and arm libomp tarballs
+#brew fetch --force --bottle-tag=x86_64_monterey libomp
+brew fetch --force --bottle-tag=arm64_big_sur libomp
+
+# untar
+#tar -xzf $(brew --cache --bottle-tag=x86_64_monterey libomp) --strip-components 2 -C x86lib
+tar -xzf $(brew --cache --bottle-tag=arm64_big_sur libomp) --strip-components 2 -C armlib
+
+# merge
+lipo armlib/lib/libomp.dylib $(brew --prefix libomp)/lib/libomp.dylib -output libomp.dylib -create
+cp -f libomp.dylib $(brew --prefix libomp)/lib
+rm libomp.dylib
+rm -rf armlib
diff --git a/build_graphblas_cffi.py b/build_graphblas_cffi.py
new file mode 100644
index 0000000..dff21e6
--- /dev/null
+++ b/build_graphblas_cffi.py
@@ -0,0 +1,76 @@
+import os
+import sys
+from pathlib import Path
+
+from cffi import FFI
+from setuptools import Extension
+
+is_win = sys.platform.startswith("win")
+ss_g = Path(__file__).parent / "suitesparse_graphblas"
+
+ffibuilder = FFI()
+
+include_dirs = [os.path.join(sys.prefix, "include")]
+library_dirs = [os.path.join(sys.prefix, "lib")]
+if is_win:
+ include_dirs.append(os.path.join(sys.prefix, "Library", "include"))
+ library_dirs.append(os.path.join(sys.prefix, "Library", "lib"))
+
+ # wheels.yml configures suitesparse.sh to install GraphBLAS here.
+ prefix = "C:\\GraphBLAS"
+ include_dirs.append(os.path.join(prefix, "include"))
+ library_dirs.append(os.path.join(prefix, "lib"))
+ library_dirs.append(os.path.join(prefix, "bin"))
+
+ffibuilder.set_source(
+ "suitesparse_graphblas._graphblas",
+ (ss_g / "source.c").read_text(),
+ libraries=["graphblas"],
+ include_dirs=include_dirs,
+ library_dirs=library_dirs,
+)
+
+ffibuilder.cdef((ss_g / "suitesparse_graphblas.h").read_text())
+
+
+def get_extension(apply_msvc_patch: bool = None, extra_compile_args=()):
+ """
+ Get a setuptools.Extension version of this CFFI builder.
+
+ In other words, enables `setup(ext_modules=[get_extension()])`
+ instead of `setup(cffi_modules=["build_graphblas_cffi.py:ffibuilder"])`.
+
+ The main reason for this is to allow a patch for complex values when compiling on MSVC.
+ MSVC famously lacks support for standard C complex types like `double _Complex` and
+ `float _Complex`. Instead, MSVC has its own `_Dcomplex` and `_Fcomplex` types.
+ Cffi's machinery cannot be made to work with these types, so we instead
+ emit the regular standard C code and patch it manually.
+
+ :param apply_msvc_patch: whether to apply the MSVC patch.
+ If None then auto-detect based on platform.
+ :param extra_compile_args: forwarded to Extension constructor.
+ """
+ code_path = ss_g / "_graphblas.c"
+ ffibuilder.emit_c_code(str(code_path))
+
+ if apply_msvc_patch is None:
+ apply_msvc_patch = is_win
+
+ if apply_msvc_patch:
+ msvc_code = code_path.read_text()
+ msvc_code = msvc_code.replace("float _Complex", "_Fcomplex")
+ msvc_code = msvc_code.replace("double _Complex", "_Dcomplex")
+ code_path.write_text(msvc_code)
+
+ return Extension(
+ "suitesparse_graphblas._graphblas",
+ [os.path.join("suitesparse_graphblas", "_graphblas.c")],
+ libraries=["graphblas"],
+ include_dirs=include_dirs,
+ library_dirs=library_dirs,
+ extra_compile_args=extra_compile_args,
+ )
+
+
+if __name__ == "__main__":
+ ffibuilder.compile(verbose=True)
diff --git a/debian/changelog b/debian/changelog
index 24cf8f8..d363fcf 100644
--- a/debian/changelog
+++ b/debian/changelog
@@ -1,3 +1,9 @@
+python-suitesparse-graphblas (7.4.4.0-1) UNRELEASED; urgency=low
+
+ * New upstream release.
+
+ -- Debian Janitor <janitor@jelmer.uk> Sat, 10 Jun 2023 02:28:34 -0000
+
python-suitesparse-graphblas (7.4.0.0-2) unstable; urgency=medium
* Enforce dependency on libgraphblas-dev >= 7.4
diff --git a/pyproject.toml b/pyproject.toml
index adbd980..7265a23 100644
--- a/pyproject.toml
+++ b/pyproject.toml
@@ -1,5 +1,125 @@
[build-system]
-requires = ["setuptools", "wheel", "numpy>=1.19", "cython"]
+build-backend = "setuptools.build_meta"
+requires = [
+ "setuptools >=64",
+ "setuptools-git-versioning",
+ "wheel",
+ "cffi>=1.11",
+ "cython",
+ "oldest-supported-numpy",
+]
+
+[project]
+name = "suitesparse-graphblas"
+dynamic = ["version"]
+description = "SuiteSparse:GraphBLAS Python bindings."
+readme = "README.md"
+requires-python = ">=3.8"
+license = {file = "LICENSE"}
+authors = [
+ {name = "Erik Welch", email = "erik.n.welch@gmail.com"},
+ {name = "Jim Kitchen"},
+ {name = "Michel Pelletier"},
+ {name = "suitesparse-graphblas contributors"},
+]
+maintainers = [
+ {name = "Erik Welch", email = "erik.n.welch@gmail.com"},
+ {name = "Jim Kitchen", email = "jim22k@gmail.com"},
+ {name = "Michel Pelletier", email = "michel@graphegon.com"},
+]
+keywords = [
+ "graphblas",
+ "graph",
+ "sparse",
+ "matrix",
+ "lagraph",
+ "suitesparse",
+ "Networks",
+ "Graph Theory",
+ "Mathematics",
+ "network",
+ "discrete mathematics",
+ "math",
+]
+classifiers = [
+ "Development Status :: 5 - Production/Stable",
+ "License :: OSI Approved :: Apache Software License",
+ "Operating System :: MacOS :: MacOS X",
+ "Operating System :: POSIX :: Linux",
+ "Operating System :: Microsoft :: Windows",
+ "Programming Language :: Python",
+ "Programming Language :: Python :: 3",
+ "Programming Language :: Python :: 3.8",
+ "Programming Language :: Python :: 3.9",
+ "Programming Language :: Python :: 3.10",
+ "Programming Language :: Python :: 3.11",
+ "Programming Language :: Python :: 3 :: Only",
+ "Intended Audience :: Developers",
+ "Intended Audience :: Other Audience",
+ "Intended Audience :: Science/Research",
+ "Topic :: Scientific/Engineering",
+ "Topic :: Scientific/Engineering :: Information Analysis",
+ "Topic :: Scientific/Engineering :: Mathematics",
+ "Topic :: Software Development :: Libraries :: Python Modules",
+]
+dependencies = [
+ # These are super-old; can/should we update them?
+ "cffi>=1.11",
+ "numpy>=1.19",
+]
+[project.urls]
+homepage = "https://github.com/GraphBLAS/python-suitesparse-graphblas"
+repository = "https://github.com/GraphBLAS/python-suitesparse-graphblas"
+changelog = "https://github.com/GraphBLAS/python-suitesparse-graphblas/releases"
+
+[project.optional-dependencies]
+test = [
+ "pytest",
+]
+
+[tool.setuptools]
+packages = [
+ 'suitesparse_graphblas',
+ 'suitesparse_graphblas.tests',
+ 'suitesparse_graphblas.io',
+]
+
+[tool.setuptools-git-versioning]
+enabled = true
+dev_template = "{tag}+{ccount}.g{sha}"
+dirty_template = "{tag}+{ccount}.g{sha}.dirty"
[tool.black]
line-length = 100
+target-version = ["py38", "py39", "py310", "py311"]
+
+[tool.isort]
+sections = ["FUTURE", "STDLIB", "THIRDPARTY", "FIRSTPARTY", "LOCALFOLDER"]
+profile = "black"
+skip_gitignore = true
+float_to_top = true
+default_section = "THIRDPARTY"
+known_first_party = "suitesparse_graphblas"
+line_length = 100
+skip_glob = ["*.pxd", "*.pyx"]
+
+[tool.coverage.run]
+branch = true
+source = ["suitesparse_graphblas"]
+omit = []
+plugins = ["Cython.Coverage"]
+
+[tool.coverage.report]
+ignore_errors = false
+precision = 1
+fail_under = 0
+skip_covered = true
+skip_empty = true
+exclude_lines = [
+ "pragma: no cover",
+ "raise AssertionError",
+ "raise NotImplementedError",
+]
+
+[tool.pytest]
+testpaths = ["suitesparse_graphblas/tests"]
diff --git a/setup.cfg b/setup.cfg
deleted file mode 100644
index ba61703..0000000
--- a/setup.cfg
+++ /dev/null
@@ -1,45 +0,0 @@
-[aliases]
-test=pytest
-
-[flake8]
-max-line-length = 100
-inline-quotes = "
-exclude =
- versioneer.py,
-extend-ignore =
- E203,
-# E203 whitespace before ':' (to be compatible with black)
-per-file-ignores = suitesparse_graphblas/io/binary.py:C408
-
-[coverage:run]
-source = suitesparse_graphblas
-plugins = Cython.Coverage
-omit =
- suitesparse_graphblas/_version.py
-
-[coverage:report]
-# Regexes for lines to exclude from consideration
-exclude_lines =
- pragma: no cover
-
- raise AssertionError
- raise NotImplementedError
-
-[versioneer]
-VCS = git
-style = pep440
-versionfile_source = suitesparse_graphblas/_version.py
-versionfile_build = suitesparse_graphblas/_version.py
-tag_prefix=
-parentdir_prefix=suitesparse_graphblas-
-
-[tool:pytest]
-testpaths = suitesparse_graphblas/tests
-
-[isort]
-sections = FUTURE,STDLIB,THIRDPARTY,FIRSTPARTY,LOCALFOLDER
-profile = black
-skip_gitignore = true
-float_to_top = true
-default_section = THIRDPARTY
-known_first_party = suitesparse_graphblas
diff --git a/setup.py b/setup.py
index 40a6b7b..860cd3a 100644
--- a/setup.py
+++ b/setup.py
@@ -1,12 +1,13 @@
-# Twiddle Dee (switch this between Dee and Dum to add meaningless git commits)
import os
import sys
from glob import glob
import numpy as np
-from setuptools import Extension, find_packages, setup
+from setuptools import Extension, setup
-import versioneer
+# Add current directory to the Python path because it's not present when running `pip install .`
+sys.path.append(os.path.dirname(__file__))
+import build_graphblas_cffi # noqa: E402 # isort:skip
try:
from Cython.Build import cythonize
@@ -16,10 +17,15 @@ try:
except ImportError:
use_cython = False
-
-is_win = sys.platform.startswith("win")
define_macros = [("NPY_NO_DEPRECATED_API", "NPY_1_7_API_VERSION")]
+# /d2FH4- flag needed only for early Python 3.8 builds on Windows.
+# See https://cibuildwheel.readthedocs.io/en/stable/faq/
+# (Search for flag on page. Full link is long and causes the linter to fail the tests.)
+#
+# The /std:c11 flag is because the MSVC default is C89.
+extra_compile_args = ["/d2FH4-", "/std:c11"] if sys.platform == "win32" else []
+
if use_cython:
suffix = ".pyx"
directive_defaults = get_directive_defaults()
@@ -45,55 +51,17 @@ ext_modules = [
[name],
include_dirs=include_dirs,
define_macros=define_macros,
+ extra_compile_args=extra_compile_args,
)
for name in glob(f"suitesparse_graphblas/**/*{suffix}", recursive=True)
]
if use_cython:
ext_modules = cythonize(ext_modules, include_path=include_dirs)
-with open("README.md") as f:
- long_description = f.read()
-
-package_data = {"suitesparse_graphblas": ["*.pyx", "*.pxd", "*.c", "*.h"]}
-if is_win:
- package_data["suitesparse_graphblas"].append("*.dll")
+if build_graphblas_cffi.is_win:
+ ext_modules.append(build_graphblas_cffi.get_extension(extra_compile_args=extra_compile_args))
setup(
- name="suitesparse-graphblas",
- version=versioneer.get_version(),
- cmdclass=versioneer.get_cmdclass(),
- description="SuiteSparse:GraphBLAS Python bindings.",
- long_description=long_description,
- long_description_content_type="text/markdown",
- packages=find_packages(),
- author="Michel Pelletier, James Kitchen, Erik Welch",
- author_email="michel@graphegon.com,jim22k@gmail.com,erik.n.welch@gmail.com",
- url="https://github.com/GraphBLAS/python-suitesparse-graphblas",
ext_modules=ext_modules,
- cffi_modules=["suitesparse_graphblas/build.py:ffibuilder"],
- python_requires=">=3.8",
- install_requires=["cffi>=1.0.0", "numpy>=1.19"],
- setup_requires=["cffi>=1.0.0", "pytest-runner"],
- tests_require=["pytest"],
- license="Apache License 2.0",
- package_data=package_data,
- include_package_data=True,
- classifiers=[
- "Development Status :: 4 - Beta",
- "License :: OSI Approved :: Apache Software License",
- "Operating System :: MacOS :: MacOS X",
- "Operating System :: POSIX :: Linux",
- "Operating System :: Microsoft :: Windows",
- "Programming Language :: Python",
- "Programming Language :: Python :: 3",
- "Programming Language :: Python :: 3.8",
- "Programming Language :: Python :: 3.9",
- "Programming Language :: Python :: 3.10",
- "Programming Language :: Python :: 3.11",
- "Programming Language :: Python :: 3 :: Only",
- "Intended Audience :: Science/Research",
- "Topic :: Scientific/Engineering",
- "Topic :: Scientific/Engineering :: Mathematics",
- ],
- zip_safe=False,
+ cffi_modules=None if build_graphblas_cffi.is_win else ["build_graphblas_cffi.py:ffibuilder"],
)
diff --git a/suitesparse.sh b/suitesparse.sh
old mode 100644
new mode 100755
index 77410fc..26b29fb
--- a/suitesparse.sh
+++ b/suitesparse.sh
@@ -1,14 +1,87 @@
+#!/bin/bash
+# parse SuiteSparse version from first argument, a git tag that ends in the version (no leading v)
if [[ $1 =~ refs/tags/([0-9]*\.[0-9]*\.[0-9]*)\..*$ ]];
then
VERSION=${BASH_REMATCH[1]}
else
+ echo "Specify a SuiteSparse version, such as: $0 refs/tags/7.4.3.0"
exit -1
fi
echo VERSION: $VERSION
+NPROC="$(nproc)"
+if [ -z "${NPROC}" ]; then
+ # Default for platforms that don't have nproc. Mostly Windows.
+ NPROC="2"
+fi
+
+cmake_params=()
+if [ -n "${BREW_LIBOMP}" ]; then
+ # macOS OpenMP flags.
+ # FindOpenMP doesn't find brew's libomp, so set the necessary configs manually.
+ cmake_params+=(-DOpenMP_C_FLAGS="-Xclang -fopenmp -I$(brew --prefix libomp)/include")
+ cmake_params+=(-DOpenMP_C_LIB_NAMES="libomp")
+ cmake_params+=(-DOpenMP_libomp_LIBRARY="omp")
+ export LDFLAGS="-L$(brew --prefix libomp)/lib"
+
+ export CFLAGS="-arch x86_64"
+# # build both x86 and ARM
+# export CFLAGS="-arch x86_64 -arch arm64"
+fi
+
+if [ -n "${CMAKE_GNUtoMS}" ]; then
+ # Windows needs .lib libraries, not .a
+ cmake_params+=(-DCMAKE_GNUtoMS=ON)
+ # Windows expects 'graphblas.lib', not 'libgraphblas.lib'
+ cmake_params+=(-DCMAKE_SHARED_LIBRARY_PREFIX=)
+ cmake_params+=(-DCMAKE_STATIC_LIBRARY_PREFIX=)
+fi
+
+if [ -n "${GRAPHBLAS_PREFIX}" ]; then
+ echo "GRAPHBLAS_PREFIX=${GRAPHBLAS_PREFIX}"
+ cmake_params+=(-DCMAKE_INSTALL_PREFIX="${GRAPHBLAS_PREFIX}")
+fi
+
curl -L https://github.com/DrTimothyAldenDavis/GraphBLAS/archive/refs/tags/v${VERSION}.tar.gz | tar xzf -
cd GraphBLAS-${VERSION}/build
-cmake .. -DCMAKE_BUILD_TYPE=Release
-make -j$(nproc)
+
+# Disable optimizing some rarely-used types for significantly faster builds and significantly smaller wheel size.
+# Also the build with all types enabled sometimes stalls on GitHub Actions. Probably due to exceeded resource limits.
+# These can still be used, they'll just have reduced performance (AFAIK similar to UDTs).
+# echo "#define GxB_NO_BOOL 1" >> ../Source/GB_control.h #
+# echo "#define GxB_NO_FP32 1" >> ../Source/GB_control.h #
+# echo "#define GxB_NO_FP64 1" >> ../Source/GB_control.h #
+echo "#define GxB_NO_FC32 1" >> ../Source/GB_control.h
+echo "#define GxB_NO_FC64 1" >> ../Source/GB_control.h
+# echo "#define GxB_NO_INT16 1" >> ../Source/GB_control.h #
+# echo "#define GxB_NO_INT32 1" >> ../Source/GB_control.h #
+# echo "#define GxB_NO_INT64 1" >> ../Source/GB_control.h #
+# echo "#define GxB_NO_INT8 1" >> ../Source/GB_control.h #
+echo "#define GxB_NO_UINT16 1" >> ../Source/GB_control.h
+echo "#define GxB_NO_UINT32 1" >> ../Source/GB_control.h
+# echo "#define GxB_NO_UINT64 1" >> ../Source/GB_control.h #
+echo "#define GxB_NO_UINT8 1" >> ../Source/GB_control.h
+
+# Disable all Source/Generated2 kernels. For workflow development only.
+#cmake_params+=(-DCMAKE_CUDA_DEV=1)
+
+cmake .. -DCMAKE_BUILD_TYPE=Release -G 'Unix Makefiles' "${cmake_params[@]}"
+make -j$NPROC
make install
+
+if [ -n "${CMAKE_GNUtoMS}" ]; then
+ if [ -z "${GRAPHBLAS_PREFIX}" ]; then
+ # Windows default
+ GRAPHBLAS_PREFIX="C:/Program Files (x86)"
+ fi
+
+ # Windows:
+ # CMAKE_STATIC_LIBRARY_PREFIX is sometimes ignored, possibly when the MinGW toolchain is selected.
+ # Drop the 'lib' prefix manually.
+ echo "manually removing lib prefix"
+ mv "${GRAPHBLAS_PREFIX}/lib/libgraphblas.lib" "${GRAPHBLAS_PREFIX}/lib/graphblas.lib"
+ mv "${GRAPHBLAS_PREFIX}/lib/libgraphblas.dll.a" "${GRAPHBLAS_PREFIX}/lib/graphblas.dll.a"
+ # cp instead of mv because the GNU tools expect libgraphblas.dll and the MS tools expect graphblas.dll.
+ cp "${GRAPHBLAS_PREFIX}/bin/libgraphblas.dll" "${GRAPHBLAS_PREFIX}/bin/graphblas.dll"
+fi
diff --git a/suitesparse_graphblas/__init__.py b/suitesparse_graphblas/__init__.py
index 596d31a..15931d7 100644
--- a/suitesparse_graphblas/__init__.py
+++ b/suitesparse_graphblas/__init__.py
@@ -1,16 +1,26 @@
-from . import _version
+import importlib.metadata
+import platform
+import struct as _struct
+
from . import exceptions as ex
from . import utils
from ._graphblas import ffi, lib
-import struct
-import platform
-
_is_osx_arm64 = platform.machine() == "arm64"
_is_ppc64le = platform.machine() == "ppc64le"
_c_float = ffi.typeof("float")
_c_double = ffi.typeof("double")
+try:
+ __version__ = importlib.metadata.version("suitesparse-graphblas")
+except Exception as exc: # pragma: no cover (safety)
+ raise AttributeError(
+ "`suitesparse_graphblas.__version__` not available. This may mean "
+ "suitesparse-graphblas was incorrectly installed or not installed at all. "
+ "For local development, you may want to do an editable install via "
+ "`python -m pip install -e path/to/suitesparse-graphblas`"
+ ) from exc
+del importlib, platform
# It is strongly recommended to use the non-variadic version of functions to be
# compatible with the most number of architectures. For example, you should use
@@ -22,10 +32,10 @@ if _is_osx_arm64 or _is_ppc64le:
# https://devblogs.microsoft.com/oldnewthing/20220823-00/?p=107041
tov = ffi.typeof(val)
if tov == _c_float:
- val = struct.unpack("l", struct.pack("f", val))[0]
+ val = _struct.unpack("l", _struct.pack("f", val))[0]
val = ffi.cast("int64_t", val)
elif tov == _c_double:
- val = struct.unpack("q", struct.pack("d", val))[0]
+ val = _struct.unpack("q", _struct.pack("d", val))[0]
val = ffi.cast("int64_t", val)
# Cast variadic argument as char * to force it onto the stack where ARM64 expects it
# https://developer.apple.com/documentation/xcode/writing-arm64-code-for-apple-platforms
@@ -293,6 +303,3 @@ class burble:
burble = burble()
-
-
-__version__ = _version.get_versions()["version"]
diff --git a/suitesparse_graphblas/_version.py b/suitesparse_graphblas/_version.py
deleted file mode 100644
index 77d5842..0000000
--- a/suitesparse_graphblas/_version.py
+++ /dev/null
@@ -1,674 +0,0 @@
-# This file helps to compute a version number in source trees obtained from
-# git-archive tarball (such as those provided by githubs download-from-tag
-# feature). Distribution tarballs (built by setup.py sdist) and build
-# directories (produced by setup.py build) will contain a much shorter file
-# that just contains the computed version number.
-
-# This file is released into the public domain. Generated by
-# versioneer-0.21 (https://github.com/python-versioneer/python-versioneer)
-
-"""Git implementation of _version.py."""
-
-import errno
-import os
-import re
-import subprocess
-import sys
-from typing import Callable, Dict
-
-
-def get_keywords():
- """Get the keywords needed to look up the version information."""
- # these strings will be replaced by git during git-archive.
- # setup.py/versioneer.py will grep for the variable names, so they must
- # each be defined on a line of their own. _version.py will just call
- # get_keywords().
- git_refnames = " (HEAD -> main, tag: 7.4.0.0)"
- git_full = "d36c2cf53d75587b20ddf11e67f48637cd530aaa"
- git_date = "2022-12-26 14:12:04 -0600"
- keywords = {"refnames": git_refnames, "full": git_full, "date": git_date}
- return keywords
-
-
-class VersioneerConfig:
- """Container for Versioneer configuration parameters."""
-
-
-def get_config():
- """Create, populate and return the VersioneerConfig() object."""
- # these strings are filled in when 'setup.py versioneer' creates
- # _version.py
- cfg = VersioneerConfig()
- cfg.VCS = "git"
- cfg.style = "pep440"
- cfg.tag_prefix = ""
- cfg.parentdir_prefix = "suitesparse_graphblas-"
- cfg.versionfile_source = "suitesparse_graphblas/_version.py"
- cfg.verbose = False
- return cfg
-
-
-class NotThisMethod(Exception):
- """Exception raised if a method is not valid for the current scenario."""
-
-
-LONG_VERSION_PY: Dict[str, str] = {}
-HANDLERS: Dict[str, Dict[str, Callable]] = {}
-
-
-def register_vcs_handler(vcs, method): # decorator
- """Create decorator to mark a method as the handler of a VCS."""
-
- def decorate(f):
- """Store f in HANDLERS[vcs][method]."""
- if vcs not in HANDLERS:
- HANDLERS[vcs] = {}
- HANDLERS[vcs][method] = f
- return f
-
- return decorate
-
-
-def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False, env=None):
- """Call the given command(s)."""
- assert isinstance(commands, list)
- process = None
- for command in commands:
- try:
- dispcmd = str([command] + args)
- # remember shell=False, so use git.cmd on windows, not just git
- process = subprocess.Popen(
- [command] + args,
- cwd=cwd,
- env=env,
- stdout=subprocess.PIPE,
- stderr=(subprocess.PIPE if hide_stderr else None),
- )
- break
- except OSError:
- e = sys.exc_info()[1]
- if e.errno == errno.ENOENT:
- continue
- if verbose:
- print("unable to run %s" % dispcmd)
- print(e)
- return None, None
- else:
- if verbose:
- print(f"unable to find command, tried {commands}")
- return None, None
- stdout = process.communicate()[0].strip().decode()
- if process.returncode != 0:
- if verbose:
- print("unable to run %s (error)" % dispcmd)
- print("stdout was %s" % stdout)
- return None, process.returncode
- return stdout, process.returncode
-
-
-def versions_from_parentdir(parentdir_prefix, root, verbose):
- """Try to determine the version from the parent directory name.
-
- Source tarballs conventionally unpack into a directory that includes both
- the project name and a version string. We will also support searching up
- two directory levels for an appropriately named parent directory
- """
- rootdirs = []
-
- for _ in range(3):
- dirname = os.path.basename(root)
- if dirname.startswith(parentdir_prefix):
- return {
- "version": dirname[len(parentdir_prefix) :],
- "full-revisionid": None,
- "dirty": False,
- "error": None,
- "date": None,
- }
- rootdirs.append(root)
- root = os.path.dirname(root) # up a level
-
- if verbose:
- print(
- "Tried directories %s but none started with prefix %s"
- % (str(rootdirs), parentdir_prefix)
- )
- raise NotThisMethod("rootdir doesn't start with parentdir_prefix")
-
-
-@register_vcs_handler("git", "get_keywords")
-def git_get_keywords(versionfile_abs):
- """Extract version information from the given file."""
- # the code embedded in _version.py can just fetch the value of these
- # keywords. When used from setup.py, we don't want to import _version.py,
- # so we do it with a regexp instead. This function is not used from
- # _version.py.
- keywords = {}
- try:
- with open(versionfile_abs) as fobj:
- for line in fobj:
- if line.strip().startswith("git_refnames ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["refnames"] = mo.group(1)
- if line.strip().startswith("git_full ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["full"] = mo.group(1)
- if line.strip().startswith("git_date ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["date"] = mo.group(1)
- except OSError:
- pass
- return keywords
-
-
-@register_vcs_handler("git", "keywords")
-def git_versions_from_keywords(keywords, tag_prefix, verbose):
- """Get version information from git keywords."""
- if "refnames" not in keywords:
- raise NotThisMethod("Short version file found")
- date = keywords.get("date")
- if date is not None:
- # Use only the last line. Previous lines may contain GPG signature
- # information.
- date = date.splitlines()[-1]
-
- # git-2.2.0 added "%cI", which expands to an ISO-8601 -compliant
- # datestamp. However we prefer "%ci" (which expands to an "ISO-8601
- # -like" string, which we must then edit to make compliant), because
- # it's been around since git-1.5.3, and it's too difficult to
- # discover which version we're using, or to work around using an
- # older one.
- date = date.strip().replace(" ", "T", 1).replace(" ", "", 1)
- refnames = keywords["refnames"].strip()
- if refnames.startswith("$Format"):
- if verbose:
- print("keywords are unexpanded, not using")
- raise NotThisMethod("unexpanded keywords, not a git-archive tarball")
- refs = {r.strip() for r in refnames.strip("()").split(",")}
- # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of
- # just "foo-1.0". If we see a "tag: " prefix, prefer those.
- TAG = "tag: "
- tags = {r[len(TAG) :] for r in refs if r.startswith(TAG)}
- if not tags:
- # Either we're using git < 1.8.3, or there really are no tags. We use
- # a heuristic: assume all version tags have a digit. The old git %d
- # expansion behaves like git log --decorate=short and strips out the
- # refs/heads/ and refs/tags/ prefixes that would let us distinguish
- # between branches and tags. By ignoring refnames without digits, we
- # filter out many common branch names like "release" and
- # "stabilization", as well as "HEAD" and "master".
- tags = {r for r in refs if re.search(r"\d", r)}
- if verbose:
- print("discarding '%s', no digits" % ",".join(refs - tags))
- if verbose:
- print("likely tags: %s" % ",".join(sorted(tags)))
- for ref in sorted(tags):
- # sorting will prefer e.g. "2.0" over "2.0rc1"
- if ref.startswith(tag_prefix):
- r = ref[len(tag_prefix) :]
- # Filter out refs that exactly match prefix or that don't start
- # with a number once the prefix is stripped (mostly a concern
- # when prefix is '')
- if not re.match(r"\d", r):
- continue
- if verbose:
- print("picking %s" % r)
- return {
- "version": r,
- "full-revisionid": keywords["full"].strip(),
- "dirty": False,
- "error": None,
- "date": date,
- }
- # no suitable tags, so version is "0+unknown", but full hex is still there
- if verbose:
- print("no suitable tags, using unknown + full revision id")
- return {
- "version": "0+unknown",
- "full-revisionid": keywords["full"].strip(),
- "dirty": False,
- "error": "no suitable tags",
- "date": None,
- }
-
-
-@register_vcs_handler("git", "pieces_from_vcs")
-def git_pieces_from_vcs(tag_prefix, root, verbose, runner=run_command):
- """Get version from 'git describe' in the root of the source tree.
-
- This only gets called if the git-archive 'subst' keywords were *not*
- expanded, and _version.py hasn't already been rewritten with a short
- version string, meaning we're inside a checked out source tree.
- """
- GITS = ["git"]
- TAG_PREFIX_REGEX = "*"
- if sys.platform == "win32":
- GITS = ["git.cmd", "git.exe"]
- TAG_PREFIX_REGEX = r"\*"
-
- _, rc = runner(GITS, ["rev-parse", "--git-dir"], cwd=root, hide_stderr=True)
- if rc != 0:
- if verbose:
- print("Directory %s not under git control" % root)
- raise NotThisMethod("'git rev-parse --git-dir' returned error")
-
- # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty]
- # if there isn't one, this yields HEX[-dirty] (no NUM)
- describe_out, rc = runner(
- GITS,
- [
- "describe",
- "--tags",
- "--dirty",
- "--always",
- "--long",
- "--match",
- f"{tag_prefix}{TAG_PREFIX_REGEX}",
- ],
- cwd=root,
- )
- # --long was added in git-1.5.5
- if describe_out is None:
- raise NotThisMethod("'git describe' failed")
- describe_out = describe_out.strip()
- full_out, rc = runner(GITS, ["rev-parse", "HEAD"], cwd=root)
- if full_out is None:
- raise NotThisMethod("'git rev-parse' failed")
- full_out = full_out.strip()
-
- pieces = {}
- pieces["long"] = full_out
- pieces["short"] = full_out[:7] # maybe improved later
- pieces["error"] = None
-
- branch_name, rc = runner(GITS, ["rev-parse", "--abbrev-ref", "HEAD"], cwd=root)
- # --abbrev-ref was added in git-1.6.3
- if rc != 0 or branch_name is None:
- raise NotThisMethod("'git rev-parse --abbrev-ref' returned error")
- branch_name = branch_name.strip()
-
- if branch_name == "HEAD":
- # If we aren't exactly on a branch, pick a branch which represents
- # the current commit. If all else fails, we are on a branchless
- # commit.
- branches, rc = runner(GITS, ["branch", "--contains"], cwd=root)
- # --contains was added in git-1.5.4
- if rc != 0 or branches is None:
- raise NotThisMethod("'git branch --contains' returned error")
- branches = branches.split("\n")
-
- # Remove the first line if we're running detached
- if "(" in branches[0]:
- branches.pop(0)
-
- # Strip off the leading "* " from the list of branches.
- branches = [branch[2:] for branch in branches]
- if "master" in branches:
- branch_name = "master"
- elif not branches:
- branch_name = None
- else:
- # Pick the first branch that is returned. Good or bad.
- branch_name = branches[0]
-
- pieces["branch"] = branch_name
-
- # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty]
- # TAG might have hyphens.
- git_describe = describe_out
-
- # look for -dirty suffix
- dirty = git_describe.endswith("-dirty")
- pieces["dirty"] = dirty
- if dirty:
- git_describe = git_describe[: git_describe.rindex("-dirty")]
-
- # now we have TAG-NUM-gHEX or HEX
-
- if "-" in git_describe:
- # TAG-NUM-gHEX
- mo = re.search(r"^(.+)-(\d+)-g([0-9a-f]+)$", git_describe)
- if not mo:
- # unparsable. Maybe git-describe is misbehaving?
- pieces["error"] = "unable to parse git-describe output: '%s'" % describe_out
- return pieces
-
- # tag
- full_tag = mo.group(1)
- if not full_tag.startswith(tag_prefix):
- if verbose:
- fmt = "tag '%s' doesn't start with prefix '%s'"
- print(fmt % (full_tag, tag_prefix))
- pieces["error"] = f"tag '{full_tag}' doesn't start with prefix '{tag_prefix}'"
- return pieces
- pieces["closest-tag"] = full_tag[len(tag_prefix) :]
-
- # distance: number of commits since tag
- pieces["distance"] = int(mo.group(2))
-
- # commit: short hex revision ID
- pieces["short"] = mo.group(3)
-
- else:
- # HEX: no tags
- pieces["closest-tag"] = None
- count_out, rc = runner(GITS, ["rev-list", "HEAD", "--count"], cwd=root)
- pieces["distance"] = int(count_out) # total number of commits
-
- # commit date: see ISO-8601 comment in git_versions_from_keywords()
- date = runner(GITS, ["show", "-s", "--format=%ci", "HEAD"], cwd=root)[0].strip()
- # Use only the last line. Previous lines may contain GPG signature
- # information.
- date = date.splitlines()[-1]
- pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1)
-
- return pieces
-
-
-def plus_or_dot(pieces):
- """Return a + if we don't already have one, else return a ."""
- if "+" in pieces.get("closest-tag", ""):
- return "."
- return "+"
-
-
-def render_pep440(pieces):
- """Build up version string, with post-release "local version identifier".
-
- Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you
- get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty
-
- Exceptions:
- 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += plus_or_dot(pieces)
- rendered += "%d.g%s" % (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0+untagged.%d.g%s" % (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def render_pep440_branch(pieces):
- """TAG[[.dev0]+DISTANCE.gHEX[.dirty]] .
-
- The ".dev0" means not master branch. Note that .dev0 sorts backwards
- (a feature branch will appear "older" than the master branch).
-
- Exceptions:
- 1: no tags. 0[.dev0]+untagged.DISTANCE.gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "%d.g%s" % (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0"
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += "+untagged.%d.g%s" % (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def pep440_split_post(ver):
- """Split pep440 version string at the post-release segment.
-
- Returns the release segments before the post-release and the
- post-release version number (or -1 if no post-release segment is present).
- """
- vc = str.split(ver, ".post")
- return vc[0], int(vc[1] or 0) if len(vc) == 2 else None
-
-
-def render_pep440_pre(pieces):
- """TAG[.postN.devDISTANCE] -- No -dirty.
-
- Exceptions:
- 1: no tags. 0.post0.devDISTANCE
- """
- if pieces["closest-tag"]:
- if pieces["distance"]:
- # update the post release segment
- tag_version, post_version = pep440_split_post(pieces["closest-tag"])
- rendered = tag_version
- if post_version is not None:
- rendered += ".post%d.dev%d" % (post_version + 1, pieces["distance"])
- else:
- rendered += ".post0.dev%d" % (pieces["distance"])
- else:
- # no commits, use the tag as the version
- rendered = pieces["closest-tag"]
- else:
- # exception #1
- rendered = "0.post0.dev%d" % pieces["distance"]
- return rendered
-
-
-def render_pep440_post(pieces):
- """TAG[.postDISTANCE[.dev0]+gHEX] .
-
- The ".dev0" means dirty. Note that .dev0 sorts backwards
- (a dirty tree will appear "older" than the corresponding clean one),
- but you shouldn't be releasing software with -dirty anyways.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%d" % pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "g%s" % pieces["short"]
- else:
- # exception #1
- rendered = "0.post%d" % pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- rendered += "+g%s" % pieces["short"]
- return rendered
-
-
-def render_pep440_post_branch(pieces):
- """TAG[.postDISTANCE[.dev0]+gHEX[.dirty]] .
-
- The ".dev0" means not master branch.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]+gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%d" % pieces["distance"]
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "g%s" % pieces["short"]
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0.post%d" % pieces["distance"]
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += "+g%s" % pieces["short"]
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def render_pep440_old(pieces):
- """TAG[.postDISTANCE[.dev0]] .
-
- The ".dev0" means dirty.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%d" % pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- else:
- # exception #1
- rendered = "0.post%d" % pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- return rendered
-
-
-def render_git_describe(pieces):
- """TAG[-DISTANCE-gHEX][-dirty].
-
- Like 'git describe --tags --dirty --always'.
-
- Exceptions:
- 1: no tags. HEX[-dirty] (note: no 'g' prefix)
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"]:
- rendered += "-%d-g%s" % (pieces["distance"], pieces["short"])
- else:
- # exception #1
- rendered = pieces["short"]
- if pieces["dirty"]:
- rendered += "-dirty"
- return rendered
-
-
-def render_git_describe_long(pieces):
- """TAG-DISTANCE-gHEX[-dirty].
-
- Like 'git describe --tags --dirty --always -long'.
- The distance/hash is unconditional.
-
- Exceptions:
- 1: no tags. HEX[-dirty] (note: no 'g' prefix)
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- rendered += "-%d-g%s" % (pieces["distance"], pieces["short"])
- else:
- # exception #1
- rendered = pieces["short"]
- if pieces["dirty"]:
- rendered += "-dirty"
- return rendered
-
-
-def render(pieces, style):
- """Render the given version pieces into the requested style."""
- if pieces["error"]:
- return {
- "version": "unknown",
- "full-revisionid": pieces.get("long"),
- "dirty": None,
- "error": pieces["error"],
- "date": None,
- }
-
- if not style or style == "default":
- style = "pep440" # the default
-
- if style == "pep440":
- rendered = render_pep440(pieces)
- elif style == "pep440-branch":
- rendered = render_pep440_branch(pieces)
- elif style == "pep440-pre":
- rendered = render_pep440_pre(pieces)
- elif style == "pep440-post":
- rendered = render_pep440_post(pieces)
- elif style == "pep440-post-branch":
- rendered = render_pep440_post_branch(pieces)
- elif style == "pep440-old":
- rendered = render_pep440_old(pieces)
- elif style == "git-describe":
- rendered = render_git_describe(pieces)
- elif style == "git-describe-long":
- rendered = render_git_describe_long(pieces)
- else:
- raise ValueError("unknown style '%s'" % style)
-
- return {
- "version": rendered,
- "full-revisionid": pieces["long"],
- "dirty": pieces["dirty"],
- "error": None,
- "date": pieces.get("date"),
- }
-
-
-def get_versions():
- """Get version information or return default if unable to do so."""
- # I am in _version.py, which lives at ROOT/VERSIONFILE_SOURCE. If we have
- # __file__, we can work backwards from there to the root. Some
- # py2exe/bbfreeze/non-CPython implementations don't do __file__, in which
- # case we can only use expanded keywords.
-
- cfg = get_config()
- verbose = cfg.verbose
-
- try:
- return git_versions_from_keywords(get_keywords(), cfg.tag_prefix, verbose)
- except NotThisMethod:
- pass
-
- try:
- root = os.path.realpath(__file__)
- # versionfile_source is the relative path from the top of the source
- # tree (where the .git directory might live) to this file. Invert
- # this to find the root from __file__.
- for _ in cfg.versionfile_source.split("/"):
- root = os.path.dirname(root)
- except NameError:
- return {
- "version": "0+unknown",
- "full-revisionid": None,
- "dirty": None,
- "error": "unable to find root of source tree",
- "date": None,
- }
-
- try:
- pieces = git_pieces_from_vcs(cfg.tag_prefix, root, verbose)
- return render(pieces, cfg.style)
- except NotThisMethod:
- pass
-
- try:
- if cfg.parentdir_prefix:
- return versions_from_parentdir(cfg.parentdir_prefix, root, verbose)
- except NotThisMethod:
- pass
-
- return {
- "version": "0+unknown",
- "full-revisionid": None,
- "dirty": None,
- "error": "unable to compute version",
- "date": None,
- }
diff --git a/suitesparse_graphblas/build.py b/suitesparse_graphblas/build.py
deleted file mode 100644
index 78012c5..0000000
--- a/suitesparse_graphblas/build.py
+++ /dev/null
@@ -1,41 +0,0 @@
-import os
-import sys
-import platform
-
-from cffi import FFI
-
-is_win = sys.platform.startswith("win")
-is_arm64 = platform.machine() == "arm64"
-is_ppc64le = platform.machine() == "ppc64le" # Use same header as arm64, which *may* work
-thisdir = os.path.dirname(__file__)
-
-ffibuilder = FFI()
-
-with open(os.path.join(thisdir, "source.c")) as f:
- source = f.read()
-
-include_dirs = [os.path.join(sys.prefix, "include")]
-library_dirs = [os.path.join(sys.prefix, "lib")]
-if is_win:
- include_dirs.append(os.path.join(sys.prefix, "Library", "include"))
- library_dirs.append(os.path.join(sys.prefix, "Library", "lib"))
-
-ffibuilder.set_source(
- "suitesparse_graphblas._graphblas",
- source,
- libraries=["graphblas"],
- include_dirs=include_dirs,
- library_dirs=library_dirs,
-)
-
-header = "suitesparse_graphblas.h"
-if is_win:
- header = "suitesparse_graphblas_no_complex.h"
-if is_arm64 or is_ppc64le:
- header = "suitesparse_graphblas_arm64.h"
-gb_cdef = open(os.path.join(thisdir, header))
-
-ffibuilder.cdef(gb_cdef.read())
-
-if __name__ == "__main__":
- ffibuilder.compile(verbose=True)
diff --git a/suitesparse_graphblas/create_headers.py b/suitesparse_graphblas/create_headers.py
index 20650c3..cd9c0b9 100644
--- a/suitesparse_graphblas/create_headers.py
+++ b/suitesparse_graphblas/create_headers.py
@@ -315,6 +315,7 @@ IGNORE_DEFINES = {
"GxB",
"CMPLX",
"CMPLXF",
+ "GB_GLOBAL",
"GB_PUBLIC",
"GB_restrict",
"GRAPHBLAS_H",
@@ -364,21 +365,21 @@ def get_groups(ast):
seen = set()
groups = {}
- vals = {x for x in lines if "extern GrB_Info GxB" in x} - seen
- vals |= {x for x in lines if "extern " in x and "GxB_Iterator" in x and "GB" not in x} - seen
+ vals = {x for x in lines if "GrB_Info GxB" in x} - seen
+ vals |= {x for x in lines if "GxB_Iterator" in x and "GB" not in x} - seen
seen.update(vals)
groups["GxB methods"] = sorted(vals, key=sort_key)
- vals = {x for x in lines if "extern GrB_Info GrB" in x} - seen
+ vals = {x for x in lines if "GrB_Info GrB" in x} - seen
seen.update(vals)
groups["GrB methods"] = sorted(vals, key=sort_key)
- vals = {x for x in lines if "extern GrB_Info GB" in x} - seen
- vals |= {x for x in lines if "extern " in x and "GxB_Iterator" in x and "GB" in x} - seen
+ vals = {x for x in lines if "GrB_Info GB" in x} - seen
+ vals |= {x for x in lines if "GxB_Iterator" in x and "GB" in x and "typedef" not in x} - seen
seen.update(vals)
groups["GB methods"] = sorted(vals, key=sort_key)
- missing_methods = {x for x in lines if "extern GrB_Info " in x} - seen
+ missing_methods = {x for x in lines if "GrB_Info " in x} - seen
assert not missing_methods, ", ".join(sorted(missing_methods))
vals = {x for x in lines if "extern GrB" in x} - seen
@@ -584,7 +585,7 @@ def get_group_info(groups, ast, *, skip_complex=False):
self.functions = []
def visit_Decl(self, node):
- if isinstance(node.type, c_ast.FuncDecl) and node.storage == ["extern"]:
+ if isinstance(node.type, c_ast.FuncDecl) and node.storage == []:
self.functions.append(node)
def handle_function_node(node):
@@ -798,7 +799,7 @@ def main():
# final files used by cffi (with and without complex numbers)
final_h = os.path.join(thisdir, "suitesparse_graphblas.h")
- final_arm64_h = os.path.join(thisdir, "suitesparse_graphblas_arm64.h")
+ # final_arm64_h = os.path.join(thisdir, "suitesparse_graphblas_arm64.h")
final_no_complex_h = os.path.join(thisdir, "suitesparse_graphblas_no_complex.h")
source_c = os.path.join(thisdir, "source.c")
@@ -826,30 +827,31 @@ def main():
with open(final_h, "w") as f:
f.write("\n".join(text) + "\n")
- # Create final header file (arm64)
- # Replace all variadic arguments (...) with "char *"
- print(f"Step 4: parse header file to create {final_arm64_h}")
- orig_text = text
- patt = re.compile(r"^(extern GrB_Info .*\(.*)(\.\.\.)(\);)$")
- text = [patt.sub(r"\1char *\3", line) for line in orig_text]
- with open(final_arm64_h, "w") as f:
- f.write("\n".join(text) + "\n")
+ # NOTE:suitesparse_graphblas.h and suitesparse_graphblas_arm64.h are the same now
+ # # Create final header file (arm64)
+ # # Replace all variadic arguments (...) with "char *"
+ # print(f"Step 4: parse header file to create {final_arm64_h}")
+ # orig_text = text
+ # patt = re.compile(r"^(extern GrB_Info .*\(.*)(\.\.\.)(\);)$")
+ # text = [patt.sub(r"\1char *\3", line) for line in orig_text]
+ # with open(final_arm64_h, "w") as f:
+ # f.write("\n".join(text) + "\n")
# Create final header file (no complex)
- print(f"Step 5: parse header file to create {final_no_complex_h}")
+ print(f"Step 4: parse header file to create {final_no_complex_h}")
groups_no_complex = parse_header(processed_h, skip_complex=True)
text = create_header_text(groups_no_complex)
with open(final_no_complex_h, "w") as f:
f.write("\n".join(text) + "\n")
# Create source
- print(f"Step 6: create {source_c}")
+ print(f"Step 5: create {source_c}")
text = create_source_text(groups)
with open(source_c, "w") as f:
f.write("\n".join(text) + "\n")
# Check defines
- print("Step 7: check #define definitions")
+ print("Step 6: check #define definitions")
with open(graphblas_h) as f:
text = f.read()
define_lines = re.compile(r".*?#define\s+\w+\s+")
diff --git a/suitesparse_graphblas/io/binary.py b/suitesparse_graphblas/io/binary.py
index c3d6d9f..0248e7b 100644
--- a/suitesparse_graphblas/io/binary.py
+++ b/suitesparse_graphblas/io/binary.py
@@ -242,7 +242,7 @@ def binwrite(A, filename, comments=None, opener=Path.open):
f"{lib.GxB_IMPLEMENTATION_SUB}"
)
- vars = dict(
+ vars = dict( # noqa: C408
suitesparse_version=suitesparse_version,
user_agent="pygraphblas-" + __version__,
nrows=nrows[0],
diff --git a/suitesparse_graphblas/io/serialize.py b/suitesparse_graphblas/io/serialize.py
index 78818c0..fcc7804 100644
--- a/suitesparse_graphblas/io/serialize.py
+++ b/suitesparse_graphblas/io/serialize.py
@@ -140,4 +140,4 @@ def deserialize_vector(data, *, free=True, nthreads=None):
return v
-from suitesparse_graphblas import matrix, vector # noqa isort:skip
+from suitesparse_graphblas import matrix, vector # noqa: E402 isort:skip
diff --git a/suitesparse_graphblas/matrix.py b/suitesparse_graphblas/matrix.py
index 7b7aff1..5efa15d 100644
--- a/suitesparse_graphblas/matrix.py
+++ b/suitesparse_graphblas/matrix.py
@@ -1,7 +1,7 @@
from suitesparse_graphblas import check_status, ffi, lib
-from .io.serialize import deserialize_matrix as deserialize # noqa
-from .io.serialize import serialize_matrix as serialize # noqa
+from .io.serialize import deserialize_matrix as deserialize # noqa: F401
+from .io.serialize import serialize_matrix as serialize # noqa: F401
def free(A):
diff --git a/suitesparse_graphblas/suitesparse_graphblas.h b/suitesparse_graphblas/suitesparse_graphblas.h
index 49816cf..39630af 100644
--- a/suitesparse_graphblas/suitesparse_graphblas.h
+++ b/suitesparse_graphblas/suitesparse_graphblas.h
@@ -2625,822 +2625,822 @@ extern GxB_SelectOp GxB_TRIU;
****************/
/* binary */
-extern GrB_Info GrB_BinaryOp_error(const char **error, const GrB_BinaryOp op);
-extern GrB_Info GrB_BinaryOp_free(GrB_BinaryOp *binaryop);
-extern GrB_Info GrB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
-extern GrB_Info GrB_BinaryOp_wait(GrB_BinaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_BinaryOp_error(const char **error, const GrB_BinaryOp op);
+GrB_Info GrB_BinaryOp_free(GrB_BinaryOp *binaryop);
+GrB_Info GrB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
+GrB_Info GrB_BinaryOp_wait(GrB_BinaryOp op, GrB_WaitMode waitmode);
/* core */
-extern GrB_Info GrB_finalize(void);
-extern GrB_Info GrB_getVersion(unsigned int *version, unsigned int *subversion);
-extern GrB_Info GrB_init(GrB_Mode mode);
+GrB_Info GrB_finalize(void);
+GrB_Info GrB_getVersion(unsigned int *version, unsigned int *subversion);
+GrB_Info GrB_init(GrB_Mode mode);
/* descriptor */
-extern GrB_Info GrB_Descriptor_error(const char **error, const GrB_Descriptor d);
-extern GrB_Info GrB_Descriptor_free(GrB_Descriptor *descriptor);
-extern GrB_Info GrB_Descriptor_new(GrB_Descriptor *descriptor);
-extern GrB_Info GrB_Descriptor_set(GrB_Descriptor desc, GrB_Desc_Field field, GrB_Desc_Value val);
-extern GrB_Info GrB_Descriptor_wait(GrB_Descriptor desc, GrB_WaitMode waitmode);
+GrB_Info GrB_Descriptor_error(const char **error, const GrB_Descriptor d);
+GrB_Info GrB_Descriptor_free(GrB_Descriptor *descriptor);
+GrB_Info GrB_Descriptor_new(GrB_Descriptor *descriptor);
+GrB_Info GrB_Descriptor_set(GrB_Descriptor desc, GrB_Desc_Field field, GrB_Desc_Value val);
+GrB_Info GrB_Descriptor_wait(GrB_Descriptor desc, GrB_WaitMode waitmode);
/* indexunary */
-extern GrB_Info GrB_IndexUnaryOp_error(const char **error, const GrB_IndexUnaryOp op);
-extern GrB_Info GrB_IndexUnaryOp_free(GrB_IndexUnaryOp *op);
-extern GrB_Info GrB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
-extern GrB_Info GrB_IndexUnaryOp_wait(GrB_IndexUnaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_IndexUnaryOp_error(const char **error, const GrB_IndexUnaryOp op);
+GrB_Info GrB_IndexUnaryOp_free(GrB_IndexUnaryOp *op);
+GrB_Info GrB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
+GrB_Info GrB_IndexUnaryOp_wait(GrB_IndexUnaryOp op, GrB_WaitMode waitmode);
/* matrix */
-extern GrB_Info GrB_Col_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GrB_Col_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_build_BOOL(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_FP32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_FP64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UDT(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_clear(GrB_Matrix A);
-extern GrB_Info GrB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size);
-extern GrB_Info GrB_Matrix_diag(GrB_Matrix *C, const GrB_Vector v, int64_t k);
-extern GrB_Info GrB_Matrix_dup(GrB_Matrix *C, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_eWiseAdd_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseAdd_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseAdd_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_error(const char **error, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_exportHint(GrB_Format *format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_exportSize(GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_BOOL(GrB_Index *Ap, GrB_Index *Ai, bool *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_FP32(GrB_Index *Ap, GrB_Index *Ai, float *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_FP64(GrB_Index *Ap, GrB_Index *Ai, double *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT8(GrB_Index *Ap, GrB_Index *Ai, int8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT16(GrB_Index *Ap, GrB_Index *Ai, int16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT32(GrB_Index *Ap, GrB_Index *Ai, int32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT64(GrB_Index *Ap, GrB_Index *Ai, int64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UDT(GrB_Index *Ap, GrB_Index *Ai, void *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT8(GrB_Index *Ap, GrB_Index *Ai, uint8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT16(GrB_Index *Ap, GrB_Index *Ai, uint16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT32(GrB_Index *Ap, GrB_Index *Ai, uint32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT64(GrB_Index *Ap, GrB_Index *Ai, uint64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extract(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_extractElement_BOOL(bool *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_FP32(float *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_FP64(double *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT8(int8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT16(int16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT32(int32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT64(int64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_Scalar(GrB_Scalar x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UDT(void *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT8(uint8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT16(uint16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT32(uint32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT64(uint64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractTuples_BOOL(GrB_Index *I, GrB_Index *J, bool *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_FP32(GrB_Index *I, GrB_Index *J, float *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_FP64(GrB_Index *I, GrB_Index *J, double *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT8(GrB_Index *I, GrB_Index *J, int8_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT16(GrB_Index *I, GrB_Index *J, int16_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT32(GrB_Index *I, GrB_Index *J, int32_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT64(GrB_Index *I, GrB_Index *J, int64_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UDT(GrB_Index *I, GrB_Index *J, void *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT8(GrB_Index *I, GrB_Index *J, uint8_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT16(GrB_Index *I, GrB_Index *J, uint16_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT32(GrB_Index *I, GrB_Index *J, uint32_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT64(GrB_Index *I, GrB_Index *J, uint64_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_free(GrB_Matrix *A);
-extern GrB_Info GrB_Matrix_import_BOOL(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const bool *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_FP32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const float *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_FP64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const double *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UDT(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const void *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_kronecker_BinaryOp(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_kronecker_Monoid(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_kronecker_Semiring(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_ncols(GrB_Index *ncols, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_new(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols);
-extern GrB_Info GrB_Matrix_nrows(GrB_Index *nrows, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_nvals(GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_BinaryOp_Scalar(GrB_Scalar S, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_removeElement(GrB_Matrix C, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_resize(GrB_Matrix C, GrB_Index nrows_new, GrB_Index ncols_new);
-extern GrB_Info GrB_Matrix_select_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_serialize(void *blob, GrB_Index *blob_size_handle, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_serializeSize(GrB_Index *blob_size_handle, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_setElement_BOOL(GrB_Matrix C, bool x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_FP32(GrB_Matrix C, float x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_FP64(GrB_Matrix C, double x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT8(GrB_Matrix C, int8_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT16(GrB_Matrix C, int16_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT32(GrB_Matrix C, int32_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT64(GrB_Matrix C, int64_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_Scalar(GrB_Matrix C, GrB_Scalar x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UDT(GrB_Matrix C, void *x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT8(GrB_Matrix C, uint8_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT16(GrB_Matrix C, uint16_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT32(GrB_Matrix C, uint32_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT64(GrB_Matrix C, uint64_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_wait(GrB_Matrix A, GrB_WaitMode waitmode);
-extern GrB_Info GrB_Row_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_mxm(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_mxv(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_transpose(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_vxm(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Col_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GrB_Col_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_build_BOOL(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_FP32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_FP64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UDT(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_clear(GrB_Matrix A);
+GrB_Info GrB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size);
+GrB_Info GrB_Matrix_diag(GrB_Matrix *C, const GrB_Vector v, int64_t k);
+GrB_Info GrB_Matrix_dup(GrB_Matrix *C, const GrB_Matrix A);
+GrB_Info GrB_Matrix_eWiseAdd_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseAdd_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseAdd_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_error(const char **error, const GrB_Matrix A);
+GrB_Info GrB_Matrix_exportHint(GrB_Format *format, GrB_Matrix A);
+GrB_Info GrB_Matrix_exportSize(GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_BOOL(GrB_Index *Ap, GrB_Index *Ai, bool *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_FP32(GrB_Index *Ap, GrB_Index *Ai, float *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_FP64(GrB_Index *Ap, GrB_Index *Ai, double *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT8(GrB_Index *Ap, GrB_Index *Ai, int8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT16(GrB_Index *Ap, GrB_Index *Ai, int16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT32(GrB_Index *Ap, GrB_Index *Ai, int32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT64(GrB_Index *Ap, GrB_Index *Ai, int64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UDT(GrB_Index *Ap, GrB_Index *Ai, void *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT8(GrB_Index *Ap, GrB_Index *Ai, uint8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT16(GrB_Index *Ap, GrB_Index *Ai, uint16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT32(GrB_Index *Ap, GrB_Index *Ai, uint32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT64(GrB_Index *Ap, GrB_Index *Ai, uint64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_extract(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_extractElement_BOOL(bool *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_FP32(float *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_FP64(double *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT8(int8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT16(int16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT32(int32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT64(int64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_Scalar(GrB_Scalar x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UDT(void *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT8(uint8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT16(uint16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT32(uint32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT64(uint64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractTuples_BOOL(GrB_Index *I, GrB_Index *J, bool *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_FP32(GrB_Index *I, GrB_Index *J, float *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_FP64(GrB_Index *I, GrB_Index *J, double *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT8(GrB_Index *I, GrB_Index *J, int8_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT16(GrB_Index *I, GrB_Index *J, int16_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT32(GrB_Index *I, GrB_Index *J, int32_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT64(GrB_Index *I, GrB_Index *J, int64_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UDT(GrB_Index *I, GrB_Index *J, void *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT8(GrB_Index *I, GrB_Index *J, uint8_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT16(GrB_Index *I, GrB_Index *J, uint16_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT32(GrB_Index *I, GrB_Index *J, uint32_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT64(GrB_Index *I, GrB_Index *J, uint64_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_free(GrB_Matrix *A);
+GrB_Info GrB_Matrix_import_BOOL(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const bool *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_FP32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const float *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_FP64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const double *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UDT(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const void *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_kronecker_BinaryOp(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_kronecker_Monoid(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_kronecker_Semiring(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_ncols(GrB_Index *ncols, const GrB_Matrix A);
+GrB_Info GrB_Matrix_new(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols);
+GrB_Info GrB_Matrix_nrows(GrB_Index *nrows, const GrB_Matrix A);
+GrB_Info GrB_Matrix_nvals(GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_BinaryOp_Scalar(GrB_Scalar S, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_removeElement(GrB_Matrix C, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_resize(GrB_Matrix C, GrB_Index nrows_new, GrB_Index ncols_new);
+GrB_Info GrB_Matrix_select_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_serialize(void *blob, GrB_Index *blob_size_handle, GrB_Matrix A);
+GrB_Info GrB_Matrix_serializeSize(GrB_Index *blob_size_handle, GrB_Matrix A);
+GrB_Info GrB_Matrix_setElement_BOOL(GrB_Matrix C, bool x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_FP32(GrB_Matrix C, float x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_FP64(GrB_Matrix C, double x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT8(GrB_Matrix C, int8_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT16(GrB_Matrix C, int16_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT32(GrB_Matrix C, int32_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT64(GrB_Matrix C, int64_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_Scalar(GrB_Matrix C, GrB_Scalar x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UDT(GrB_Matrix C, void *x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT8(GrB_Matrix C, uint8_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT16(GrB_Matrix C, uint16_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT32(GrB_Matrix C, uint32_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT64(GrB_Matrix C, uint64_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_wait(GrB_Matrix A, GrB_WaitMode waitmode);
+GrB_Info GrB_Row_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_mxm(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_mxv(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_transpose(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_vxm(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Matrix A, const GrB_Descriptor desc);
/* monoid */
-extern GrB_Info GrB_Monoid_error(const char **error, const GrB_Monoid monoid);
-extern GrB_Info GrB_Monoid_free(GrB_Monoid *monoid);
-extern GrB_Info GrB_Monoid_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity);
-extern GrB_Info GrB_Monoid_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity);
-extern GrB_Info GrB_Monoid_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity);
-extern GrB_Info GrB_Monoid_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity);
-extern GrB_Info GrB_Monoid_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity);
-extern GrB_Info GrB_Monoid_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity);
-extern GrB_Info GrB_Monoid_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity);
-extern GrB_Info GrB_Monoid_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity);
-extern GrB_Info GrB_Monoid_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity);
-extern GrB_Info GrB_Monoid_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity);
-extern GrB_Info GrB_Monoid_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity);
-extern GrB_Info GrB_Monoid_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity);
-extern GrB_Info GrB_Monoid_wait(GrB_Monoid monoid, GrB_WaitMode waitmode);
+GrB_Info GrB_Monoid_error(const char **error, const GrB_Monoid monoid);
+GrB_Info GrB_Monoid_free(GrB_Monoid *monoid);
+GrB_Info GrB_Monoid_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity);
+GrB_Info GrB_Monoid_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity);
+GrB_Info GrB_Monoid_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity);
+GrB_Info GrB_Monoid_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity);
+GrB_Info GrB_Monoid_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity);
+GrB_Info GrB_Monoid_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity);
+GrB_Info GrB_Monoid_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity);
+GrB_Info GrB_Monoid_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity);
+GrB_Info GrB_Monoid_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity);
+GrB_Info GrB_Monoid_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity);
+GrB_Info GrB_Monoid_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity);
+GrB_Info GrB_Monoid_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity);
+GrB_Info GrB_Monoid_wait(GrB_Monoid monoid, GrB_WaitMode waitmode);
/* scalar */
-extern GrB_Info GrB_Scalar_clear(GrB_Scalar s);
-extern GrB_Info GrB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
-extern GrB_Info GrB_Scalar_error(const char **error, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_free(GrB_Scalar *s);
-extern GrB_Info GrB_Scalar_new(GrB_Scalar *s, GrB_Type type);
-extern GrB_Info GrB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
-extern GrB_Info GrB_Scalar_setElement_FP32(GrB_Scalar s, float x);
-extern GrB_Info GrB_Scalar_setElement_FP64(GrB_Scalar s, double x);
-extern GrB_Info GrB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
-extern GrB_Info GrB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
-extern GrB_Info GrB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
-extern GrB_Info GrB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
-extern GrB_Info GrB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
-extern GrB_Info GrB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
-extern GrB_Info GrB_Scalar_wait(GrB_Scalar s, GrB_WaitMode waitmode);
+GrB_Info GrB_Scalar_clear(GrB_Scalar s);
+GrB_Info GrB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
+GrB_Info GrB_Scalar_error(const char **error, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_free(GrB_Scalar *s);
+GrB_Info GrB_Scalar_new(GrB_Scalar *s, GrB_Type type);
+GrB_Info GrB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
+GrB_Info GrB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
+GrB_Info GrB_Scalar_setElement_FP32(GrB_Scalar s, float x);
+GrB_Info GrB_Scalar_setElement_FP64(GrB_Scalar s, double x);
+GrB_Info GrB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
+GrB_Info GrB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
+GrB_Info GrB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
+GrB_Info GrB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
+GrB_Info GrB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
+GrB_Info GrB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
+GrB_Info GrB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
+GrB_Info GrB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
+GrB_Info GrB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
+GrB_Info GrB_Scalar_wait(GrB_Scalar s, GrB_WaitMode waitmode);
/* semiring */
-extern GrB_Info GrB_Semiring_error(const char **error, const GrB_Semiring semiring);
-extern GrB_Info GrB_Semiring_free(GrB_Semiring *semiring);
-extern GrB_Info GrB_Semiring_new(GrB_Semiring *semiring, GrB_Monoid add, GrB_BinaryOp multiply);
-extern GrB_Info GrB_Semiring_wait(GrB_Semiring semiring, GrB_WaitMode waitmode);
+GrB_Info GrB_Semiring_error(const char **error, const GrB_Semiring semiring);
+GrB_Info GrB_Semiring_free(GrB_Semiring *semiring);
+GrB_Info GrB_Semiring_new(GrB_Semiring *semiring, GrB_Monoid add, GrB_BinaryOp multiply);
+GrB_Info GrB_Semiring_wait(GrB_Semiring semiring, GrB_WaitMode waitmode);
/* type */
-extern GrB_Info GrB_Type_error(const char **error, const GrB_Type type);
-extern GrB_Info GrB_Type_free(GrB_Type *type);
-extern GrB_Info GrB_Type_new(GrB_Type *type, size_t sizeof_ctype);
-extern GrB_Info GrB_Type_wait(GrB_Type type, GrB_WaitMode waitmode);
+GrB_Info GrB_Type_error(const char **error, const GrB_Type type);
+GrB_Info GrB_Type_free(GrB_Type *type);
+GrB_Info GrB_Type_new(GrB_Type *type, size_t sizeof_ctype);
+GrB_Info GrB_Type_wait(GrB_Type type, GrB_WaitMode waitmode);
/* unary */
-extern GrB_Info GrB_UnaryOp_error(const char **error, const GrB_UnaryOp op);
-extern GrB_Info GrB_UnaryOp_free(GrB_UnaryOp *unaryop);
-extern GrB_Info GrB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype);
-extern GrB_Info GrB_UnaryOp_wait(GrB_UnaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_UnaryOp_error(const char **error, const GrB_UnaryOp op);
+GrB_Info GrB_UnaryOp_free(GrB_UnaryOp *unaryop);
+GrB_Info GrB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype);
+GrB_Info GrB_UnaryOp_wait(GrB_UnaryOp op, GrB_WaitMode waitmode);
/* vector */
-extern GrB_Info GrB_Vector_apply(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_build_BOOL(GrB_Vector w, const GrB_Index *I, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_FP32(GrB_Vector w, const GrB_Index *I, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_FP64(GrB_Vector w, const GrB_Index *I, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT8(GrB_Vector w, const GrB_Index *I, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT16(GrB_Vector w, const GrB_Index *I, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT32(GrB_Vector w, const GrB_Index *I, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT64(GrB_Vector w, const GrB_Index *I, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UDT(GrB_Vector w, const GrB_Index *I, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT8(GrB_Vector w, const GrB_Index *I, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT16(GrB_Vector w, const GrB_Index *I, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT32(GrB_Vector w, const GrB_Index *I, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT64(GrB_Vector w, const GrB_Index *I, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_clear(GrB_Vector v);
-extern GrB_Info GrB_Vector_dup(GrB_Vector *w, const GrB_Vector u);
-extern GrB_Info GrB_Vector_eWiseAdd_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseAdd_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseAdd_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_error(const char **error, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_extractElement_BOOL(bool *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_FP32(float *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_FP64(double *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT8(int8_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT16(int16_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT32(int32_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT64(int64_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_Scalar(GrB_Scalar x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UDT(void *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT8(uint8_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT16(uint16_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT32(uint32_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT64(uint64_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractTuples_BOOL(GrB_Index *I, bool *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_FP32(GrB_Index *I, float *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_FP64(GrB_Index *I, double *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT8(GrB_Index *I, int8_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT16(GrB_Index *I, int16_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT32(GrB_Index *I, int32_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT64(GrB_Index *I, int64_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UDT(GrB_Index *I, void *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT8(GrB_Index *I, uint8_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT16(GrB_Index *I, uint16_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT32(GrB_Index *I, uint32_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT64(GrB_Index *I, uint64_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_free(GrB_Vector *v);
-extern GrB_Info GrB_Vector_new(GrB_Vector *v, GrB_Type type, GrB_Index n);
-extern GrB_Info GrB_Vector_nvals(GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_BinaryOp_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_removeElement(GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_resize(GrB_Vector w, GrB_Index nrows_new);
-extern GrB_Info GrB_Vector_select_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_setElement_BOOL(GrB_Vector w, bool x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_FP32(GrB_Vector w, float x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_FP64(GrB_Vector w, double x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT8(GrB_Vector w, int8_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT16(GrB_Vector w, int16_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT32(GrB_Vector w, int32_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT64(GrB_Vector w, int64_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_Scalar(GrB_Vector w, GrB_Scalar x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UDT(GrB_Vector w, void *x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT8(GrB_Vector w, uint8_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT16(GrB_Vector w, uint16_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT32(GrB_Vector w, uint32_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT64(GrB_Vector w, uint64_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_size(GrB_Index *n, const GrB_Vector v);
-extern GrB_Info GrB_Vector_wait(GrB_Vector v, GrB_WaitMode waitmode);
+GrB_Info GrB_Vector_apply(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_build_BOOL(GrB_Vector w, const GrB_Index *I, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_FP32(GrB_Vector w, const GrB_Index *I, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_FP64(GrB_Vector w, const GrB_Index *I, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT8(GrB_Vector w, const GrB_Index *I, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT16(GrB_Vector w, const GrB_Index *I, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT32(GrB_Vector w, const GrB_Index *I, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT64(GrB_Vector w, const GrB_Index *I, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UDT(GrB_Vector w, const GrB_Index *I, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT8(GrB_Vector w, const GrB_Index *I, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT16(GrB_Vector w, const GrB_Index *I, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT32(GrB_Vector w, const GrB_Index *I, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT64(GrB_Vector w, const GrB_Index *I, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_clear(GrB_Vector v);
+GrB_Info GrB_Vector_dup(GrB_Vector *w, const GrB_Vector u);
+GrB_Info GrB_Vector_eWiseAdd_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseAdd_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseAdd_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_error(const char **error, const GrB_Vector v);
+GrB_Info GrB_Vector_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_extractElement_BOOL(bool *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_FP32(float *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_FP64(double *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT8(int8_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT16(int16_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT32(int32_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT64(int64_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_Scalar(GrB_Scalar x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UDT(void *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT8(uint8_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT16(uint16_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT32(uint32_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT64(uint64_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractTuples_BOOL(GrB_Index *I, bool *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_FP32(GrB_Index *I, float *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_FP64(GrB_Index *I, double *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT8(GrB_Index *I, int8_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT16(GrB_Index *I, int16_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT32(GrB_Index *I, int32_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT64(GrB_Index *I, int64_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UDT(GrB_Index *I, void *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT8(GrB_Index *I, uint8_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT16(GrB_Index *I, uint16_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT32(GrB_Index *I, uint32_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT64(GrB_Index *I, uint64_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_free(GrB_Vector *v);
+GrB_Info GrB_Vector_new(GrB_Vector *v, GrB_Type type, GrB_Index n);
+GrB_Info GrB_Vector_nvals(GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_BinaryOp_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_removeElement(GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_resize(GrB_Vector w, GrB_Index nrows_new);
+GrB_Info GrB_Vector_select_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_setElement_BOOL(GrB_Vector w, bool x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_FP32(GrB_Vector w, float x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_FP64(GrB_Vector w, double x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT8(GrB_Vector w, int8_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT16(GrB_Vector w, int16_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT32(GrB_Vector w, int32_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT64(GrB_Vector w, int64_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_Scalar(GrB_Vector w, GrB_Scalar x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UDT(GrB_Vector w, void *x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT8(GrB_Vector w, uint8_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT16(GrB_Vector w, uint16_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT32(GrB_Vector w, uint32_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT64(GrB_Vector w, uint64_t x, GrB_Index i);
+GrB_Info GrB_Vector_size(GrB_Index *n, const GrB_Vector v);
+GrB_Info GrB_Vector_wait(GrB_Vector v, GrB_WaitMode waitmode);
/***************
* GB functions *
***************/
/* binary */
-extern GrB_Info GB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name);
+GrB_Info GB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name);
/* iterator */
-extern GrB_Info GB_Iterator_rc_bitmap_next(GxB_Iterator iterator);
-extern GrB_Info GB_Iterator_rc_seek(GxB_Iterator iterator, GrB_Index j, bool jth_vector);
-extern GrB_Info GB_Vector_Iterator_bitmap_seek(GxB_Iterator iterator, GrB_Index unused);
+GrB_Info GB_Iterator_rc_bitmap_next(GxB_Iterator iterator);
+GrB_Info GB_Iterator_rc_seek(GxB_Iterator iterator, GrB_Index j, bool jth_vector);
+GrB_Info GB_Vector_Iterator_bitmap_seek(GxB_Iterator iterator, GrB_Index unused);
/* matrix */
-extern GrB_Info GB_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GxB_Format_Value format, GrB_Descriptor desc);
+GrB_Info GB_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GxB_Format_Value format, GrB_Descriptor desc);
/* selectop */
-extern GrB_Info GB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype, const char *name);
+GrB_Info GB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype, const char *name);
/* type */
-extern GrB_Info GB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name);
+GrB_Info GB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name);
/* unary */
-extern GrB_Info GB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name);
+GrB_Info GB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name);
/****************
* GxB functions *
****************/
/* binary */
-extern GrB_Info GxB_BinaryOp_fprint(GrB_BinaryOp binaryop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_BinaryOp_new(GrB_BinaryOp *op, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name, const char *binop_defn);
-extern GrB_Info GxB_BinaryOp_xtype(GrB_Type *xtype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_xtype_name(char *type_name, const GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ytype(GrB_Type *ytype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ytype_name(char *type_name, const GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ztype(GrB_Type *ztype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ztype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_fprint(GrB_BinaryOp binaryop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_BinaryOp_new(GrB_BinaryOp *op, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name, const char *binop_defn);
+GrB_Info GxB_BinaryOp_xtype(GrB_Type *xtype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_xtype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ytype(GrB_Type *ytype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ytype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ztype(GrB_Type *ztype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ztype_name(char *type_name, const GrB_BinaryOp binaryop);
/* core */
-extern GrB_Info GxB_Global_Option_get(GxB_Option_Field field, ...);
-extern GrB_Info GxB_Global_Option_get_CHAR(GxB_Option_Field field, char **value);
-extern GrB_Info GxB_Global_Option_get_FP64(GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Global_Option_get_FUNCTION(GxB_Option_Field field, void **value);
-extern GrB_Info GxB_Global_Option_get_INT32(GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Global_Option_get_INT64(GxB_Option_Field field, int64_t *value);
-extern GrB_Info GxB_Global_Option_set(GxB_Option_Field field, ...);
-extern GrB_Info GxB_Global_Option_set_FP64(GxB_Option_Field field, double value);
-extern GrB_Info GxB_Global_Option_set_FP64_ARRAY(GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Global_Option_set_FUNCTION(GxB_Option_Field field, void *value);
-extern GrB_Info GxB_Global_Option_set_INT32(GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Global_Option_set_INT64_ARRAY(GxB_Option_Field field, int64_t *value);
-extern GrB_Info GxB_deserialize_type_name(char *type_name, const void *blob, GrB_Index blob_size);
-extern GrB_Info GxB_init(GrB_Mode mode, void *(*user_malloc_function)(size_t), void *(*user_calloc_function)(size_t, size_t), void *(*user_realloc_function)(void *, size_t), void (*user_free_function)(void *));
+GrB_Info GxB_Global_Option_get(GxB_Option_Field field, ...);
+GrB_Info GxB_Global_Option_get_CHAR(GxB_Option_Field field, char **value);
+GrB_Info GxB_Global_Option_get_FP64(GxB_Option_Field field, double *value);
+GrB_Info GxB_Global_Option_get_FUNCTION(GxB_Option_Field field, void **value);
+GrB_Info GxB_Global_Option_get_INT32(GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Global_Option_get_INT64(GxB_Option_Field field, int64_t *value);
+GrB_Info GxB_Global_Option_set(GxB_Option_Field field, ...);
+GrB_Info GxB_Global_Option_set_FP64(GxB_Option_Field field, double value);
+GrB_Info GxB_Global_Option_set_FP64_ARRAY(GxB_Option_Field field, double *value);
+GrB_Info GxB_Global_Option_set_FUNCTION(GxB_Option_Field field, void *value);
+GrB_Info GxB_Global_Option_set_INT32(GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Global_Option_set_INT64_ARRAY(GxB_Option_Field field, int64_t *value);
+GrB_Info GxB_deserialize_type_name(char *type_name, const void *blob, GrB_Index blob_size);
+GrB_Info GxB_init(GrB_Mode mode, void *(*user_malloc_function)(size_t), void *(*user_calloc_function)(size_t, size_t), void *(*user_realloc_function)(void *, size_t), void (*user_free_function)(void *));
/* descriptor */
-extern GrB_Info GxB_Desc_get(GrB_Descriptor desc, GrB_Desc_Field field, ...);
-extern GrB_Info GxB_Desc_get_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double *value);
-extern GrB_Info GxB_Desc_get_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t *value);
-extern GrB_Info GxB_Desc_set(GrB_Descriptor desc, GrB_Desc_Field field, ...);
-extern GrB_Info GxB_Desc_set_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double value);
-extern GrB_Info GxB_Desc_set_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t value);
-extern GrB_Info GxB_Descriptor_fprint(GrB_Descriptor descriptor, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Descriptor_get(GrB_Desc_Value *val, GrB_Descriptor desc, GrB_Desc_Field field);
+GrB_Info GxB_Desc_get(GrB_Descriptor desc, GrB_Desc_Field field, ...);
+GrB_Info GxB_Desc_get_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double *value);
+GrB_Info GxB_Desc_get_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t *value);
+GrB_Info GxB_Desc_set(GrB_Descriptor desc, GrB_Desc_Field field, ...);
+GrB_Info GxB_Desc_set_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double value);
+GrB_Info GxB_Desc_set_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t value);
+GrB_Info GxB_Descriptor_fprint(GrB_Descriptor descriptor, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Descriptor_get(GrB_Desc_Value *val, GrB_Descriptor desc, GrB_Desc_Field field);
/* indexunary */
-extern GrB_Info GxB_IndexUnaryOp_fprint(GrB_IndexUnaryOp op, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *idxop_name, const char *idxop_defn);
-extern GrB_Info GxB_IndexUnaryOp_xtype_name(char *type_name, const GrB_IndexUnaryOp op);
-extern GrB_Info GxB_IndexUnaryOp_ytype_name(char *type_name, const GrB_IndexUnaryOp op);
-extern GrB_Info GxB_IndexUnaryOp_ztype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_fprint(GrB_IndexUnaryOp op, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *idxop_name, const char *idxop_defn);
+GrB_Info GxB_IndexUnaryOp_xtype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_ytype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_ztype_name(char *type_name, const GrB_IndexUnaryOp op);
/* iterator */
-extern GrB_Index GxB_Matrix_Iterator_getp(GxB_Iterator iterator);
-extern GrB_Index GxB_Matrix_Iterator_getpmax(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getp(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getpmax(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_getColIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_getRowIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_kount(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_getColIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_getRowIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_kount(GxB_Iterator iterator);
-extern GrB_Info GxB_Iterator_free(GxB_Iterator *iterator);
-extern GrB_Info GxB_Iterator_new(GxB_Iterator *iterator);
-extern GrB_Info GxB_Matrix_Iterator_next(GxB_Iterator iterator);
-extern GrB_Info GxB_Matrix_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
-extern GrB_Info GxB_Vector_Iterator_next(GxB_Iterator iterator);
-extern GrB_Info GxB_Vector_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
-extern GrB_Info GxB_colIterator_kseek(GxB_Iterator iterator, GrB_Index k);
-extern GrB_Info GxB_colIterator_nextCol(GxB_Iterator iterator);
-extern GrB_Info GxB_colIterator_nextRow(GxB_Iterator iterator);
-extern GrB_Info GxB_colIterator_seekCol(GxB_Iterator iterator, GrB_Index col);
-extern GrB_Info GxB_rowIterator_kseek(GxB_Iterator iterator, GrB_Index k);
-extern GrB_Info GxB_rowIterator_nextCol(GxB_Iterator iterator);
-extern GrB_Info GxB_rowIterator_nextRow(GxB_Iterator iterator);
-extern GrB_Info GxB_rowIterator_seekRow(GxB_Iterator iterator, GrB_Index row);
-extern GxB_FC32_t GxB_Iterator_get_FC32(GxB_Iterator iterator);
-extern GxB_FC64_t GxB_Iterator_get_FC64(GxB_Iterator iterator);
-extern bool GxB_Iterator_get_BOOL(GxB_Iterator iterator);
-extern double GxB_Iterator_get_FP64(GxB_Iterator iterator);
-extern float GxB_Iterator_get_FP32(GxB_Iterator iterator);
-extern int8_t GxB_Iterator_get_INT8(GxB_Iterator iterator);
-extern int16_t GxB_Iterator_get_INT16(GxB_Iterator iterator);
-extern int32_t GxB_Iterator_get_INT32(GxB_Iterator iterator);
-extern int64_t GxB_Iterator_get_INT64(GxB_Iterator iterator);
-extern uint8_t GxB_Iterator_get_UINT8(GxB_Iterator iterator);
-extern uint16_t GxB_Iterator_get_UINT16(GxB_Iterator iterator);
-extern uint32_t GxB_Iterator_get_UINT32(GxB_Iterator iterator);
-extern uint64_t GxB_Iterator_get_UINT64(GxB_Iterator iterator);
-extern void GxB_Iterator_get_UDT(GxB_Iterator iterator, void *value);
-extern void GxB_Matrix_Iterator_getIndex(GxB_Iterator iterator, GrB_Index *row, GrB_Index *col);
+GrB_Index GxB_Matrix_Iterator_getp(GxB_Iterator iterator);
+GrB_Index GxB_Matrix_Iterator_getpmax(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getIndex(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getp(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getpmax(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_getColIndex(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_getRowIndex(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_kount(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_getColIndex(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_getRowIndex(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_kount(GxB_Iterator iterator);
+GrB_Info GxB_Iterator_free(GxB_Iterator *iterator);
+GrB_Info GxB_Iterator_new(GxB_Iterator *iterator);
+GrB_Info GxB_Matrix_Iterator_next(GxB_Iterator iterator);
+GrB_Info GxB_Matrix_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
+GrB_Info GxB_Vector_Iterator_next(GxB_Iterator iterator);
+GrB_Info GxB_Vector_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
+GrB_Info GxB_colIterator_kseek(GxB_Iterator iterator, GrB_Index k);
+GrB_Info GxB_colIterator_nextCol(GxB_Iterator iterator);
+GrB_Info GxB_colIterator_nextRow(GxB_Iterator iterator);
+GrB_Info GxB_colIterator_seekCol(GxB_Iterator iterator, GrB_Index col);
+GrB_Info GxB_rowIterator_kseek(GxB_Iterator iterator, GrB_Index k);
+GrB_Info GxB_rowIterator_nextCol(GxB_Iterator iterator);
+GrB_Info GxB_rowIterator_nextRow(GxB_Iterator iterator);
+GrB_Info GxB_rowIterator_seekRow(GxB_Iterator iterator, GrB_Index row);
+GxB_FC32_t GxB_Iterator_get_FC32(GxB_Iterator iterator);
+GxB_FC64_t GxB_Iterator_get_FC64(GxB_Iterator iterator);
+bool GxB_Iterator_get_BOOL(GxB_Iterator iterator);
+double GxB_Iterator_get_FP64(GxB_Iterator iterator);
+float GxB_Iterator_get_FP32(GxB_Iterator iterator);
+int8_t GxB_Iterator_get_INT8(GxB_Iterator iterator);
+int16_t GxB_Iterator_get_INT16(GxB_Iterator iterator);
+int32_t GxB_Iterator_get_INT32(GxB_Iterator iterator);
+int64_t GxB_Iterator_get_INT64(GxB_Iterator iterator);
+uint8_t GxB_Iterator_get_UINT8(GxB_Iterator iterator);
+uint16_t GxB_Iterator_get_UINT16(GxB_Iterator iterator);
+uint32_t GxB_Iterator_get_UINT32(GxB_Iterator iterator);
+uint64_t GxB_Iterator_get_UINT64(GxB_Iterator iterator);
+void GxB_Iterator_get_UDT(GxB_Iterator iterator, void *value);
+void GxB_Matrix_Iterator_getIndex(GxB_Iterator iterator, GrB_Index *row, GrB_Index *col);
/* matrix */
-extern GrB_Info GxB_Col_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_Option_get(GrB_Matrix A, GxB_Option_Field field, ...);
-extern GrB_Info GxB_Matrix_Option_get_FP64(GrB_Matrix A, GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Matrix_Option_get_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Matrix_Option_set(GrB_Matrix A, GxB_Option_Field field, ...);
-extern GrB_Info GxB_Matrix_Option_set_FP64(GrB_Matrix A, GxB_Option_Field field, double value);
-extern GrB_Info GxB_Matrix_Option_set_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Matrix_apply_BinaryOp1st(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp1st_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp1st_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp2nd(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp2nd_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp2nd_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_IndexOp_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_IndexOp_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_assign_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_assign_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_build_FC32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const GxB_FC32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GxB_Matrix_build_FC64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const GxB_FC64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GxB_Matrix_build_Scalar(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, GrB_Scalar scalar, GrB_Index nvals);
-extern GrB_Info GxB_Matrix_concat(GrB_Matrix C, const GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_diag(GrB_Matrix C, const GrB_Vector v, int64_t k, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_eWiseUnion(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Scalar alpha, const GrB_Matrix B, const GrB_Scalar beta, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_BitmapC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_BitmapR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_CSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_CSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_FC32(GrB_Index *Ap, GrB_Index *Ai, GxB_FC32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GxB_Matrix_export_FC64(GrB_Index *Ap, GrB_Index *Ai, GxB_FC64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GxB_Matrix_export_FullC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_FullR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_HyperCSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_HyperCSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_extractElement_FC32(GxB_FC32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_extractElement_FC64(GxB_FC64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_extractTuples_FC32(GrB_Index *I, GrB_Index *J, GxB_FC32_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_extractTuples_FC64(GrB_Index *I, GrB_Index *J, GxB_FC64_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_fprint(GrB_Matrix A, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Matrix_import_BitmapC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_BitmapR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_CSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_CSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_FC32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const GxB_FC32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GxB_Matrix_import_FC64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const GxB_FC64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GxB_Matrix_import_FullC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_FullR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_HyperCSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_HyperCSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_isStoredElement(const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_iso(bool *iso, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_memoryUsage(size_t *size, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_pack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_FullC(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_FullR(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reduce_FC32(GxB_FC32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reduce_FC64(GxB_FC64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reshape(GrB_Matrix C, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reshapeDup(GrB_Matrix *C, GrB_Matrix A, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_select(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Matrix A, const GrB_Scalar Thunk, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_select_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_select_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_setElement_FC32(GrB_Matrix C, GxB_FC32_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_setElement_FC64(GrB_Matrix C, GxB_FC64_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_sort(GrB_Matrix C, GrB_Matrix P, GrB_BinaryOp op, GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_split(GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Index *Tile_nrows, const GrB_Index *Tile_ncols, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_type(GrB_Type *type, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_type_name(char *type_name, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_unpack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_FullC(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_FullR(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Row_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_diag(GrB_Vector v, const GrB_Matrix A, int64_t k, const GrB_Descriptor desc);
-extern GrB_Info GxB_colIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_pack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
-extern GrB_Info GxB_rowIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_unpack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
+GrB_Info GxB_Col_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_Matrix_Option_get(GrB_Matrix A, GxB_Option_Field field, ...);
+GrB_Info GxB_Matrix_Option_get_FP64(GrB_Matrix A, GxB_Option_Field field, double *value);
+GrB_Info GxB_Matrix_Option_get_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Matrix_Option_set(GrB_Matrix A, GxB_Option_Field field, ...);
+GrB_Info GxB_Matrix_Option_set_FP64(GrB_Matrix A, GxB_Option_Field field, double value);
+GrB_Info GxB_Matrix_Option_set_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Matrix_apply_BinaryOp1st(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp1st_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp1st_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp2nd(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp2nd_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp2nd_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_IndexOp_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_IndexOp_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_assign_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_assign_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_build_FC32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const GxB_FC32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GxB_Matrix_build_FC64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const GxB_FC64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GxB_Matrix_build_Scalar(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, GrB_Scalar scalar, GrB_Index nvals);
+GrB_Info GxB_Matrix_concat(GrB_Matrix C, const GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_diag(GrB_Matrix C, const GrB_Vector v, int64_t k, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_eWiseUnion(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Scalar alpha, const GrB_Matrix B, const GrB_Scalar beta, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_BitmapC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_BitmapR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_CSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_CSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_FC32(GrB_Index *Ap, GrB_Index *Ai, GxB_FC32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GxB_Matrix_export_FC64(GrB_Index *Ap, GrB_Index *Ai, GxB_FC64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GxB_Matrix_export_FullC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_FullR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_HyperCSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_HyperCSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_extractElement_FC32(GxB_FC32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_extractElement_FC64(GxB_FC64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_extractTuples_FC32(GrB_Index *I, GrB_Index *J, GxB_FC32_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GxB_Matrix_extractTuples_FC64(GrB_Index *I, GrB_Index *J, GxB_FC64_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GxB_Matrix_fprint(GrB_Matrix A, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Matrix_import_BitmapC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_BitmapR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_CSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_CSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_FC32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const GxB_FC32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GxB_Matrix_import_FC64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const GxB_FC64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GxB_Matrix_import_FullC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_FullR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_HyperCSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_HyperCSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_isStoredElement(const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_iso(bool *iso, const GrB_Matrix A);
+GrB_Info GxB_Matrix_memoryUsage(size_t *size, const GrB_Matrix A);
+GrB_Info GxB_Matrix_pack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_FullC(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_FullR(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reduce_FC32(GxB_FC32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reduce_FC64(GxB_FC64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reshape(GrB_Matrix C, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reshapeDup(GrB_Matrix *C, GrB_Matrix A, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_select(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Matrix A, const GrB_Scalar Thunk, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_select_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_select_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_setElement_FC32(GrB_Matrix C, GxB_FC32_t x, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_setElement_FC64(GrB_Matrix C, GxB_FC64_t x, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_sort(GrB_Matrix C, GrB_Matrix P, GrB_BinaryOp op, GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_split(GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Index *Tile_nrows, const GrB_Index *Tile_ncols, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_type(GrB_Type *type, const GrB_Matrix A);
+GrB_Info GxB_Matrix_type_name(char *type_name, const GrB_Matrix A);
+GrB_Info GxB_Matrix_unpack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_FullC(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_FullR(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Row_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_diag(GrB_Vector v, const GrB_Matrix A, int64_t k, const GrB_Descriptor desc);
+GrB_Info GxB_colIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_pack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
+GrB_Info GxB_rowIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_unpack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
/* monoid */
-extern GrB_Info GxB_Monoid_fprint(GrB_Monoid monoid, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Monoid_identity(void *identity, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_new_FC32(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC32_t identity);
-extern GrB_Info GxB_Monoid_new_FC64(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC64_t identity);
-extern GrB_Info GxB_Monoid_operator(GrB_BinaryOp *op, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_terminal(bool *has_terminal, void *terminal, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_terminal_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity, bool terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FC32(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC32_t identity, GxB_FC32_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FC64(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC64_t identity, GxB_FC64_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity, float terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity, double terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity, int8_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity, int16_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity, int32_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity, int64_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity, void *terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity, uint8_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity, uint16_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity, uint32_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity, uint64_t terminal);
+GrB_Info GxB_Monoid_fprint(GrB_Monoid monoid, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Monoid_identity(void *identity, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_new_FC32(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC32_t identity);
+GrB_Info GxB_Monoid_new_FC64(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC64_t identity);
+GrB_Info GxB_Monoid_operator(GrB_BinaryOp *op, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_terminal(bool *has_terminal, void *terminal, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_terminal_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity, bool terminal);
+GrB_Info GxB_Monoid_terminal_new_FC32(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC32_t identity, GxB_FC32_t terminal);
+GrB_Info GxB_Monoid_terminal_new_FC64(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC64_t identity, GxB_FC64_t terminal);
+GrB_Info GxB_Monoid_terminal_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity, float terminal);
+GrB_Info GxB_Monoid_terminal_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity, double terminal);
+GrB_Info GxB_Monoid_terminal_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity, int8_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity, int16_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity, int32_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity, int64_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity, void *terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity, uint8_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity, uint16_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity, uint32_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity, uint64_t terminal);
/* scalar */
-extern GrB_Info GxB_Scalar_clear(GrB_Scalar s);
-extern GrB_Info GxB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
-extern GrB_Info GxB_Scalar_error(const char **error, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FC32(GxB_FC32_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FC64(GxB_FC64_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_fprint(GrB_Scalar s, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Scalar_free(GrB_Scalar *s);
-extern GrB_Info GxB_Scalar_memoryUsage(size_t *size, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_new(GrB_Scalar *s, GrB_Type type);
-extern GrB_Info GxB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
-extern GrB_Info GxB_Scalar_setElement_FC32(GrB_Scalar s, GxB_FC32_t x);
-extern GrB_Info GxB_Scalar_setElement_FC64(GrB_Scalar s, GxB_FC64_t x);
-extern GrB_Info GxB_Scalar_setElement_FP32(GrB_Scalar s, float x);
-extern GrB_Info GxB_Scalar_setElement_FP64(GrB_Scalar s, double x);
-extern GrB_Info GxB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
-extern GrB_Info GxB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
-extern GrB_Info GxB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
-extern GrB_Info GxB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
-extern GrB_Info GxB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
-extern GrB_Info GxB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
-extern GrB_Info GxB_Scalar_type(GrB_Type *type, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_type_name(char *type_name, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_wait(GrB_Scalar *s);
+GrB_Info GxB_Scalar_clear(GrB_Scalar s);
+GrB_Info GxB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
+GrB_Info GxB_Scalar_error(const char **error, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FC32(GxB_FC32_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FC64(GxB_FC64_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_fprint(GrB_Scalar s, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Scalar_free(GrB_Scalar *s);
+GrB_Info GxB_Scalar_memoryUsage(size_t *size, const GrB_Scalar s);
+GrB_Info GxB_Scalar_new(GrB_Scalar *s, GrB_Type type);
+GrB_Info GxB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
+GrB_Info GxB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
+GrB_Info GxB_Scalar_setElement_FC32(GrB_Scalar s, GxB_FC32_t x);
+GrB_Info GxB_Scalar_setElement_FC64(GrB_Scalar s, GxB_FC64_t x);
+GrB_Info GxB_Scalar_setElement_FP32(GrB_Scalar s, float x);
+GrB_Info GxB_Scalar_setElement_FP64(GrB_Scalar s, double x);
+GrB_Info GxB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
+GrB_Info GxB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
+GrB_Info GxB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
+GrB_Info GxB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
+GrB_Info GxB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
+GrB_Info GxB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
+GrB_Info GxB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
+GrB_Info GxB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
+GrB_Info GxB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
+GrB_Info GxB_Scalar_type(GrB_Type *type, const GrB_Scalar s);
+GrB_Info GxB_Scalar_type_name(char *type_name, const GrB_Scalar s);
+GrB_Info GxB_Scalar_wait(GrB_Scalar *s);
/* selectop */
-extern GrB_Info GxB_SelectOp_error(const char **error, const GxB_SelectOp op);
-extern GrB_Info GxB_SelectOp_fprint(GxB_SelectOp selectop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_SelectOp_free(GxB_SelectOp *selectop);
-extern GrB_Info GxB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype);
-extern GrB_Info GxB_SelectOp_ttype(GrB_Type *ttype, GxB_SelectOp selectop);
-extern GrB_Info GxB_SelectOp_wait(GxB_SelectOp op, GrB_WaitMode waitmode);
-extern GrB_Info GxB_SelectOp_xtype(GrB_Type *xtype, GxB_SelectOp selectop);
+GrB_Info GxB_SelectOp_error(const char **error, const GxB_SelectOp op);
+GrB_Info GxB_SelectOp_fprint(GxB_SelectOp selectop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_SelectOp_free(GxB_SelectOp *selectop);
+GrB_Info GxB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype);
+GrB_Info GxB_SelectOp_ttype(GrB_Type *ttype, GxB_SelectOp selectop);
+GrB_Info GxB_SelectOp_wait(GxB_SelectOp op, GrB_WaitMode waitmode);
+GrB_Info GxB_SelectOp_xtype(GrB_Type *xtype, GxB_SelectOp selectop);
/* semiring */
-extern GrB_Info GxB_Semiring_add(GrB_Monoid *add, GrB_Semiring semiring);
-extern GrB_Info GxB_Semiring_fprint(GrB_Semiring semiring, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Semiring_multiply(GrB_BinaryOp *multiply, GrB_Semiring semiring);
+GrB_Info GxB_Semiring_add(GrB_Monoid *add, GrB_Semiring semiring);
+GrB_Info GxB_Semiring_fprint(GrB_Semiring semiring, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Semiring_multiply(GrB_BinaryOp *multiply, GrB_Semiring semiring);
/* type */
-extern GrB_Info GxB_Type_fprint(GrB_Type type, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Type_from_name(GrB_Type *type, const char *type_name);
-extern GrB_Info GxB_Type_name(char *type_name, const GrB_Type type);
-extern GrB_Info GxB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name, const char *type_defn);
-extern GrB_Info GxB_Type_size(size_t *size, const GrB_Type type);
+GrB_Info GxB_Type_fprint(GrB_Type type, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Type_from_name(GrB_Type *type, const char *type_name);
+GrB_Info GxB_Type_name(char *type_name, const GrB_Type type);
+GrB_Info GxB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name, const char *type_defn);
+GrB_Info GxB_Type_size(size_t *size, const GrB_Type type);
/* unary */
-extern GrB_Info GxB_UnaryOp_fprint(GrB_UnaryOp unaryop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name, const char *unop_defn);
-extern GrB_Info GxB_UnaryOp_xtype(GrB_Type *xtype, GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_xtype_name(char *type_name, const GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_ztype(GrB_Type *ztype, GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_ztype_name(char *type_name, const GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_fprint(GrB_UnaryOp unaryop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name, const char *unop_defn);
+GrB_Info GxB_UnaryOp_xtype(GrB_Type *xtype, GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_xtype_name(char *type_name, const GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_ztype(GrB_Type *ztype, GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_ztype_name(char *type_name, const GrB_UnaryOp unaryop);
/* vector */
-extern GrB_Info GxB_Vector_Iterator_attach(GxB_Iterator iterator, GrB_Vector v, GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_Option_get(GrB_Vector A, GxB_Option_Field field, ...);
-extern GrB_Info GxB_Vector_Option_get_FP64(GrB_Vector v, GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Vector_Option_get_INT32(GrB_Vector v, GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Vector_Option_set(GrB_Vector A, GxB_Option_Field field, ...);
-extern GrB_Info GxB_Vector_Option_set_FP64(GrB_Vector v, GxB_Option_Field field, double value);
-extern GrB_Info GxB_Vector_Option_set_INT32(GrB_Vector v, GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Vector_apply_BinaryOp1st(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp1st_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC32_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp1st_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC64_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp2nd(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp2nd_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp2nd_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_IndexOp_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_IndexOp_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_assign_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_assign_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_build_FC32(GrB_Vector w, const GrB_Index *I, const GxB_FC32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GxB_Vector_build_FC64(GrB_Vector w, const GrB_Index *I, const GxB_FC64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GxB_Vector_build_Scalar(GrB_Vector w, const GrB_Index *I, GrB_Scalar scalar, GrB_Index nvals);
-extern GrB_Info GxB_Vector_deserialize(GrB_Vector *w, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_eWiseUnion(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Scalar alpha, const GrB_Vector v, const GrB_Scalar beta, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_Bitmap(GrB_Vector *v, GrB_Type *type, GrB_Index *n, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_CSC(GrB_Vector *v, GrB_Type *type, GrB_Index *n, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_Full(GrB_Vector *v, GrB_Type *type, GrB_Index *n, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_extractElement_FC32(GxB_FC32_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GxB_Vector_extractElement_FC64(GxB_FC64_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GxB_Vector_extractTuples_FC32(GrB_Index *I, GxB_FC32_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GxB_Vector_extractTuples_FC64(GrB_Index *I, GxB_FC64_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GxB_Vector_fprint(GrB_Vector v, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Vector_import_Bitmap(GrB_Vector *v, GrB_Type type, GrB_Index n, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_import_CSC(GrB_Vector *v, GrB_Type type, GrB_Index n, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_import_Full(GrB_Vector *v, GrB_Type type, GrB_Index n, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_isStoredElement(const GrB_Vector v, GrB_Index i);
-extern GrB_Info GxB_Vector_iso(bool *iso, const GrB_Vector v);
-extern GrB_Info GxB_Vector_memoryUsage(size_t *size, const GrB_Vector v);
-extern GrB_Info GxB_Vector_pack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_pack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_pack_Full(GrB_Vector v, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_reduce_FC32(GxB_FC32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_reduce_FC64(GxB_FC64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_select(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Vector u, const GrB_Scalar Thunk, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_select_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_select_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_setElement_FC32(GrB_Vector w, GxB_FC32_t x, GrB_Index i);
-extern GrB_Info GxB_Vector_setElement_FC64(GrB_Vector w, GxB_FC64_t x, GrB_Index i);
-extern GrB_Info GxB_Vector_sort(GrB_Vector w, GrB_Vector p, GrB_BinaryOp op, GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_type(GrB_Type *type, const GrB_Vector v);
-extern GrB_Info GxB_Vector_type_name(char *type_name, const GrB_Vector v);
-extern GrB_Info GxB_Vector_unpack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_unpack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_unpack_Full(GrB_Vector v, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_Iterator_attach(GxB_Iterator iterator, GrB_Vector v, GrB_Descriptor desc);
+GrB_Info GxB_Vector_Option_get(GrB_Vector A, GxB_Option_Field field, ...);
+GrB_Info GxB_Vector_Option_get_FP64(GrB_Vector v, GxB_Option_Field field, double *value);
+GrB_Info GxB_Vector_Option_get_INT32(GrB_Vector v, GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Vector_Option_set(GrB_Vector A, GxB_Option_Field field, ...);
+GrB_Info GxB_Vector_Option_set_FP64(GrB_Vector v, GxB_Option_Field field, double value);
+GrB_Info GxB_Vector_Option_set_INT32(GrB_Vector v, GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Vector_apply_BinaryOp1st(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp1st_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC32_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp1st_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC64_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp2nd(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp2nd_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp2nd_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_IndexOp_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_IndexOp_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_assign_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_assign_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_build_FC32(GrB_Vector w, const GrB_Index *I, const GxB_FC32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GxB_Vector_build_FC64(GrB_Vector w, const GrB_Index *I, const GxB_FC64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GxB_Vector_build_Scalar(GrB_Vector w, const GrB_Index *I, GrB_Scalar scalar, GrB_Index nvals);
+GrB_Info GxB_Vector_deserialize(GrB_Vector *w, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_eWiseUnion(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Scalar alpha, const GrB_Vector v, const GrB_Scalar beta, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_Bitmap(GrB_Vector *v, GrB_Type *type, GrB_Index *n, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_CSC(GrB_Vector *v, GrB_Type *type, GrB_Index *n, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_Full(GrB_Vector *v, GrB_Type *type, GrB_Index *n, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_extractElement_FC32(GxB_FC32_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GxB_Vector_extractElement_FC64(GxB_FC64_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GxB_Vector_extractTuples_FC32(GrB_Index *I, GxB_FC32_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GxB_Vector_extractTuples_FC64(GrB_Index *I, GxB_FC64_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GxB_Vector_fprint(GrB_Vector v, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Vector_import_Bitmap(GrB_Vector *v, GrB_Type type, GrB_Index n, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_import_CSC(GrB_Vector *v, GrB_Type type, GrB_Index n, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_import_Full(GrB_Vector *v, GrB_Type type, GrB_Index n, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_isStoredElement(const GrB_Vector v, GrB_Index i);
+GrB_Info GxB_Vector_iso(bool *iso, const GrB_Vector v);
+GrB_Info GxB_Vector_memoryUsage(size_t *size, const GrB_Vector v);
+GrB_Info GxB_Vector_pack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_pack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_pack_Full(GrB_Vector v, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_reduce_FC32(GxB_FC32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_reduce_FC64(GxB_FC64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_select(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Vector u, const GrB_Scalar Thunk, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_select_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_select_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_setElement_FC32(GrB_Vector w, GxB_FC32_t x, GrB_Index i);
+GrB_Info GxB_Vector_setElement_FC64(GrB_Vector w, GxB_FC64_t x, GrB_Index i);
+GrB_Info GxB_Vector_sort(GrB_Vector w, GrB_Vector p, GrB_BinaryOp op, GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_type(GrB_Type *type, const GrB_Vector v);
+GrB_Info GxB_Vector_type_name(char *type_name, const GrB_Vector v);
+GrB_Info GxB_Vector_unpack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_unpack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_unpack_Full(GrB_Vector v, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
/* int DEFINES */
#define GRB_SUBVERSION ...
diff --git a/suitesparse_graphblas/suitesparse_graphblas_arm64.h b/suitesparse_graphblas/suitesparse_graphblas_arm64.h
index 99960fc..39630af 100644
--- a/suitesparse_graphblas/suitesparse_graphblas_arm64.h
+++ b/suitesparse_graphblas/suitesparse_graphblas_arm64.h
@@ -2625,822 +2625,822 @@ extern GxB_SelectOp GxB_TRIU;
****************/
/* binary */
-extern GrB_Info GrB_BinaryOp_error(const char **error, const GrB_BinaryOp op);
-extern GrB_Info GrB_BinaryOp_free(GrB_BinaryOp *binaryop);
-extern GrB_Info GrB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
-extern GrB_Info GrB_BinaryOp_wait(GrB_BinaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_BinaryOp_error(const char **error, const GrB_BinaryOp op);
+GrB_Info GrB_BinaryOp_free(GrB_BinaryOp *binaryop);
+GrB_Info GrB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
+GrB_Info GrB_BinaryOp_wait(GrB_BinaryOp op, GrB_WaitMode waitmode);
/* core */
-extern GrB_Info GrB_finalize(void);
-extern GrB_Info GrB_getVersion(unsigned int *version, unsigned int *subversion);
-extern GrB_Info GrB_init(GrB_Mode mode);
+GrB_Info GrB_finalize(void);
+GrB_Info GrB_getVersion(unsigned int *version, unsigned int *subversion);
+GrB_Info GrB_init(GrB_Mode mode);
/* descriptor */
-extern GrB_Info GrB_Descriptor_error(const char **error, const GrB_Descriptor d);
-extern GrB_Info GrB_Descriptor_free(GrB_Descriptor *descriptor);
-extern GrB_Info GrB_Descriptor_new(GrB_Descriptor *descriptor);
-extern GrB_Info GrB_Descriptor_set(GrB_Descriptor desc, GrB_Desc_Field field, GrB_Desc_Value val);
-extern GrB_Info GrB_Descriptor_wait(GrB_Descriptor desc, GrB_WaitMode waitmode);
+GrB_Info GrB_Descriptor_error(const char **error, const GrB_Descriptor d);
+GrB_Info GrB_Descriptor_free(GrB_Descriptor *descriptor);
+GrB_Info GrB_Descriptor_new(GrB_Descriptor *descriptor);
+GrB_Info GrB_Descriptor_set(GrB_Descriptor desc, GrB_Desc_Field field, GrB_Desc_Value val);
+GrB_Info GrB_Descriptor_wait(GrB_Descriptor desc, GrB_WaitMode waitmode);
/* indexunary */
-extern GrB_Info GrB_IndexUnaryOp_error(const char **error, const GrB_IndexUnaryOp op);
-extern GrB_Info GrB_IndexUnaryOp_free(GrB_IndexUnaryOp *op);
-extern GrB_Info GrB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
-extern GrB_Info GrB_IndexUnaryOp_wait(GrB_IndexUnaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_IndexUnaryOp_error(const char **error, const GrB_IndexUnaryOp op);
+GrB_Info GrB_IndexUnaryOp_free(GrB_IndexUnaryOp *op);
+GrB_Info GrB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
+GrB_Info GrB_IndexUnaryOp_wait(GrB_IndexUnaryOp op, GrB_WaitMode waitmode);
/* matrix */
-extern GrB_Info GrB_Col_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GrB_Col_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_build_BOOL(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_FP32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_FP64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UDT(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_clear(GrB_Matrix A);
-extern GrB_Info GrB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size);
-extern GrB_Info GrB_Matrix_diag(GrB_Matrix *C, const GrB_Vector v, int64_t k);
-extern GrB_Info GrB_Matrix_dup(GrB_Matrix *C, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_eWiseAdd_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseAdd_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseAdd_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_error(const char **error, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_exportHint(GrB_Format *format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_exportSize(GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_BOOL(GrB_Index *Ap, GrB_Index *Ai, bool *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_FP32(GrB_Index *Ap, GrB_Index *Ai, float *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_FP64(GrB_Index *Ap, GrB_Index *Ai, double *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT8(GrB_Index *Ap, GrB_Index *Ai, int8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT16(GrB_Index *Ap, GrB_Index *Ai, int16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT32(GrB_Index *Ap, GrB_Index *Ai, int32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT64(GrB_Index *Ap, GrB_Index *Ai, int64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UDT(GrB_Index *Ap, GrB_Index *Ai, void *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT8(GrB_Index *Ap, GrB_Index *Ai, uint8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT16(GrB_Index *Ap, GrB_Index *Ai, uint16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT32(GrB_Index *Ap, GrB_Index *Ai, uint32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT64(GrB_Index *Ap, GrB_Index *Ai, uint64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extract(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_extractElement_BOOL(bool *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_FP32(float *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_FP64(double *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT8(int8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT16(int16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT32(int32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT64(int64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_Scalar(GrB_Scalar x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UDT(void *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT8(uint8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT16(uint16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT32(uint32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT64(uint64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractTuples_BOOL(GrB_Index *I, GrB_Index *J, bool *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_FP32(GrB_Index *I, GrB_Index *J, float *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_FP64(GrB_Index *I, GrB_Index *J, double *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT8(GrB_Index *I, GrB_Index *J, int8_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT16(GrB_Index *I, GrB_Index *J, int16_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT32(GrB_Index *I, GrB_Index *J, int32_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT64(GrB_Index *I, GrB_Index *J, int64_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UDT(GrB_Index *I, GrB_Index *J, void *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT8(GrB_Index *I, GrB_Index *J, uint8_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT16(GrB_Index *I, GrB_Index *J, uint16_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT32(GrB_Index *I, GrB_Index *J, uint32_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT64(GrB_Index *I, GrB_Index *J, uint64_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_free(GrB_Matrix *A);
-extern GrB_Info GrB_Matrix_import_BOOL(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const bool *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_FP32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const float *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_FP64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const double *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UDT(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const void *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_kronecker_BinaryOp(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_kronecker_Monoid(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_kronecker_Semiring(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_ncols(GrB_Index *ncols, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_new(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols);
-extern GrB_Info GrB_Matrix_nrows(GrB_Index *nrows, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_nvals(GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_BinaryOp_Scalar(GrB_Scalar S, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_removeElement(GrB_Matrix C, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_resize(GrB_Matrix C, GrB_Index nrows_new, GrB_Index ncols_new);
-extern GrB_Info GrB_Matrix_select_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_serialize(void *blob, GrB_Index *blob_size_handle, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_serializeSize(GrB_Index *blob_size_handle, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_setElement_BOOL(GrB_Matrix C, bool x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_FP32(GrB_Matrix C, float x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_FP64(GrB_Matrix C, double x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT8(GrB_Matrix C, int8_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT16(GrB_Matrix C, int16_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT32(GrB_Matrix C, int32_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT64(GrB_Matrix C, int64_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_Scalar(GrB_Matrix C, GrB_Scalar x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UDT(GrB_Matrix C, void *x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT8(GrB_Matrix C, uint8_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT16(GrB_Matrix C, uint16_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT32(GrB_Matrix C, uint32_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT64(GrB_Matrix C, uint64_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_wait(GrB_Matrix A, GrB_WaitMode waitmode);
-extern GrB_Info GrB_Row_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_mxm(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_mxv(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_transpose(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_vxm(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Col_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GrB_Col_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_build_BOOL(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_FP32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_FP64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UDT(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_clear(GrB_Matrix A);
+GrB_Info GrB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size);
+GrB_Info GrB_Matrix_diag(GrB_Matrix *C, const GrB_Vector v, int64_t k);
+GrB_Info GrB_Matrix_dup(GrB_Matrix *C, const GrB_Matrix A);
+GrB_Info GrB_Matrix_eWiseAdd_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseAdd_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseAdd_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_error(const char **error, const GrB_Matrix A);
+GrB_Info GrB_Matrix_exportHint(GrB_Format *format, GrB_Matrix A);
+GrB_Info GrB_Matrix_exportSize(GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_BOOL(GrB_Index *Ap, GrB_Index *Ai, bool *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_FP32(GrB_Index *Ap, GrB_Index *Ai, float *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_FP64(GrB_Index *Ap, GrB_Index *Ai, double *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT8(GrB_Index *Ap, GrB_Index *Ai, int8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT16(GrB_Index *Ap, GrB_Index *Ai, int16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT32(GrB_Index *Ap, GrB_Index *Ai, int32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT64(GrB_Index *Ap, GrB_Index *Ai, int64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UDT(GrB_Index *Ap, GrB_Index *Ai, void *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT8(GrB_Index *Ap, GrB_Index *Ai, uint8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT16(GrB_Index *Ap, GrB_Index *Ai, uint16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT32(GrB_Index *Ap, GrB_Index *Ai, uint32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT64(GrB_Index *Ap, GrB_Index *Ai, uint64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_extract(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_extractElement_BOOL(bool *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_FP32(float *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_FP64(double *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT8(int8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT16(int16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT32(int32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT64(int64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_Scalar(GrB_Scalar x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UDT(void *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT8(uint8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT16(uint16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT32(uint32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT64(uint64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractTuples_BOOL(GrB_Index *I, GrB_Index *J, bool *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_FP32(GrB_Index *I, GrB_Index *J, float *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_FP64(GrB_Index *I, GrB_Index *J, double *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT8(GrB_Index *I, GrB_Index *J, int8_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT16(GrB_Index *I, GrB_Index *J, int16_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT32(GrB_Index *I, GrB_Index *J, int32_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT64(GrB_Index *I, GrB_Index *J, int64_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UDT(GrB_Index *I, GrB_Index *J, void *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT8(GrB_Index *I, GrB_Index *J, uint8_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT16(GrB_Index *I, GrB_Index *J, uint16_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT32(GrB_Index *I, GrB_Index *J, uint32_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT64(GrB_Index *I, GrB_Index *J, uint64_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_free(GrB_Matrix *A);
+GrB_Info GrB_Matrix_import_BOOL(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const bool *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_FP32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const float *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_FP64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const double *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UDT(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const void *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_kronecker_BinaryOp(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_kronecker_Monoid(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_kronecker_Semiring(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_ncols(GrB_Index *ncols, const GrB_Matrix A);
+GrB_Info GrB_Matrix_new(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols);
+GrB_Info GrB_Matrix_nrows(GrB_Index *nrows, const GrB_Matrix A);
+GrB_Info GrB_Matrix_nvals(GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_BinaryOp_Scalar(GrB_Scalar S, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_removeElement(GrB_Matrix C, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_resize(GrB_Matrix C, GrB_Index nrows_new, GrB_Index ncols_new);
+GrB_Info GrB_Matrix_select_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_serialize(void *blob, GrB_Index *blob_size_handle, GrB_Matrix A);
+GrB_Info GrB_Matrix_serializeSize(GrB_Index *blob_size_handle, GrB_Matrix A);
+GrB_Info GrB_Matrix_setElement_BOOL(GrB_Matrix C, bool x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_FP32(GrB_Matrix C, float x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_FP64(GrB_Matrix C, double x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT8(GrB_Matrix C, int8_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT16(GrB_Matrix C, int16_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT32(GrB_Matrix C, int32_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT64(GrB_Matrix C, int64_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_Scalar(GrB_Matrix C, GrB_Scalar x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UDT(GrB_Matrix C, void *x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT8(GrB_Matrix C, uint8_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT16(GrB_Matrix C, uint16_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT32(GrB_Matrix C, uint32_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT64(GrB_Matrix C, uint64_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_wait(GrB_Matrix A, GrB_WaitMode waitmode);
+GrB_Info GrB_Row_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_mxm(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_mxv(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_transpose(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_vxm(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Matrix A, const GrB_Descriptor desc);
/* monoid */
-extern GrB_Info GrB_Monoid_error(const char **error, const GrB_Monoid monoid);
-extern GrB_Info GrB_Monoid_free(GrB_Monoid *monoid);
-extern GrB_Info GrB_Monoid_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity);
-extern GrB_Info GrB_Monoid_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity);
-extern GrB_Info GrB_Monoid_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity);
-extern GrB_Info GrB_Monoid_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity);
-extern GrB_Info GrB_Monoid_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity);
-extern GrB_Info GrB_Monoid_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity);
-extern GrB_Info GrB_Monoid_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity);
-extern GrB_Info GrB_Monoid_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity);
-extern GrB_Info GrB_Monoid_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity);
-extern GrB_Info GrB_Monoid_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity);
-extern GrB_Info GrB_Monoid_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity);
-extern GrB_Info GrB_Monoid_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity);
-extern GrB_Info GrB_Monoid_wait(GrB_Monoid monoid, GrB_WaitMode waitmode);
+GrB_Info GrB_Monoid_error(const char **error, const GrB_Monoid monoid);
+GrB_Info GrB_Monoid_free(GrB_Monoid *monoid);
+GrB_Info GrB_Monoid_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity);
+GrB_Info GrB_Monoid_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity);
+GrB_Info GrB_Monoid_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity);
+GrB_Info GrB_Monoid_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity);
+GrB_Info GrB_Monoid_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity);
+GrB_Info GrB_Monoid_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity);
+GrB_Info GrB_Monoid_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity);
+GrB_Info GrB_Monoid_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity);
+GrB_Info GrB_Monoid_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity);
+GrB_Info GrB_Monoid_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity);
+GrB_Info GrB_Monoid_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity);
+GrB_Info GrB_Monoid_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity);
+GrB_Info GrB_Monoid_wait(GrB_Monoid monoid, GrB_WaitMode waitmode);
/* scalar */
-extern GrB_Info GrB_Scalar_clear(GrB_Scalar s);
-extern GrB_Info GrB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
-extern GrB_Info GrB_Scalar_error(const char **error, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_free(GrB_Scalar *s);
-extern GrB_Info GrB_Scalar_new(GrB_Scalar *s, GrB_Type type);
-extern GrB_Info GrB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
-extern GrB_Info GrB_Scalar_setElement_FP32(GrB_Scalar s, float x);
-extern GrB_Info GrB_Scalar_setElement_FP64(GrB_Scalar s, double x);
-extern GrB_Info GrB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
-extern GrB_Info GrB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
-extern GrB_Info GrB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
-extern GrB_Info GrB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
-extern GrB_Info GrB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
-extern GrB_Info GrB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
-extern GrB_Info GrB_Scalar_wait(GrB_Scalar s, GrB_WaitMode waitmode);
+GrB_Info GrB_Scalar_clear(GrB_Scalar s);
+GrB_Info GrB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
+GrB_Info GrB_Scalar_error(const char **error, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_free(GrB_Scalar *s);
+GrB_Info GrB_Scalar_new(GrB_Scalar *s, GrB_Type type);
+GrB_Info GrB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
+GrB_Info GrB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
+GrB_Info GrB_Scalar_setElement_FP32(GrB_Scalar s, float x);
+GrB_Info GrB_Scalar_setElement_FP64(GrB_Scalar s, double x);
+GrB_Info GrB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
+GrB_Info GrB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
+GrB_Info GrB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
+GrB_Info GrB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
+GrB_Info GrB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
+GrB_Info GrB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
+GrB_Info GrB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
+GrB_Info GrB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
+GrB_Info GrB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
+GrB_Info GrB_Scalar_wait(GrB_Scalar s, GrB_WaitMode waitmode);
/* semiring */
-extern GrB_Info GrB_Semiring_error(const char **error, const GrB_Semiring semiring);
-extern GrB_Info GrB_Semiring_free(GrB_Semiring *semiring);
-extern GrB_Info GrB_Semiring_new(GrB_Semiring *semiring, GrB_Monoid add, GrB_BinaryOp multiply);
-extern GrB_Info GrB_Semiring_wait(GrB_Semiring semiring, GrB_WaitMode waitmode);
+GrB_Info GrB_Semiring_error(const char **error, const GrB_Semiring semiring);
+GrB_Info GrB_Semiring_free(GrB_Semiring *semiring);
+GrB_Info GrB_Semiring_new(GrB_Semiring *semiring, GrB_Monoid add, GrB_BinaryOp multiply);
+GrB_Info GrB_Semiring_wait(GrB_Semiring semiring, GrB_WaitMode waitmode);
/* type */
-extern GrB_Info GrB_Type_error(const char **error, const GrB_Type type);
-extern GrB_Info GrB_Type_free(GrB_Type *type);
-extern GrB_Info GrB_Type_new(GrB_Type *type, size_t sizeof_ctype);
-extern GrB_Info GrB_Type_wait(GrB_Type type, GrB_WaitMode waitmode);
+GrB_Info GrB_Type_error(const char **error, const GrB_Type type);
+GrB_Info GrB_Type_free(GrB_Type *type);
+GrB_Info GrB_Type_new(GrB_Type *type, size_t sizeof_ctype);
+GrB_Info GrB_Type_wait(GrB_Type type, GrB_WaitMode waitmode);
/* unary */
-extern GrB_Info GrB_UnaryOp_error(const char **error, const GrB_UnaryOp op);
-extern GrB_Info GrB_UnaryOp_free(GrB_UnaryOp *unaryop);
-extern GrB_Info GrB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype);
-extern GrB_Info GrB_UnaryOp_wait(GrB_UnaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_UnaryOp_error(const char **error, const GrB_UnaryOp op);
+GrB_Info GrB_UnaryOp_free(GrB_UnaryOp *unaryop);
+GrB_Info GrB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype);
+GrB_Info GrB_UnaryOp_wait(GrB_UnaryOp op, GrB_WaitMode waitmode);
/* vector */
-extern GrB_Info GrB_Vector_apply(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_build_BOOL(GrB_Vector w, const GrB_Index *I, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_FP32(GrB_Vector w, const GrB_Index *I, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_FP64(GrB_Vector w, const GrB_Index *I, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT8(GrB_Vector w, const GrB_Index *I, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT16(GrB_Vector w, const GrB_Index *I, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT32(GrB_Vector w, const GrB_Index *I, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT64(GrB_Vector w, const GrB_Index *I, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UDT(GrB_Vector w, const GrB_Index *I, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT8(GrB_Vector w, const GrB_Index *I, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT16(GrB_Vector w, const GrB_Index *I, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT32(GrB_Vector w, const GrB_Index *I, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT64(GrB_Vector w, const GrB_Index *I, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_clear(GrB_Vector v);
-extern GrB_Info GrB_Vector_dup(GrB_Vector *w, const GrB_Vector u);
-extern GrB_Info GrB_Vector_eWiseAdd_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseAdd_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseAdd_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_error(const char **error, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_extractElement_BOOL(bool *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_FP32(float *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_FP64(double *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT8(int8_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT16(int16_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT32(int32_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT64(int64_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_Scalar(GrB_Scalar x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UDT(void *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT8(uint8_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT16(uint16_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT32(uint32_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT64(uint64_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractTuples_BOOL(GrB_Index *I, bool *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_FP32(GrB_Index *I, float *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_FP64(GrB_Index *I, double *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT8(GrB_Index *I, int8_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT16(GrB_Index *I, int16_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT32(GrB_Index *I, int32_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT64(GrB_Index *I, int64_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UDT(GrB_Index *I, void *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT8(GrB_Index *I, uint8_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT16(GrB_Index *I, uint16_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT32(GrB_Index *I, uint32_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT64(GrB_Index *I, uint64_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_free(GrB_Vector *v);
-extern GrB_Info GrB_Vector_new(GrB_Vector *v, GrB_Type type, GrB_Index n);
-extern GrB_Info GrB_Vector_nvals(GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_BinaryOp_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_removeElement(GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_resize(GrB_Vector w, GrB_Index nrows_new);
-extern GrB_Info GrB_Vector_select_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_setElement_BOOL(GrB_Vector w, bool x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_FP32(GrB_Vector w, float x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_FP64(GrB_Vector w, double x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT8(GrB_Vector w, int8_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT16(GrB_Vector w, int16_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT32(GrB_Vector w, int32_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT64(GrB_Vector w, int64_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_Scalar(GrB_Vector w, GrB_Scalar x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UDT(GrB_Vector w, void *x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT8(GrB_Vector w, uint8_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT16(GrB_Vector w, uint16_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT32(GrB_Vector w, uint32_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT64(GrB_Vector w, uint64_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_size(GrB_Index *n, const GrB_Vector v);
-extern GrB_Info GrB_Vector_wait(GrB_Vector v, GrB_WaitMode waitmode);
+GrB_Info GrB_Vector_apply(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_build_BOOL(GrB_Vector w, const GrB_Index *I, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_FP32(GrB_Vector w, const GrB_Index *I, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_FP64(GrB_Vector w, const GrB_Index *I, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT8(GrB_Vector w, const GrB_Index *I, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT16(GrB_Vector w, const GrB_Index *I, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT32(GrB_Vector w, const GrB_Index *I, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT64(GrB_Vector w, const GrB_Index *I, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UDT(GrB_Vector w, const GrB_Index *I, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT8(GrB_Vector w, const GrB_Index *I, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT16(GrB_Vector w, const GrB_Index *I, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT32(GrB_Vector w, const GrB_Index *I, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT64(GrB_Vector w, const GrB_Index *I, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_clear(GrB_Vector v);
+GrB_Info GrB_Vector_dup(GrB_Vector *w, const GrB_Vector u);
+GrB_Info GrB_Vector_eWiseAdd_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseAdd_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseAdd_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_error(const char **error, const GrB_Vector v);
+GrB_Info GrB_Vector_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_extractElement_BOOL(bool *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_FP32(float *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_FP64(double *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT8(int8_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT16(int16_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT32(int32_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT64(int64_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_Scalar(GrB_Scalar x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UDT(void *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT8(uint8_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT16(uint16_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT32(uint32_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT64(uint64_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractTuples_BOOL(GrB_Index *I, bool *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_FP32(GrB_Index *I, float *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_FP64(GrB_Index *I, double *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT8(GrB_Index *I, int8_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT16(GrB_Index *I, int16_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT32(GrB_Index *I, int32_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT64(GrB_Index *I, int64_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UDT(GrB_Index *I, void *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT8(GrB_Index *I, uint8_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT16(GrB_Index *I, uint16_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT32(GrB_Index *I, uint32_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT64(GrB_Index *I, uint64_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_free(GrB_Vector *v);
+GrB_Info GrB_Vector_new(GrB_Vector *v, GrB_Type type, GrB_Index n);
+GrB_Info GrB_Vector_nvals(GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_BinaryOp_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_removeElement(GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_resize(GrB_Vector w, GrB_Index nrows_new);
+GrB_Info GrB_Vector_select_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_setElement_BOOL(GrB_Vector w, bool x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_FP32(GrB_Vector w, float x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_FP64(GrB_Vector w, double x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT8(GrB_Vector w, int8_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT16(GrB_Vector w, int16_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT32(GrB_Vector w, int32_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT64(GrB_Vector w, int64_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_Scalar(GrB_Vector w, GrB_Scalar x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UDT(GrB_Vector w, void *x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT8(GrB_Vector w, uint8_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT16(GrB_Vector w, uint16_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT32(GrB_Vector w, uint32_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT64(GrB_Vector w, uint64_t x, GrB_Index i);
+GrB_Info GrB_Vector_size(GrB_Index *n, const GrB_Vector v);
+GrB_Info GrB_Vector_wait(GrB_Vector v, GrB_WaitMode waitmode);
/***************
* GB functions *
***************/
/* binary */
-extern GrB_Info GB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name);
+GrB_Info GB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name);
/* iterator */
-extern GrB_Info GB_Iterator_rc_bitmap_next(GxB_Iterator iterator);
-extern GrB_Info GB_Iterator_rc_seek(GxB_Iterator iterator, GrB_Index j, bool jth_vector);
-extern GrB_Info GB_Vector_Iterator_bitmap_seek(GxB_Iterator iterator, GrB_Index unused);
+GrB_Info GB_Iterator_rc_bitmap_next(GxB_Iterator iterator);
+GrB_Info GB_Iterator_rc_seek(GxB_Iterator iterator, GrB_Index j, bool jth_vector);
+GrB_Info GB_Vector_Iterator_bitmap_seek(GxB_Iterator iterator, GrB_Index unused);
/* matrix */
-extern GrB_Info GB_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GxB_Format_Value format, GrB_Descriptor desc);
+GrB_Info GB_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GxB_Format_Value format, GrB_Descriptor desc);
/* selectop */
-extern GrB_Info GB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype, const char *name);
+GrB_Info GB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype, const char *name);
/* type */
-extern GrB_Info GB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name);
+GrB_Info GB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name);
/* unary */
-extern GrB_Info GB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name);
+GrB_Info GB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name);
/****************
* GxB functions *
****************/
/* binary */
-extern GrB_Info GxB_BinaryOp_fprint(GrB_BinaryOp binaryop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_BinaryOp_new(GrB_BinaryOp *op, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name, const char *binop_defn);
-extern GrB_Info GxB_BinaryOp_xtype(GrB_Type *xtype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_xtype_name(char *type_name, const GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ytype(GrB_Type *ytype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ytype_name(char *type_name, const GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ztype(GrB_Type *ztype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ztype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_fprint(GrB_BinaryOp binaryop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_BinaryOp_new(GrB_BinaryOp *op, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name, const char *binop_defn);
+GrB_Info GxB_BinaryOp_xtype(GrB_Type *xtype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_xtype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ytype(GrB_Type *ytype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ytype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ztype(GrB_Type *ztype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ztype_name(char *type_name, const GrB_BinaryOp binaryop);
/* core */
-extern GrB_Info GxB_Global_Option_get(GxB_Option_Field field, char *);
-extern GrB_Info GxB_Global_Option_get_CHAR(GxB_Option_Field field, char **value);
-extern GrB_Info GxB_Global_Option_get_FP64(GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Global_Option_get_FUNCTION(GxB_Option_Field field, void **value);
-extern GrB_Info GxB_Global_Option_get_INT32(GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Global_Option_get_INT64(GxB_Option_Field field, int64_t *value);
-extern GrB_Info GxB_Global_Option_set(GxB_Option_Field field, char *);
-extern GrB_Info GxB_Global_Option_set_FP64(GxB_Option_Field field, double value);
-extern GrB_Info GxB_Global_Option_set_FP64_ARRAY(GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Global_Option_set_FUNCTION(GxB_Option_Field field, void *value);
-extern GrB_Info GxB_Global_Option_set_INT32(GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Global_Option_set_INT64_ARRAY(GxB_Option_Field field, int64_t *value);
-extern GrB_Info GxB_deserialize_type_name(char *type_name, const void *blob, GrB_Index blob_size);
-extern GrB_Info GxB_init(GrB_Mode mode, void *(*user_malloc_function)(size_t), void *(*user_calloc_function)(size_t, size_t), void *(*user_realloc_function)(void *, size_t), void (*user_free_function)(void *));
+GrB_Info GxB_Global_Option_get(GxB_Option_Field field, ...);
+GrB_Info GxB_Global_Option_get_CHAR(GxB_Option_Field field, char **value);
+GrB_Info GxB_Global_Option_get_FP64(GxB_Option_Field field, double *value);
+GrB_Info GxB_Global_Option_get_FUNCTION(GxB_Option_Field field, void **value);
+GrB_Info GxB_Global_Option_get_INT32(GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Global_Option_get_INT64(GxB_Option_Field field, int64_t *value);
+GrB_Info GxB_Global_Option_set(GxB_Option_Field field, ...);
+GrB_Info GxB_Global_Option_set_FP64(GxB_Option_Field field, double value);
+GrB_Info GxB_Global_Option_set_FP64_ARRAY(GxB_Option_Field field, double *value);
+GrB_Info GxB_Global_Option_set_FUNCTION(GxB_Option_Field field, void *value);
+GrB_Info GxB_Global_Option_set_INT32(GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Global_Option_set_INT64_ARRAY(GxB_Option_Field field, int64_t *value);
+GrB_Info GxB_deserialize_type_name(char *type_name, const void *blob, GrB_Index blob_size);
+GrB_Info GxB_init(GrB_Mode mode, void *(*user_malloc_function)(size_t), void *(*user_calloc_function)(size_t, size_t), void *(*user_realloc_function)(void *, size_t), void (*user_free_function)(void *));
/* descriptor */
-extern GrB_Info GxB_Desc_get(GrB_Descriptor desc, GrB_Desc_Field field, char *);
-extern GrB_Info GxB_Desc_get_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double *value);
-extern GrB_Info GxB_Desc_get_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t *value);
-extern GrB_Info GxB_Desc_set(GrB_Descriptor desc, GrB_Desc_Field field, char *);
-extern GrB_Info GxB_Desc_set_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double value);
-extern GrB_Info GxB_Desc_set_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t value);
-extern GrB_Info GxB_Descriptor_fprint(GrB_Descriptor descriptor, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Descriptor_get(GrB_Desc_Value *val, GrB_Descriptor desc, GrB_Desc_Field field);
+GrB_Info GxB_Desc_get(GrB_Descriptor desc, GrB_Desc_Field field, ...);
+GrB_Info GxB_Desc_get_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double *value);
+GrB_Info GxB_Desc_get_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t *value);
+GrB_Info GxB_Desc_set(GrB_Descriptor desc, GrB_Desc_Field field, ...);
+GrB_Info GxB_Desc_set_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double value);
+GrB_Info GxB_Desc_set_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t value);
+GrB_Info GxB_Descriptor_fprint(GrB_Descriptor descriptor, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Descriptor_get(GrB_Desc_Value *val, GrB_Descriptor desc, GrB_Desc_Field field);
/* indexunary */
-extern GrB_Info GxB_IndexUnaryOp_fprint(GrB_IndexUnaryOp op, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *idxop_name, const char *idxop_defn);
-extern GrB_Info GxB_IndexUnaryOp_xtype_name(char *type_name, const GrB_IndexUnaryOp op);
-extern GrB_Info GxB_IndexUnaryOp_ytype_name(char *type_name, const GrB_IndexUnaryOp op);
-extern GrB_Info GxB_IndexUnaryOp_ztype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_fprint(GrB_IndexUnaryOp op, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *idxop_name, const char *idxop_defn);
+GrB_Info GxB_IndexUnaryOp_xtype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_ytype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_ztype_name(char *type_name, const GrB_IndexUnaryOp op);
/* iterator */
-extern GrB_Index GxB_Matrix_Iterator_getp(GxB_Iterator iterator);
-extern GrB_Index GxB_Matrix_Iterator_getpmax(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getp(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getpmax(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_getColIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_getRowIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_kount(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_getColIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_getRowIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_kount(GxB_Iterator iterator);
-extern GrB_Info GxB_Iterator_free(GxB_Iterator *iterator);
-extern GrB_Info GxB_Iterator_new(GxB_Iterator *iterator);
-extern GrB_Info GxB_Matrix_Iterator_next(GxB_Iterator iterator);
-extern GrB_Info GxB_Matrix_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
-extern GrB_Info GxB_Vector_Iterator_next(GxB_Iterator iterator);
-extern GrB_Info GxB_Vector_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
-extern GrB_Info GxB_colIterator_kseek(GxB_Iterator iterator, GrB_Index k);
-extern GrB_Info GxB_colIterator_nextCol(GxB_Iterator iterator);
-extern GrB_Info GxB_colIterator_nextRow(GxB_Iterator iterator);
-extern GrB_Info GxB_colIterator_seekCol(GxB_Iterator iterator, GrB_Index col);
-extern GrB_Info GxB_rowIterator_kseek(GxB_Iterator iterator, GrB_Index k);
-extern GrB_Info GxB_rowIterator_nextCol(GxB_Iterator iterator);
-extern GrB_Info GxB_rowIterator_nextRow(GxB_Iterator iterator);
-extern GrB_Info GxB_rowIterator_seekRow(GxB_Iterator iterator, GrB_Index row);
-extern GxB_FC32_t GxB_Iterator_get_FC32(GxB_Iterator iterator);
-extern GxB_FC64_t GxB_Iterator_get_FC64(GxB_Iterator iterator);
-extern bool GxB_Iterator_get_BOOL(GxB_Iterator iterator);
-extern double GxB_Iterator_get_FP64(GxB_Iterator iterator);
-extern float GxB_Iterator_get_FP32(GxB_Iterator iterator);
-extern int8_t GxB_Iterator_get_INT8(GxB_Iterator iterator);
-extern int16_t GxB_Iterator_get_INT16(GxB_Iterator iterator);
-extern int32_t GxB_Iterator_get_INT32(GxB_Iterator iterator);
-extern int64_t GxB_Iterator_get_INT64(GxB_Iterator iterator);
-extern uint8_t GxB_Iterator_get_UINT8(GxB_Iterator iterator);
-extern uint16_t GxB_Iterator_get_UINT16(GxB_Iterator iterator);
-extern uint32_t GxB_Iterator_get_UINT32(GxB_Iterator iterator);
-extern uint64_t GxB_Iterator_get_UINT64(GxB_Iterator iterator);
-extern void GxB_Iterator_get_UDT(GxB_Iterator iterator, void *value);
-extern void GxB_Matrix_Iterator_getIndex(GxB_Iterator iterator, GrB_Index *row, GrB_Index *col);
+GrB_Index GxB_Matrix_Iterator_getp(GxB_Iterator iterator);
+GrB_Index GxB_Matrix_Iterator_getpmax(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getIndex(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getp(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getpmax(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_getColIndex(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_getRowIndex(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_kount(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_getColIndex(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_getRowIndex(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_kount(GxB_Iterator iterator);
+GrB_Info GxB_Iterator_free(GxB_Iterator *iterator);
+GrB_Info GxB_Iterator_new(GxB_Iterator *iterator);
+GrB_Info GxB_Matrix_Iterator_next(GxB_Iterator iterator);
+GrB_Info GxB_Matrix_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
+GrB_Info GxB_Vector_Iterator_next(GxB_Iterator iterator);
+GrB_Info GxB_Vector_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
+GrB_Info GxB_colIterator_kseek(GxB_Iterator iterator, GrB_Index k);
+GrB_Info GxB_colIterator_nextCol(GxB_Iterator iterator);
+GrB_Info GxB_colIterator_nextRow(GxB_Iterator iterator);
+GrB_Info GxB_colIterator_seekCol(GxB_Iterator iterator, GrB_Index col);
+GrB_Info GxB_rowIterator_kseek(GxB_Iterator iterator, GrB_Index k);
+GrB_Info GxB_rowIterator_nextCol(GxB_Iterator iterator);
+GrB_Info GxB_rowIterator_nextRow(GxB_Iterator iterator);
+GrB_Info GxB_rowIterator_seekRow(GxB_Iterator iterator, GrB_Index row);
+GxB_FC32_t GxB_Iterator_get_FC32(GxB_Iterator iterator);
+GxB_FC64_t GxB_Iterator_get_FC64(GxB_Iterator iterator);
+bool GxB_Iterator_get_BOOL(GxB_Iterator iterator);
+double GxB_Iterator_get_FP64(GxB_Iterator iterator);
+float GxB_Iterator_get_FP32(GxB_Iterator iterator);
+int8_t GxB_Iterator_get_INT8(GxB_Iterator iterator);
+int16_t GxB_Iterator_get_INT16(GxB_Iterator iterator);
+int32_t GxB_Iterator_get_INT32(GxB_Iterator iterator);
+int64_t GxB_Iterator_get_INT64(GxB_Iterator iterator);
+uint8_t GxB_Iterator_get_UINT8(GxB_Iterator iterator);
+uint16_t GxB_Iterator_get_UINT16(GxB_Iterator iterator);
+uint32_t GxB_Iterator_get_UINT32(GxB_Iterator iterator);
+uint64_t GxB_Iterator_get_UINT64(GxB_Iterator iterator);
+void GxB_Iterator_get_UDT(GxB_Iterator iterator, void *value);
+void GxB_Matrix_Iterator_getIndex(GxB_Iterator iterator, GrB_Index *row, GrB_Index *col);
/* matrix */
-extern GrB_Info GxB_Col_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_Option_get(GrB_Matrix A, GxB_Option_Field field, char *);
-extern GrB_Info GxB_Matrix_Option_get_FP64(GrB_Matrix A, GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Matrix_Option_get_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Matrix_Option_set(GrB_Matrix A, GxB_Option_Field field, char *);
-extern GrB_Info GxB_Matrix_Option_set_FP64(GrB_Matrix A, GxB_Option_Field field, double value);
-extern GrB_Info GxB_Matrix_Option_set_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Matrix_apply_BinaryOp1st(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp1st_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp1st_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp2nd(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp2nd_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp2nd_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_IndexOp_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_IndexOp_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_assign_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_assign_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_build_FC32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const GxB_FC32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GxB_Matrix_build_FC64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const GxB_FC64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GxB_Matrix_build_Scalar(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, GrB_Scalar scalar, GrB_Index nvals);
-extern GrB_Info GxB_Matrix_concat(GrB_Matrix C, const GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_diag(GrB_Matrix C, const GrB_Vector v, int64_t k, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_eWiseUnion(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Scalar alpha, const GrB_Matrix B, const GrB_Scalar beta, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_BitmapC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_BitmapR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_CSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_CSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_FC32(GrB_Index *Ap, GrB_Index *Ai, GxB_FC32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GxB_Matrix_export_FC64(GrB_Index *Ap, GrB_Index *Ai, GxB_FC64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GxB_Matrix_export_FullC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_FullR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_HyperCSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_HyperCSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_extractElement_FC32(GxB_FC32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_extractElement_FC64(GxB_FC64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_extractTuples_FC32(GrB_Index *I, GrB_Index *J, GxB_FC32_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_extractTuples_FC64(GrB_Index *I, GrB_Index *J, GxB_FC64_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_fprint(GrB_Matrix A, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Matrix_import_BitmapC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_BitmapR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_CSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_CSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_FC32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const GxB_FC32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GxB_Matrix_import_FC64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const GxB_FC64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GxB_Matrix_import_FullC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_FullR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_HyperCSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_HyperCSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_isStoredElement(const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_iso(bool *iso, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_memoryUsage(size_t *size, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_pack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_FullC(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_FullR(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reduce_FC32(GxB_FC32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reduce_FC64(GxB_FC64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reshape(GrB_Matrix C, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reshapeDup(GrB_Matrix *C, GrB_Matrix A, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_select(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Matrix A, const GrB_Scalar Thunk, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_select_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_select_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_setElement_FC32(GrB_Matrix C, GxB_FC32_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_setElement_FC64(GrB_Matrix C, GxB_FC64_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_sort(GrB_Matrix C, GrB_Matrix P, GrB_BinaryOp op, GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_split(GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Index *Tile_nrows, const GrB_Index *Tile_ncols, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_type(GrB_Type *type, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_type_name(char *type_name, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_unpack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_FullC(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_FullR(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Row_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_diag(GrB_Vector v, const GrB_Matrix A, int64_t k, const GrB_Descriptor desc);
-extern GrB_Info GxB_colIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_pack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
-extern GrB_Info GxB_rowIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_unpack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
+GrB_Info GxB_Col_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_Matrix_Option_get(GrB_Matrix A, GxB_Option_Field field, ...);
+GrB_Info GxB_Matrix_Option_get_FP64(GrB_Matrix A, GxB_Option_Field field, double *value);
+GrB_Info GxB_Matrix_Option_get_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Matrix_Option_set(GrB_Matrix A, GxB_Option_Field field, ...);
+GrB_Info GxB_Matrix_Option_set_FP64(GrB_Matrix A, GxB_Option_Field field, double value);
+GrB_Info GxB_Matrix_Option_set_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Matrix_apply_BinaryOp1st(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp1st_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp1st_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp2nd(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp2nd_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp2nd_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_IndexOp_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_IndexOp_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_assign_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_assign_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_build_FC32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const GxB_FC32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GxB_Matrix_build_FC64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const GxB_FC64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GxB_Matrix_build_Scalar(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, GrB_Scalar scalar, GrB_Index nvals);
+GrB_Info GxB_Matrix_concat(GrB_Matrix C, const GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_diag(GrB_Matrix C, const GrB_Vector v, int64_t k, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_eWiseUnion(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Scalar alpha, const GrB_Matrix B, const GrB_Scalar beta, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_BitmapC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_BitmapR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_CSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_CSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_FC32(GrB_Index *Ap, GrB_Index *Ai, GxB_FC32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GxB_Matrix_export_FC64(GrB_Index *Ap, GrB_Index *Ai, GxB_FC64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GxB_Matrix_export_FullC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_FullR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_HyperCSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_HyperCSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_extractElement_FC32(GxB_FC32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_extractElement_FC64(GxB_FC64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_extractTuples_FC32(GrB_Index *I, GrB_Index *J, GxB_FC32_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GxB_Matrix_extractTuples_FC64(GrB_Index *I, GrB_Index *J, GxB_FC64_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GxB_Matrix_fprint(GrB_Matrix A, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Matrix_import_BitmapC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_BitmapR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_CSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_CSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_FC32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const GxB_FC32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GxB_Matrix_import_FC64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const GxB_FC64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GxB_Matrix_import_FullC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_FullR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_HyperCSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_HyperCSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_isStoredElement(const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_iso(bool *iso, const GrB_Matrix A);
+GrB_Info GxB_Matrix_memoryUsage(size_t *size, const GrB_Matrix A);
+GrB_Info GxB_Matrix_pack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_FullC(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_FullR(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reduce_FC32(GxB_FC32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reduce_FC64(GxB_FC64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reshape(GrB_Matrix C, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reshapeDup(GrB_Matrix *C, GrB_Matrix A, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_select(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Matrix A, const GrB_Scalar Thunk, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_select_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_select_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_setElement_FC32(GrB_Matrix C, GxB_FC32_t x, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_setElement_FC64(GrB_Matrix C, GxB_FC64_t x, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_sort(GrB_Matrix C, GrB_Matrix P, GrB_BinaryOp op, GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_split(GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Index *Tile_nrows, const GrB_Index *Tile_ncols, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FC32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FC64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_type(GrB_Type *type, const GrB_Matrix A);
+GrB_Info GxB_Matrix_type_name(char *type_name, const GrB_Matrix A);
+GrB_Info GxB_Matrix_unpack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_FullC(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_FullR(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Row_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_diag(GrB_Vector v, const GrB_Matrix A, int64_t k, const GrB_Descriptor desc);
+GrB_Info GxB_colIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_pack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
+GrB_Info GxB_rowIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_unpack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
/* monoid */
-extern GrB_Info GxB_Monoid_fprint(GrB_Monoid monoid, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Monoid_identity(void *identity, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_new_FC32(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC32_t identity);
-extern GrB_Info GxB_Monoid_new_FC64(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC64_t identity);
-extern GrB_Info GxB_Monoid_operator(GrB_BinaryOp *op, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_terminal(bool *has_terminal, void *terminal, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_terminal_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity, bool terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FC32(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC32_t identity, GxB_FC32_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FC64(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC64_t identity, GxB_FC64_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity, float terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity, double terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity, int8_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity, int16_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity, int32_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity, int64_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity, void *terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity, uint8_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity, uint16_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity, uint32_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity, uint64_t terminal);
+GrB_Info GxB_Monoid_fprint(GrB_Monoid monoid, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Monoid_identity(void *identity, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_new_FC32(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC32_t identity);
+GrB_Info GxB_Monoid_new_FC64(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC64_t identity);
+GrB_Info GxB_Monoid_operator(GrB_BinaryOp *op, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_terminal(bool *has_terminal, void *terminal, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_terminal_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity, bool terminal);
+GrB_Info GxB_Monoid_terminal_new_FC32(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC32_t identity, GxB_FC32_t terminal);
+GrB_Info GxB_Monoid_terminal_new_FC64(GrB_Monoid *monoid, GrB_BinaryOp op, GxB_FC64_t identity, GxB_FC64_t terminal);
+GrB_Info GxB_Monoid_terminal_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity, float terminal);
+GrB_Info GxB_Monoid_terminal_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity, double terminal);
+GrB_Info GxB_Monoid_terminal_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity, int8_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity, int16_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity, int32_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity, int64_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity, void *terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity, uint8_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity, uint16_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity, uint32_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity, uint64_t terminal);
/* scalar */
-extern GrB_Info GxB_Scalar_clear(GrB_Scalar s);
-extern GrB_Info GxB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
-extern GrB_Info GxB_Scalar_error(const char **error, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FC32(GxB_FC32_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FC64(GxB_FC64_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_fprint(GrB_Scalar s, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Scalar_free(GrB_Scalar *s);
-extern GrB_Info GxB_Scalar_memoryUsage(size_t *size, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_new(GrB_Scalar *s, GrB_Type type);
-extern GrB_Info GxB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
-extern GrB_Info GxB_Scalar_setElement_FC32(GrB_Scalar s, GxB_FC32_t x);
-extern GrB_Info GxB_Scalar_setElement_FC64(GrB_Scalar s, GxB_FC64_t x);
-extern GrB_Info GxB_Scalar_setElement_FP32(GrB_Scalar s, float x);
-extern GrB_Info GxB_Scalar_setElement_FP64(GrB_Scalar s, double x);
-extern GrB_Info GxB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
-extern GrB_Info GxB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
-extern GrB_Info GxB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
-extern GrB_Info GxB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
-extern GrB_Info GxB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
-extern GrB_Info GxB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
-extern GrB_Info GxB_Scalar_type(GrB_Type *type, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_type_name(char *type_name, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_wait(GrB_Scalar *s);
+GrB_Info GxB_Scalar_clear(GrB_Scalar s);
+GrB_Info GxB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
+GrB_Info GxB_Scalar_error(const char **error, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FC32(GxB_FC32_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FC64(GxB_FC64_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_fprint(GrB_Scalar s, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Scalar_free(GrB_Scalar *s);
+GrB_Info GxB_Scalar_memoryUsage(size_t *size, const GrB_Scalar s);
+GrB_Info GxB_Scalar_new(GrB_Scalar *s, GrB_Type type);
+GrB_Info GxB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
+GrB_Info GxB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
+GrB_Info GxB_Scalar_setElement_FC32(GrB_Scalar s, GxB_FC32_t x);
+GrB_Info GxB_Scalar_setElement_FC64(GrB_Scalar s, GxB_FC64_t x);
+GrB_Info GxB_Scalar_setElement_FP32(GrB_Scalar s, float x);
+GrB_Info GxB_Scalar_setElement_FP64(GrB_Scalar s, double x);
+GrB_Info GxB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
+GrB_Info GxB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
+GrB_Info GxB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
+GrB_Info GxB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
+GrB_Info GxB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
+GrB_Info GxB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
+GrB_Info GxB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
+GrB_Info GxB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
+GrB_Info GxB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
+GrB_Info GxB_Scalar_type(GrB_Type *type, const GrB_Scalar s);
+GrB_Info GxB_Scalar_type_name(char *type_name, const GrB_Scalar s);
+GrB_Info GxB_Scalar_wait(GrB_Scalar *s);
/* selectop */
-extern GrB_Info GxB_SelectOp_error(const char **error, const GxB_SelectOp op);
-extern GrB_Info GxB_SelectOp_fprint(GxB_SelectOp selectop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_SelectOp_free(GxB_SelectOp *selectop);
-extern GrB_Info GxB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype);
-extern GrB_Info GxB_SelectOp_ttype(GrB_Type *ttype, GxB_SelectOp selectop);
-extern GrB_Info GxB_SelectOp_wait(GxB_SelectOp op, GrB_WaitMode waitmode);
-extern GrB_Info GxB_SelectOp_xtype(GrB_Type *xtype, GxB_SelectOp selectop);
+GrB_Info GxB_SelectOp_error(const char **error, const GxB_SelectOp op);
+GrB_Info GxB_SelectOp_fprint(GxB_SelectOp selectop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_SelectOp_free(GxB_SelectOp *selectop);
+GrB_Info GxB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype);
+GrB_Info GxB_SelectOp_ttype(GrB_Type *ttype, GxB_SelectOp selectop);
+GrB_Info GxB_SelectOp_wait(GxB_SelectOp op, GrB_WaitMode waitmode);
+GrB_Info GxB_SelectOp_xtype(GrB_Type *xtype, GxB_SelectOp selectop);
/* semiring */
-extern GrB_Info GxB_Semiring_add(GrB_Monoid *add, GrB_Semiring semiring);
-extern GrB_Info GxB_Semiring_fprint(GrB_Semiring semiring, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Semiring_multiply(GrB_BinaryOp *multiply, GrB_Semiring semiring);
+GrB_Info GxB_Semiring_add(GrB_Monoid *add, GrB_Semiring semiring);
+GrB_Info GxB_Semiring_fprint(GrB_Semiring semiring, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Semiring_multiply(GrB_BinaryOp *multiply, GrB_Semiring semiring);
/* type */
-extern GrB_Info GxB_Type_fprint(GrB_Type type, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Type_from_name(GrB_Type *type, const char *type_name);
-extern GrB_Info GxB_Type_name(char *type_name, const GrB_Type type);
-extern GrB_Info GxB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name, const char *type_defn);
-extern GrB_Info GxB_Type_size(size_t *size, const GrB_Type type);
+GrB_Info GxB_Type_fprint(GrB_Type type, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Type_from_name(GrB_Type *type, const char *type_name);
+GrB_Info GxB_Type_name(char *type_name, const GrB_Type type);
+GrB_Info GxB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name, const char *type_defn);
+GrB_Info GxB_Type_size(size_t *size, const GrB_Type type);
/* unary */
-extern GrB_Info GxB_UnaryOp_fprint(GrB_UnaryOp unaryop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name, const char *unop_defn);
-extern GrB_Info GxB_UnaryOp_xtype(GrB_Type *xtype, GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_xtype_name(char *type_name, const GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_ztype(GrB_Type *ztype, GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_ztype_name(char *type_name, const GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_fprint(GrB_UnaryOp unaryop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name, const char *unop_defn);
+GrB_Info GxB_UnaryOp_xtype(GrB_Type *xtype, GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_xtype_name(char *type_name, const GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_ztype(GrB_Type *ztype, GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_ztype_name(char *type_name, const GrB_UnaryOp unaryop);
/* vector */
-extern GrB_Info GxB_Vector_Iterator_attach(GxB_Iterator iterator, GrB_Vector v, GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_Option_get(GrB_Vector A, GxB_Option_Field field, char *);
-extern GrB_Info GxB_Vector_Option_get_FP64(GrB_Vector v, GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Vector_Option_get_INT32(GrB_Vector v, GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Vector_Option_set(GrB_Vector A, GxB_Option_Field field, char *);
-extern GrB_Info GxB_Vector_Option_set_FP64(GrB_Vector v, GxB_Option_Field field, double value);
-extern GrB_Info GxB_Vector_Option_set_INT32(GrB_Vector v, GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Vector_apply_BinaryOp1st(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp1st_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC32_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp1st_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC64_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp2nd(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp2nd_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp2nd_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_IndexOp_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_IndexOp_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_assign_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_assign_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_build_FC32(GrB_Vector w, const GrB_Index *I, const GxB_FC32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GxB_Vector_build_FC64(GrB_Vector w, const GrB_Index *I, const GxB_FC64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GxB_Vector_build_Scalar(GrB_Vector w, const GrB_Index *I, GrB_Scalar scalar, GrB_Index nvals);
-extern GrB_Info GxB_Vector_deserialize(GrB_Vector *w, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_eWiseUnion(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Scalar alpha, const GrB_Vector v, const GrB_Scalar beta, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_Bitmap(GrB_Vector *v, GrB_Type *type, GrB_Index *n, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_CSC(GrB_Vector *v, GrB_Type *type, GrB_Index *n, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_Full(GrB_Vector *v, GrB_Type *type, GrB_Index *n, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_extractElement_FC32(GxB_FC32_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GxB_Vector_extractElement_FC64(GxB_FC64_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GxB_Vector_extractTuples_FC32(GrB_Index *I, GxB_FC32_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GxB_Vector_extractTuples_FC64(GrB_Index *I, GxB_FC64_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GxB_Vector_fprint(GrB_Vector v, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Vector_import_Bitmap(GrB_Vector *v, GrB_Type type, GrB_Index n, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_import_CSC(GrB_Vector *v, GrB_Type type, GrB_Index n, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_import_Full(GrB_Vector *v, GrB_Type type, GrB_Index n, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_isStoredElement(const GrB_Vector v, GrB_Index i);
-extern GrB_Info GxB_Vector_iso(bool *iso, const GrB_Vector v);
-extern GrB_Info GxB_Vector_memoryUsage(size_t *size, const GrB_Vector v);
-extern GrB_Info GxB_Vector_pack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_pack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_pack_Full(GrB_Vector v, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_reduce_FC32(GxB_FC32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_reduce_FC64(GxB_FC64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_select(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Vector u, const GrB_Scalar Thunk, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_select_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_select_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_setElement_FC32(GrB_Vector w, GxB_FC32_t x, GrB_Index i);
-extern GrB_Info GxB_Vector_setElement_FC64(GrB_Vector w, GxB_FC64_t x, GrB_Index i);
-extern GrB_Info GxB_Vector_sort(GrB_Vector w, GrB_Vector p, GrB_BinaryOp op, GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_type(GrB_Type *type, const GrB_Vector v);
-extern GrB_Info GxB_Vector_type_name(char *type_name, const GrB_Vector v);
-extern GrB_Info GxB_Vector_unpack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_unpack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_unpack_Full(GrB_Vector v, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_Iterator_attach(GxB_Iterator iterator, GrB_Vector v, GrB_Descriptor desc);
+GrB_Info GxB_Vector_Option_get(GrB_Vector A, GxB_Option_Field field, ...);
+GrB_Info GxB_Vector_Option_get_FP64(GrB_Vector v, GxB_Option_Field field, double *value);
+GrB_Info GxB_Vector_Option_get_INT32(GrB_Vector v, GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Vector_Option_set(GrB_Vector A, GxB_Option_Field field, ...);
+GrB_Info GxB_Vector_Option_set_FP64(GrB_Vector v, GxB_Option_Field field, double value);
+GrB_Info GxB_Vector_Option_set_INT32(GrB_Vector v, GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Vector_apply_BinaryOp1st(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp1st_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC32_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp1st_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, GxB_FC64_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp2nd(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp2nd_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp2nd_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_IndexOp_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_IndexOp_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_assign_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_assign_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_build_FC32(GrB_Vector w, const GrB_Index *I, const GxB_FC32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GxB_Vector_build_FC64(GrB_Vector w, const GrB_Index *I, const GxB_FC64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GxB_Vector_build_Scalar(GrB_Vector w, const GrB_Index *I, GrB_Scalar scalar, GrB_Index nvals);
+GrB_Info GxB_Vector_deserialize(GrB_Vector *w, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_eWiseUnion(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Scalar alpha, const GrB_Vector v, const GrB_Scalar beta, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_Bitmap(GrB_Vector *v, GrB_Type *type, GrB_Index *n, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_CSC(GrB_Vector *v, GrB_Type *type, GrB_Index *n, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_Full(GrB_Vector *v, GrB_Type *type, GrB_Index *n, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_extractElement_FC32(GxB_FC32_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GxB_Vector_extractElement_FC64(GxB_FC64_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GxB_Vector_extractTuples_FC32(GrB_Index *I, GxB_FC32_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GxB_Vector_extractTuples_FC64(GrB_Index *I, GxB_FC64_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GxB_Vector_fprint(GrB_Vector v, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Vector_import_Bitmap(GrB_Vector *v, GrB_Type type, GrB_Index n, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_import_CSC(GrB_Vector *v, GrB_Type type, GrB_Index n, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_import_Full(GrB_Vector *v, GrB_Type type, GrB_Index n, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_isStoredElement(const GrB_Vector v, GrB_Index i);
+GrB_Info GxB_Vector_iso(bool *iso, const GrB_Vector v);
+GrB_Info GxB_Vector_memoryUsage(size_t *size, const GrB_Vector v);
+GrB_Info GxB_Vector_pack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_pack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_pack_Full(GrB_Vector v, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_reduce_FC32(GxB_FC32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_reduce_FC64(GxB_FC64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_select(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Vector u, const GrB_Scalar Thunk, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_select_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC32_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_select_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, GxB_FC64_t y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_setElement_FC32(GrB_Vector w, GxB_FC32_t x, GrB_Index i);
+GrB_Info GxB_Vector_setElement_FC64(GrB_Vector w, GxB_FC64_t x, GrB_Index i);
+GrB_Info GxB_Vector_sort(GrB_Vector w, GrB_Vector p, GrB_BinaryOp op, GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FC32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FC64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GxB_FC64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_type(GrB_Type *type, const GrB_Vector v);
+GrB_Info GxB_Vector_type_name(char *type_name, const GrB_Vector v);
+GrB_Info GxB_Vector_unpack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_unpack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_unpack_Full(GrB_Vector v, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
/* int DEFINES */
#define GRB_SUBVERSION ...
diff --git a/suitesparse_graphblas/suitesparse_graphblas_no_complex.h b/suitesparse_graphblas/suitesparse_graphblas_no_complex.h
index f8ac38f..0ce6e93 100644
--- a/suitesparse_graphblas/suitesparse_graphblas_no_complex.h
+++ b/suitesparse_graphblas/suitesparse_graphblas_no_complex.h
@@ -2451,764 +2451,764 @@ extern GxB_SelectOp GxB_TRIU;
****************/
/* binary */
-extern GrB_Info GrB_BinaryOp_error(const char **error, const GrB_BinaryOp op);
-extern GrB_Info GrB_BinaryOp_free(GrB_BinaryOp *binaryop);
-extern GrB_Info GrB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
-extern GrB_Info GrB_BinaryOp_wait(GrB_BinaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_BinaryOp_error(const char **error, const GrB_BinaryOp op);
+GrB_Info GrB_BinaryOp_free(GrB_BinaryOp *binaryop);
+GrB_Info GrB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
+GrB_Info GrB_BinaryOp_wait(GrB_BinaryOp op, GrB_WaitMode waitmode);
/* core */
-extern GrB_Info GrB_finalize(void);
-extern GrB_Info GrB_getVersion(unsigned int *version, unsigned int *subversion);
-extern GrB_Info GrB_init(GrB_Mode mode);
+GrB_Info GrB_finalize(void);
+GrB_Info GrB_getVersion(unsigned int *version, unsigned int *subversion);
+GrB_Info GrB_init(GrB_Mode mode);
/* descriptor */
-extern GrB_Info GrB_Descriptor_error(const char **error, const GrB_Descriptor d);
-extern GrB_Info GrB_Descriptor_free(GrB_Descriptor *descriptor);
-extern GrB_Info GrB_Descriptor_new(GrB_Descriptor *descriptor);
-extern GrB_Info GrB_Descriptor_set(GrB_Descriptor desc, GrB_Desc_Field field, GrB_Desc_Value val);
-extern GrB_Info GrB_Descriptor_wait(GrB_Descriptor desc, GrB_WaitMode waitmode);
+GrB_Info GrB_Descriptor_error(const char **error, const GrB_Descriptor d);
+GrB_Info GrB_Descriptor_free(GrB_Descriptor *descriptor);
+GrB_Info GrB_Descriptor_new(GrB_Descriptor *descriptor);
+GrB_Info GrB_Descriptor_set(GrB_Descriptor desc, GrB_Desc_Field field, GrB_Desc_Value val);
+GrB_Info GrB_Descriptor_wait(GrB_Descriptor desc, GrB_WaitMode waitmode);
/* indexunary */
-extern GrB_Info GrB_IndexUnaryOp_error(const char **error, const GrB_IndexUnaryOp op);
-extern GrB_Info GrB_IndexUnaryOp_free(GrB_IndexUnaryOp *op);
-extern GrB_Info GrB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
-extern GrB_Info GrB_IndexUnaryOp_wait(GrB_IndexUnaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_IndexUnaryOp_error(const char **error, const GrB_IndexUnaryOp op);
+GrB_Info GrB_IndexUnaryOp_free(GrB_IndexUnaryOp *op);
+GrB_Info GrB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype);
+GrB_Info GrB_IndexUnaryOp_wait(GrB_IndexUnaryOp op, GrB_WaitMode waitmode);
/* matrix */
-extern GrB_Info GrB_Col_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GrB_Col_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_apply_IndexOp_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_assign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_build_BOOL(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_FP32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_FP64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_INT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UDT(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_build_UINT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Matrix_clear(GrB_Matrix A);
-extern GrB_Info GrB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size);
-extern GrB_Info GrB_Matrix_diag(GrB_Matrix *C, const GrB_Vector v, int64_t k);
-extern GrB_Info GrB_Matrix_dup(GrB_Matrix *C, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_eWiseAdd_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseAdd_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseAdd_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_eWiseMult_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_error(const char **error, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_exportHint(GrB_Format *format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_exportSize(GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_BOOL(GrB_Index *Ap, GrB_Index *Ai, bool *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_FP32(GrB_Index *Ap, GrB_Index *Ai, float *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_FP64(GrB_Index *Ap, GrB_Index *Ai, double *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT8(GrB_Index *Ap, GrB_Index *Ai, int8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT16(GrB_Index *Ap, GrB_Index *Ai, int16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT32(GrB_Index *Ap, GrB_Index *Ai, int32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_INT64(GrB_Index *Ap, GrB_Index *Ai, int64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UDT(GrB_Index *Ap, GrB_Index *Ai, void *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT8(GrB_Index *Ap, GrB_Index *Ai, uint8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT16(GrB_Index *Ap, GrB_Index *Ai, uint16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT32(GrB_Index *Ap, GrB_Index *Ai, uint32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_export_UINT64(GrB_Index *Ap, GrB_Index *Ai, uint64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extract(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_extractElement_BOOL(bool *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_FP32(float *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_FP64(double *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT8(int8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT16(int16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT32(int32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_INT64(int64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_Scalar(GrB_Scalar x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UDT(void *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT8(uint8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT16(uint16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT32(uint32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractElement_UINT64(uint64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_extractTuples_BOOL(GrB_Index *I, GrB_Index *J, bool *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_FP32(GrB_Index *I, GrB_Index *J, float *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_FP64(GrB_Index *I, GrB_Index *J, double *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT8(GrB_Index *I, GrB_Index *J, int8_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT16(GrB_Index *I, GrB_Index *J, int16_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT32(GrB_Index *I, GrB_Index *J, int32_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_INT64(GrB_Index *I, GrB_Index *J, int64_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UDT(GrB_Index *I, GrB_Index *J, void *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT8(GrB_Index *I, GrB_Index *J, uint8_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT16(GrB_Index *I, GrB_Index *J, uint16_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT32(GrB_Index *I, GrB_Index *J, uint32_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_extractTuples_UINT64(GrB_Index *I, GrB_Index *J, uint64_t *X, GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_free(GrB_Matrix *A);
-extern GrB_Info GrB_Matrix_import_BOOL(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const bool *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_FP32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const float *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_FP64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const double *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_INT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UDT(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const void *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_import_UINT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
-extern GrB_Info GrB_Matrix_kronecker_BinaryOp(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_kronecker_Monoid(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_kronecker_Semiring(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_ncols(GrB_Index *ncols, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_new(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols);
-extern GrB_Info GrB_Matrix_nrows(GrB_Index *nrows, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_nvals(GrB_Index *nvals, const GrB_Matrix A);
-extern GrB_Info GrB_Matrix_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_BinaryOp_Scalar(GrB_Scalar S, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_removeElement(GrB_Matrix C, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_resize(GrB_Matrix C, GrB_Index nrows_new, GrB_Index ncols_new);
-extern GrB_Info GrB_Matrix_select_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_select_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Matrix_serialize(void *blob, GrB_Index *blob_size_handle, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_serializeSize(GrB_Index *blob_size_handle, GrB_Matrix A);
-extern GrB_Info GrB_Matrix_setElement_BOOL(GrB_Matrix C, bool x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_FP32(GrB_Matrix C, float x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_FP64(GrB_Matrix C, double x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT8(GrB_Matrix C, int8_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT16(GrB_Matrix C, int16_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT32(GrB_Matrix C, int32_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_INT64(GrB_Matrix C, int64_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_Scalar(GrB_Matrix C, GrB_Scalar x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UDT(GrB_Matrix C, void *x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT8(GrB_Matrix C, uint8_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT16(GrB_Matrix C, uint16_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT32(GrB_Matrix C, uint32_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_setElement_UINT64(GrB_Matrix C, uint64_t x, GrB_Index i, GrB_Index j);
-extern GrB_Info GrB_Matrix_wait(GrB_Matrix A, GrB_WaitMode waitmode);
-extern GrB_Info GrB_Row_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GrB_mxm(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
-extern GrB_Info GrB_mxv(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_transpose(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GrB_vxm(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Col_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GrB_Col_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp1st_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_BinaryOp2nd_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_apply_IndexOp_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_assign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_build_BOOL(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_FP32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_FP64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_INT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UDT(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT8(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT16(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT32(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_build_UINT64(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Matrix_clear(GrB_Matrix A);
+GrB_Info GrB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size);
+GrB_Info GrB_Matrix_diag(GrB_Matrix *C, const GrB_Vector v, int64_t k);
+GrB_Info GrB_Matrix_dup(GrB_Matrix *C, const GrB_Matrix A);
+GrB_Info GrB_Matrix_eWiseAdd_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseAdd_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseAdd_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_BinaryOp(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_Monoid(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_eWiseMult_Semiring(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_error(const char **error, const GrB_Matrix A);
+GrB_Info GrB_Matrix_exportHint(GrB_Format *format, GrB_Matrix A);
+GrB_Info GrB_Matrix_exportSize(GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_BOOL(GrB_Index *Ap, GrB_Index *Ai, bool *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_FP32(GrB_Index *Ap, GrB_Index *Ai, float *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_FP64(GrB_Index *Ap, GrB_Index *Ai, double *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT8(GrB_Index *Ap, GrB_Index *Ai, int8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT16(GrB_Index *Ap, GrB_Index *Ai, int16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT32(GrB_Index *Ap, GrB_Index *Ai, int32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_INT64(GrB_Index *Ap, GrB_Index *Ai, int64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UDT(GrB_Index *Ap, GrB_Index *Ai, void *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT8(GrB_Index *Ap, GrB_Index *Ai, uint8_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT16(GrB_Index *Ap, GrB_Index *Ai, uint16_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT32(GrB_Index *Ap, GrB_Index *Ai, uint32_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_export_UINT64(GrB_Index *Ap, GrB_Index *Ai, uint64_t *Ax, GrB_Index *Ap_len, GrB_Index *Ai_len, GrB_Index *Ax_len, GrB_Format format, GrB_Matrix A);
+GrB_Info GrB_Matrix_extract(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_extractElement_BOOL(bool *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_FP32(float *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_FP64(double *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT8(int8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT16(int16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT32(int32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_INT64(int64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_Scalar(GrB_Scalar x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UDT(void *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT8(uint8_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT16(uint16_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT32(uint32_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractElement_UINT64(uint64_t *x, const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_extractTuples_BOOL(GrB_Index *I, GrB_Index *J, bool *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_FP32(GrB_Index *I, GrB_Index *J, float *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_FP64(GrB_Index *I, GrB_Index *J, double *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT8(GrB_Index *I, GrB_Index *J, int8_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT16(GrB_Index *I, GrB_Index *J, int16_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT32(GrB_Index *I, GrB_Index *J, int32_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_INT64(GrB_Index *I, GrB_Index *J, int64_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UDT(GrB_Index *I, GrB_Index *J, void *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT8(GrB_Index *I, GrB_Index *J, uint8_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT16(GrB_Index *I, GrB_Index *J, uint16_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT32(GrB_Index *I, GrB_Index *J, uint32_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_extractTuples_UINT64(GrB_Index *I, GrB_Index *J, uint64_t *X, GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_free(GrB_Matrix *A);
+GrB_Info GrB_Matrix_import_BOOL(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const bool *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_FP32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const float *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_FP64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const double *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_INT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const int64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UDT(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const void *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT8(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint8_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT16(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint16_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT32(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint32_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_import_UINT64(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, const GrB_Index *Ap, const GrB_Index *Ai, const uint64_t *Ax, GrB_Index Ap_len, GrB_Index Ai_len, GrB_Index Ax_len, GrB_Format format);
+GrB_Info GrB_Matrix_kronecker_BinaryOp(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_kronecker_Monoid(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_kronecker_Semiring(GrB_Matrix C, const GrB_Matrix M, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_ncols(GrB_Index *ncols, const GrB_Matrix A);
+GrB_Info GrB_Matrix_new(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols);
+GrB_Info GrB_Matrix_nrows(GrB_Index *nrows, const GrB_Matrix A);
+GrB_Info GrB_Matrix_nvals(GrB_Index *nvals, const GrB_Matrix A);
+GrB_Info GrB_Matrix_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_BinaryOp_Scalar(GrB_Scalar S, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_removeElement(GrB_Matrix C, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_resize(GrB_Matrix C, GrB_Index nrows_new, GrB_Index ncols_new);
+GrB_Info GrB_Matrix_select_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_select_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Matrix A, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Matrix_serialize(void *blob, GrB_Index *blob_size_handle, GrB_Matrix A);
+GrB_Info GrB_Matrix_serializeSize(GrB_Index *blob_size_handle, GrB_Matrix A);
+GrB_Info GrB_Matrix_setElement_BOOL(GrB_Matrix C, bool x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_FP32(GrB_Matrix C, float x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_FP64(GrB_Matrix C, double x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT8(GrB_Matrix C, int8_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT16(GrB_Matrix C, int16_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT32(GrB_Matrix C, int32_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_INT64(GrB_Matrix C, int64_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_Scalar(GrB_Matrix C, GrB_Scalar x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UDT(GrB_Matrix C, void *x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT8(GrB_Matrix C, uint8_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT16(GrB_Matrix C, uint16_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT32(GrB_Matrix C, uint32_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_setElement_UINT64(GrB_Matrix C, uint64_t x, GrB_Index i, GrB_Index j);
+GrB_Info GrB_Matrix_wait(GrB_Matrix A, GrB_WaitMode waitmode);
+GrB_Info GrB_Row_assign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GrB_mxm(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Matrix B, const GrB_Descriptor desc);
+GrB_Info GrB_mxv(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Matrix A, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_transpose(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GrB_vxm(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Matrix A, const GrB_Descriptor desc);
/* monoid */
-extern GrB_Info GrB_Monoid_error(const char **error, const GrB_Monoid monoid);
-extern GrB_Info GrB_Monoid_free(GrB_Monoid *monoid);
-extern GrB_Info GrB_Monoid_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity);
-extern GrB_Info GrB_Monoid_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity);
-extern GrB_Info GrB_Monoid_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity);
-extern GrB_Info GrB_Monoid_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity);
-extern GrB_Info GrB_Monoid_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity);
-extern GrB_Info GrB_Monoid_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity);
-extern GrB_Info GrB_Monoid_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity);
-extern GrB_Info GrB_Monoid_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity);
-extern GrB_Info GrB_Monoid_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity);
-extern GrB_Info GrB_Monoid_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity);
-extern GrB_Info GrB_Monoid_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity);
-extern GrB_Info GrB_Monoid_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity);
-extern GrB_Info GrB_Monoid_wait(GrB_Monoid monoid, GrB_WaitMode waitmode);
+GrB_Info GrB_Monoid_error(const char **error, const GrB_Monoid monoid);
+GrB_Info GrB_Monoid_free(GrB_Monoid *monoid);
+GrB_Info GrB_Monoid_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity);
+GrB_Info GrB_Monoid_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity);
+GrB_Info GrB_Monoid_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity);
+GrB_Info GrB_Monoid_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity);
+GrB_Info GrB_Monoid_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity);
+GrB_Info GrB_Monoid_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity);
+GrB_Info GrB_Monoid_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity);
+GrB_Info GrB_Monoid_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity);
+GrB_Info GrB_Monoid_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity);
+GrB_Info GrB_Monoid_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity);
+GrB_Info GrB_Monoid_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity);
+GrB_Info GrB_Monoid_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity);
+GrB_Info GrB_Monoid_wait(GrB_Monoid monoid, GrB_WaitMode waitmode);
/* scalar */
-extern GrB_Info GrB_Scalar_clear(GrB_Scalar s);
-extern GrB_Info GrB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
-extern GrB_Info GrB_Scalar_error(const char **error, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_free(GrB_Scalar *s);
-extern GrB_Info GrB_Scalar_new(GrB_Scalar *s, GrB_Type type);
-extern GrB_Info GrB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
-extern GrB_Info GrB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
-extern GrB_Info GrB_Scalar_setElement_FP32(GrB_Scalar s, float x);
-extern GrB_Info GrB_Scalar_setElement_FP64(GrB_Scalar s, double x);
-extern GrB_Info GrB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
-extern GrB_Info GrB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
-extern GrB_Info GrB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
-extern GrB_Info GrB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
-extern GrB_Info GrB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
-extern GrB_Info GrB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
-extern GrB_Info GrB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
-extern GrB_Info GrB_Scalar_wait(GrB_Scalar s, GrB_WaitMode waitmode);
+GrB_Info GrB_Scalar_clear(GrB_Scalar s);
+GrB_Info GrB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
+GrB_Info GrB_Scalar_error(const char **error, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
+GrB_Info GrB_Scalar_free(GrB_Scalar *s);
+GrB_Info GrB_Scalar_new(GrB_Scalar *s, GrB_Type type);
+GrB_Info GrB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
+GrB_Info GrB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
+GrB_Info GrB_Scalar_setElement_FP32(GrB_Scalar s, float x);
+GrB_Info GrB_Scalar_setElement_FP64(GrB_Scalar s, double x);
+GrB_Info GrB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
+GrB_Info GrB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
+GrB_Info GrB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
+GrB_Info GrB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
+GrB_Info GrB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
+GrB_Info GrB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
+GrB_Info GrB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
+GrB_Info GrB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
+GrB_Info GrB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
+GrB_Info GrB_Scalar_wait(GrB_Scalar s, GrB_WaitMode waitmode);
/* semiring */
-extern GrB_Info GrB_Semiring_error(const char **error, const GrB_Semiring semiring);
-extern GrB_Info GrB_Semiring_free(GrB_Semiring *semiring);
-extern GrB_Info GrB_Semiring_new(GrB_Semiring *semiring, GrB_Monoid add, GrB_BinaryOp multiply);
-extern GrB_Info GrB_Semiring_wait(GrB_Semiring semiring, GrB_WaitMode waitmode);
+GrB_Info GrB_Semiring_error(const char **error, const GrB_Semiring semiring);
+GrB_Info GrB_Semiring_free(GrB_Semiring *semiring);
+GrB_Info GrB_Semiring_new(GrB_Semiring *semiring, GrB_Monoid add, GrB_BinaryOp multiply);
+GrB_Info GrB_Semiring_wait(GrB_Semiring semiring, GrB_WaitMode waitmode);
/* type */
-extern GrB_Info GrB_Type_error(const char **error, const GrB_Type type);
-extern GrB_Info GrB_Type_free(GrB_Type *type);
-extern GrB_Info GrB_Type_new(GrB_Type *type, size_t sizeof_ctype);
-extern GrB_Info GrB_Type_wait(GrB_Type type, GrB_WaitMode waitmode);
+GrB_Info GrB_Type_error(const char **error, const GrB_Type type);
+GrB_Info GrB_Type_free(GrB_Type *type);
+GrB_Info GrB_Type_new(GrB_Type *type, size_t sizeof_ctype);
+GrB_Info GrB_Type_wait(GrB_Type type, GrB_WaitMode waitmode);
/* unary */
-extern GrB_Info GrB_UnaryOp_error(const char **error, const GrB_UnaryOp op);
-extern GrB_Info GrB_UnaryOp_free(GrB_UnaryOp *unaryop);
-extern GrB_Info GrB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype);
-extern GrB_Info GrB_UnaryOp_wait(GrB_UnaryOp op, GrB_WaitMode waitmode);
+GrB_Info GrB_UnaryOp_error(const char **error, const GrB_UnaryOp op);
+GrB_Info GrB_UnaryOp_free(GrB_UnaryOp *unaryop);
+GrB_Info GrB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype);
+GrB_Info GrB_UnaryOp_wait(GrB_UnaryOp op, GrB_WaitMode waitmode);
/* vector */
-extern GrB_Info GrB_Vector_apply(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp1st_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_apply_IndexOp_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_assign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_build_BOOL(GrB_Vector w, const GrB_Index *I, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_FP32(GrB_Vector w, const GrB_Index *I, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_FP64(GrB_Vector w, const GrB_Index *I, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT8(GrB_Vector w, const GrB_Index *I, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT16(GrB_Vector w, const GrB_Index *I, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT32(GrB_Vector w, const GrB_Index *I, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_INT64(GrB_Vector w, const GrB_Index *I, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UDT(GrB_Vector w, const GrB_Index *I, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT8(GrB_Vector w, const GrB_Index *I, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT16(GrB_Vector w, const GrB_Index *I, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT32(GrB_Vector w, const GrB_Index *I, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_build_UINT64(GrB_Vector w, const GrB_Index *I, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
-extern GrB_Info GrB_Vector_clear(GrB_Vector v);
-extern GrB_Info GrB_Vector_dup(GrB_Vector *w, const GrB_Vector u);
-extern GrB_Info GrB_Vector_eWiseAdd_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseAdd_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseAdd_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_eWiseMult_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_error(const char **error, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_extractElement_BOOL(bool *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_FP32(float *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_FP64(double *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT8(int8_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT16(int16_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT32(int32_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_INT64(int64_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_Scalar(GrB_Scalar x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UDT(void *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT8(uint8_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT16(uint16_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT32(uint32_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractElement_UINT64(uint64_t *x, const GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_extractTuples_BOOL(GrB_Index *I, bool *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_FP32(GrB_Index *I, float *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_FP64(GrB_Index *I, double *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT8(GrB_Index *I, int8_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT16(GrB_Index *I, int16_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT32(GrB_Index *I, int32_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_INT64(GrB_Index *I, int64_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UDT(GrB_Index *I, void *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT8(GrB_Index *I, uint8_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT16(GrB_Index *I, uint16_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT32(GrB_Index *I, uint32_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_extractTuples_UINT64(GrB_Index *I, uint64_t *X, GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_free(GrB_Vector *v);
-extern GrB_Info GrB_Vector_new(GrB_Vector *v, GrB_Type type, GrB_Index n);
-extern GrB_Info GrB_Vector_nvals(GrB_Index *nvals, const GrB_Vector v);
-extern GrB_Info GrB_Vector_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_BinaryOp_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_removeElement(GrB_Vector v, GrB_Index i);
-extern GrB_Info GrB_Vector_resize(GrB_Vector w, GrB_Index nrows_new);
-extern GrB_Info GrB_Vector_select_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_select_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
-extern GrB_Info GrB_Vector_setElement_BOOL(GrB_Vector w, bool x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_FP32(GrB_Vector w, float x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_FP64(GrB_Vector w, double x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT8(GrB_Vector w, int8_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT16(GrB_Vector w, int16_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT32(GrB_Vector w, int32_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_INT64(GrB_Vector w, int64_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_Scalar(GrB_Vector w, GrB_Scalar x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UDT(GrB_Vector w, void *x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT8(GrB_Vector w, uint8_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT16(GrB_Vector w, uint16_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT32(GrB_Vector w, uint32_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_setElement_UINT64(GrB_Vector w, uint64_t x, GrB_Index i);
-extern GrB_Info GrB_Vector_size(GrB_Index *n, const GrB_Vector v);
-extern GrB_Info GrB_Vector_wait(GrB_Vector v, GrB_WaitMode waitmode);
+GrB_Info GrB_Vector_apply(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_UnaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, bool x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, float x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, double x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int8_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int16_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int32_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, int64_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const void *x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint8_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint16_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint32_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp1st_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, uint64_t x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_BinaryOp2nd_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_apply_IndexOp_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_assign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_build_BOOL(GrB_Vector w, const GrB_Index *I, const bool *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_FP32(GrB_Vector w, const GrB_Index *I, const float *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_FP64(GrB_Vector w, const GrB_Index *I, const double *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT8(GrB_Vector w, const GrB_Index *I, const int8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT16(GrB_Vector w, const GrB_Index *I, const int16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT32(GrB_Vector w, const GrB_Index *I, const int32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_INT64(GrB_Vector w, const GrB_Index *I, const int64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UDT(GrB_Vector w, const GrB_Index *I, const void *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT8(GrB_Vector w, const GrB_Index *I, const uint8_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT16(GrB_Vector w, const GrB_Index *I, const uint16_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT32(GrB_Vector w, const GrB_Index *I, const uint32_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_build_UINT64(GrB_Vector w, const GrB_Index *I, const uint64_t *X, GrB_Index nvals, const GrB_BinaryOp dup);
+GrB_Info GrB_Vector_clear(GrB_Vector v);
+GrB_Info GrB_Vector_dup(GrB_Vector *w, const GrB_Vector u);
+GrB_Info GrB_Vector_eWiseAdd_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseAdd_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseAdd_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_BinaryOp(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp mult, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_Monoid(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_eWiseMult_Semiring(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Semiring semiring, const GrB_Vector u, const GrB_Vector v, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_error(const char **error, const GrB_Vector v);
+GrB_Info GrB_Vector_extract(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_extractElement_BOOL(bool *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_FP32(float *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_FP64(double *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT8(int8_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT16(int16_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT32(int32_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_INT64(int64_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_Scalar(GrB_Scalar x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UDT(void *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT8(uint8_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT16(uint16_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT32(uint32_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractElement_UINT64(uint64_t *x, const GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_extractTuples_BOOL(GrB_Index *I, bool *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_FP32(GrB_Index *I, float *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_FP64(GrB_Index *I, double *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT8(GrB_Index *I, int8_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT16(GrB_Index *I, int16_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT32(GrB_Index *I, int32_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_INT64(GrB_Index *I, int64_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UDT(GrB_Index *I, void *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT8(GrB_Index *I, uint8_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT16(GrB_Index *I, uint16_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT32(GrB_Index *I, uint32_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_extractTuples_UINT64(GrB_Index *I, uint64_t *X, GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_free(GrB_Vector *v);
+GrB_Info GrB_Vector_new(GrB_Vector *v, GrB_Type type, GrB_Index n);
+GrB_Info GrB_Vector_nvals(GrB_Index *nvals, const GrB_Vector v);
+GrB_Info GrB_Vector_reduce_BOOL(bool *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_BinaryOp_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_FP32(float *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_FP64(double *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT8(int8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT16(int16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT32(int32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_INT64(int64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_Monoid_Scalar(GrB_Scalar c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UDT(void *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT8(uint8_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT16(uint16_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT32(uint32_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_reduce_UINT64(uint64_t *c, const GrB_BinaryOp accum, const GrB_Monoid monoid, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_removeElement(GrB_Vector v, GrB_Index i);
+GrB_Info GrB_Vector_resize(GrB_Vector w, GrB_Index nrows_new);
+GrB_Info GrB_Vector_select_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, bool y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, float y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, double y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, int64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, const void *y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint8_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint16_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint32_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_select_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_IndexUnaryOp op, const GrB_Vector u, uint64_t y, const GrB_Descriptor desc);
+GrB_Info GrB_Vector_setElement_BOOL(GrB_Vector w, bool x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_FP32(GrB_Vector w, float x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_FP64(GrB_Vector w, double x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT8(GrB_Vector w, int8_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT16(GrB_Vector w, int16_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT32(GrB_Vector w, int32_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_INT64(GrB_Vector w, int64_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_Scalar(GrB_Vector w, GrB_Scalar x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UDT(GrB_Vector w, void *x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT8(GrB_Vector w, uint8_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT16(GrB_Vector w, uint16_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT32(GrB_Vector w, uint32_t x, GrB_Index i);
+GrB_Info GrB_Vector_setElement_UINT64(GrB_Vector w, uint64_t x, GrB_Index i);
+GrB_Info GrB_Vector_size(GrB_Index *n, const GrB_Vector v);
+GrB_Info GrB_Vector_wait(GrB_Vector v, GrB_WaitMode waitmode);
/***************
* GB functions *
***************/
/* binary */
-extern GrB_Info GB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name);
+GrB_Info GB_BinaryOp_new(GrB_BinaryOp *binaryop, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name);
/* iterator */
-extern GrB_Info GB_Iterator_rc_bitmap_next(GxB_Iterator iterator);
-extern GrB_Info GB_Iterator_rc_seek(GxB_Iterator iterator, GrB_Index j, bool jth_vector);
-extern GrB_Info GB_Vector_Iterator_bitmap_seek(GxB_Iterator iterator, GrB_Index unused);
+GrB_Info GB_Iterator_rc_bitmap_next(GxB_Iterator iterator);
+GrB_Info GB_Iterator_rc_seek(GxB_Iterator iterator, GrB_Index j, bool jth_vector);
+GrB_Info GB_Vector_Iterator_bitmap_seek(GxB_Iterator iterator, GrB_Index unused);
/* matrix */
-extern GrB_Info GB_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GxB_Format_Value format, GrB_Descriptor desc);
+GrB_Info GB_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GxB_Format_Value format, GrB_Descriptor desc);
/* selectop */
-extern GrB_Info GB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype, const char *name);
+GrB_Info GB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype, const char *name);
/* type */
-extern GrB_Info GB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name);
+GrB_Info GB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name);
/* unary */
-extern GrB_Info GB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name);
+GrB_Info GB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name);
/****************
* GxB functions *
****************/
/* binary */
-extern GrB_Info GxB_BinaryOp_fprint(GrB_BinaryOp binaryop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_BinaryOp_new(GrB_BinaryOp *op, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name, const char *binop_defn);
-extern GrB_Info GxB_BinaryOp_xtype(GrB_Type *xtype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_xtype_name(char *type_name, const GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ytype(GrB_Type *ytype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ytype_name(char *type_name, const GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ztype(GrB_Type *ztype, GrB_BinaryOp binaryop);
-extern GrB_Info GxB_BinaryOp_ztype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_fprint(GrB_BinaryOp binaryop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_BinaryOp_new(GrB_BinaryOp *op, GxB_binary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *binop_name, const char *binop_defn);
+GrB_Info GxB_BinaryOp_xtype(GrB_Type *xtype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_xtype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ytype(GrB_Type *ytype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ytype_name(char *type_name, const GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ztype(GrB_Type *ztype, GrB_BinaryOp binaryop);
+GrB_Info GxB_BinaryOp_ztype_name(char *type_name, const GrB_BinaryOp binaryop);
/* core */
-extern GrB_Info GxB_Global_Option_get(GxB_Option_Field field, ...);
-extern GrB_Info GxB_Global_Option_get_CHAR(GxB_Option_Field field, char **value);
-extern GrB_Info GxB_Global_Option_get_FP64(GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Global_Option_get_FUNCTION(GxB_Option_Field field, void **value);
-extern GrB_Info GxB_Global_Option_get_INT32(GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Global_Option_get_INT64(GxB_Option_Field field, int64_t *value);
-extern GrB_Info GxB_Global_Option_set(GxB_Option_Field field, ...);
-extern GrB_Info GxB_Global_Option_set_FP64(GxB_Option_Field field, double value);
-extern GrB_Info GxB_Global_Option_set_FP64_ARRAY(GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Global_Option_set_FUNCTION(GxB_Option_Field field, void *value);
-extern GrB_Info GxB_Global_Option_set_INT32(GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Global_Option_set_INT64_ARRAY(GxB_Option_Field field, int64_t *value);
-extern GrB_Info GxB_deserialize_type_name(char *type_name, const void *blob, GrB_Index blob_size);
-extern GrB_Info GxB_init(GrB_Mode mode, void *(*user_malloc_function)(size_t), void *(*user_calloc_function)(size_t, size_t), void *(*user_realloc_function)(void *, size_t), void (*user_free_function)(void *));
+GrB_Info GxB_Global_Option_get(GxB_Option_Field field, ...);
+GrB_Info GxB_Global_Option_get_CHAR(GxB_Option_Field field, char **value);
+GrB_Info GxB_Global_Option_get_FP64(GxB_Option_Field field, double *value);
+GrB_Info GxB_Global_Option_get_FUNCTION(GxB_Option_Field field, void **value);
+GrB_Info GxB_Global_Option_get_INT32(GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Global_Option_get_INT64(GxB_Option_Field field, int64_t *value);
+GrB_Info GxB_Global_Option_set(GxB_Option_Field field, ...);
+GrB_Info GxB_Global_Option_set_FP64(GxB_Option_Field field, double value);
+GrB_Info GxB_Global_Option_set_FP64_ARRAY(GxB_Option_Field field, double *value);
+GrB_Info GxB_Global_Option_set_FUNCTION(GxB_Option_Field field, void *value);
+GrB_Info GxB_Global_Option_set_INT32(GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Global_Option_set_INT64_ARRAY(GxB_Option_Field field, int64_t *value);
+GrB_Info GxB_deserialize_type_name(char *type_name, const void *blob, GrB_Index blob_size);
+GrB_Info GxB_init(GrB_Mode mode, void *(*user_malloc_function)(size_t), void *(*user_calloc_function)(size_t, size_t), void *(*user_realloc_function)(void *, size_t), void (*user_free_function)(void *));
/* descriptor */
-extern GrB_Info GxB_Desc_get(GrB_Descriptor desc, GrB_Desc_Field field, ...);
-extern GrB_Info GxB_Desc_get_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double *value);
-extern GrB_Info GxB_Desc_get_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t *value);
-extern GrB_Info GxB_Desc_set(GrB_Descriptor desc, GrB_Desc_Field field, ...);
-extern GrB_Info GxB_Desc_set_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double value);
-extern GrB_Info GxB_Desc_set_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t value);
-extern GrB_Info GxB_Descriptor_fprint(GrB_Descriptor descriptor, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Descriptor_get(GrB_Desc_Value *val, GrB_Descriptor desc, GrB_Desc_Field field);
+GrB_Info GxB_Desc_get(GrB_Descriptor desc, GrB_Desc_Field field, ...);
+GrB_Info GxB_Desc_get_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double *value);
+GrB_Info GxB_Desc_get_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t *value);
+GrB_Info GxB_Desc_set(GrB_Descriptor desc, GrB_Desc_Field field, ...);
+GrB_Info GxB_Desc_set_FP64(GrB_Descriptor desc, GrB_Desc_Field field, double value);
+GrB_Info GxB_Desc_set_INT32(GrB_Descriptor desc, GrB_Desc_Field field, int32_t value);
+GrB_Info GxB_Descriptor_fprint(GrB_Descriptor descriptor, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Descriptor_get(GrB_Desc_Value *val, GrB_Descriptor desc, GrB_Desc_Field field);
/* indexunary */
-extern GrB_Info GxB_IndexUnaryOp_fprint(GrB_IndexUnaryOp op, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *idxop_name, const char *idxop_defn);
-extern GrB_Info GxB_IndexUnaryOp_xtype_name(char *type_name, const GrB_IndexUnaryOp op);
-extern GrB_Info GxB_IndexUnaryOp_ytype_name(char *type_name, const GrB_IndexUnaryOp op);
-extern GrB_Info GxB_IndexUnaryOp_ztype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_fprint(GrB_IndexUnaryOp op, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_IndexUnaryOp_new(GrB_IndexUnaryOp *op, GxB_index_unary_function function, GrB_Type ztype, GrB_Type xtype, GrB_Type ytype, const char *idxop_name, const char *idxop_defn);
+GrB_Info GxB_IndexUnaryOp_xtype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_ytype_name(char *type_name, const GrB_IndexUnaryOp op);
+GrB_Info GxB_IndexUnaryOp_ztype_name(char *type_name, const GrB_IndexUnaryOp op);
/* iterator */
-extern GrB_Index GxB_Matrix_Iterator_getp(GxB_Iterator iterator);
-extern GrB_Index GxB_Matrix_Iterator_getpmax(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getp(GxB_Iterator iterator);
-extern GrB_Index GxB_Vector_Iterator_getpmax(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_getColIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_getRowIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_colIterator_kount(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_getColIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_getRowIndex(GxB_Iterator iterator);
-extern GrB_Index GxB_rowIterator_kount(GxB_Iterator iterator);
-extern GrB_Info GxB_Iterator_free(GxB_Iterator *iterator);
-extern GrB_Info GxB_Iterator_new(GxB_Iterator *iterator);
-extern GrB_Info GxB_Matrix_Iterator_next(GxB_Iterator iterator);
-extern GrB_Info GxB_Matrix_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
-extern GrB_Info GxB_Vector_Iterator_next(GxB_Iterator iterator);
-extern GrB_Info GxB_Vector_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
-extern GrB_Info GxB_colIterator_kseek(GxB_Iterator iterator, GrB_Index k);
-extern GrB_Info GxB_colIterator_nextCol(GxB_Iterator iterator);
-extern GrB_Info GxB_colIterator_nextRow(GxB_Iterator iterator);
-extern GrB_Info GxB_colIterator_seekCol(GxB_Iterator iterator, GrB_Index col);
-extern GrB_Info GxB_rowIterator_kseek(GxB_Iterator iterator, GrB_Index k);
-extern GrB_Info GxB_rowIterator_nextCol(GxB_Iterator iterator);
-extern GrB_Info GxB_rowIterator_nextRow(GxB_Iterator iterator);
-extern GrB_Info GxB_rowIterator_seekRow(GxB_Iterator iterator, GrB_Index row);
-extern bool GxB_Iterator_get_BOOL(GxB_Iterator iterator);
-extern double GxB_Iterator_get_FP64(GxB_Iterator iterator);
-extern float GxB_Iterator_get_FP32(GxB_Iterator iterator);
-extern int8_t GxB_Iterator_get_INT8(GxB_Iterator iterator);
-extern int16_t GxB_Iterator_get_INT16(GxB_Iterator iterator);
-extern int32_t GxB_Iterator_get_INT32(GxB_Iterator iterator);
-extern int64_t GxB_Iterator_get_INT64(GxB_Iterator iterator);
-extern uint8_t GxB_Iterator_get_UINT8(GxB_Iterator iterator);
-extern uint16_t GxB_Iterator_get_UINT16(GxB_Iterator iterator);
-extern uint32_t GxB_Iterator_get_UINT32(GxB_Iterator iterator);
-extern uint64_t GxB_Iterator_get_UINT64(GxB_Iterator iterator);
-extern void GxB_Iterator_get_UDT(GxB_Iterator iterator, void *value);
-extern void GxB_Matrix_Iterator_getIndex(GxB_Iterator iterator, GrB_Index *row, GrB_Index *col);
+GrB_Index GxB_Matrix_Iterator_getp(GxB_Iterator iterator);
+GrB_Index GxB_Matrix_Iterator_getpmax(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getIndex(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getp(GxB_Iterator iterator);
+GrB_Index GxB_Vector_Iterator_getpmax(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_getColIndex(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_getRowIndex(GxB_Iterator iterator);
+GrB_Index GxB_colIterator_kount(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_getColIndex(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_getRowIndex(GxB_Iterator iterator);
+GrB_Index GxB_rowIterator_kount(GxB_Iterator iterator);
+GrB_Info GxB_Iterator_free(GxB_Iterator *iterator);
+GrB_Info GxB_Iterator_new(GxB_Iterator *iterator);
+GrB_Info GxB_Matrix_Iterator_next(GxB_Iterator iterator);
+GrB_Info GxB_Matrix_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
+GrB_Info GxB_Vector_Iterator_next(GxB_Iterator iterator);
+GrB_Info GxB_Vector_Iterator_seek(GxB_Iterator iterator, GrB_Index p);
+GrB_Info GxB_colIterator_kseek(GxB_Iterator iterator, GrB_Index k);
+GrB_Info GxB_colIterator_nextCol(GxB_Iterator iterator);
+GrB_Info GxB_colIterator_nextRow(GxB_Iterator iterator);
+GrB_Info GxB_colIterator_seekCol(GxB_Iterator iterator, GrB_Index col);
+GrB_Info GxB_rowIterator_kseek(GxB_Iterator iterator, GrB_Index k);
+GrB_Info GxB_rowIterator_nextCol(GxB_Iterator iterator);
+GrB_Info GxB_rowIterator_nextRow(GxB_Iterator iterator);
+GrB_Info GxB_rowIterator_seekRow(GxB_Iterator iterator, GrB_Index row);
+bool GxB_Iterator_get_BOOL(GxB_Iterator iterator);
+double GxB_Iterator_get_FP64(GxB_Iterator iterator);
+float GxB_Iterator_get_FP32(GxB_Iterator iterator);
+int8_t GxB_Iterator_get_INT8(GxB_Iterator iterator);
+int16_t GxB_Iterator_get_INT16(GxB_Iterator iterator);
+int32_t GxB_Iterator_get_INT32(GxB_Iterator iterator);
+int64_t GxB_Iterator_get_INT64(GxB_Iterator iterator);
+uint8_t GxB_Iterator_get_UINT8(GxB_Iterator iterator);
+uint16_t GxB_Iterator_get_UINT16(GxB_Iterator iterator);
+uint32_t GxB_Iterator_get_UINT32(GxB_Iterator iterator);
+uint64_t GxB_Iterator_get_UINT64(GxB_Iterator iterator);
+void GxB_Iterator_get_UDT(GxB_Iterator iterator, void *value);
+void GxB_Matrix_Iterator_getIndex(GxB_Iterator iterator, GrB_Index *row, GrB_Index *col);
/* matrix */
-extern GrB_Info GxB_Col_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_Option_get(GrB_Matrix A, GxB_Option_Field field, ...);
-extern GrB_Info GxB_Matrix_Option_get_FP64(GrB_Matrix A, GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Matrix_Option_get_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Matrix_Option_set(GrB_Matrix A, GxB_Option_Field field, ...);
-extern GrB_Info GxB_Matrix_Option_set_FP64(GrB_Matrix A, GxB_Option_Field field, double value);
-extern GrB_Info GxB_Matrix_Option_set_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Matrix_apply_BinaryOp1st(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_apply_BinaryOp2nd(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_build_Scalar(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, GrB_Scalar scalar, GrB_Index nvals);
-extern GrB_Info GxB_Matrix_concat(GrB_Matrix C, const GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_diag(GrB_Matrix C, const GrB_Vector v, int64_t k, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_eWiseUnion(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Scalar alpha, const GrB_Matrix B, const GrB_Scalar beta, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_BitmapC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_BitmapR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_CSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_CSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_FullC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_FullR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_HyperCSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_export_HyperCSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_fprint(GrB_Matrix A, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Matrix_import_BitmapC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_BitmapR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_CSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_CSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_FullC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_FullR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_HyperCSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_import_HyperCSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_isStoredElement(const GrB_Matrix A, GrB_Index i, GrB_Index j);
-extern GrB_Info GxB_Matrix_iso(bool *iso, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_memoryUsage(size_t *size, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_pack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_FullC(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_FullR(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_pack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reshape(GrB_Matrix C, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_reshapeDup(GrB_Matrix *C, GrB_Matrix A, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_select(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Matrix A, const GrB_Scalar Thunk, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_sort(GrB_Matrix C, GrB_Matrix P, GrB_BinaryOp op, GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_split(GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Index *Tile_nrows, const GrB_Index *Tile_ncols, const GrB_Matrix A, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_subassign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_type(GrB_Type *type, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_type_name(char *type_name, const GrB_Matrix A);
-extern GrB_Info GxB_Matrix_unpack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_FullC(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_FullR(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Matrix_unpack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Row_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_diag(GrB_Vector v, const GrB_Matrix A, int64_t k, const GrB_Descriptor desc);
-extern GrB_Info GxB_colIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_pack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
-extern GrB_Info GxB_rowIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
-extern GrB_Info GxB_unpack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
+GrB_Info GxB_Col_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, GrB_Index j, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_Iterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_Matrix_Option_get(GrB_Matrix A, GxB_Option_Field field, ...);
+GrB_Info GxB_Matrix_Option_get_FP64(GrB_Matrix A, GxB_Option_Field field, double *value);
+GrB_Info GxB_Matrix_Option_get_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Matrix_Option_set(GrB_Matrix A, GxB_Option_Field field, ...);
+GrB_Info GxB_Matrix_Option_set_FP64(GrB_Matrix A, GxB_Option_Field field, double value);
+GrB_Info GxB_Matrix_Option_set_INT32(GrB_Matrix A, GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Matrix_apply_BinaryOp1st(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_apply_BinaryOp2nd(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Matrix A, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_build_Scalar(GrB_Matrix C, const GrB_Index *I, const GrB_Index *J, GrB_Scalar scalar, GrB_Index nvals);
+GrB_Info GxB_Matrix_concat(GrB_Matrix C, const GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_deserialize(GrB_Matrix *C, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_diag(GrB_Matrix C, const GrB_Vector v, int64_t k, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_eWiseUnion(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Matrix A, const GrB_Scalar alpha, const GrB_Matrix B, const GrB_Scalar beta, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_BitmapC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_BitmapR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_CSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_CSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_FullC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_FullR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_HyperCSC(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_export_HyperCSR(GrB_Matrix *A, GrB_Type *type, GrB_Index *nrows, GrB_Index *ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_fprint(GrB_Matrix A, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Matrix_import_BitmapC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_BitmapR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_CSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_CSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_FullC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_FullR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_HyperCSC(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_import_HyperCSR(GrB_Matrix *A, GrB_Type type, GrB_Index nrows, GrB_Index ncols, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_isStoredElement(const GrB_Matrix A, GrB_Index i, GrB_Index j);
+GrB_Info GxB_Matrix_iso(bool *iso, const GrB_Matrix A);
+GrB_Info GxB_Matrix_memoryUsage(size_t *size, const GrB_Matrix A);
+GrB_Info GxB_Matrix_pack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index Ab_size, GrB_Index Ax_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_FullC(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_FullR(GrB_Matrix A, void **Ax, GrB_Index Ax_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Ai_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_pack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index Ap_size, GrB_Index Ah_size, GrB_Index Aj_size, GrB_Index Ax_size, bool iso, GrB_Index nvec, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reshape(GrB_Matrix C, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_reshapeDup(GrB_Matrix *C, GrB_Matrix A, bool by_col, GrB_Index nrows_new, GrB_Index ncols_new, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_select(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Matrix A, const GrB_Scalar Thunk, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_sort(GrB_Matrix C, GrB_Matrix P, GrB_BinaryOp op, GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_split(GrB_Matrix *Tiles, const GrB_Index m, const GrB_Index n, const GrB_Index *Tile_nrows, const GrB_Index *Tile_ncols, const GrB_Matrix A, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, const GrB_Matrix A, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_BOOL(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FP32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_FP64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_INT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_Scalar(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UDT(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT8(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT16(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT32(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_subassign_UINT64(GrB_Matrix C, const GrB_Matrix Mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_type(GrB_Type *type, const GrB_Matrix A);
+GrB_Info GxB_Matrix_type_name(char *type_name, const GrB_Matrix A);
+GrB_Info GxB_Matrix_unpack_BitmapC(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_BitmapR(GrB_Matrix A, int8_t **Ab, void **Ax, GrB_Index *Ab_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_CSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_CSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_FullC(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_FullR(GrB_Matrix A, void **Ax, GrB_Index *Ax_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_HyperCSC(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Ai, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Ai_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Matrix_unpack_HyperCSR(GrB_Matrix A, GrB_Index **Ap, GrB_Index **Ah, GrB_Index **Aj, void **Ax, GrB_Index *Ap_size, GrB_Index *Ah_size, GrB_Index *Aj_size, GrB_Index *Ax_size, bool *iso, GrB_Index *nvec, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Row_subassign(GrB_Matrix C, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, GrB_Index i, const GrB_Index *J, GrB_Index nj, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_diag(GrB_Vector v, const GrB_Matrix A, int64_t k, const GrB_Descriptor desc);
+GrB_Info GxB_colIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_pack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
+GrB_Info GxB_rowIterator_attach(GxB_Iterator iterator, GrB_Matrix A, GrB_Descriptor desc);
+GrB_Info GxB_unpack_HyperHash(GrB_Matrix A, GrB_Matrix *Y, const GrB_Descriptor desc);
/* monoid */
-extern GrB_Info GxB_Monoid_fprint(GrB_Monoid monoid, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Monoid_identity(void *identity, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_operator(GrB_BinaryOp *op, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_terminal(bool *has_terminal, void *terminal, GrB_Monoid monoid);
-extern GrB_Info GxB_Monoid_terminal_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity, bool terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity, float terminal);
-extern GrB_Info GxB_Monoid_terminal_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity, double terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity, int8_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity, int16_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity, int32_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity, int64_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity, void *terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity, uint8_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity, uint16_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity, uint32_t terminal);
-extern GrB_Info GxB_Monoid_terminal_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity, uint64_t terminal);
+GrB_Info GxB_Monoid_fprint(GrB_Monoid monoid, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Monoid_identity(void *identity, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_operator(GrB_BinaryOp *op, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_terminal(bool *has_terminal, void *terminal, GrB_Monoid monoid);
+GrB_Info GxB_Monoid_terminal_new_BOOL(GrB_Monoid *monoid, GrB_BinaryOp op, bool identity, bool terminal);
+GrB_Info GxB_Monoid_terminal_new_FP32(GrB_Monoid *monoid, GrB_BinaryOp op, float identity, float terminal);
+GrB_Info GxB_Monoid_terminal_new_FP64(GrB_Monoid *monoid, GrB_BinaryOp op, double identity, double terminal);
+GrB_Info GxB_Monoid_terminal_new_INT8(GrB_Monoid *monoid, GrB_BinaryOp op, int8_t identity, int8_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT16(GrB_Monoid *monoid, GrB_BinaryOp op, int16_t identity, int16_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT32(GrB_Monoid *monoid, GrB_BinaryOp op, int32_t identity, int32_t terminal);
+GrB_Info GxB_Monoid_terminal_new_INT64(GrB_Monoid *monoid, GrB_BinaryOp op, int64_t identity, int64_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UDT(GrB_Monoid *monoid, GrB_BinaryOp op, void *identity, void *terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT8(GrB_Monoid *monoid, GrB_BinaryOp op, uint8_t identity, uint8_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT16(GrB_Monoid *monoid, GrB_BinaryOp op, uint16_t identity, uint16_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT32(GrB_Monoid *monoid, GrB_BinaryOp op, uint32_t identity, uint32_t terminal);
+GrB_Info GxB_Monoid_terminal_new_UINT64(GrB_Monoid *monoid, GrB_BinaryOp op, uint64_t identity, uint64_t terminal);
/* scalar */
-extern GrB_Info GxB_Scalar_clear(GrB_Scalar s);
-extern GrB_Info GxB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
-extern GrB_Info GxB_Scalar_error(const char **error, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_fprint(GrB_Scalar s, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Scalar_free(GrB_Scalar *s);
-extern GrB_Info GxB_Scalar_memoryUsage(size_t *size, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_new(GrB_Scalar *s, GrB_Type type);
-extern GrB_Info GxB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
-extern GrB_Info GxB_Scalar_setElement_FP32(GrB_Scalar s, float x);
-extern GrB_Info GxB_Scalar_setElement_FP64(GrB_Scalar s, double x);
-extern GrB_Info GxB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
-extern GrB_Info GxB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
-extern GrB_Info GxB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
-extern GrB_Info GxB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
-extern GrB_Info GxB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
-extern GrB_Info GxB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
-extern GrB_Info GxB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
-extern GrB_Info GxB_Scalar_type(GrB_Type *type, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_type_name(char *type_name, const GrB_Scalar s);
-extern GrB_Info GxB_Scalar_wait(GrB_Scalar *s);
+GrB_Info GxB_Scalar_clear(GrB_Scalar s);
+GrB_Info GxB_Scalar_dup(GrB_Scalar *s, const GrB_Scalar t);
+GrB_Info GxB_Scalar_error(const char **error, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_BOOL(bool *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FP32(float *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_FP64(double *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT8(int8_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT16(int16_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT32(int32_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_INT64(int64_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UDT(void *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT8(uint8_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT16(uint16_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT32(uint32_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_extractElement_UINT64(uint64_t *x, const GrB_Scalar s);
+GrB_Info GxB_Scalar_fprint(GrB_Scalar s, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Scalar_free(GrB_Scalar *s);
+GrB_Info GxB_Scalar_memoryUsage(size_t *size, const GrB_Scalar s);
+GrB_Info GxB_Scalar_new(GrB_Scalar *s, GrB_Type type);
+GrB_Info GxB_Scalar_nvals(GrB_Index *nvals, const GrB_Scalar s);
+GrB_Info GxB_Scalar_setElement_BOOL(GrB_Scalar s, bool x);
+GrB_Info GxB_Scalar_setElement_FP32(GrB_Scalar s, float x);
+GrB_Info GxB_Scalar_setElement_FP64(GrB_Scalar s, double x);
+GrB_Info GxB_Scalar_setElement_INT8(GrB_Scalar s, int8_t x);
+GrB_Info GxB_Scalar_setElement_INT16(GrB_Scalar s, int16_t x);
+GrB_Info GxB_Scalar_setElement_INT32(GrB_Scalar s, int32_t x);
+GrB_Info GxB_Scalar_setElement_INT64(GrB_Scalar s, int64_t x);
+GrB_Info GxB_Scalar_setElement_UDT(GrB_Scalar s, void *x);
+GrB_Info GxB_Scalar_setElement_UINT8(GrB_Scalar s, uint8_t x);
+GrB_Info GxB_Scalar_setElement_UINT16(GrB_Scalar s, uint16_t x);
+GrB_Info GxB_Scalar_setElement_UINT32(GrB_Scalar s, uint32_t x);
+GrB_Info GxB_Scalar_setElement_UINT64(GrB_Scalar s, uint64_t x);
+GrB_Info GxB_Scalar_type(GrB_Type *type, const GrB_Scalar s);
+GrB_Info GxB_Scalar_type_name(char *type_name, const GrB_Scalar s);
+GrB_Info GxB_Scalar_wait(GrB_Scalar *s);
/* selectop */
-extern GrB_Info GxB_SelectOp_error(const char **error, const GxB_SelectOp op);
-extern GrB_Info GxB_SelectOp_fprint(GxB_SelectOp selectop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_SelectOp_free(GxB_SelectOp *selectop);
-extern GrB_Info GxB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype);
-extern GrB_Info GxB_SelectOp_ttype(GrB_Type *ttype, GxB_SelectOp selectop);
-extern GrB_Info GxB_SelectOp_wait(GxB_SelectOp op, GrB_WaitMode waitmode);
-extern GrB_Info GxB_SelectOp_xtype(GrB_Type *xtype, GxB_SelectOp selectop);
+GrB_Info GxB_SelectOp_error(const char **error, const GxB_SelectOp op);
+GrB_Info GxB_SelectOp_fprint(GxB_SelectOp selectop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_SelectOp_free(GxB_SelectOp *selectop);
+GrB_Info GxB_SelectOp_new(GxB_SelectOp *selectop, GxB_select_function function, GrB_Type xtype, GrB_Type ttype);
+GrB_Info GxB_SelectOp_ttype(GrB_Type *ttype, GxB_SelectOp selectop);
+GrB_Info GxB_SelectOp_wait(GxB_SelectOp op, GrB_WaitMode waitmode);
+GrB_Info GxB_SelectOp_xtype(GrB_Type *xtype, GxB_SelectOp selectop);
/* semiring */
-extern GrB_Info GxB_Semiring_add(GrB_Monoid *add, GrB_Semiring semiring);
-extern GrB_Info GxB_Semiring_fprint(GrB_Semiring semiring, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Semiring_multiply(GrB_BinaryOp *multiply, GrB_Semiring semiring);
+GrB_Info GxB_Semiring_add(GrB_Monoid *add, GrB_Semiring semiring);
+GrB_Info GxB_Semiring_fprint(GrB_Semiring semiring, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Semiring_multiply(GrB_BinaryOp *multiply, GrB_Semiring semiring);
/* type */
-extern GrB_Info GxB_Type_fprint(GrB_Type type, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Type_from_name(GrB_Type *type, const char *type_name);
-extern GrB_Info GxB_Type_name(char *type_name, const GrB_Type type);
-extern GrB_Info GxB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name, const char *type_defn);
-extern GrB_Info GxB_Type_size(size_t *size, const GrB_Type type);
+GrB_Info GxB_Type_fprint(GrB_Type type, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Type_from_name(GrB_Type *type, const char *type_name);
+GrB_Info GxB_Type_name(char *type_name, const GrB_Type type);
+GrB_Info GxB_Type_new(GrB_Type *type, size_t sizeof_ctype, const char *type_name, const char *type_defn);
+GrB_Info GxB_Type_size(size_t *size, const GrB_Type type);
/* unary */
-extern GrB_Info GxB_UnaryOp_fprint(GrB_UnaryOp unaryop, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name, const char *unop_defn);
-extern GrB_Info GxB_UnaryOp_xtype(GrB_Type *xtype, GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_xtype_name(char *type_name, const GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_ztype(GrB_Type *ztype, GrB_UnaryOp unaryop);
-extern GrB_Info GxB_UnaryOp_ztype_name(char *type_name, const GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_fprint(GrB_UnaryOp unaryop, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_UnaryOp_new(GrB_UnaryOp *unaryop, GxB_unary_function function, GrB_Type ztype, GrB_Type xtype, const char *unop_name, const char *unop_defn);
+GrB_Info GxB_UnaryOp_xtype(GrB_Type *xtype, GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_xtype_name(char *type_name, const GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_ztype(GrB_Type *ztype, GrB_UnaryOp unaryop);
+GrB_Info GxB_UnaryOp_ztype_name(char *type_name, const GrB_UnaryOp unaryop);
/* vector */
-extern GrB_Info GxB_Vector_Iterator_attach(GxB_Iterator iterator, GrB_Vector v, GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_Option_get(GrB_Vector A, GxB_Option_Field field, ...);
-extern GrB_Info GxB_Vector_Option_get_FP64(GrB_Vector v, GxB_Option_Field field, double *value);
-extern GrB_Info GxB_Vector_Option_get_INT32(GrB_Vector v, GxB_Option_Field field, int32_t *value);
-extern GrB_Info GxB_Vector_Option_set(GrB_Vector A, GxB_Option_Field field, ...);
-extern GrB_Info GxB_Vector_Option_set_FP64(GrB_Vector v, GxB_Option_Field field, double value);
-extern GrB_Info GxB_Vector_Option_set_INT32(GrB_Vector v, GxB_Option_Field field, int32_t value);
-extern GrB_Info GxB_Vector_apply_BinaryOp1st(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_apply_BinaryOp2nd(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_build_Scalar(GrB_Vector w, const GrB_Index *I, GrB_Scalar scalar, GrB_Index nvals);
-extern GrB_Info GxB_Vector_deserialize(GrB_Vector *w, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_eWiseUnion(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Scalar alpha, const GrB_Vector v, const GrB_Scalar beta, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_Bitmap(GrB_Vector *v, GrB_Type *type, GrB_Index *n, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_CSC(GrB_Vector *v, GrB_Type *type, GrB_Index *n, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_export_Full(GrB_Vector *v, GrB_Type *type, GrB_Index *n, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_fprint(GrB_Vector v, const char *name, GxB_Print_Level pr, FILE *f);
-extern GrB_Info GxB_Vector_import_Bitmap(GrB_Vector *v, GrB_Type type, GrB_Index n, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_import_CSC(GrB_Vector *v, GrB_Type type, GrB_Index n, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_import_Full(GrB_Vector *v, GrB_Type type, GrB_Index n, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_isStoredElement(const GrB_Vector v, GrB_Index i);
-extern GrB_Info GxB_Vector_iso(bool *iso, const GrB_Vector v);
-extern GrB_Info GxB_Vector_memoryUsage(size_t *size, const GrB_Vector v);
-extern GrB_Info GxB_Vector_pack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_pack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_pack_Full(GrB_Vector v, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_select(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Vector u, const GrB_Scalar Thunk, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_sort(GrB_Vector w, GrB_Vector p, GrB_BinaryOp op, GrB_Vector u, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_subassign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_type(GrB_Type *type, const GrB_Vector v);
-extern GrB_Info GxB_Vector_type_name(char *type_name, const GrB_Vector v);
-extern GrB_Info GxB_Vector_unpack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_unpack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
-extern GrB_Info GxB_Vector_unpack_Full(GrB_Vector v, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_Iterator_attach(GxB_Iterator iterator, GrB_Vector v, GrB_Descriptor desc);
+GrB_Info GxB_Vector_Option_get(GrB_Vector A, GxB_Option_Field field, ...);
+GrB_Info GxB_Vector_Option_get_FP64(GrB_Vector v, GxB_Option_Field field, double *value);
+GrB_Info GxB_Vector_Option_get_INT32(GrB_Vector v, GxB_Option_Field field, int32_t *value);
+GrB_Info GxB_Vector_Option_set(GrB_Vector A, GxB_Option_Field field, ...);
+GrB_Info GxB_Vector_Option_set_FP64(GrB_Vector v, GxB_Option_Field field, double value);
+GrB_Info GxB_Vector_Option_set_INT32(GrB_Vector v, GxB_Option_Field field, int32_t value);
+GrB_Info GxB_Vector_apply_BinaryOp1st(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Scalar x, const GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_apply_BinaryOp2nd(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp op, const GrB_Vector u, const GrB_Scalar y, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_build_Scalar(GrB_Vector w, const GrB_Index *I, GrB_Scalar scalar, GrB_Index nvals);
+GrB_Info GxB_Vector_deserialize(GrB_Vector *w, GrB_Type type, const void *blob, GrB_Index blob_size, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_eWiseUnion(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_BinaryOp add, const GrB_Vector u, const GrB_Scalar alpha, const GrB_Vector v, const GrB_Scalar beta, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_Bitmap(GrB_Vector *v, GrB_Type *type, GrB_Index *n, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_CSC(GrB_Vector *v, GrB_Type *type, GrB_Index *n, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_export_Full(GrB_Vector *v, GrB_Type *type, GrB_Index *n, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_fprint(GrB_Vector v, const char *name, GxB_Print_Level pr, FILE *f);
+GrB_Info GxB_Vector_import_Bitmap(GrB_Vector *v, GrB_Type type, GrB_Index n, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_import_CSC(GrB_Vector *v, GrB_Type type, GrB_Index n, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_import_Full(GrB_Vector *v, GrB_Type type, GrB_Index n, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_isStoredElement(const GrB_Vector v, GrB_Index i);
+GrB_Info GxB_Vector_iso(bool *iso, const GrB_Vector v);
+GrB_Info GxB_Vector_memoryUsage(size_t *size, const GrB_Vector v);
+GrB_Info GxB_Vector_pack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index vb_size, GrB_Index vx_size, bool iso, GrB_Index nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_pack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index vi_size, GrB_Index vx_size, bool iso, GrB_Index nvals, bool jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_pack_Full(GrB_Vector v, void **vx, GrB_Index vx_size, bool iso, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_select(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GxB_SelectOp op, const GrB_Vector u, const GrB_Scalar Thunk, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_serialize(void **blob_handle, GrB_Index *blob_size_handle, GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_sort(GrB_Vector w, GrB_Vector p, GrB_BinaryOp op, GrB_Vector u, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, const GrB_Vector u, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_BOOL(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, bool x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FP32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, float x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_FP64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, double x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_INT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, int64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_Scalar(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, GrB_Scalar x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UDT(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, void *x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT8(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint8_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT16(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint16_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT32(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint32_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_subassign_UINT64(GrB_Vector w, const GrB_Vector mask, const GrB_BinaryOp accum, uint64_t x, const GrB_Index *I, GrB_Index ni, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_type(GrB_Type *type, const GrB_Vector v);
+GrB_Info GxB_Vector_type_name(char *type_name, const GrB_Vector v);
+GrB_Info GxB_Vector_unpack_Bitmap(GrB_Vector v, int8_t **vb, void **vx, GrB_Index *vb_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_unpack_CSC(GrB_Vector v, GrB_Index **vi, void **vx, GrB_Index *vi_size, GrB_Index *vx_size, bool *iso, GrB_Index *nvals, bool *jumbled, const GrB_Descriptor desc);
+GrB_Info GxB_Vector_unpack_Full(GrB_Vector v, void **vx, GrB_Index *vx_size, bool *iso, const GrB_Descriptor desc);
/* int DEFINES */
#define GRB_SUBVERSION ...
diff --git a/suitesparse_graphblas/tests/test_io.py b/suitesparse_graphblas/tests/test_io.py
index a5e56b9..dcdf857 100644
--- a/suitesparse_graphblas/tests/test_io.py
+++ b/suitesparse_graphblas/tests/test_io.py
@@ -140,7 +140,6 @@ def test_matrix_binfile_read_write(tmp_path):
for format in (lib.GxB_BY_ROW, lib.GxB_BY_COL):
for T in grb_types:
for sparsity in (lib.GxB_HYPERSPARSE, lib.GxB_SPARSE, lib.GxB_BITMAP, lib.GxB_FULL):
-
A = matrix.new(T, 2, 2)
if T is not lib.GxB_FULL:
diff --git a/suitesparse_graphblas/tests/test_package.py b/suitesparse_graphblas/tests/test_package.py
index 7a0c910..36b83f6 100644
--- a/suitesparse_graphblas/tests/test_package.py
+++ b/suitesparse_graphblas/tests/test_package.py
@@ -1,5 +1,10 @@
-from suitesparse_graphblas import ffi, lib # noqa
+import suitesparse_graphblas
+from suitesparse_graphblas import ffi, lib # noqa: F401
def test_matrix_existence():
assert hasattr(lib, "GrB_Matrix_new")
+
+
+def test_version():
+ assert suitesparse_graphblas.__version__ > "7.4.2.0"
diff --git a/suitesparse_graphblas/tests/test_scalar.py b/suitesparse_graphblas/tests/test_scalar.py
index 6c1a74a..d413c29 100644
--- a/suitesparse_graphblas/tests/test_scalar.py
+++ b/suitesparse_graphblas/tests/test_scalar.py
@@ -1,6 +1,6 @@
import pytest
-from suitesparse_graphblas import ffi, lib, supports_complex # noqa
+from suitesparse_graphblas import ffi, lib, supports_complex # noqa: F401
@pytest.mark.skipif("not supports_complex()")
diff --git a/suitesparse_graphblas/vector.py b/suitesparse_graphblas/vector.py
index 16fd707..a6a15c6 100644
--- a/suitesparse_graphblas/vector.py
+++ b/suitesparse_graphblas/vector.py
@@ -1,7 +1,7 @@
from suitesparse_graphblas import check_status, ffi, lib
-from .io.serialize import deserialize_vector as deserialize # noqa
-from .io.serialize import serialize_vector as serialize # noqa
+from .io.serialize import deserialize_vector as deserialize # noqa: F401
+from .io.serialize import serialize_vector as serialize # noqa: F401
def free(v):
diff --git a/versioneer.py b/versioneer.py
deleted file mode 100644
index 1da8595..0000000
--- a/versioneer.py
+++ /dev/null
@@ -1,2149 +0,0 @@
-# Version: 0.21
-
-"""The Versioneer - like a rocketeer, but for versions.
-
-The Versioneer
-==============
-
-* like a rocketeer, but for versions!
-* https://github.com/python-versioneer/python-versioneer
-* Brian Warner
-* License: Public Domain
-* Compatible with: Python 3.6, 3.7, 3.8, 3.9 and pypy3
-* [![Latest Version][pypi-image]][pypi-url]
-* [![Build Status][travis-image]][travis-url]
-
-This is a tool for managing a recorded version number in distutils-based
-python projects. The goal is to remove the tedious and error-prone "update
-the embedded version string" step from your release process. Making a new
-release should be as easy as recording a new tag in your version-control
-system, and maybe making new tarballs.
-
-
-## Quick Install
-
-* `pip install versioneer` to somewhere in your $PATH
-* add a `[versioneer]` section to your setup.cfg (see [Install](INSTALL.md))
-* run `versioneer install` in your source tree, commit the results
-* Verify version information with `python setup.py version`
-
-## Version Identifiers
-
-Source trees come from a variety of places:
-
-* a version-control system checkout (mostly used by developers)
-* a nightly tarball, produced by build automation
-* a snapshot tarball, produced by a web-based VCS browser, like github's
- "tarball from tag" feature
-* a release tarball, produced by "setup.py sdist", distributed through PyPI
-
-Within each source tree, the version identifier (either a string or a number,
-this tool is format-agnostic) can come from a variety of places:
-
-* ask the VCS tool itself, e.g. "git describe" (for checkouts), which knows
- about recent "tags" and an absolute revision-id
-* the name of the directory into which the tarball was unpacked
-* an expanded VCS keyword ($Id$, etc)
-* a `_version.py` created by some earlier build step
-
-For released software, the version identifier is closely related to a VCS
-tag. Some projects use tag names that include more than just the version
-string (e.g. "myproject-1.2" instead of just "1.2"), in which case the tool
-needs to strip the tag prefix to extract the version identifier. For
-unreleased software (between tags), the version identifier should provide
-enough information to help developers recreate the same tree, while also
-giving them an idea of roughly how old the tree is (after version 1.2, before
-version 1.3). Many VCS systems can report a description that captures this,
-for example `git describe --tags --dirty --always` reports things like
-"0.7-1-g574ab98-dirty" to indicate that the checkout is one revision past the
-0.7 tag, has a unique revision id of "574ab98", and is "dirty" (it has
-uncommitted changes).
-
-The version identifier is used for multiple purposes:
-
-* to allow the module to self-identify its version: `myproject.__version__`
-* to choose a name and prefix for a 'setup.py sdist' tarball
-
-## Theory of Operation
-
-Versioneer works by adding a special `_version.py` file into your source
-tree, where your `__init__.py` can import it. This `_version.py` knows how to
-dynamically ask the VCS tool for version information at import time.
-
-`_version.py` also contains `$Revision$` markers, and the installation
-process marks `_version.py` to have this marker rewritten with a tag name
-during the `git archive` command. As a result, generated tarballs will
-contain enough information to get the proper version.
-
-To allow `setup.py` to compute a version too, a `versioneer.py` is added to
-the top level of your source tree, next to `setup.py` and the `setup.cfg`
-that configures it. This overrides several distutils/setuptools commands to
-compute the version when invoked, and changes `setup.py build` and `setup.py
-sdist` to replace `_version.py` with a small static file that contains just
-the generated version data.
-
-## Installation
-
-See [INSTALL.md](./INSTALL.md) for detailed installation instructions.
-
-## Version-String Flavors
-
-Code which uses Versioneer can learn about its version string at runtime by
-importing `_version` from your main `__init__.py` file and running the
-`get_versions()` function. From the "outside" (e.g. in `setup.py`), you can
-import the top-level `versioneer.py` and run `get_versions()`.
-
-Both functions return a dictionary with different flavors of version
-information:
-
-* `['version']`: A condensed version string, rendered using the selected
- style. This is the most commonly used value for the project's version
- string. The default "pep440" style yields strings like `0.11`,
- `0.11+2.g1076c97`, or `0.11+2.g1076c97.dirty`. See the "Styles" section
- below for alternative styles.
-
-* `['full-revisionid']`: detailed revision identifier. For Git, this is the
- full SHA1 commit id, e.g. "1076c978a8d3cfc70f408fe5974aa6c092c949ac".
-
-* `['date']`: Date and time of the latest `HEAD` commit. For Git, it is the
- commit date in ISO 8601 format. This will be None if the date is not
- available.
-
-* `['dirty']`: a boolean, True if the tree has uncommitted changes. Note that
- this is only accurate if run in a VCS checkout, otherwise it is likely to
- be False or None
-
-* `['error']`: if the version string could not be computed, this will be set
- to a string describing the problem, otherwise it will be None. It may be
- useful to throw an exception in setup.py if this is set, to avoid e.g.
- creating tarballs with a version string of "unknown".
-
-Some variants are more useful than others. Including `full-revisionid` in a
-bug report should allow developers to reconstruct the exact code being tested
-(or indicate the presence of local changes that should be shared with the
-developers). `version` is suitable for display in an "about" box or a CLI
-`--version` output: it can be easily compared against release notes and lists
-of bugs fixed in various releases.
-
-The installer adds the following text to your `__init__.py` to place a basic
-version in `YOURPROJECT.__version__`:
-
- from ._version import get_versions
- __version__ = get_versions()['version']
- del get_versions
-
-## Styles
-
-The setup.cfg `style=` configuration controls how the VCS information is
-rendered into a version string.
-
-The default style, "pep440", produces a PEP440-compliant string, equal to the
-un-prefixed tag name for actual releases, and containing an additional "local
-version" section with more detail for in-between builds. For Git, this is
-TAG[+DISTANCE.gHEX[.dirty]] , using information from `git describe --tags
---dirty --always`. For example "0.11+2.g1076c97.dirty" indicates that the
-tree is like the "1076c97" commit but has uncommitted changes (".dirty"), and
-that this commit is two revisions ("+2") beyond the "0.11" tag. For released
-software (exactly equal to a known tag), the identifier will only contain the
-stripped tag, e.g. "0.11".
-
-Other styles are available. See [details.md](details.md) in the Versioneer
-source tree for descriptions.
-
-## Debugging
-
-Versioneer tries to avoid fatal errors: if something goes wrong, it will tend
-to return a version of "0+unknown". To investigate the problem, run `setup.py
-version`, which will run the version-lookup code in a verbose mode, and will
-display the full contents of `get_versions()` (including the `error` string,
-which may help identify what went wrong).
-
-## Known Limitations
-
-Some situations are known to cause problems for Versioneer. This details the
-most significant ones. More can be found on Github
-[issues page](https://github.com/python-versioneer/python-versioneer/issues).
-
-### Subprojects
-
-Versioneer has limited support for source trees in which `setup.py` is not in
-the root directory (e.g. `setup.py` and `.git/` are *not* siblings). The are
-two common reasons why `setup.py` might not be in the root:
-
-* Source trees which contain multiple subprojects, such as
- [Buildbot](https://github.com/buildbot/buildbot), which contains both
- "master" and "slave" subprojects, each with their own `setup.py`,
- `setup.cfg`, and `tox.ini`. Projects like these produce multiple PyPI
- distributions (and upload multiple independently-installable tarballs).
-* Source trees whose main purpose is to contain a C library, but which also
- provide bindings to Python (and perhaps other languages) in subdirectories.
-
-Versioneer will look for `.git` in parent directories, and most operations
-should get the right version string. However `pip` and `setuptools` have bugs
-and implementation details which frequently cause `pip install .` from a
-subproject directory to fail to find a correct version string (so it usually
-defaults to `0+unknown`).
-
-`pip install --editable .` should work correctly. `setup.py install` might
-work too.
-
-Pip-8.1.1 is known to have this problem, but hopefully it will get fixed in
-some later version.
-
-[Bug #38](https://github.com/python-versioneer/python-versioneer/issues/38) is tracking
-this issue. The discussion in
-[PR #61](https://github.com/python-versioneer/python-versioneer/pull/61) describes the
-issue from the Versioneer side in more detail.
-[pip PR#3176](https://github.com/pypa/pip/pull/3176) and
-[pip PR#3615](https://github.com/pypa/pip/pull/3615) contain work to improve
-pip to let Versioneer work correctly.
-
-Versioneer-0.16 and earlier only looked for a `.git` directory next to the
-`setup.cfg`, so subprojects were completely unsupported with those releases.
-
-### Editable installs with setuptools <= 18.5
-
-`setup.py develop` and `pip install --editable .` allow you to install a
-project into a virtualenv once, then continue editing the source code (and
-test) without re-installing after every change.
-
-"Entry-point scripts" (`setup(entry_points={"console_scripts": ..})`) are a
-convenient way to specify executable scripts that should be installed along
-with the python package.
-
-These both work as expected when using modern setuptools. When using
-setuptools-18.5 or earlier, however, certain operations will cause
-`pkg_resources.DistributionNotFound` errors when running the entrypoint
-script, which must be resolved by re-installing the package. This happens
-when the install happens with one version, then the egg_info data is
-regenerated while a different version is checked out. Many setup.py commands
-cause egg_info to be rebuilt (including `sdist`, `wheel`, and installing into
-a different virtualenv), so this can be surprising.
-
-[Bug #83](https://github.com/python-versioneer/python-versioneer/issues/83) describes
-this one, but upgrading to a newer version of setuptools should probably
-resolve it.
-
-
-## Updating Versioneer
-
-To upgrade your project to a new release of Versioneer, do the following:
-
-* install the new Versioneer (`pip install -U versioneer` or equivalent)
-* edit `setup.cfg`, if necessary, to include any new configuration settings
- indicated by the release notes. See [UPGRADING](./UPGRADING.md) for details.
-* re-run `versioneer install` in your source tree, to replace
- `SRC/_version.py`
-* commit any changed files
-
-## Future Directions
-
-This tool is designed to make it easily extended to other version-control
-systems: all VCS-specific components are in separate directories like
-src/git/ . The top-level `versioneer.py` script is assembled from these
-components by running make-versioneer.py . In the future, make-versioneer.py
-will take a VCS name as an argument, and will construct a version of
-`versioneer.py` that is specific to the given VCS. It might also take the
-configuration arguments that are currently provided manually during
-installation by editing setup.py . Alternatively, it might go the other
-direction and include code from all supported VCS systems, reducing the
-number of intermediate scripts.
-
-## Similar projects
-
-* [setuptools_scm](https://github.com/pypa/setuptools_scm/) - a non-vendored build-time
- dependency
-* [minver](https://github.com/jbweston/miniver) - a lightweight reimplementation of
- versioneer
-* [versioningit](https://github.com/jwodder/versioningit) - a PEP 518-based setuptools
- plugin
-
-## License
-
-To make Versioneer easier to embed, all its code is dedicated to the public
-domain. The `_version.py` that it creates is also in the public domain.
-Specifically, both are released under the Creative Commons "Public Domain
-Dedication" license (CC0-1.0), as described in
-https://creativecommons.org/publicdomain/zero/1.0/ .
-
-[pypi-image]: https://img.shields.io/pypi/v/versioneer.svg
-[pypi-url]: https://pypi.python.org/pypi/versioneer/
-[travis-image]:
-https://img.shields.io/travis/com/python-versioneer/python-versioneer.svg
-[travis-url]: https://travis-ci.com/github/python-versioneer/python-versioneer
-
-"""
-# pylint:disable=invalid-name,import-outside-toplevel,missing-function-docstring
-# pylint:disable=missing-class-docstring,too-many-branches,too-many-statements
-# pylint:disable=raise-missing-from,too-many-lines,too-many-locals,import-error
-# pylint:disable=too-few-public-methods,redefined-outer-name,consider-using-with
-# pylint:disable=attribute-defined-outside-init,too-many-arguments
-
-import configparser
-import errno
-import json
-import os
-import re
-import subprocess
-import sys
-from typing import Callable, Dict
-
-
-class VersioneerConfig:
- """Container for Versioneer configuration parameters."""
-
-
-def get_root():
- """Get the project root directory.
-
- We require that all commands are run from the project root, i.e. the
- directory that contains setup.py, setup.cfg, and versioneer.py .
- """
- root = os.path.realpath(os.path.abspath(os.getcwd()))
- setup_py = os.path.join(root, "setup.py")
- versioneer_py = os.path.join(root, "versioneer.py")
- if not (os.path.exists(setup_py) or os.path.exists(versioneer_py)):
- # allow 'python path/to/setup.py COMMAND'
- root = os.path.dirname(os.path.realpath(os.path.abspath(sys.argv[0])))
- setup_py = os.path.join(root, "setup.py")
- versioneer_py = os.path.join(root, "versioneer.py")
- if not (os.path.exists(setup_py) or os.path.exists(versioneer_py)):
- err = (
- "Versioneer was unable to run the project root directory. "
- "Versioneer requires setup.py to be executed from "
- "its immediate directory (like 'python setup.py COMMAND'), "
- "or in a way that lets it use sys.argv[0] to find the root "
- "(like 'python path/to/setup.py COMMAND')."
- )
- raise VersioneerBadRootError(err)
- try:
- # Certain runtime workflows (setup.py install/develop in a setuptools
- # tree) execute all dependencies in a single python process, so
- # "versioneer" may be imported multiple times, and python's shared
- # module-import table will cache the first one. So we can't use
- # os.path.dirname(__file__), as that will find whichever
- # versioneer.py was first imported, even in later projects.
- my_path = os.path.realpath(os.path.abspath(__file__))
- me_dir = os.path.normcase(os.path.splitext(my_path)[0])
- vsr_dir = os.path.normcase(os.path.splitext(versioneer_py)[0])
- if me_dir != vsr_dir:
- print(
- "Warning: build in %s is using versioneer.py from %s"
- % (os.path.dirname(my_path), versioneer_py)
- )
- except NameError:
- pass
- return root
-
-
-def get_config_from_root(root):
- """Read the project setup.cfg file to determine Versioneer config."""
- # This might raise OSError (if setup.cfg is missing), or
- # configparser.NoSectionError (if it lacks a [versioneer] section), or
- # configparser.NoOptionError (if it lacks "VCS="). See the docstring at
- # the top of versioneer.py for instructions on writing your setup.cfg .
- setup_cfg = os.path.join(root, "setup.cfg")
- parser = configparser.ConfigParser()
- with open(setup_cfg) as cfg_file:
- parser.read_file(cfg_file)
- VCS = parser.get("versioneer", "VCS") # mandatory
-
- # Dict-like interface for non-mandatory entries
- section = parser["versioneer"]
-
- cfg = VersioneerConfig()
- cfg.VCS = VCS
- cfg.style = section.get("style", "")
- cfg.versionfile_source = section.get("versionfile_source")
- cfg.versionfile_build = section.get("versionfile_build")
- cfg.tag_prefix = section.get("tag_prefix")
- if cfg.tag_prefix in ("''", '""'):
- cfg.tag_prefix = ""
- cfg.parentdir_prefix = section.get("parentdir_prefix")
- cfg.verbose = section.get("verbose")
- return cfg
-
-
-class NotThisMethod(Exception):
- """Exception raised if a method is not valid for the current scenario."""
-
-
-# these dictionaries contain VCS-specific tools
-LONG_VERSION_PY: Dict[str, str] = {}
-HANDLERS: Dict[str, Dict[str, Callable]] = {}
-
-
-def register_vcs_handler(vcs, method): # decorator
- """Create decorator to mark a method as the handler of a VCS."""
-
- def decorate(f):
- """Store f in HANDLERS[vcs][method]."""
- HANDLERS.setdefault(vcs, {})[method] = f
- return f
-
- return decorate
-
-
-def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False, env=None):
- """Call the given command(s)."""
- assert isinstance(commands, list)
- process = None
- for command in commands:
- try:
- dispcmd = str([command] + args)
- # remember shell=False, so use git.cmd on windows, not just git
- process = subprocess.Popen(
- [command] + args,
- cwd=cwd,
- env=env,
- stdout=subprocess.PIPE,
- stderr=(subprocess.PIPE if hide_stderr else None),
- )
- break
- except OSError:
- e = sys.exc_info()[1]
- if e.errno == errno.ENOENT:
- continue
- if verbose:
- print("unable to run %s" % dispcmd)
- print(e)
- return None, None
- else:
- if verbose:
- print(f"unable to find command, tried {commands}")
- return None, None
- stdout = process.communicate()[0].strip().decode()
- if process.returncode != 0:
- if verbose:
- print("unable to run %s (error)" % dispcmd)
- print("stdout was %s" % stdout)
- return None, process.returncode
- return stdout, process.returncode
-
-
-LONG_VERSION_PY[
- "git"
-] = r'''
-# This file helps to compute a version number in source trees obtained from
-# git-archive tarball (such as those provided by githubs download-from-tag
-# feature). Distribution tarballs (built by setup.py sdist) and build
-# directories (produced by setup.py build) will contain a much shorter file
-# that just contains the computed version number.
-
-# This file is released into the public domain. Generated by
-# versioneer-0.21 (https://github.com/python-versioneer/python-versioneer)
-
-"""Git implementation of _version.py."""
-
-import errno
-import os
-import re
-import subprocess
-import sys
-from typing import Callable, Dict
-
-
-def get_keywords():
- """Get the keywords needed to look up the version information."""
- # these strings will be replaced by git during git-archive.
- # setup.py/versioneer.py will grep for the variable names, so they must
- # each be defined on a line of their own. _version.py will just call
- # get_keywords().
- git_refnames = "%(DOLLAR)sFormat:%%d%(DOLLAR)s"
- git_full = "%(DOLLAR)sFormat:%%H%(DOLLAR)s"
- git_date = "%(DOLLAR)sFormat:%%ci%(DOLLAR)s"
- keywords = {"refnames": git_refnames, "full": git_full, "date": git_date}
- return keywords
-
-
-class VersioneerConfig:
- """Container for Versioneer configuration parameters."""
-
-
-def get_config():
- """Create, populate and return the VersioneerConfig() object."""
- # these strings are filled in when 'setup.py versioneer' creates
- # _version.py
- cfg = VersioneerConfig()
- cfg.VCS = "git"
- cfg.style = "%(STYLE)s"
- cfg.tag_prefix = "%(TAG_PREFIX)s"
- cfg.parentdir_prefix = "%(PARENTDIR_PREFIX)s"
- cfg.versionfile_source = "%(VERSIONFILE_SOURCE)s"
- cfg.verbose = False
- return cfg
-
-
-class NotThisMethod(Exception):
- """Exception raised if a method is not valid for the current scenario."""
-
-
-LONG_VERSION_PY: Dict[str, str] = {}
-HANDLERS: Dict[str, Dict[str, Callable]] = {}
-
-
-def register_vcs_handler(vcs, method): # decorator
- """Create decorator to mark a method as the handler of a VCS."""
- def decorate(f):
- """Store f in HANDLERS[vcs][method]."""
- if vcs not in HANDLERS:
- HANDLERS[vcs] = {}
- HANDLERS[vcs][method] = f
- return f
- return decorate
-
-
-def run_command(commands, args, cwd=None, verbose=False, hide_stderr=False,
- env=None):
- """Call the given command(s)."""
- assert isinstance(commands, list)
- process = None
- for command in commands:
- try:
- dispcmd = str([command] + args)
- # remember shell=False, so use git.cmd on windows, not just git
- process = subprocess.Popen([command] + args, cwd=cwd, env=env,
- stdout=subprocess.PIPE,
- stderr=(subprocess.PIPE if hide_stderr
- else None))
- break
- except OSError:
- e = sys.exc_info()[1]
- if e.errno == errno.ENOENT:
- continue
- if verbose:
- print("unable to run %%s" %% dispcmd)
- print(e)
- return None, None
- else:
- if verbose:
- print("unable to find command, tried %%s" %% (commands,))
- return None, None
- stdout = process.communicate()[0].strip().decode()
- if process.returncode != 0:
- if verbose:
- print("unable to run %%s (error)" %% dispcmd)
- print("stdout was %%s" %% stdout)
- return None, process.returncode
- return stdout, process.returncode
-
-
-def versions_from_parentdir(parentdir_prefix, root, verbose):
- """Try to determine the version from the parent directory name.
-
- Source tarballs conventionally unpack into a directory that includes both
- the project name and a version string. We will also support searching up
- two directory levels for an appropriately named parent directory
- """
- rootdirs = []
-
- for _ in range(3):
- dirname = os.path.basename(root)
- if dirname.startswith(parentdir_prefix):
- return {"version": dirname[len(parentdir_prefix):],
- "full-revisionid": None,
- "dirty": False, "error": None, "date": None}
- rootdirs.append(root)
- root = os.path.dirname(root) # up a level
-
- if verbose:
- print("Tried directories %%s but none started with prefix %%s" %%
- (str(rootdirs), parentdir_prefix))
- raise NotThisMethod("rootdir doesn't start with parentdir_prefix")
-
-
-@register_vcs_handler("git", "get_keywords")
-def git_get_keywords(versionfile_abs):
- """Extract version information from the given file."""
- # the code embedded in _version.py can just fetch the value of these
- # keywords. When used from setup.py, we don't want to import _version.py,
- # so we do it with a regexp instead. This function is not used from
- # _version.py.
- keywords = {}
- try:
- with open(versionfile_abs, "r") as fobj:
- for line in fobj:
- if line.strip().startswith("git_refnames ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["refnames"] = mo.group(1)
- if line.strip().startswith("git_full ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["full"] = mo.group(1)
- if line.strip().startswith("git_date ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["date"] = mo.group(1)
- except OSError:
- pass
- return keywords
-
-
-@register_vcs_handler("git", "keywords")
-def git_versions_from_keywords(keywords, tag_prefix, verbose):
- """Get version information from git keywords."""
- if "refnames" not in keywords:
- raise NotThisMethod("Short version file found")
- date = keywords.get("date")
- if date is not None:
- # Use only the last line. Previous lines may contain GPG signature
- # information.
- date = date.splitlines()[-1]
-
- # git-2.2.0 added "%%cI", which expands to an ISO-8601 -compliant
- # datestamp. However we prefer "%%ci" (which expands to an "ISO-8601
- # -like" string, which we must then edit to make compliant), because
- # it's been around since git-1.5.3, and it's too difficult to
- # discover which version we're using, or to work around using an
- # older one.
- date = date.strip().replace(" ", "T", 1).replace(" ", "", 1)
- refnames = keywords["refnames"].strip()
- if refnames.startswith("$Format"):
- if verbose:
- print("keywords are unexpanded, not using")
- raise NotThisMethod("unexpanded keywords, not a git-archive tarball")
- refs = {r.strip() for r in refnames.strip("()").split(",")}
- # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of
- # just "foo-1.0". If we see a "tag: " prefix, prefer those.
- TAG = "tag: "
- tags = {r[len(TAG):] for r in refs if r.startswith(TAG)}
- if not tags:
- # Either we're using git < 1.8.3, or there really are no tags. We use
- # a heuristic: assume all version tags have a digit. The old git %%d
- # expansion behaves like git log --decorate=short and strips out the
- # refs/heads/ and refs/tags/ prefixes that would let us distinguish
- # between branches and tags. By ignoring refnames without digits, we
- # filter out many common branch names like "release" and
- # "stabilization", as well as "HEAD" and "master".
- tags = {r for r in refs if re.search(r'\d', r)}
- if verbose:
- print("discarding '%%s', no digits" %% ",".join(refs - tags))
- if verbose:
- print("likely tags: %%s" %% ",".join(sorted(tags)))
- for ref in sorted(tags):
- # sorting will prefer e.g. "2.0" over "2.0rc1"
- if ref.startswith(tag_prefix):
- r = ref[len(tag_prefix):]
- # Filter out refs that exactly match prefix or that don't start
- # with a number once the prefix is stripped (mostly a concern
- # when prefix is '')
- if not re.match(r'\d', r):
- continue
- if verbose:
- print("picking %%s" %% r)
- return {"version": r,
- "full-revisionid": keywords["full"].strip(),
- "dirty": False, "error": None,
- "date": date}
- # no suitable tags, so version is "0+unknown", but full hex is still there
- if verbose:
- print("no suitable tags, using unknown + full revision id")
- return {"version": "0+unknown",
- "full-revisionid": keywords["full"].strip(),
- "dirty": False, "error": "no suitable tags", "date": None}
-
-
-@register_vcs_handler("git", "pieces_from_vcs")
-def git_pieces_from_vcs(tag_prefix, root, verbose, runner=run_command):
- """Get version from 'git describe' in the root of the source tree.
-
- This only gets called if the git-archive 'subst' keywords were *not*
- expanded, and _version.py hasn't already been rewritten with a short
- version string, meaning we're inside a checked out source tree.
- """
- GITS = ["git"]
- TAG_PREFIX_REGEX = "*"
- if sys.platform == "win32":
- GITS = ["git.cmd", "git.exe"]
- TAG_PREFIX_REGEX = r"\*"
-
- _, rc = runner(GITS, ["rev-parse", "--git-dir"], cwd=root,
- hide_stderr=True)
- if rc != 0:
- if verbose:
- print("Directory %%s not under git control" %% root)
- raise NotThisMethod("'git rev-parse --git-dir' returned error")
-
- # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty]
- # if there isn't one, this yields HEX[-dirty] (no NUM)
- describe_out, rc = runner(GITS, ["describe", "--tags", "--dirty",
- "--always", "--long",
- "--match",
- "%%s%%s" %% (tag_prefix, TAG_PREFIX_REGEX)],
- cwd=root)
- # --long was added in git-1.5.5
- if describe_out is None:
- raise NotThisMethod("'git describe' failed")
- describe_out = describe_out.strip()
- full_out, rc = runner(GITS, ["rev-parse", "HEAD"], cwd=root)
- if full_out is None:
- raise NotThisMethod("'git rev-parse' failed")
- full_out = full_out.strip()
-
- pieces = {}
- pieces["long"] = full_out
- pieces["short"] = full_out[:7] # maybe improved later
- pieces["error"] = None
-
- branch_name, rc = runner(GITS, ["rev-parse", "--abbrev-ref", "HEAD"],
- cwd=root)
- # --abbrev-ref was added in git-1.6.3
- if rc != 0 or branch_name is None:
- raise NotThisMethod("'git rev-parse --abbrev-ref' returned error")
- branch_name = branch_name.strip()
-
- if branch_name == "HEAD":
- # If we aren't exactly on a branch, pick a branch which represents
- # the current commit. If all else fails, we are on a branchless
- # commit.
- branches, rc = runner(GITS, ["branch", "--contains"], cwd=root)
- # --contains was added in git-1.5.4
- if rc != 0 or branches is None:
- raise NotThisMethod("'git branch --contains' returned error")
- branches = branches.split("\n")
-
- # Remove the first line if we're running detached
- if "(" in branches[0]:
- branches.pop(0)
-
- # Strip off the leading "* " from the list of branches.
- branches = [branch[2:] for branch in branches]
- if "master" in branches:
- branch_name = "master"
- elif not branches:
- branch_name = None
- else:
- # Pick the first branch that is returned. Good or bad.
- branch_name = branches[0]
-
- pieces["branch"] = branch_name
-
- # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty]
- # TAG might have hyphens.
- git_describe = describe_out
-
- # look for -dirty suffix
- dirty = git_describe.endswith("-dirty")
- pieces["dirty"] = dirty
- if dirty:
- git_describe = git_describe[:git_describe.rindex("-dirty")]
-
- # now we have TAG-NUM-gHEX or HEX
-
- if "-" in git_describe:
- # TAG-NUM-gHEX
- mo = re.search(r'^(.+)-(\d+)-g([0-9a-f]+)$', git_describe)
- if not mo:
- # unparsable. Maybe git-describe is misbehaving?
- pieces["error"] = ("unable to parse git-describe output: '%%s'"
- %% describe_out)
- return pieces
-
- # tag
- full_tag = mo.group(1)
- if not full_tag.startswith(tag_prefix):
- if verbose:
- fmt = "tag '%%s' doesn't start with prefix '%%s'"
- print(fmt %% (full_tag, tag_prefix))
- pieces["error"] = ("tag '%%s' doesn't start with prefix '%%s'"
- %% (full_tag, tag_prefix))
- return pieces
- pieces["closest-tag"] = full_tag[len(tag_prefix):]
-
- # distance: number of commits since tag
- pieces["distance"] = int(mo.group(2))
-
- # commit: short hex revision ID
- pieces["short"] = mo.group(3)
-
- else:
- # HEX: no tags
- pieces["closest-tag"] = None
- count_out, rc = runner(GITS, ["rev-list", "HEAD", "--count"], cwd=root)
- pieces["distance"] = int(count_out) # total number of commits
-
- # commit date: see ISO-8601 comment in git_versions_from_keywords()
- date = runner(GITS, ["show", "-s", "--format=%%ci", "HEAD"], cwd=root)[0].strip()
- # Use only the last line. Previous lines may contain GPG signature
- # information.
- date = date.splitlines()[-1]
- pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1)
-
- return pieces
-
-
-def plus_or_dot(pieces):
- """Return a + if we don't already have one, else return a ."""
- if "+" in pieces.get("closest-tag", ""):
- return "."
- return "+"
-
-
-def render_pep440(pieces):
- """Build up version string, with post-release "local version identifier".
-
- Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you
- get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty
-
- Exceptions:
- 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += plus_or_dot(pieces)
- rendered += "%%d.g%%s" %% (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0+untagged.%%d.g%%s" %% (pieces["distance"],
- pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def render_pep440_branch(pieces):
- """TAG[[.dev0]+DISTANCE.gHEX[.dirty]] .
-
- The ".dev0" means not master branch. Note that .dev0 sorts backwards
- (a feature branch will appear "older" than the master branch).
-
- Exceptions:
- 1: no tags. 0[.dev0]+untagged.DISTANCE.gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "%%d.g%%s" %% (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0"
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += "+untagged.%%d.g%%s" %% (pieces["distance"],
- pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def pep440_split_post(ver):
- """Split pep440 version string at the post-release segment.
-
- Returns the release segments before the post-release and the
- post-release version number (or -1 if no post-release segment is present).
- """
- vc = str.split(ver, ".post")
- return vc[0], int(vc[1] or 0) if len(vc) == 2 else None
-
-
-def render_pep440_pre(pieces):
- """TAG[.postN.devDISTANCE] -- No -dirty.
-
- Exceptions:
- 1: no tags. 0.post0.devDISTANCE
- """
- if pieces["closest-tag"]:
- if pieces["distance"]:
- # update the post release segment
- tag_version, post_version = pep440_split_post(pieces["closest-tag"])
- rendered = tag_version
- if post_version is not None:
- rendered += ".post%%d.dev%%d" %% (post_version+1, pieces["distance"])
- else:
- rendered += ".post0.dev%%d" %% (pieces["distance"])
- else:
- # no commits, use the tag as the version
- rendered = pieces["closest-tag"]
- else:
- # exception #1
- rendered = "0.post0.dev%%d" %% pieces["distance"]
- return rendered
-
-
-def render_pep440_post(pieces):
- """TAG[.postDISTANCE[.dev0]+gHEX] .
-
- The ".dev0" means dirty. Note that .dev0 sorts backwards
- (a dirty tree will appear "older" than the corresponding clean one),
- but you shouldn't be releasing software with -dirty anyways.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%%d" %% pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "g%%s" %% pieces["short"]
- else:
- # exception #1
- rendered = "0.post%%d" %% pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- rendered += "+g%%s" %% pieces["short"]
- return rendered
-
-
-def render_pep440_post_branch(pieces):
- """TAG[.postDISTANCE[.dev0]+gHEX[.dirty]] .
-
- The ".dev0" means not master branch.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]+gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%%d" %% pieces["distance"]
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "g%%s" %% pieces["short"]
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0.post%%d" %% pieces["distance"]
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += "+g%%s" %% pieces["short"]
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def render_pep440_old(pieces):
- """TAG[.postDISTANCE[.dev0]] .
-
- The ".dev0" means dirty.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%%d" %% pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- else:
- # exception #1
- rendered = "0.post%%d" %% pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- return rendered
-
-
-def render_git_describe(pieces):
- """TAG[-DISTANCE-gHEX][-dirty].
-
- Like 'git describe --tags --dirty --always'.
-
- Exceptions:
- 1: no tags. HEX[-dirty] (note: no 'g' prefix)
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"]:
- rendered += "-%%d-g%%s" %% (pieces["distance"], pieces["short"])
- else:
- # exception #1
- rendered = pieces["short"]
- if pieces["dirty"]:
- rendered += "-dirty"
- return rendered
-
-
-def render_git_describe_long(pieces):
- """TAG-DISTANCE-gHEX[-dirty].
-
- Like 'git describe --tags --dirty --always -long'.
- The distance/hash is unconditional.
-
- Exceptions:
- 1: no tags. HEX[-dirty] (note: no 'g' prefix)
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- rendered += "-%%d-g%%s" %% (pieces["distance"], pieces["short"])
- else:
- # exception #1
- rendered = pieces["short"]
- if pieces["dirty"]:
- rendered += "-dirty"
- return rendered
-
-
-def render(pieces, style):
- """Render the given version pieces into the requested style."""
- if pieces["error"]:
- return {"version": "unknown",
- "full-revisionid": pieces.get("long"),
- "dirty": None,
- "error": pieces["error"],
- "date": None}
-
- if not style or style == "default":
- style = "pep440" # the default
-
- if style == "pep440":
- rendered = render_pep440(pieces)
- elif style == "pep440-branch":
- rendered = render_pep440_branch(pieces)
- elif style == "pep440-pre":
- rendered = render_pep440_pre(pieces)
- elif style == "pep440-post":
- rendered = render_pep440_post(pieces)
- elif style == "pep440-post-branch":
- rendered = render_pep440_post_branch(pieces)
- elif style == "pep440-old":
- rendered = render_pep440_old(pieces)
- elif style == "git-describe":
- rendered = render_git_describe(pieces)
- elif style == "git-describe-long":
- rendered = render_git_describe_long(pieces)
- else:
- raise ValueError("unknown style '%%s'" %% style)
-
- return {"version": rendered, "full-revisionid": pieces["long"],
- "dirty": pieces["dirty"], "error": None,
- "date": pieces.get("date")}
-
-
-def get_versions():
- """Get version information or return default if unable to do so."""
- # I am in _version.py, which lives at ROOT/VERSIONFILE_SOURCE. If we have
- # __file__, we can work backwards from there to the root. Some
- # py2exe/bbfreeze/non-CPython implementations don't do __file__, in which
- # case we can only use expanded keywords.
-
- cfg = get_config()
- verbose = cfg.verbose
-
- try:
- return git_versions_from_keywords(get_keywords(), cfg.tag_prefix,
- verbose)
- except NotThisMethod:
- pass
-
- try:
- root = os.path.realpath(__file__)
- # versionfile_source is the relative path from the top of the source
- # tree (where the .git directory might live) to this file. Invert
- # this to find the root from __file__.
- for _ in cfg.versionfile_source.split('/'):
- root = os.path.dirname(root)
- except NameError:
- return {"version": "0+unknown", "full-revisionid": None,
- "dirty": None,
- "error": "unable to find root of source tree",
- "date": None}
-
- try:
- pieces = git_pieces_from_vcs(cfg.tag_prefix, root, verbose)
- return render(pieces, cfg.style)
- except NotThisMethod:
- pass
-
- try:
- if cfg.parentdir_prefix:
- return versions_from_parentdir(cfg.parentdir_prefix, root, verbose)
- except NotThisMethod:
- pass
-
- return {"version": "0+unknown", "full-revisionid": None,
- "dirty": None,
- "error": "unable to compute version", "date": None}
-'''
-
-
-@register_vcs_handler("git", "get_keywords")
-def git_get_keywords(versionfile_abs):
- """Extract version information from the given file."""
- # the code embedded in _version.py can just fetch the value of these
- # keywords. When used from setup.py, we don't want to import _version.py,
- # so we do it with a regexp instead. This function is not used from
- # _version.py.
- keywords = {}
- try:
- with open(versionfile_abs) as fobj:
- for line in fobj:
- if line.strip().startswith("git_refnames ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["refnames"] = mo.group(1)
- if line.strip().startswith("git_full ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["full"] = mo.group(1)
- if line.strip().startswith("git_date ="):
- mo = re.search(r'=\s*"(.*)"', line)
- if mo:
- keywords["date"] = mo.group(1)
- except OSError:
- pass
- return keywords
-
-
-@register_vcs_handler("git", "keywords")
-def git_versions_from_keywords(keywords, tag_prefix, verbose):
- """Get version information from git keywords."""
- if "refnames" not in keywords:
- raise NotThisMethod("Short version file found")
- date = keywords.get("date")
- if date is not None:
- # Use only the last line. Previous lines may contain GPG signature
- # information.
- date = date.splitlines()[-1]
-
- # git-2.2.0 added "%cI", which expands to an ISO-8601 -compliant
- # datestamp. However we prefer "%ci" (which expands to an "ISO-8601
- # -like" string, which we must then edit to make compliant), because
- # it's been around since git-1.5.3, and it's too difficult to
- # discover which version we're using, or to work around using an
- # older one.
- date = date.strip().replace(" ", "T", 1).replace(" ", "", 1)
- refnames = keywords["refnames"].strip()
- if refnames.startswith("$Format"):
- if verbose:
- print("keywords are unexpanded, not using")
- raise NotThisMethod("unexpanded keywords, not a git-archive tarball")
- refs = {r.strip() for r in refnames.strip("()").split(",")}
- # starting in git-1.8.3, tags are listed as "tag: foo-1.0" instead of
- # just "foo-1.0". If we see a "tag: " prefix, prefer those.
- TAG = "tag: "
- tags = {r[len(TAG) :] for r in refs if r.startswith(TAG)}
- if not tags:
- # Either we're using git < 1.8.3, or there really are no tags. We use
- # a heuristic: assume all version tags have a digit. The old git %d
- # expansion behaves like git log --decorate=short and strips out the
- # refs/heads/ and refs/tags/ prefixes that would let us distinguish
- # between branches and tags. By ignoring refnames without digits, we
- # filter out many common branch names like "release" and
- # "stabilization", as well as "HEAD" and "master".
- tags = {r for r in refs if re.search(r"\d", r)}
- if verbose:
- print("discarding '%s', no digits" % ",".join(refs - tags))
- if verbose:
- print("likely tags: %s" % ",".join(sorted(tags)))
- for ref in sorted(tags):
- # sorting will prefer e.g. "2.0" over "2.0rc1"
- if ref.startswith(tag_prefix):
- r = ref[len(tag_prefix) :]
- # Filter out refs that exactly match prefix or that don't start
- # with a number once the prefix is stripped (mostly a concern
- # when prefix is '')
- if not re.match(r"\d", r):
- continue
- if verbose:
- print("picking %s" % r)
- return {
- "version": r,
- "full-revisionid": keywords["full"].strip(),
- "dirty": False,
- "error": None,
- "date": date,
- }
- # no suitable tags, so version is "0+unknown", but full hex is still there
- if verbose:
- print("no suitable tags, using unknown + full revision id")
- return {
- "version": "0+unknown",
- "full-revisionid": keywords["full"].strip(),
- "dirty": False,
- "error": "no suitable tags",
- "date": None,
- }
-
-
-@register_vcs_handler("git", "pieces_from_vcs")
-def git_pieces_from_vcs(tag_prefix, root, verbose, runner=run_command):
- """Get version from 'git describe' in the root of the source tree.
-
- This only gets called if the git-archive 'subst' keywords were *not*
- expanded, and _version.py hasn't already been rewritten with a short
- version string, meaning we're inside a checked out source tree.
- """
- GITS = ["git"]
- TAG_PREFIX_REGEX = "*"
- if sys.platform == "win32":
- GITS = ["git.cmd", "git.exe"]
- TAG_PREFIX_REGEX = r"\*"
-
- _, rc = runner(GITS, ["rev-parse", "--git-dir"], cwd=root, hide_stderr=True)
- if rc != 0:
- if verbose:
- print("Directory %s not under git control" % root)
- raise NotThisMethod("'git rev-parse --git-dir' returned error")
-
- # if there is a tag matching tag_prefix, this yields TAG-NUM-gHEX[-dirty]
- # if there isn't one, this yields HEX[-dirty] (no NUM)
- describe_out, rc = runner(
- GITS,
- [
- "describe",
- "--tags",
- "--dirty",
- "--always",
- "--long",
- "--match",
- f"{tag_prefix}{TAG_PREFIX_REGEX}",
- ],
- cwd=root,
- )
- # --long was added in git-1.5.5
- if describe_out is None:
- raise NotThisMethod("'git describe' failed")
- describe_out = describe_out.strip()
- full_out, rc = runner(GITS, ["rev-parse", "HEAD"], cwd=root)
- if full_out is None:
- raise NotThisMethod("'git rev-parse' failed")
- full_out = full_out.strip()
-
- pieces = {}
- pieces["long"] = full_out
- pieces["short"] = full_out[:7] # maybe improved later
- pieces["error"] = None
-
- branch_name, rc = runner(GITS, ["rev-parse", "--abbrev-ref", "HEAD"], cwd=root)
- # --abbrev-ref was added in git-1.6.3
- if rc != 0 or branch_name is None:
- raise NotThisMethod("'git rev-parse --abbrev-ref' returned error")
- branch_name = branch_name.strip()
-
- if branch_name == "HEAD":
- # If we aren't exactly on a branch, pick a branch which represents
- # the current commit. If all else fails, we are on a branchless
- # commit.
- branches, rc = runner(GITS, ["branch", "--contains"], cwd=root)
- # --contains was added in git-1.5.4
- if rc != 0 or branches is None:
- raise NotThisMethod("'git branch --contains' returned error")
- branches = branches.split("\n")
-
- # Remove the first line if we're running detached
- if "(" in branches[0]:
- branches.pop(0)
-
- # Strip off the leading "* " from the list of branches.
- branches = [branch[2:] for branch in branches]
- if "master" in branches:
- branch_name = "master"
- elif not branches:
- branch_name = None
- else:
- # Pick the first branch that is returned. Good or bad.
- branch_name = branches[0]
-
- pieces["branch"] = branch_name
-
- # parse describe_out. It will be like TAG-NUM-gHEX[-dirty] or HEX[-dirty]
- # TAG might have hyphens.
- git_describe = describe_out
-
- # look for -dirty suffix
- dirty = git_describe.endswith("-dirty")
- pieces["dirty"] = dirty
- if dirty:
- git_describe = git_describe[: git_describe.rindex("-dirty")]
-
- # now we have TAG-NUM-gHEX or HEX
-
- if "-" in git_describe:
- # TAG-NUM-gHEX
- mo = re.search(r"^(.+)-(\d+)-g([0-9a-f]+)$", git_describe)
- if not mo:
- # unparsable. Maybe git-describe is misbehaving?
- pieces["error"] = "unable to parse git-describe output: '%s'" % describe_out
- return pieces
-
- # tag
- full_tag = mo.group(1)
- if not full_tag.startswith(tag_prefix):
- if verbose:
- fmt = "tag '%s' doesn't start with prefix '%s'"
- print(fmt % (full_tag, tag_prefix))
- pieces["error"] = f"tag '{full_tag}' doesn't start with prefix '{tag_prefix}'"
- return pieces
- pieces["closest-tag"] = full_tag[len(tag_prefix) :]
-
- # distance: number of commits since tag
- pieces["distance"] = int(mo.group(2))
-
- # commit: short hex revision ID
- pieces["short"] = mo.group(3)
-
- else:
- # HEX: no tags
- pieces["closest-tag"] = None
- count_out, rc = runner(GITS, ["rev-list", "HEAD", "--count"], cwd=root)
- pieces["distance"] = int(count_out) # total number of commits
-
- # commit date: see ISO-8601 comment in git_versions_from_keywords()
- date = runner(GITS, ["show", "-s", "--format=%ci", "HEAD"], cwd=root)[0].strip()
- # Use only the last line. Previous lines may contain GPG signature
- # information.
- date = date.splitlines()[-1]
- pieces["date"] = date.strip().replace(" ", "T", 1).replace(" ", "", 1)
-
- return pieces
-
-
-def do_vcs_install(manifest_in, versionfile_source, ipy):
- """Git-specific installation logic for Versioneer.
-
- For Git, this means creating/changing .gitattributes to mark _version.py
- for export-subst keyword substitution.
- """
- GITS = ["git"]
- if sys.platform == "win32":
- GITS = ["git.cmd", "git.exe"]
- files = [manifest_in, versionfile_source]
- if ipy:
- files.append(ipy)
- try:
- my_path = __file__
- if my_path.endswith(".pyc") or my_path.endswith(".pyo"):
- my_path = os.path.splitext(my_path)[0] + ".py"
- versioneer_file = os.path.relpath(my_path)
- except NameError:
- versioneer_file = "versioneer.py"
- files.append(versioneer_file)
- present = False
- try:
- with open(".gitattributes") as fobj:
- for line in fobj:
- if line.strip().startswith(versionfile_source):
- if "export-subst" in line.strip().split()[1:]:
- present = True
- break
- except OSError:
- pass
- if not present:
- with open(".gitattributes", "a+") as fobj:
- fobj.write(f"{versionfile_source} export-subst\n")
- files.append(".gitattributes")
- run_command(GITS, ["add", "--"] + files)
-
-
-def versions_from_parentdir(parentdir_prefix, root, verbose):
- """Try to determine the version from the parent directory name.
-
- Source tarballs conventionally unpack into a directory that includes both
- the project name and a version string. We will also support searching up
- two directory levels for an appropriately named parent directory
- """
- rootdirs = []
-
- for _ in range(3):
- dirname = os.path.basename(root)
- if dirname.startswith(parentdir_prefix):
- return {
- "version": dirname[len(parentdir_prefix) :],
- "full-revisionid": None,
- "dirty": False,
- "error": None,
- "date": None,
- }
- rootdirs.append(root)
- root = os.path.dirname(root) # up a level
-
- if verbose:
- print(
- "Tried directories %s but none started with prefix %s"
- % (str(rootdirs), parentdir_prefix)
- )
- raise NotThisMethod("rootdir doesn't start with parentdir_prefix")
-
-
-SHORT_VERSION_PY = """
-# This file was generated by 'versioneer.py' (0.21) from
-# revision-control system data, or from the parent directory name of an
-# unpacked source archive. Distribution tarballs contain a pre-generated copy
-# of this file.
-
-import json
-
-version_json = '''
-%s
-''' # END VERSION_JSON
-
-
-def get_versions():
- return json.loads(version_json)
-"""
-
-
-def versions_from_file(filename):
- """Try to determine the version from _version.py if present."""
- try:
- with open(filename) as f:
- contents = f.read()
- except OSError:
- raise NotThisMethod("unable to read _version.py")
- mo = re.search(r"version_json = '''\n(.*)''' # END VERSION_JSON", contents, re.M | re.S)
- if not mo:
- mo = re.search(r"version_json = '''\r\n(.*)''' # END VERSION_JSON", contents, re.M | re.S)
- if not mo:
- raise NotThisMethod("no version_json in _version.py")
- return json.loads(mo.group(1))
-
-
-def write_to_version_file(filename, versions):
- """Write the given version number to the given _version.py file."""
- os.unlink(filename)
- contents = json.dumps(versions, sort_keys=True, indent=1, separators=(",", ": "))
- with open(filename, "w") as f:
- f.write(SHORT_VERSION_PY % contents)
-
- print("set {} to '{}'".format(filename, versions["version"]))
-
-
-def plus_or_dot(pieces):
- """Return a + if we don't already have one, else return a ."""
- if "+" in pieces.get("closest-tag", ""):
- return "."
- return "+"
-
-
-def render_pep440(pieces):
- """Build up version string, with post-release "local version identifier".
-
- Our goal: TAG[+DISTANCE.gHEX[.dirty]] . Note that if you
- get a tagged build and then dirty it, you'll get TAG+0.gHEX.dirty
-
- Exceptions:
- 1: no tags. git_describe was just HEX. 0+untagged.DISTANCE.gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += plus_or_dot(pieces)
- rendered += "%d.g%s" % (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0+untagged.%d.g%s" % (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def render_pep440_branch(pieces):
- """TAG[[.dev0]+DISTANCE.gHEX[.dirty]] .
-
- The ".dev0" means not master branch. Note that .dev0 sorts backwards
- (a feature branch will appear "older" than the master branch).
-
- Exceptions:
- 1: no tags. 0[.dev0]+untagged.DISTANCE.gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "%d.g%s" % (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0"
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += "+untagged.%d.g%s" % (pieces["distance"], pieces["short"])
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def pep440_split_post(ver):
- """Split pep440 version string at the post-release segment.
-
- Returns the release segments before the post-release and the
- post-release version number (or -1 if no post-release segment is present).
- """
- vc = str.split(ver, ".post")
- return vc[0], int(vc[1] or 0) if len(vc) == 2 else None
-
-
-def render_pep440_pre(pieces):
- """TAG[.postN.devDISTANCE] -- No -dirty.
-
- Exceptions:
- 1: no tags. 0.post0.devDISTANCE
- """
- if pieces["closest-tag"]:
- if pieces["distance"]:
- # update the post release segment
- tag_version, post_version = pep440_split_post(pieces["closest-tag"])
- rendered = tag_version
- if post_version is not None:
- rendered += ".post%d.dev%d" % (post_version + 1, pieces["distance"])
- else:
- rendered += ".post0.dev%d" % (pieces["distance"])
- else:
- # no commits, use the tag as the version
- rendered = pieces["closest-tag"]
- else:
- # exception #1
- rendered = "0.post0.dev%d" % pieces["distance"]
- return rendered
-
-
-def render_pep440_post(pieces):
- """TAG[.postDISTANCE[.dev0]+gHEX] .
-
- The ".dev0" means dirty. Note that .dev0 sorts backwards
- (a dirty tree will appear "older" than the corresponding clean one),
- but you shouldn't be releasing software with -dirty anyways.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%d" % pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "g%s" % pieces["short"]
- else:
- # exception #1
- rendered = "0.post%d" % pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- rendered += "+g%s" % pieces["short"]
- return rendered
-
-
-def render_pep440_post_branch(pieces):
- """TAG[.postDISTANCE[.dev0]+gHEX[.dirty]] .
-
- The ".dev0" means not master branch.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]+gHEX[.dirty]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%d" % pieces["distance"]
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += plus_or_dot(pieces)
- rendered += "g%s" % pieces["short"]
- if pieces["dirty"]:
- rendered += ".dirty"
- else:
- # exception #1
- rendered = "0.post%d" % pieces["distance"]
- if pieces["branch"] != "master":
- rendered += ".dev0"
- rendered += "+g%s" % pieces["short"]
- if pieces["dirty"]:
- rendered += ".dirty"
- return rendered
-
-
-def render_pep440_old(pieces):
- """TAG[.postDISTANCE[.dev0]] .
-
- The ".dev0" means dirty.
-
- Exceptions:
- 1: no tags. 0.postDISTANCE[.dev0]
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"] or pieces["dirty"]:
- rendered += ".post%d" % pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- else:
- # exception #1
- rendered = "0.post%d" % pieces["distance"]
- if pieces["dirty"]:
- rendered += ".dev0"
- return rendered
-
-
-def render_git_describe(pieces):
- """TAG[-DISTANCE-gHEX][-dirty].
-
- Like 'git describe --tags --dirty --always'.
-
- Exceptions:
- 1: no tags. HEX[-dirty] (note: no 'g' prefix)
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- if pieces["distance"]:
- rendered += "-%d-g%s" % (pieces["distance"], pieces["short"])
- else:
- # exception #1
- rendered = pieces["short"]
- if pieces["dirty"]:
- rendered += "-dirty"
- return rendered
-
-
-def render_git_describe_long(pieces):
- """TAG-DISTANCE-gHEX[-dirty].
-
- Like 'git describe --tags --dirty --always -long'.
- The distance/hash is unconditional.
-
- Exceptions:
- 1: no tags. HEX[-dirty] (note: no 'g' prefix)
- """
- if pieces["closest-tag"]:
- rendered = pieces["closest-tag"]
- rendered += "-%d-g%s" % (pieces["distance"], pieces["short"])
- else:
- # exception #1
- rendered = pieces["short"]
- if pieces["dirty"]:
- rendered += "-dirty"
- return rendered
-
-
-def render(pieces, style):
- """Render the given version pieces into the requested style."""
- if pieces["error"]:
- return {
- "version": "unknown",
- "full-revisionid": pieces.get("long"),
- "dirty": None,
- "error": pieces["error"],
- "date": None,
- }
-
- if not style or style == "default":
- style = "pep440" # the default
-
- if style == "pep440":
- rendered = render_pep440(pieces)
- elif style == "pep440-branch":
- rendered = render_pep440_branch(pieces)
- elif style == "pep440-pre":
- rendered = render_pep440_pre(pieces)
- elif style == "pep440-post":
- rendered = render_pep440_post(pieces)
- elif style == "pep440-post-branch":
- rendered = render_pep440_post_branch(pieces)
- elif style == "pep440-old":
- rendered = render_pep440_old(pieces)
- elif style == "git-describe":
- rendered = render_git_describe(pieces)
- elif style == "git-describe-long":
- rendered = render_git_describe_long(pieces)
- else:
- raise ValueError("unknown style '%s'" % style)
-
- return {
- "version": rendered,
- "full-revisionid": pieces["long"],
- "dirty": pieces["dirty"],
- "error": None,
- "date": pieces.get("date"),
- }
-
-
-class VersioneerBadRootError(Exception):
- """The project root directory is unknown or missing key files."""
-
-
-def get_versions(verbose=False):
- """Get the project version from whatever source is available.
-
- Returns dict with two keys: 'version' and 'full'.
- """
- if "versioneer" in sys.modules:
- # see the discussion in cmdclass.py:get_cmdclass()
- del sys.modules["versioneer"]
-
- root = get_root()
- cfg = get_config_from_root(root)
-
- assert cfg.VCS is not None, "please set [versioneer]VCS= in setup.cfg"
- handlers = HANDLERS.get(cfg.VCS)
- assert handlers, "unrecognized VCS '%s'" % cfg.VCS
- verbose = verbose or cfg.verbose
- assert cfg.versionfile_source is not None, "please set versioneer.versionfile_source"
- assert cfg.tag_prefix is not None, "please set versioneer.tag_prefix"
-
- versionfile_abs = os.path.join(root, cfg.versionfile_source)
-
- # extract version from first of: _version.py, VCS command (e.g. 'git
- # describe'), parentdir. This is meant to work for developers using a
- # source checkout, for users of a tarball created by 'setup.py sdist',
- # and for users of a tarball/zipball created by 'git archive' or github's
- # download-from-tag feature or the equivalent in other VCSes.
-
- get_keywords_f = handlers.get("get_keywords")
- from_keywords_f = handlers.get("keywords")
- if get_keywords_f and from_keywords_f:
- try:
- keywords = get_keywords_f(versionfile_abs)
- ver = from_keywords_f(keywords, cfg.tag_prefix, verbose)
- if verbose:
- print("got version from expanded keyword %s" % ver)
- return ver
- except NotThisMethod:
- pass
-
- try:
- ver = versions_from_file(versionfile_abs)
- if verbose:
- print(f"got version from file {versionfile_abs} {ver}")
- return ver
- except NotThisMethod:
- pass
-
- from_vcs_f = handlers.get("pieces_from_vcs")
- if from_vcs_f:
- try:
- pieces = from_vcs_f(cfg.tag_prefix, root, verbose)
- ver = render(pieces, cfg.style)
- if verbose:
- print("got version from VCS %s" % ver)
- return ver
- except NotThisMethod:
- pass
-
- try:
- if cfg.parentdir_prefix:
- ver = versions_from_parentdir(cfg.parentdir_prefix, root, verbose)
- if verbose:
- print("got version from parentdir %s" % ver)
- return ver
- except NotThisMethod:
- pass
-
- if verbose:
- print("unable to compute version")
-
- return {
- "version": "0+unknown",
- "full-revisionid": None,
- "dirty": None,
- "error": "unable to compute version",
- "date": None,
- }
-
-
-def get_version():
- """Get the short version string for this project."""
- return get_versions()["version"]
-
-
-def get_cmdclass(cmdclass=None):
- """Get the custom setuptools/distutils subclasses used by Versioneer.
-
- If the package uses a different cmdclass (e.g. one from numpy), it
- should be provide as an argument.
- """
- if "versioneer" in sys.modules:
- del sys.modules["versioneer"]
- # this fixes the "python setup.py develop" case (also 'install' and
- # 'easy_install .'), in which subdependencies of the main project are
- # built (using setup.py bdist_egg) in the same python process. Assume
- # a main project A and a dependency B, which use different versions
- # of Versioneer. A's setup.py imports A's Versioneer, leaving it in
- # sys.modules by the time B's setup.py is executed, causing B to run
- # with the wrong versioneer. Setuptools wraps the sub-dep builds in a
- # sandbox that restores sys.modules to it's pre-build state, so the
- # parent is protected against the child's "import versioneer". By
- # removing ourselves from sys.modules here, before the child build
- # happens, we protect the child from the parent's versioneer too.
- # Also see https://github.com/python-versioneer/python-versioneer/issues/52
-
- cmds = {} if cmdclass is None else cmdclass.copy()
-
- # we add "version" to both distutils and setuptools
- from distutils.core import Command
-
- class cmd_version(Command):
- description = "report generated version string"
- user_options = []
- boolean_options = []
-
- def initialize_options(self):
- pass
-
- def finalize_options(self):
- pass
-
- def run(self):
- vers = get_versions(verbose=True)
- print("Version: %s" % vers["version"])
- print(" full-revisionid: %s" % vers.get("full-revisionid"))
- print(" dirty: %s" % vers.get("dirty"))
- print(" date: %s" % vers.get("date"))
- if vers["error"]:
- print(" error: %s" % vers["error"])
-
- cmds["version"] = cmd_version
-
- # we override "build_py" in both distutils and setuptools
- #
- # most invocation pathways end up running build_py:
- # distutils/build -> build_py
- # distutils/install -> distutils/build ->..
- # setuptools/bdist_wheel -> distutils/install ->..
- # setuptools/bdist_egg -> distutils/install_lib -> build_py
- # setuptools/install -> bdist_egg ->..
- # setuptools/develop -> ?
- # pip install:
- # copies source tree to a tempdir before running egg_info/etc
- # if .git isn't copied too, 'git describe' will fail
- # then does setup.py bdist_wheel, or sometimes setup.py install
- # setup.py egg_info -> ?
-
- # we override different "build_py" commands for both environments
- if "build_py" in cmds:
- _build_py = cmds["build_py"]
- elif "setuptools" in sys.modules:
- from setuptools.command.build_py import build_py as _build_py
- else:
- from distutils.command.build_py import build_py as _build_py
-
- class cmd_build_py(_build_py):
- def run(self):
- root = get_root()
- cfg = get_config_from_root(root)
- versions = get_versions()
- _build_py.run(self)
- # now locate _version.py in the new build/ directory and replace
- # it with an updated value
- if cfg.versionfile_build:
- target_versionfile = os.path.join(self.build_lib, cfg.versionfile_build)
- print("UPDATING %s" % target_versionfile)
- write_to_version_file(target_versionfile, versions)
-
- cmds["build_py"] = cmd_build_py
-
- if "build_ext" in cmds:
- _build_ext = cmds["build_ext"]
- elif "setuptools" in sys.modules:
- from setuptools.command.build_ext import build_ext as _build_ext
- else:
- from distutils.command.build_ext import build_ext as _build_ext
-
- class cmd_build_ext(_build_ext):
- def run(self):
- root = get_root()
- cfg = get_config_from_root(root)
- versions = get_versions()
- _build_ext.run(self)
- if self.inplace:
- # build_ext --inplace will only build extensions in
- # build/lib<..> dir with no _version.py to write to.
- # As in place builds will already have a _version.py
- # in the module dir, we do not need to write one.
- return
- # now locate _version.py in the new build/ directory and replace
- # it with an updated value
- target_versionfile = os.path.join(self.build_lib, cfg.versionfile_build)
- print("UPDATING %s" % target_versionfile)
- write_to_version_file(target_versionfile, versions)
-
- cmds["build_ext"] = cmd_build_ext
-
- if "cx_Freeze" in sys.modules: # cx_freeze enabled?
- from cx_Freeze.dist import build_exe as _build_exe
-
- # nczeczulin reports that py2exe won't like the pep440-style string
- # as FILEVERSION, but it can be used for PRODUCTVERSION, e.g.
- # setup(console=[{
- # "version": versioneer.get_version().split("+", 1)[0], # FILEVERSION
- # "product_version": versioneer.get_version(),
- # ...
-
- class cmd_build_exe(_build_exe):
- def run(self):
- root = get_root()
- cfg = get_config_from_root(root)
- versions = get_versions()
- target_versionfile = cfg.versionfile_source
- print("UPDATING %s" % target_versionfile)
- write_to_version_file(target_versionfile, versions)
-
- _build_exe.run(self)
- os.unlink(target_versionfile)
- with open(cfg.versionfile_source, "w") as f:
- LONG = LONG_VERSION_PY[cfg.VCS]
- f.write(
- LONG
- % {
- "DOLLAR": "$",
- "STYLE": cfg.style,
- "TAG_PREFIX": cfg.tag_prefix,
- "PARENTDIR_PREFIX": cfg.parentdir_prefix,
- "VERSIONFILE_SOURCE": cfg.versionfile_source,
- }
- )
-
- cmds["build_exe"] = cmd_build_exe
- del cmds["build_py"]
-
- if "py2exe" in sys.modules: # py2exe enabled?
- from py2exe.distutils_buildexe import py2exe as _py2exe
-
- class cmd_py2exe(_py2exe):
- def run(self):
- root = get_root()
- cfg = get_config_from_root(root)
- versions = get_versions()
- target_versionfile = cfg.versionfile_source
- print("UPDATING %s" % target_versionfile)
- write_to_version_file(target_versionfile, versions)
-
- _py2exe.run(self)
- os.unlink(target_versionfile)
- with open(cfg.versionfile_source, "w") as f:
- LONG = LONG_VERSION_PY[cfg.VCS]
- f.write(
- LONG
- % {
- "DOLLAR": "$",
- "STYLE": cfg.style,
- "TAG_PREFIX": cfg.tag_prefix,
- "PARENTDIR_PREFIX": cfg.parentdir_prefix,
- "VERSIONFILE_SOURCE": cfg.versionfile_source,
- }
- )
-
- cmds["py2exe"] = cmd_py2exe
-
- # we override different "sdist" commands for both environments
- if "sdist" in cmds:
- _sdist = cmds["sdist"]
- elif "setuptools" in sys.modules:
- from setuptools.command.sdist import sdist as _sdist
- else:
- from distutils.command.sdist import sdist as _sdist
-
- class cmd_sdist(_sdist):
- def run(self):
- versions = get_versions()
- self._versioneer_generated_versions = versions
- # unless we update this, the command will keep using the old
- # version
- self.distribution.metadata.version = versions["version"]
- return _sdist.run(self)
-
- def make_release_tree(self, base_dir, files):
- root = get_root()
- cfg = get_config_from_root(root)
- _sdist.make_release_tree(self, base_dir, files)
- # now locate _version.py in the new base_dir directory
- # (remembering that it may be a hardlink) and replace it with an
- # updated value
- target_versionfile = os.path.join(base_dir, cfg.versionfile_source)
- print("UPDATING %s" % target_versionfile)
- write_to_version_file(target_versionfile, self._versioneer_generated_versions)
-
- cmds["sdist"] = cmd_sdist
-
- return cmds
-
-
-CONFIG_ERROR = """
-setup.cfg is missing the necessary Versioneer configuration. You need
-a section like:
-
- [versioneer]
- VCS = git
- style = pep440
- versionfile_source = src/myproject/_version.py
- versionfile_build = myproject/_version.py
- tag_prefix =
- parentdir_prefix = myproject-
-
-You will also need to edit your setup.py to use the results:
-
- import versioneer
- setup(version=versioneer.get_version(),
- cmdclass=versioneer.get_cmdclass(), ...)
-
-Please read the docstring in ./versioneer.py for configuration instructions,
-edit setup.cfg, and re-run the installer or 'python versioneer.py setup'.
-"""
-
-SAMPLE_CONFIG = """
-# See the docstring in versioneer.py for instructions. Note that you must
-# re-run 'versioneer.py setup' after changing this section, and commit the
-# resulting files.
-
-[versioneer]
-#VCS = git
-#style = pep440
-#versionfile_source =
-#versionfile_build =
-#tag_prefix =
-#parentdir_prefix =
-
-"""
-
-OLD_SNIPPET = """
-from ._version import get_versions
-__version__ = get_versions()['version']
-del get_versions
-"""
-
-INIT_PY_SNIPPET = """
-from . import {0}
-__version__ = {0}.get_versions()['version']
-"""
-
-
-def do_setup():
- """Do main VCS-independent setup function for installing Versioneer."""
- root = get_root()
- try:
- cfg = get_config_from_root(root)
- except (OSError, configparser.NoSectionError, configparser.NoOptionError) as e:
- if isinstance(e, (OSError, configparser.NoSectionError)):
- print("Adding sample versioneer config to setup.cfg", file=sys.stderr)
- with open(os.path.join(root, "setup.cfg"), "a") as f:
- f.write(SAMPLE_CONFIG)
- print(CONFIG_ERROR, file=sys.stderr)
- return 1
-
- print(" creating %s" % cfg.versionfile_source)
- with open(cfg.versionfile_source, "w") as f:
- LONG = LONG_VERSION_PY[cfg.VCS]
- f.write(
- LONG
- % {
- "DOLLAR": "$",
- "STYLE": cfg.style,
- "TAG_PREFIX": cfg.tag_prefix,
- "PARENTDIR_PREFIX": cfg.parentdir_prefix,
- "VERSIONFILE_SOURCE": cfg.versionfile_source,
- }
- )
-
- ipy = os.path.join(os.path.dirname(cfg.versionfile_source), "__init__.py")
- if os.path.exists(ipy):
- try:
- with open(ipy) as f:
- old = f.read()
- except OSError:
- old = ""
- module = os.path.splitext(os.path.basename(cfg.versionfile_source))[0]
- snippet = INIT_PY_SNIPPET.format(module)
- if OLD_SNIPPET in old:
- print(" replacing boilerplate in %s" % ipy)
- with open(ipy, "w") as f:
- f.write(old.replace(OLD_SNIPPET, snippet))
- elif snippet not in old:
- print(" appending to %s" % ipy)
- with open(ipy, "a") as f:
- f.write(snippet)
- else:
- print(" %s unmodified" % ipy)
- else:
- print(" %s doesn't exist, ok" % ipy)
- ipy = None
-
- # Make sure both the top-level "versioneer.py" and versionfile_source
- # (PKG/_version.py, used by runtime code) are in MANIFEST.in, so
- # they'll be copied into source distributions. Pip won't be able to
- # install the package without this.
- manifest_in = os.path.join(root, "MANIFEST.in")
- simple_includes = set()
- try:
- with open(manifest_in) as f:
- for line in f:
- if line.startswith("include "):
- for include in line.split()[1:]:
- simple_includes.add(include)
- except OSError:
- pass
- # That doesn't cover everything MANIFEST.in can do
- # (http://docs.python.org/2/distutils/sourcedist.html#commands), so
- # it might give some false negatives. Appending redundant 'include'
- # lines is safe, though.
- if "versioneer.py" not in simple_includes:
- print(" appending 'versioneer.py' to MANIFEST.in")
- with open(manifest_in, "a") as f:
- f.write("include versioneer.py\n")
- else:
- print(" 'versioneer.py' already in MANIFEST.in")
- if cfg.versionfile_source not in simple_includes:
- print(" appending versionfile_source ('%s') to MANIFEST.in" % cfg.versionfile_source)
- with open(manifest_in, "a") as f:
- f.write("include %s\n" % cfg.versionfile_source)
- else:
- print(" versionfile_source already in MANIFEST.in")
-
- # Make VCS-specific changes. For git, this means creating/changing
- # .gitattributes to mark _version.py for export-subst keyword
- # substitution.
- do_vcs_install(manifest_in, cfg.versionfile_source, ipy)
- return 0
-
-
-def scan_setup_py():
- """Validate the contents of setup.py against Versioneer's expectations."""
- found = set()
- setters = False
- errors = 0
- with open("setup.py") as f:
- for line in f.readlines():
- if "import versioneer" in line:
- found.add("import")
- if "versioneer.get_cmdclass()" in line:
- found.add("cmdclass")
- if "versioneer.get_version()" in line:
- found.add("get_version")
- if "versioneer.VCS" in line:
- setters = True
- if "versioneer.versionfile_source" in line:
- setters = True
- if len(found) != 3:
- print("")
- print("Your setup.py appears to be missing some important items")
- print("(but I might be wrong). Please make sure it has something")
- print("roughly like the following:")
- print("")
- print(" import versioneer")
- print(" setup( version=versioneer.get_version(),")
- print(" cmdclass=versioneer.get_cmdclass(), ...)")
- print("")
- errors += 1
- if setters:
- print("You should remove lines like 'versioneer.VCS = ' and")
- print("'versioneer.versionfile_source = ' . This configuration")
- print("now lives in setup.cfg, and should be removed from setup.py")
- print("")
- errors += 1
- return errors
-
-
-if __name__ == "__main__":
- cmd = sys.argv[1]
- if cmd == "setup":
- errors = do_setup()
- errors += scan_setup_py()
- if errors:
- sys.exit(1)
More details
Historical runs
- failed: E AttributeError: `suitesparse_graphblas.__version__` not available. This may mean suitesparse-graphblas was incorrectly installed or not installed at all. For local development, you may want to do an editable install via `python -m pip install -e path/to/suitesparse-graphblas`
- nothing-to-do: Last upstream version 7.4.0.0 already imported.
- nothing-to-do: Last upstream version 7.2.0.0 already imported.