/*
IIRblur.c
This Frei0r plugin implements fast IIR blurring of video
Version 0.1 jul 2011
Copyright (C) 2011 Marko Cebokli http://lea.hamradio.si/~s57uuu
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
//compile: gcc -c -fPIC -Wall IIRblur.c -o IIRblur.o
//link: gcc -shared -o IIRblur.so IIRblur.o
//stdio samo za debug izpise
//#include <stdio.h>
#include <frei0r.h>
#include <stdlib.h>
#include <math.h>
#include <assert.h>
#include <inttypes.h>
#include <string.h>
double PI=3.14159265358979;
typedef struct
{
float r;
float g;
float b;
float a;
} float_rgba;
#include "fibe.h"
//----------------------------------------
//struktura za instanco efekta
typedef struct
{
//status
int h;
int w;
//parameters
float am; //amount of blur
int ty; //type of blur [0..2]
int ec; //edge compensation (BOOL)
//video buffers
float_rgba *img;
//internal variables
float a1,a2,a3;
float rd1,rd2,rs1,rs2,rc1,rc2;
} inst;
//--------------------------------------------------------
//Aitken-Neville interpolacija iz 4 tock (tretjega reda)
//t = stevilo tock v arrayu
//array xt naj bo v rastocem zaporedju, lahko neekvidistanten
float AitNev3(int t, float xt[], float yt[], float x)
{
float p[10];
int i,j,m;
if ((x<xt[0])||(x>xt[t-1]))
{
// printf("\n\n x=%f je izven mej tabele!",x);
// Return a reasonable value instead of dividing by zero
if (x<xt[0]) return yt[0];
else return yt[t-1];
}
//poisce, katere tocke bo uporabil
m=0; while (x>xt[m++]);
m=m-4/2-1; if (m<0) m=0; if ((m+4)>(t-1)) m=t-4;
for (i=0;i<4;i++)
p[i]=yt[i+m];
for (j=1;j<4;j++)
for (i=(4-1);i>=j;i--)
{
// Check for division by zero
float denominator = xt[i+m]-xt[i-j+m];
if (denominator == 0.0f) {
// If denominator is zero, skip this iteration to avoid undefined behavior
continue;
}
p[i]=p[i]+(x-xt[i+m])/denominator*(p[i]-p[i-1]);
}
return p[4-1];
}
//-----------------------------------------------------
//stretch [0...1] to parameter range [min...max] linear
float map_value_forward(double v, float min, float max)
{
return min+(max-min)*v;
}
//-----------------------------------------------------
//collapse from parameter range [min...max] to [0...1] linear
double map_value_backward(float v, float min, float max)
{
return (v-min)/(max-min);
}
//-----------------------------------------------------
//stretch [0...1] to parameter range [min...max] logarithmic
//min and max must be positive!
float map_value_forward_log(double v, float min, float max)
{
float sr,k;
sr=sqrtf(min*max);
k=2.0*log(max/sr);
return sr*expf(k*(v-0.5));
}
//-----------------------------------------------------
//collapse from parameter range [min...max] to [0...1] logarithmic
//min and max must be positive!
double map_value_backward_log(float v, float min, float max)
{
float sr,k;
sr=sqrtf(min*max);
k=2.0*log(max/sr);
return logf(v/sr)/k+0.5;
}
//***********************************************
// OBVEZNE FREI0R FUNKCIJE
//-----------------------------------------------
int f0r_init()
{
return 1;
}
//------------------------------------------------
void f0r_deinit()
{
}
//-----------------------------------------------
void f0r_get_plugin_info(f0r_plugin_info_t* info)
{
info->name="IIR blur";
info->author="Marko Cebokli";
info->plugin_type=F0R_PLUGIN_TYPE_FILTER;
info->color_model=F0R_COLOR_MODEL_RGBA8888;
info->frei0r_version=FREI0R_MAJOR_VERSION;
info->major_version=0;
info->minor_version=2;
info->num_params=3;
info->explanation="Three types of fast IIR blurring";
}
//--------------------------------------------------
void f0r_get_param_info(f0r_param_info_t* info, int param_index)
{
switch(param_index)
{
case 0:
info->name = "Amount";
info->type = F0R_PARAM_DOUBLE;
info->explanation = "Amount of blur";
break;
case 1:
info->name = "Type";
info->type = F0R_PARAM_DOUBLE;
info->explanation = "Blur type";
break;
case 2:
info->name = "Edge";
info->type = F0R_PARAM_BOOL;
info->explanation = "Edge compensation";
break;
}
}
//----------------------------------------------
f0r_instance_t f0r_construct(unsigned int width, unsigned int height)
{
inst *in;
in=calloc(1,sizeof(inst));
in->w=width;
in->h=height;
in->img=calloc(width*height*4,sizeof(float));
in->am=map_value_forward_log(0.2, 0.5, 100.0);
in->a1=-0.796093; in->a2=0.186308;
in->ty=1;
in->ec=1;
return (f0r_instance_t)in;
}
//---------------------------------------------------
void f0r_destruct(f0r_instance_t instance)
{
inst *in;
in=(inst*)instance;
free(in->img);
free(instance);
}
//-----------------------------------------------------
void f0r_set_param_value(f0r_instance_t instance, f0r_param_t parm, int param_index)
{
inst *p;
double tmpf;
int chg,tmpi;
float a0,b0,b1,b2,f,q,s;
float am1[]={0.499999,0.7,1.0,1.5,2.0,3.0,4.0,5.0,7.0,10.0,
15.0,20.0,30.0,40.0,50.0,70.0,100.0,150.0,200.00001};
//float iir2f[]={0.448,0.4,0.31,0.25,0.21,0.15,0.1,0.075,
// 0.055,0.039,0.026,0.02,0.013,0.01,0.008,0.006,
// 0.0042,0.0029,0.00205};
//float iir2q[]={0.53,0.53,0.54,0.54,0.54,0.55,0.6,0.7,0.7,
// 0.7,0.7,0.7,0.7,0.7,0.7,0.7,0.7,0.7,0.7};
float iir2q[]={0.53,0.53,0.54,0.54,0.54,0.55,0.6,0.6,0.6,
0.6,0.6,0.6,0.6,0.6,0.6,0.6,0.6,0.6,0.6};
//float iir1a1[]={0.167,0.3,0.5,0.65,0.7,0.8,0.88,0.92,0.95,
// 0.96,0.97,0.98,0.985,0.988,0.99,0.992,0.993,0.9955,
// 0.997};
float iir1a1[]={0.138,0.24,0.34,0.45,0.55, 0.65,0.728,0.775,0.834,0.88,
0.92,0.937,0.958,0.968,0.9745,
0.98,0.986,0.991,0.9931}; //po sigmi
float iir2f[]={0.475,0.39,0.325,0.26,0.21,
0.155,0.112,0.0905,0.065,0.0458,
0.031,0.0234,0.01575,0.0118,0.0093,
0.00725,0.00505,0.0033,0.0025}; //po sigmi
float iir3si[]={0.5,0.7,1.0,1.5,2.0,
3.0,4.0,5.0,7.0,10.0,
15.0,20.0,30.0,40.0,50.0,
70.0,100.0,150.0,186.5};
p=(inst*)instance;
chg=0;
switch(param_index)
{
case 0:
// tmpf=map_value_forward(*((double*)parm), 0.5, 100.0);
if (*((double*)parm) == 0.0)
tmpf = 0.0;
else
tmpf=map_value_forward_log(*((double*)parm), 0.5, 100.0);
if (tmpf!=p->am) chg=1;
p->am=tmpf;
break;
case 1:
tmpf=*((double*)parm);
if (tmpf>=1.0)
tmpi=(int)tmpf;
else
tmpi = map_value_forward(tmpf, 0.0, 2.9999);
if ((tmpi<0)||(tmpi>2.0)) break;
if (p->ty != tmpi) chg=1;
p->ty = tmpi;
break;
case 2:
p->ec=map_value_forward(*((double*)parm), 0.0, 1.0); //BOOL!!
break;
}
if (chg==0) return;
switch(p->ty)
{
case 0: //FIBE-1
p->a1=AitNev3(19, am1, iir1a1, p->am);
//printf("Set parm FIBE-1 a1=%f (p->am=%f)\n",p->a1,p->am);
break;
case 1: //FIBE-2
f=AitNev3(19, am1, iir2f, p->am);
q=AitNev3(19, am1, iir2q, p->am);
calcab_lp1(f, q, &a0, &p->a1, &p->a2, &b0, &b1, &b2);
p->a1=p->a1/a0; p->a2=p->a2/a0;
rep(-0.5, 0.5, 0.0, &p->rd1, &p->rd2, 256, p->a1, p->a2);
rep(1.0, 1.0, 0.0, &p->rs1, &p->rs2, 256, p->a1, p->a2);
rep(0.0, 0.0, 1.0, &p->rc1, &p->rc2, 256, p->a1, p->a2);
//printf("Set parm FIBE-2 a1=%f a2=%f\n",p->a1,p->a2);
break;
case 2: //FIBE-3
s=AitNev3(19, am1, iir3si, p->am);
young_vliet(s, &a0, &p->a1, &p->a2, &p->a3);
p->a1=-p->a1/a0;
p->a2=-p->a2/a0;
p->a3=-p->a3/a0;
//printf("Set parm FIBE-3 a1=%f a2=%f a3=%f\n",p->a1,p->a2,p->a3);
break;
}
}
//--------------------------------------------------
void f0r_get_param_value(f0r_instance_t instance, f0r_param_t param, int param_index)
{
inst *p;
p=(inst*)instance;
switch(param_index)
{
case 0:
// *((double*)param)=map_value_backward(p->am, 0.5, 100.0);
*((double*)param)=map_value_backward_log(p->am, 0.5, 100.0);
break;
case 1:
*((double*)param)=map_value_backward(p->ty, 0.0, 2.9999);
break;
case 2:
*((double*)param)=map_value_backward(p->ec, 0.0, 1.0);//BOOL!!
break;
}
}
//-------------------------------------------------
void f0r_update(f0r_instance_t instance, double time, const uint32_t* inframe, uint32_t* outframe)
{
inst *in;
int i;
assert(instance);
in=(inst*)instance;
if (in->am==0.0) //zero blur, just copy and return
{
memcpy(outframe, inframe, in->w * in->h * sizeof(uint32_t));
return;
}
//do the blur
switch(in->ty)
{
case 0:
fibe1o_8(inframe, outframe, in->img, in->w, in->h, in->a1, in->ec);
break;
case 1:
fibe2o_8(inframe, outframe, in->img, in->w, in->h, in->a1, in->a2, in->rd1, in->rd2, in->rs1, in->rs2, in->rc1, in->rc2, in->ec);
break;
case 2:
fibe3_8(inframe, outframe, in->img, in->w, in->h, in->a1, in->a2, in->a3, in->ec);
// The bottom 3 lines were not updated, and outframe may be initialized with garbage.
// Copy the 4th line from the bottom to the bottom 3 lines.
for (i = 0; i < 3; i++)
memcpy(&outframe[in->w * (in->h - 3 + i)], &outframe[in->w * (in->h - 4)], in->w * 4);
break;
}
//copy alpha
for (i=0;i<in->w*in->h;i++)
{
outframe[i]=(outframe[i]&0x00FFFFFF) | (inframe[i]&0xFF000000);
}
}