(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(* $Id: coq_makefile.ml4 11883 2009-02-06 09:54:52Z herbelin $ *)
(* créer un Makefile pour un développement Coq automatiquement *)
type target =
| ML of string (* ML file : foo.ml -> (ML "foo") *)
| V of string (* V file : foo.v -> (V "foo") *)
| Special of string * string * string (* file, dependencies, command *)
| Subdir of string
| Def of string * string (* X=foo -> Def ("X","foo") *)
| Include of string
| RInclude of string * string (* -R physicalpath logicalpath *)
let output_channel = ref stdout
let makefile_name = ref "Makefile"
let make_name = ref ""
let some_file = ref false
let some_vfile = ref false
let some_mlfile = ref false
let opt = ref "-opt"
let impredicative_set = ref false
let no_install = ref false
let print x = output_string !output_channel x
let printf x = Printf.fprintf !output_channel x
let rec print_list sep = function
| [ x ] -> print x
| x :: l -> print x; print sep; print_list sep l
| [] -> ()
let list_iter_i f =
let rec aux i = function [] -> () | a::l -> f i a; aux (i+1) l in aux 1
let best_ocamlc =
if Coq_config.best = "opt" then "ocamlc.opt" else "ocamlc"
let best_ocamlopt =
if Coq_config.best = "opt" then "ocamlopt.opt" else "ocamlopt"
let section s =
let l = String.length s in
let sep = String.make (l+5) '#'
and sep2 = String.make (l+5) ' ' in
String.set sep (l+4) '\n';
String.set sep2 0 '#';
String.set sep2 (l+3) '#';
String.set sep2 (l+4) '\n';
print sep;
print sep2;
print "# "; print s; print " #\n";
print sep2;
print sep;
print "\n"
let usage () =
output_string stderr "Usage summary:
coq_makefile [subdirectory] .... [file.v] ... [file.ml] ... [-custom
command dependencies file] ... [-I dir] ... [-R physicalpath logicalpath]
... [VARIABLE = value] ... [-opt|-byte] [-impredicative-set] [-no-install]
[-f file] [-o file] [-h] [--help]
[file.v]: Coq file to be compiled
[file.ml]: Objective Caml file to be compiled
[subdirectory] : subdirectory that should be \"made\"
[-custom command dependencies file]: add target \"file\" with command
\"command\" and dependencies \"dependencies\"
[-I dir]: look for dependencies in \"dir\"
[-R physicalpath logicalpath]: look for dependencies resursively starting from
\"physicalpath\". The logical path associated to the physical path is
\"logicalpath\".
[VARIABLE = value]: Add the variable definition \"VARIABLE=value\"
[-byte]: compile with byte-code version of coq
[-opt]: compile with native-code version of coq
[-impredicative-set]: compile with option -impredicative-set of coq
[-no-install]: build a makefile with no install target
[-f file]: take the contents of file as arguments
[-o file]: output should go in file file
[-h]: print this usage summary
[--help]: equivalent to [-h]\n";
exit 1
let is_genrule r =
let genrule = Str.regexp("%") in
Str.string_match genrule r 0
let absolute_dir dir =
let current = Sys.getcwd () in
Sys.chdir dir;
let dir' = Sys.getcwd () in
Sys.chdir current;
dir'
let is_prefix dir1 dir2 =
let l1 = String.length dir1 in
let l2 = String.length dir2 in
dir1 = dir2 or (l1 < l2 & String.sub dir2 0 l1 = dir1 & dir2.[l1] = '/')
let canonize f =
let l = String.length f in
if l > 2 && f.[0] = '.' && f.[1] = '/' then
let n = let i = ref 2 in while !i < l && f.[!i] = '/' do incr i done; !i in
String.sub f n (l-n)
else f
let is_absolute_prefix dir dir' =
is_prefix (absolute_dir dir) (absolute_dir dir')
let is_included dir = function
| RInclude (dir',_) -> is_absolute_prefix dir' dir
| Include dir' -> absolute_dir dir = absolute_dir dir'
| _ -> false
let has_top_file = function
| ML s | V s -> s = Filename.basename s
| _ -> false
let physical_dir_of_logical_dir ldir =
let pdir = String.copy ldir in
for i = 0 to String.length ldir - 1 do
if pdir.[i] = '.' then pdir.[i] <- '/';
done;
pdir
let standard ()=
print "byte:\n";
print "\t$(MAKE) all \"OPT:=-byte\"\n\n";
print "opt:\n";
if !opt = "" then print "\t@echo \"WARNING: opt is disabled\"\n";
print "\t$(MAKE) all \"OPT:="; print !opt; print "\"\n\n"
let is_prefix_of_file dir f =
is_prefix dir (absolute_dir (Filename.dirname f))
let classify_files_by_root var files (inc_i,inc_r) =
if not (List.exists (fun (pdir,_,_) -> pdir = ".") inc_r) then
begin
(* Files in the scope of a -R option (assuming they are disjoint) *)
list_iter_i (fun i (pdir,ldir,abspdir) ->
if List.exists (is_prefix_of_file abspdir) files then
printf "%s%d:=$(patsubst %s/%%,%%,$(filter %s/%%,$(%s)))\n"
var i pdir pdir var)
inc_r;
(* Files not in the scope of a -R option *)
let pat_of_dir (pdir,_,_) = pdir^"/%" in
let pdir_patterns = String.concat " " (List.map pat_of_dir inc_r) in
printf "%s0:=$(filter-out %s,$(%s))\n" var pdir_patterns var
end
let install_include_by_root var files (_,inc_r) =
try
(* All files caught by a -R . option (assuming it is the only one) *)
let ldir = List.assoc "." (List.map (fun (p,l,_) -> (p,l)) inc_r) in
let pdir = physical_dir_of_logical_dir ldir in
printf "\t(for i in $(%s); do \\\n" var;
printf "\t install -D $$i $(COQLIB)/user-contrib/%s/$$i; \\\n" pdir;
printf "\t done)\n"
with Not_found ->
(* Files in the scope of a -R option (assuming they are disjoint) *)
list_iter_i (fun i (pdir,ldir,abspdir) ->
if List.exists (is_prefix_of_file abspdir) files then
begin
let pdir' = physical_dir_of_logical_dir ldir in
printf "\t(cd %s; for i in $(%s%d); do \\\n" pdir var i;
printf "\t install -D $$i $(COQLIB)/user-contrib/%s/$$i; \\\n" pdir';
printf "\t done)\n"
end) inc_r;
(* Files not in the scope of a -R option *)
printf "\t(for i in $(%s0); do \\\n" var;
printf "\t install -D $$i $(COQLIB)/user-contrib/$(INSTALLDEFAULTROOT)/$$i; \\\n";
printf "\t done)\n"
let install (vfiles,mlfiles,_,sds) inc =
print "install:\n";
print "\tmkdir -p $(COQLIB)/user-contrib\n";
if !some_vfile then install_include_by_root "VOFILES" vfiles inc;
if !some_mlfile then install_include_by_root "CMOFILES" mlfiles inc;
if !some_mlfile then install_include_by_root "CMIFILES" mlfiles inc;
if Coq_config.has_natdynlink && !some_mlfile then
install_include_by_root "CMXSFILES" mlfiles inc;
List.iter
(fun x ->
printf "\t(cd %s; $(MAKE) INSTALLDEFAULTROOT=$(INSTALLDEFAULTROOT)/%s install)\n" x x)
sds;
print "\n"
let make_makefile sds =
if !make_name <> "" then begin
printf "%s: %s\n" !makefile_name !make_name;
printf "\tmv -f %s %s.bak\n" !makefile_name !makefile_name;
printf "\t$(COQBIN)coq_makefile -f %s -o %s\n" !make_name !makefile_name;
print "\n";
List.iter
(fun x -> print "\t(cd "; print x; print " ; $(MAKE) Makefile)\n")
sds;
print "\n";
end
let clean sds sps =
print "clean:\n";
print "\trm -f $(VOFILES) $(VIFILES) $(GFILES) *~\n";
print "\trm -f all.ps all-gal.ps all.pdf all-gal.pdf all.glob $(VFILES:.v=.glob) $(HTMLFILES) \
$(GHTMLFILES) $(VFILES:.v=.tex) $(VFILES:.v=.g.tex) $(VFILES:.v=.v.d)\n";
if !some_mlfile then
print "\trm -f $(CMOFILES) $(MLFILES:.ml=.cmi) $(MLFILES:.ml=.ml.d)\n";
if Coq_config.has_natdynlink && !some_mlfile then
print "\trm -f $(CMXSFILES) $(CMXSFILES:.cmxs=.o)\n";
print "\t- rm -rf html\n";
List.iter
(fun (file,_,_) ->
if not (is_genrule file) then
(print "\t- rm -f "; print file; print "\n"))
sps;
List.iter
(fun x -> print "\t(cd "; print x; print " ; $(MAKE) clean)\n")
sds;
print "\n";
print "archclean:\n";
print "\trm -f *.cmx *.o\n";
List.iter
(fun x -> print "\t(cd "; print x; print " ; $(MAKE) archclean)\n")
sds;
print "\n\n";
print "printenv: \n\t@echo CAMLC =\t$(CAMLC)\n\t@echo CAMLOPTC =\t$(CAMLOPTC)\n";
print "\t@echo CAMLP4LIB =\t$(CAMLP4LIB)\n\n"
let header_includes () = ()
let footer_includes () =
if !some_vfile then print "-include $(VFILES:.v=.v.d)\n.SECONDARY: $(VFILES:.v=.v.d)\n\n";
if !some_mlfile then print "-include $(MLFILES:.ml=.ml.d)\n.SECONDARY: $(MLFILES:.ml=.ml.d)\n\n"
let implicit () =
let ml_rules () =
print "%.cmi: %.mli\n\t$(CAMLC) $(ZDEBUG) $(ZFLAGS) $<\n\n";
print "%.cmo: %.ml\n\t$(CAMLC) $(ZDEBUG) $(ZFLAGS) -c $(PP) $<\n\n";
print "%.cmx: %.ml\n\t$(CAMLOPTC) $(ZDEBUG) $(ZFLAGS) -c $(PP) $<\n\n";
print "%.cmxs: %.ml\n\t$(CAMLOPTC) $(ZDEBUG) $(ZFLAGS) -shared -o $@ $(PP) $<\n\n";
print "%.cmo: %.ml4\n\t$(CAMLC) $(ZDEBUG) $(ZFLAGS) $(PP) -impl $<\n\n";
print "%.cmx: %.ml4\n\t$(CAMLOPTC) $(ZDEBUG) $(ZFLAGS) $(PP) -impl $<\n\n";
print "%.cmxs: %.ml4\n\t$(CAMLOPTC) $(ZDEBUG) $(ZFLAGS) -shared -o $@ $(PP) -impl $<\n\n";
print "%.ml.d: %.ml\n";
print "\t$(CAMLBIN)ocamldep -slash $(COQSRCLIBS) $(PP) \"$<\" > \"$@\"\n\n"
and v_rule () =
print "%.vo %.glob: %.v\n\t$(COQC) -dump-glob $*.glob $(COQDEBUG) $(COQFLAGS) $*\n\n";
print "%.vi: %.v\n\t$(COQC) -i $(COQDEBUG) $(COQFLAGS) $*\n\n";
print "%.g: %.v\n\t$(GALLINA) $<\n\n";
print "%.tex: %.v\n\t$(COQDOC) -latex $< -o $@\n\n";
print "%.html: %.v %.glob\n\t$(COQDOC) -glob-from $*.glob -html $< -o $@\n\n";
print "%.g.tex: %.v\n\t$(COQDOC) -latex -g $< -o $@\n\n";
print "%.g.html: %.v %.glob\n\t$(COQDOC) -glob-from $*.glob -html -g $< -o $@\n\n";
print "%.v.d: %.v\n";
print "\t$(COQDEP) -glob -slash $(COQLIBS) \"$<\" > \"$@\" || ( RV=$$?; rm -f \"$@\"; exit $${RV} )\n\n"
in
if !some_mlfile then ml_rules ();
if !some_vfile then v_rule ()
let variables defs =
let var_aux (v,def) = print v; print "="; print def; print "\n" in
section "Variables definitions.";
print "ZFLAGS=$(OCAMLLIBS) $(COQSRCLIBS) -I $(CAMLP4LIB)\n";
if !opt = "-byte" then
print "override OPT:=-byte\n"
else
print "OPT:=\n";
if !impredicative_set = true then print "OTHERFLAGS=-impredicative-set\n";
(* Coq executables and relative variables *)
print "COQFLAGS:=-q $(OPT) $(COQLIBS) $(OTHERFLAGS) $(COQ_XML)\n";
print "ifdef CAMLBIN\n COQMKTOPFLAGS:=-camlbin $(CAMLBIN) -camlp4bin $(CAMLP4BIN)\nendif\n";
print "COQC:=$(COQBIN)coqc\n";
print "COQDEP:=$(COQBIN)coqdep -c\n";
print "GALLINA:=$(COQBIN)gallina\n";
print "COQDOC:=$(COQBIN)coqdoc\n";
print "COQMKTOP:=$(COQBIN)coqmktop\n";
(* Caml executables and relative variables *)
printf "CAMLC:=$(CAMLBIN)%s -rectypes\n" best_ocamlc;
printf "CAMLOPTC:=$(CAMLBIN)%s -rectypes\n" best_ocamlopt;
printf "CAMLLINK:=$(CAMLBIN)%s -rectypes\n" best_ocamlc;
printf "CAMLOPTLINK:=$(CAMLBIN)%s -rectypes\n" best_ocamlopt;
print "GRAMMARS:=grammar.cma\n";
print "CAMLP4EXTEND:=pa_extend.cmo pa_macro.cmo q_MLast.cmo\n";
print "CAMLP4OPTIONS:=\n";
List.iter var_aux defs;
print "PP:=-pp \"$(CAMLP4BIN)$(CAMLP4)o -I . $(COQSRCLIBS) $(CAMLP4EXTEND) $(GRAMMARS) $(CAMLP4OPTIONS) -impl\"\n";
print "\n"
let parameters () =
print "# \n";
print "# This Makefile may take 3 arguments passed as environment variables:\n";
print "# - COQBIN to specify the directory where Coq binaries resides;\n";
print "# - CAMLBIN and CAMLP4BIN to give the path for the OCaml and Camlp4/5 binaries.\n";
print "COQLIB:=$(shell $(COQBIN)coqtop -where | sed -e 's/\\\\/\\\\\\\\/g')\n";
print "CAMLP4:=\"$(shell $(COQBIN)coqtop -config | awk -F = '/CAMLP4=/{print $$2}')\"\n";
print "ifndef CAMLP4BIN\n CAMLP4BIN:=$(CAMLBIN)\nendif\n\n";
print "CAMLP4LIB:=$(shell $(CAMLP4BIN)$(CAMLP4) -where)\n\n"
let include_dirs (inc_i,inc_r) =
let parse_includes l = List.map (fun (x,_) -> "-I " ^ x) l in
let parse_rec_includes l =
List.map (fun (p,l,_) ->
let l' = if l = "" then "\"\"" else l in "-R " ^ p ^ " " ^ l')
l in
let inc_i' = List.filter (fun (i,_) -> not (List.exists (fun (i',_,_) -> is_absolute_prefix i' i) inc_r)) inc_i in
let str_i = parse_includes inc_i in
let str_i' = parse_includes inc_i' in
let str_r = parse_rec_includes inc_r in
section "Libraries definitions.";
print "OCAMLLIBS:=-I $(CAMLP4LIB) "; print_list "\\\n " str_i; print "\n";
print "COQSRCLIBS:=-I $(COQLIB)/kernel -I $(COQLIB)/lib \\
-I $(COQLIB)/library -I $(COQLIB)/parsing \\
-I $(COQLIB)/pretyping -I $(COQLIB)/interp \\
-I $(COQLIB)/proofs -I $(COQLIB)/tactics \\
-I $(COQLIB)/toplevel -I $(COQLIB)/contrib/cc -I $(COQLIB)/contrib/dp \\
-I $(COQLIB)/contrib/extraction -I $(COQLIB)/contrib/field \\
-I $(COQLIB)/contrib/firstorder -I $(COQLIB)/contrib/fourier \\
-I $(COQLIB)/contrib/funind -I $(COQLIB)/contrib/interface \\
-I $(COQLIB)/contrib/micromega -I $(COQLIB)/contrib/omega \\
-I $(COQLIB)/contrib/ring -I $(COQLIB)/contrib/romega \\
-I $(COQLIB)/contrib/rtauto -I $(COQLIB)/contrib/setoid_ring \\
-I $(COQLIB)/contrib/subtac -I $(COQLIB)/contrib/xml\n";
print "COQLIBS:="; print_list "\\\n " str_i'; print " "; print_list "\\\n " str_r; print "\n";
print "COQDOCLIBS:="; print_list "\\\n " str_r; print "\n\n"
let rec special = function
| [] -> []
| Special (file,deps,com) :: r -> (file,deps,com) :: (special r)
| _ :: r -> special r
let custom sps =
let pr_sp (file,dependencies,com) =
print file; print ": "; print dependencies; print "\n";
print "\t"; print com; print "\n\n"
in
if sps <> [] then section "Custom targets.";
List.iter pr_sp sps
let subdirs sds =
let pr_subdir s =
print s; print ":\n\tcd "; print s; print " ; $(MAKE) all\n\n"
in
if sds <> [] then section "Subdirectories.";
List.iter pr_subdir sds;
section "Special targets.";
print ".PHONY: ";
print_list " "
("all" :: "opt" :: "byte" :: "archclean" :: "clean" :: "install"
:: "depend" :: "html" :: sds);
print "\n\n"
let rec split_arguments = function
| V n :: r ->
let (v,m,o,s),i,d = split_arguments r in ((canonize n::v,m,o,s),i,d)
| ML n :: r ->
let (v,m,o,s),i,d = split_arguments r in ((v,canonize n::m,o,s),i,d)
| Special (n,dep,c) :: r ->
let (v,m,o,s),i,d = split_arguments r in ((v,m,(n,dep,c)::o,s),i,d)
| Subdir n :: r ->
let (v,m,o,s),i,d = split_arguments r in ((v,m,o,n::s),i,d)
| Include p :: r ->
let t,(i,r),d = split_arguments r in (t,((p,absolute_dir p)::i,r),d)
| RInclude (p,l) :: r ->
let t,(i,r),d = split_arguments r in (t,(i,(p,l,absolute_dir p)::r),d)
| Def (v,def) :: r ->
let t,i,d = split_arguments r in (t,i,(v,def)::d)
| [] -> ([],[],[],[]),([],[]),[]
let main_targets vfiles mlfiles other_targets inc =
if !some_vfile then
begin
print "VFILES:="; print_list "\\\n " vfiles; print "\n";
print "VOFILES:=$(VFILES:.v=.vo)\n";
classify_files_by_root "VOFILES" vfiles inc;
print "GLOBFILES:=$(VFILES:.v=.glob)\n";
print "VIFILES:=$(VFILES:.v=.vi)\n";
print "GFILES:=$(VFILES:.v=.g)\n";
print "HTMLFILES:=$(VFILES:.v=.html)\n";
print "GHTMLFILES:=$(VFILES:.v=.g.html)\n"
end;
if !some_mlfile then
begin
print "MLFILES:="; print_list "\\\n " mlfiles; print "\n";
print "CMOFILES:=$(MLFILES:.ml=.cmo)\n";
classify_files_by_root "CMOFILES" mlfiles inc;
print "CMIFILES:=$(MLFILES:.ml=.cmi)\n";
classify_files_by_root "CMIFILES" mlfiles inc;
print "CMXFILES:=$(MLFILES:.ml=.cmx)\n";
print "CMXSFILES:=$(MLFILES:.ml=.cmxs)\n";
classify_files_by_root "CMXSFILES" mlfiles inc;
print "OFILES:=$(MLFILES:.ml=.o)\n";
end;
print "\nall: ";
if !some_vfile then print "$(VOFILES) ";
if !some_mlfile then print "$(CMOFILES) ";
if Coq_config.has_natdynlink && !some_mlfile then print "$(CMXSFILES) ";
print_list "\\\n " other_targets; print "\n";
if !some_vfile then
begin
print "spec: $(VIFILES)\n\n";
print "gallina: $(GFILES)\n\n";
print "html: $(GLOBFILES) $(VFILES)\n";
print "\t- mkdir html\n";
print "\t$(COQDOC) -toc -html $(COQDOCLIBS) -d html $(VFILES)\n\n";
print "gallinahtml: $(GLOBFILES) $(VFILES)\n";
print "\t- mkdir html\n";
print "\t$(COQDOC) -toc -html -g $(COQDOCLIBS) -d html $(VFILES)\n\n";
print "all.ps: $(VFILES)\n";
print "\t$(COQDOC) -toc -ps $(COQDOCLIBS) -o $@ `$(COQDEP) -sort -suffix .v $(VFILES)`\n\n";
print "all-gal.ps: $(VFILES)\n";
print "\t$(COQDOC) -toc -ps -g $(COQDOCLIBS) -o $@ `$(COQDEP) -sort -suffix .v $(VFILES)`\n\n";
print "all.pdf: $(VFILES)\n";
print "\t$(COQDOC) -toc -pdf $(COQDOCLIBS) -o $@ `$(COQDEP) -sort -suffix .v $(VFILES)`\n\n";
print "all-gal.pdf: $(VFILES)\n";
print "\t$(COQDOC) -toc -pdf -g $(COQDOCLIBS) -o $@ `$(COQDEP) -sort -suffix .v $(VFILES)`\n\n";
print "\n\n"
end
let all_target (vfiles, mlfiles, sps, sds) inc =
let special_targets = List.filter (fun (n,_,_) -> not (is_genrule n)) sps in
let other_targets = List.map (fun x,_,_ -> x) special_targets @ sds in
section "Definition of the \"all\" target.";
main_targets vfiles mlfiles other_targets inc;
custom sps;
subdirs sds
let parse f =
let rec string = parser
| [< '' ' | '\n' | '\t' >] -> ""
| [< 'c; s >] -> (String.make 1 c)^(string s)
| [< >] -> ""
and string2 = parser
| [< ''"' >] -> ""
| [< 'c; s >] -> (String.make 1 c)^(string2 s)
and skip_comment = parser
| [< ''\n'; s >] -> s
| [< 'c; s >] -> skip_comment s
| [< >] -> [< >]
and args = parser
| [< '' ' | '\n' | '\t'; s >] -> args s
| [< ''#'; s >] -> args (skip_comment s)
| [< ''"'; str = string2; s >] -> ("" ^ str) :: args s
| [< 'c; str = string; s >] -> ((String.make 1 c) ^ str) :: (args s)
| [< >] -> []
in
let c = open_in f in
let res = args (Stream.of_channel c) in
close_in c;
res
let rec process_cmd_line = function
| [] ->
some_file := !some_file or !some_mlfile or !some_vfile; []
| ("-h"|"--help") :: _ ->
usage ()
| ("-no-opt"|"-byte") :: r ->
opt := "-byte"; process_cmd_line r
| ("-full"|"-opt") :: r ->
opt := "-opt"; process_cmd_line r
| "-impredicative-set" :: r ->
impredicative_set := true; process_cmd_line r
| "-no-install" :: r ->
no_install := true; process_cmd_line r
| "-custom" :: com :: dependencies :: file :: r ->
let check_dep f =
if Filename.check_suffix f ".v" then
some_vfile := true
else if (Filename.check_suffix f ".ml") || (Filename.check_suffix f ".ml4") then
some_mlfile := true
in
List.iter check_dep (Str.split (Str.regexp "[ \t]+") dependencies);
Special (file,dependencies,com) :: (process_cmd_line r)
| "-I" :: d :: r ->
Include d :: (process_cmd_line r)
| "-R" :: p :: l :: r ->
RInclude (p,l) :: (process_cmd_line r)
| ("-I"|"-custom") :: _ ->
usage ()
| "-f" :: file :: r ->
make_name := file;
process_cmd_line ((parse file)@r)
| ["-f"] ->
usage ()
| "-o" :: file :: r ->
makefile_name := file;
output_channel := (open_out file);
(process_cmd_line r)
| v :: "=" :: def :: r ->
Def (v,def) :: (process_cmd_line r)
| f :: r ->
if Filename.check_suffix f ".v" then begin
some_vfile := true;
V f :: (process_cmd_line r)
end else if (Filename.check_suffix f ".ml") || (Filename.check_suffix f ".ml4") then begin
some_mlfile := true;
ML f :: (process_cmd_line r)
end else if (Filename.check_suffix f ".mli") then begin
Printf.eprintf "Warning: no need for .mli files, skipped %s\n" f;
process_cmd_line r
end else
Subdir f :: (process_cmd_line r)
let banner () =
print
"##########################################################################
## v # The Coq Proof Assistant ##
## <O___,, # CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud ##
## \\VV/ # ##
## // # Makefile automagically generated by coq_makefile V8.2 ##
##########################################################################
"
let warning () =
print "# WARNING\n#\n";
print "# This Makefile has been automagically generated\n";
print "# Edit at your own risks !\n";
print "#\n# END OF WARNING\n\n"
let print_list l = List.iter (fun x -> print x; print " ") l
let command_line args =
print "#\n# This Makefile was generated by the command line :\n";
print "# coq_makefile ";
print_list args;
print "\n#\n\n"
let directories_deps l =
let print_dep f dep =
if dep <> [] then begin print f; print ": "; print_list dep; print "\n" end
in
let rec iter ((dirs,before) as acc) = function
| [] ->
()
| (Subdir d) :: l ->
print_dep d before; iter (d :: dirs, d :: before) l
| (ML f) :: l ->
print_dep f dirs; iter (dirs, f :: before) l
| (V f) :: l ->
print_dep f dirs; iter (dirs, f :: before) l
| (Special (f,_,_)) :: l ->
print_dep f dirs; iter (dirs, f :: before) l
| _ :: l ->
iter acc l
in
iter ([],[]) l
let ensure_root_dir l =
if List.exists (is_included ".") l or not (List.exists has_top_file l) then
l
else
Include "." :: l
let warn_install_at_root_directory (vfiles,mlfiles,_,_) (inc_i,inc_r) =
let inc_r_top = List.filter (fun (_,ldir,_) -> ldir = "") inc_r in
let inc_top = List.map (fun (p,_,a) -> (p,a)) inc_r_top @ inc_i in
let files = vfiles @ mlfiles in
if not !no_install &&
List.exists (fun f -> List.mem_assoc (Filename.dirname f) inc_top) files
then
Printf.eprintf "Warning: install target will copy files at the first level of the coq contributions installation directory; option -R %sis recommended\n"
(if inc_r_top = [] then "" else "with non trivial logical root ")
let check_overlapping_include (inc_i,inc_r) =
let pwd = Sys.getcwd () in
let rec aux = function
| [] -> ()
| (pdir,_,abspdir)::l ->
if not (is_prefix pwd abspdir) then
Printf.eprintf "Warning: in option -R, %s is not a subdirectoty of the current directory\n" pdir;
List.iter (fun (pdir',_,abspdir') ->
if is_prefix abspdir abspdir' or is_prefix abspdir' abspdir then
Printf.eprintf "Warning: in options -R, %s and %s overlap\n" pdir pdir') l;
List.iter (fun (pdir',abspdir') ->
if is_prefix abspdir abspdir' or is_prefix abspdir' abspdir then
Printf.eprintf "Warning: in option -I, %s overlap with %s in option -R\n" pdir' pdir) inc_i
in aux inc_r
let do_makefile args =
let l = process_cmd_line args in
let l = ensure_root_dir l in
let (_,_,sps,sds as targets), inc, defs = split_arguments l in
warn_install_at_root_directory targets inc;
check_overlapping_include inc;
banner ();
header_includes ();
warning ();
command_line args;
parameters ();
include_dirs inc;
variables defs;
all_target targets inc;
implicit ();
standard ();
if not !no_install then install targets inc;
clean sds sps;
make_makefile sds;
(* TEST directories_deps l; *)
footer_includes ();
warning ();
if not (!output_channel == stdout) then close_out !output_channel;
exit 0
let main () =
let args =
if Array.length Sys.argv = 1 then usage ();
List.tl (Array.to_list Sys.argv)
in
do_makefile args
let _ = Printexc.catch main ()