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yuvadjust.c
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yuvadjust.c
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/*
* yuvadjust.c
* performs simple contrast brightness saturation adjustments
*
* modified from yuvfps.c by
* Copyright (C) 2002 Alfonso Garcia-Patiño Barbolani
*
*
* 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.
*
gcc -O3 -L/usr/local/lib -I/usr/local/include/mjpegtools -lmjpegutils yuvadjust.c -o yuvadjust
*/
#include <stdio.h>
#include <sys/types.h>
#include <stdlib.h>
#include <unistd.h>
#include <signal.h>
#include <string.h>
#include <math.h>
#include "yuv4mpeg.h"
#include "mpegconsts.h"
#define YUVRFPS_VERSION "0.3"
static void print_usage()
{
fprintf (stderr,
"usage: yuvadjust [-h <hue> -b <bri> [-c <con> [-C <cen>]] [-B <lev> -W <lev>] -s <sat> -u <tra> -v <tra>]\n"
"yuvadjust performs simple luma and chroma adjustments\n"
"\n"
"\t -V Verbosity degree : 0=quiet, 1=normal, 2=verbose/debug\n"
"\t -h <hue> hue rotation in degrees (0-359)\n"
"\t -b <bri> brightness increment (-255-255)\n"
"\t -c <con> contrast (-2.0-2.0)\n"
"\t -C <cen> contrast centre (16-240)\n"
"\t -B <lev> Black level (16-240)\n"
"\t -W <lev> White level (16-240)\n"
"\t -s <sat> saturation (-2.0-2.0)\n"
"\t -u <tra> shift Cr component (-255-255)\n"
"\t -v <tra> shift Cb component (-255-255)\n"
);
}
static void adjust( int fdIn , y4m_stream_info_t *inStrInfo,
int fdOut, y4m_stream_info_t *outStrInfo,
float adj_bri, float adj_con, int adj_con_cen,
float adj_sat, float adj_hue, float adj_u, float adj_v)
{
y4m_frame_info_t in_frame ;
uint8_t *yuv_data[3],*yuv_odata[3];
int y_frame_data_size, uv_frame_data_size ;
int read_error_code ;
int write_error_code ;
int src_frame_counter ;
float vy,vu,vv,nvu,nvv;
float sin_hue, cos_hue;
int x,y,w,h,cw,ch;
w = y4m_si_get_plane_width(inStrInfo,0);
h = y4m_si_get_plane_height(inStrInfo,0);
cw = y4m_si_get_plane_width(inStrInfo,1);
ch = y4m_si_get_plane_height(inStrInfo,1);
// Allocate memory for the YUV channels
y_frame_data_size = y4m_si_get_plane_length(inStrInfo,0);
uv_frame_data_size = y4m_si_get_plane_length(inStrInfo,1);
yuv_data[0] = (uint8_t *)malloc( y_frame_data_size);
yuv_data[1] = (uint8_t *)malloc( uv_frame_data_size);
yuv_data[2] = (uint8_t *)malloc( uv_frame_data_size);
if( !yuv_data[0] || !yuv_data[1] || !yuv_data[2])
mjpeg_error_exit1 ("Could'nt allocate memory for the YUV4MPEG data!");
write_error_code = Y4M_OK ;
src_frame_counter = 0 ;
sin_hue = sin(adj_hue);
cos_hue = cos(adj_hue);
// initialise and read the first number of frames
y4m_init_frame_info( &in_frame );
read_error_code = y4m_read_frame(fdIn,inStrInfo,&in_frame,yuv_data );
while( Y4M_ERR_EOF != read_error_code && write_error_code == Y4M_OK ) {
for (x=0; x<w; x++) {
for (y=0; y<h; y++) {
// perform magic
vy = *(yuv_data[0]+x+(y*w)) - adj_con_cen;
vy = vy * adj_con + adj_bri + adj_con_cen; // Brightness and contrast operation
// clamping
if (vy > 240 ) vy = 240;
if (vy < 16 ) vy = 16;
*(yuv_data[0]+x+(y*w)) = vy;
if ((x < cw) && (y<ch)) {
vu = *(yuv_data[1]+x+(y*cw)) - 128 ;
vv = *(yuv_data[2]+x+(y*cw)) - 128 ;
// hue rotation, saturation and shift
nvu = cos_hue * vu - sin_hue * vv * adj_sat + adj_v;
nvv = sin_hue * vu + cos_hue * vv * adj_sat + adj_u;
if (nvu > 112) nvu = 112;
if (nvu < -112) nvu = -112;
if (nvv > 112) nvv = 112;
if (nvv < -112) nvv = -112;
*(yuv_data[1]+x+(y*cw)) = nvu + 128;
*(yuv_data[2]+x+(y*cw)) = nvv + 128;
}
}
}
write_error_code = y4m_write_frame( fdOut, outStrInfo, &in_frame, yuv_data );
y4m_fini_frame_info( &in_frame );
y4m_init_frame_info( &in_frame );
read_error_code = y4m_read_frame(fdIn,inStrInfo,&in_frame,yuv_data );
++src_frame_counter ;
}
// Clean-up regardless an error happened or not
y4m_fini_frame_info( &in_frame );
free( yuv_data[0] );
free( yuv_data[1] );
free( yuv_data[2] );
if( read_error_code != Y4M_ERR_EOF )
mjpeg_error_exit1 ("Error reading from input stream!");
if( write_error_code != Y4M_OK )
mjpeg_error_exit1 ("Error writing output stream!");
}
// *************************************************************************************
// MAIN
// *************************************************************************************
int main (int argc, char *argv[])
{
int verbose = 1 ; // LOG_ERROR ?
int drop_frames = 0;
int fdIn = 0 ;
int fdOut = 1 ;
y4m_stream_info_t in_streaminfo,out_streaminfo;
int src_interlacing = Y4M_UNKNOWN;
y4m_ratio_t src_frame_rate;
const static char *legal_flags = "h:c:C:B:W:b:s:u:v:V:";
float adj_bri=0,adj_con=1,adj_sat=1,adj_hue=0,adj_u=0,adj_v=0;
int c, adj_con_cen = 128;
int adj_lev_blk = -1, adj_lev_wht = -1;
while ((c = getopt (argc, argv, legal_flags)) != -1) {
switch (c) {
case 'V':
verbose = atoi (optarg);
if (verbose < 0 || verbose > 2)
mjpeg_error_exit1 ("Verbose level must be [0..2]");
break;
case 'h':
adj_hue = atof(optarg);
break;
case 'c':
adj_con = atof(optarg);
break;
case 'C':
adj_con_cen = atoi(optarg);
break;
case 'B':
adj_lev_blk = atoi(optarg);
break;
case 'W':
adj_lev_wht = atoi(optarg);
break;
case 'b':
adj_bri = atof(optarg);
break;
case 's':
adj_sat = atof(optarg);
break;
case 'u':
adj_u = atof(optarg);
break;
case 'v':
adj_v = atof(optarg);
break;
case '?':
print_usage (argv);
return 0 ;
break;
}
}
// mjpeg tools global initialisations
mjpeg_default_handler_verbosity (verbose);
// Initialize input streams
y4m_init_stream_info (&in_streaminfo);
y4m_init_stream_info (&out_streaminfo);
// ***************************************************************
// Get video stream informations (size, framerate, interlacing, aspect ratio).
// The streaminfo structure is filled in
// ***************************************************************
// INPUT comes from stdin, we check for a correct file header
if (y4m_read_stream_header (fdIn, &in_streaminfo) != Y4M_OK)
mjpeg_error_exit1 ("Could'nt read YUV4MPEG header!");
src_frame_rate = y4m_si_get_framerate( &in_streaminfo );
y4m_copy_stream_info( &out_streaminfo, &in_streaminfo );
// Information output
mjpeg_info ("yuvadjust (version " YUVRFPS_VERSION ") is a simple luma and chroma adjustments for yuv streams");
mjpeg_info ("yuvadjust -? for help");
/* in that function we do all the important work */
y4m_write_stream_header(fdOut,&out_streaminfo);
/* convert hue into radians */
adj_hue = adj_hue / 180 * M_PI;
/* if black and white levels are set, calculate apropriate con and con_cen value */
if (adj_lev_blk != -1 && adj_lev_wht != -1 ) {
// adj_con_cen = (16 - adj_lev_blk);
adj_con = 224.0 / (adj_lev_wht - adj_lev_blk); // rise over run
if (adj_con == 1.0) {
adj_con_cen = 128;
} else {
adj_con_cen = - (( ( adj_lev_blk - 16 ) * adj_con ) / ( 1 - adj_con) - 16 );
}
fprintf (stderr,"centre: %d contrast: %g\n",adj_con_cen, adj_con);
}
// would like gamma, anyone for gamma?
adjust( fdIn,&in_streaminfo,fdOut,&out_streaminfo,adj_bri,adj_con,adj_con_cen,adj_sat,adj_hue,adj_u,adj_v);
y4m_fini_stream_info (&in_streaminfo);
y4m_fini_stream_info (&out_streaminfo);
return 0;
}
/*
* Local variables:
* tab-width: 8
* indent-tabs-mode: nil
* End:
*/