Annotation of /branches/dev-api-3/xvidcore/examples/xvid_bstat.c

Revision 751 - (view) (download)

1 :	chl	571	/**************************************************************************
2 :			*
3 :			* XVID MPEG-4 VIDEO CODEC - Example for encoding and decoding
4 :			*
5 :			* This program is free software; you can redistribute it and/or modify
6 :			* it under the terms of the GNU General Public License as published by
7 :			* the Free Software Foundation; either version 2 of the License, or
8 :			* (at your option) any later version.
9 :			*
10 :			* This program is distributed in the hope that it will be useful,
11 :			* but WITHOUT ANY WARRANTY; without even the implied warranty of
12 :			* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 :			* GNU General Public License for more details.
14 :			*
15 :			* You should have received a copy of the GNU General Public License
16 :			* along with this program; if not, write to the Free Software
17 :			* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
18 :			*
19 :			*************************************************************************/
20 :
21 :			/************************************************************************
22 :			*
23 :			* PSNR and Speed test routine for XviD using the XviD-API
24 :			* (C) Christoph Lampert, 2002/04/13
25 :			*
26 :			* This is programs isn't finished... it's just a quick hack because people
27 :			* asked for a version of xvid_bstat with bframe-support
28 :			*
29 :			* A sequence of YUV pics in PGM file format is encoded and decoded
30 :			* The speed is measured and PSNR of decoded picture is calculated.
31 :			*
32 :			* The program is plain C and needs no libraries except for libxvidcore,
33 :			* and maths-lib ,so with UN*X you simply compile by
34 :			*
35 :			* gcc xvid_bstat.c -lxvidcore -lm -o xvid_bstat
36 :			*
37 :			* Run without or with illegal parameters, then PGM input input is read
38 :			* from stdin.
39 :			*
40 :			* Parameters are: xvid_bstat XDIM YDIM QUALITY BITRATE/QUANTIZER FRAMERATE
41 :			* MAX_FRAMES MAX_BFRAMES BFRAME_QUANT
42 :			*
43 :			* if XDIM or YDIM are illegal (e.g. 0), they are ignored and input is
44 :			* considered to be PGM. Otherwise (X and Y both greater than 0) raw YUV
45 :			* is expected, as e.g. the standard MPEG test-files, like "foreman"
46 :			*
47 :			* 0 <= QUALITY <= 6 (default 5)
48 :			*
49 :			* BITRATE is in kbps (default 900),
50 :			* if BITRATE<32, then value is taken is fixed QUANTIZER
51 :			*
52 :			* FRAMERATE is a float (with or without decimal dot), default is 25.00
53 :			*
54 :			* MAX_FRAMEs is the total number of frames to be encoded (minimum 1)
55 :			*
56 :			* MAX_BFRAMES is the maximum number of bframes in a row (or -1)
57 :			*
58 :			* BFRAME_QUANT is the quantization ratio for B-frames (in percent)
59 :			*
60 :			* input/output and m4v-output is saved, if corresponding flags are set
61 :			*
62 :			* PGM input must in a very specific format, see read_pgmheader
63 :			* it can be generated e.g. from MPEG2 by mpeg2dec -o pgmpipe
64 :			*
65 :			************************************************************************/
66 :
67 :			/************************************************************************
68 :			*
69 :			* For EXAMPLES how to use this, see the seperate file xvid_bstat.examples
70 :			*
71 :			************************************************************************/
72 :
73 :			#define BFRAMES
74 :
75 :			#include <stdio.h>
76 :			#include <stdlib.h>
77 :			#include <math.h> // needed for log10
78 :			#include <sys/time.h> // only needed for gettimeofday
79 :
80 :			#include "xvid.h" /* comes with XviD */
81 :
82 :			int motion_presets[7] = {
83 :			0, // Q 0
84 :	chl	751	0, // Q 1
85 :			0, // Q 2
86 :			PMV_HALFPELREFINE16, // Q 3
87 :			PMV_HALFPELREFINE16, // Q 4
88 :			PMV_HALFPELREFINE16 \| PMV_HALFPELREFINE8, // Q 5
89 :			PMV_HALFPELREFINE16 \| PMV_EXTSEARCH16 // Q 6
90 :			\| PMV_USESQUARES8 \| PMV_USESQUARES16 \| PMV_HALFPELREFINE8
91 :	chl	571	};
92 :
93 :			int general_presets[7] = {
94 :			XVID_H263QUANT, /* or use XVID_MPEGQUANT */ // Q 0
95 :			XVID_H263QUANT, // Q 1
96 :			XVID_H263QUANT \| XVID_HALFPEL, // Q 2
97 :			XVID_H263QUANT \| XVID_HALFPEL, // Q 3
98 :			XVID_H263QUANT \| XVID_HALFPEL \| XVID_INTER4V, // Q 4
99 :			XVID_H263QUANT \| XVID_HALFPEL \| XVID_INTER4V, // Q 5
100 :			XVID_H263QUANT \| XVID_HALFPEL \| XVID_INTER4V }; // Q 6
101 :
102 :
103 :			/* my default values for encoding */
104 :
105 :			#define ABS_MAXFRAMENR 9999 // max number of frames
106 :
107 :			int ARG_BITRATE=800;
108 :			int ARG_QUANTI=0;
109 :
110 :			int ARG_QUALITY =6;
111 :			int ARG_MINQUANT=1;
112 :			int ARG_MAXQUANT=31;
113 :			float ARG_FRAMERATE=25.00;
114 :
115 :			int ARG_MAX_BFRAMES=2;
116 :			int ARG_BQUANT_RATIO=200;
117 :			int NUMBUFFERS;
118 :
119 :			int ARG_MAXFRAMENR=ABS_MAXFRAMENR;
120 :
121 :
122 :			#define MAX(A,B) ( ((A)>(B)) ? (A) : (B) )
123 :			#define SMALL_EPS 1e-10
124 :
125 :			/* these are global variables. Not very elegant, but easy, and this is an easy program */
126 :
127 :			int XDIM=0;
128 :			int YDIM=0; // will be set when reading first image
129 :			int i,filenr = 0;
130 :
131 :			int save_m4v_flag = 0; // save MPEG4-bytestream?
132 :			int save_dec_flag = 1; // save decompressed bytestream?
133 :			int save_ref_flag = 0; //
134 :
135 :			int pgmflag = 0; // a flag, if input is in PGM format, overwritten in init-phase
136 :			char filepath[256] = "./"; // the path where to save output
137 :
138 :			void *enc_handle = NULL; // internal structures (handles) for encoding
139 :			void *dec_handle = NULL; // and decoding
140 :
141 :
142 :			/*********************************************************************/
143 :			/* "statistical" functions */
144 :			/* */
145 :			/* these are not needed for encoding or decoding, but for measuring */
146 :			/* time and quality, there in nothing specific to XviD in these */
147 :			/* */
148 :			/*********************************************************************/
149 :
150 :			double msecond()
151 :			/* return the current time in seconds(!) */
152 :			{
153 :			struct timeval tv;
154 :			gettimeofday(&tv, 0);
155 :			return tv.tv_sec + tv.tv_usec * 1.0e-6;
156 :			}
157 :
158 :
159 :
160 :			double absdistq(int x,int y, unsigned char* buf1, int stride1, unsigned char* buf2, int stride2)
161 :			/* returns the sum of squared distances (SSD) between two images of dimensions x times y */
162 :			{
163 :			double dist=0.;
164 :			int i,j,val;
165 :
166 :			for (i=0;i<y;i++)
167 :			{
168 :			val=0;
169 :			for (j=0;j<x;j++)
170 :			val+= ((int)buf1[j]-(int)buf2[j])*((int)buf1[j]-(int)buf2[j]);
171 :
172 :			dist += (double)val;
173 :			buf1 += stride1;
174 :			buf2 += stride2;
175 :			}
176 :			return dist/(x*y);
177 :			}
178 :
179 :
180 :			double PSNR(int x,int y, unsigned char* buf1, int stride1, unsigned char* buf2, int stride2 )
181 :			/* return the PSNR between to images */
182 :			/* this is a logarithmic measure for "quality" from the world of signal processing */
183 :			/* if you don't know what it is, simply accept that higher values are better */
184 :			{
185 :			return 10(log10(255255)-log10( absdistq(x, y, buf1, stride1, buf2, stride2) ));
186 :			}
187 :
188 :
189 :			/*********************************************************************/
190 :			/* input and output functions */
191 :			/* */
192 :			/* the are small and simple routines to read and write PGM and YUV */
193 :			/* image. It's just for convenience, again nothing specific to XviD */
194 :			/* */
195 :			/*********************************************************************/
196 :
197 :			int read_pgmheader(FILE* handle)
198 :			{
199 :			int bytes,xsize,ysize,depth;
200 :			char dummy[2];
201 :
202 :			bytes = fread(dummy,1,2,handle);
203 :
204 :			if ( (bytes < 2) \|\| (dummy[0] != 'P') \|\| (dummy[1] != '5' ))
205 :			return 1;
206 :			fscanf(handle,"%d %d %d",&xsize,&ysize,&depth);
207 :			if ( (xsize > 1440) \|\| (ysize > 2880 ) \|\| (depth != 255) )
208 :			{
209 :			fprintf(stderr,"%d %d %d\n",xsize,ysize,depth);
210 :			return 2;
211 :			}
212 :			if ( (XDIM==0) \|\| (YDIM==0) )
213 :			{ XDIM=xsize;
214 :			YDIM=ysize;
215 :			}
216 :
217 :			return 0;
218 :			}
219 :
220 :			int read_pgmdata(FILE* handle, unsigned char *image)
221 :			{
222 :			int i,status;
223 :			char dummy;
224 :
225 :			unsigned char* buff1_ptr2 = image + XDIM*YDIM;
226 :			unsigned char* buff1_ptr3 = image + XDIMYDIM + XDIM/2YDIM/2;
227 :
228 :			fread(image,XDIM*YDIM,1,stdin); // read Y component of picture
229 :
230 :			for (i=0;i<YDIM/2;i++)
231 :			{
232 :			fread(buff1_ptr2,XDIM/2,1,stdin); // read U
233 :			buff1_ptr2 += XDIM/2;
234 :			fread(buff1_ptr3,XDIM/2,1,stdin); // read V
235 :			buff1_ptr3 += XDIM/2;
236 :			}
237 :			fread(&dummy,1,1,handle); // I don't know why, but this seems needed
238 :			return 0;
239 :			}
240 :
241 :			int read_yuvdata(FILE* handle, unsigned char *image)
242 :			{ int i;
243 :			char dummy;
244 :
245 :			unsigned char* buff1_ptr2 = image + XDIM*YDIM;
246 :			unsigned char* buff1_ptr3 = image + XDIMYDIM + XDIM/2YDIM/2;
247 :
248 :			if (fread(image,XDIM,YDIM3/2,stdin) != YDIM3/2)
249 :			return 1;
250 :			else
251 :			return 0;
252 :			}
253 :
254 :			int write_pgm(char filename, unsigned char image)
255 :			{
256 :			FILE *filehandle;
257 :			filehandle=fopen(filename,"wb");
258 :			if (filehandle)
259 :			{
260 :			fprintf(filehandle,"P5\n\n"); //
261 :			fprintf(filehandle,"%d %d 255\n",XDIM,YDIM*3/2);
262 :			fwrite(image,XDIM,YDIM*3/2,filehandle);
263 :			fclose(filehandle);
264 :			return 0;
265 :			}
266 :			else
267 :			return 1;
268 :			}
269 :
270 :
271 :
272 :			/*********************************************************************/
273 :			/* Routines for encoding: init encoder, frame step, release encoder */
274 :			/*********************************************************************/
275 :
276 :			#define FRAMERATE_INCR 1001
277 :
278 :
279 :			int enc_init(int use_assembler)
280 :			{ /* initialize encoder for first use, pass all needed parameters to the codec */
281 :			int xerr;
282 :
283 :			XVID_INIT_PARAM xinit;
284 :			XVID_ENC_PARAM xparam;
285 :
286 :			if(use_assembler)
287 :
288 :			#ifdef ARCH_IA64
289 :			xinit.cpu_flags = XVID_CPU_FORCE \| XVID_CPU_IA64;
290 :			#else
291 :			xinit.cpu_flags = 0;
292 :			#endif
293 :
294 :			else
295 :			xinit.cpu_flags = XVID_CPU_FORCE;
296 :
297 :			xvid_init(NULL, 0, &xinit, NULL);
298 :
299 :			xparam.width = XDIM;
300 :			xparam.height = YDIM;
301 :			if ((ARG_FRAMERATE - (int)ARG_FRAMERATE) < SMALL_EPS)
302 :			{
303 :			xparam.fincr = 1;
304 :			xparam.fbase = (int)ARG_FRAMERATE;
305 :			}
306 :			else
307 :			{
308 :			xparam.fincr = FRAMERATE_INCR;
309 :			xparam.fbase = (int)(FRAMERATE_INCR * ARG_FRAMERATE);
310 :			}
311 :			xparam.rc_reaction_delay_factor = 16;
312 :			xparam.rc_averaging_period = 100;
313 :			xparam.rc_buffer = 10;
314 :
315 :			/* I use small values here, since we will not
316 :			encode whole movies, but short clips */
317 :
318 :			xparam.rc_bitrate = ARG_BITRATE*1000;
319 :			xparam.min_quantizer = 1;
320 :			xparam.max_quantizer = 31;
321 :			xparam.max_key_interval = (int)ARG_FRAMERATE*10;
322 :
323 :			xparam.global = XVID_GLOBAL_DX50BVOP;//XVID_GLOBAL_DEBUG; //XVID_GLOBAL_PACKED\|XVID_GLOBAL_DX50BVOP;//\|XVID_GLOBAL_DEBUG;
324 :			xparam.max_bframes = ARG_MAX_BFRAMES;
325 :			xparam.bquant_ratio = ARG_BQUANT_RATIO;
326 :
327 :			xparam.frame_drop_ratio = 0;
328 :
329 :			xerr = xvid_encore(NULL, XVID_ENC_CREATE, &xparam, NULL);
330 :			enc_handle=xparam.handle;
331 :
332 :			return xerr;
333 :			}
334 :
335 :			int enc_stop()
336 :			{ int xerr;
337 :
338 :			xerr = xvid_encore(enc_handle, XVID_ENC_DESTROY, NULL, NULL);
339 :			return xerr;
340 :			}
341 :
342 :			int enc_main(unsigned char* image, unsigned char* bitstream, int streamlength, int frametype)
343 :			{ int xerr;
344 :
345 :			XVID_ENC_FRAME xframe;
346 :			XVID_ENC_STATS xstats;
347 :
348 :			xframe.bitstream = bitstream;
349 :			xframe.length = -1; // this is written by the routine
350 :
351 :			xframe.image = image;
352 :			xframe.colorspace = XVID_CSP_YV12; // defined in <xvid.h>
353 :
354 :			xframe.intra = -1; // let the codec decide between I-frame (1) and P-frame (0)
355 :
356 :			xframe.quant = ARG_QUANTI; // if quant != 0, use a fixed quant (and ignore bitrate)
357 :			xframe.bquant = 0;
358 :
359 :
360 :			xframe.motion = motion_presets[ARG_QUALITY];
361 :			xframe.general = general_presets[ARG_QUALITY];
362 :			xframe.quant_intra_matrix = xframe.quant_inter_matrix = NULL;
363 :
364 :			xerr = xvid_encore(enc_handle, XVID_ENC_ENCODE, &xframe, &xstats);
365 :
366 :			/* enc_result->is_key_frame = xframe.intra;
367 :			enc_result->quantizer = xframe.quant;
368 :			enc_result->total_bits = xframe.length * 8;
369 :			enc_result->motion_bits = xstats.hlength * 8;
370 :			enc_result->texture_bits = enc_result->total_bits - enc_result->motion_bits;
371 :			*/
372 :
373 :			/* This is statictical data, e.g. for 2-pass.
374 :			If you are not interested in any of this, you can use NULL instead of &xstats
375 :			*/
376 :			*frametype = xframe.intra;
377 :			*streamlength = xframe.length;
378 :
379 :			return xerr;
380 :			}
381 :
382 :
383 :			/*********************************************************************/
384 :			/* Routines for decoding: init encoder, frame step, release encoder */
385 :			/*********************************************************************/
386 :
387 :			int dec_init(int use_assembler) /* init decoder before first run */
388 :			{
389 :			int xerr;
390 :
391 :			XVID_INIT_PARAM xinit;
392 :			XVID_DEC_PARAM xparam;
393 :
394 :			if(use_assembler)
395 :
396 :			#ifdef ARCH_IA64
397 :			xinit.cpu_flags = XVID_CPU_FORCE \| XVID_CPU_IA64;
398 :			#else
399 :			xinit.cpu_flags = 0;
400 :			#endif
401 :
402 :			else
403 :			xinit.cpu_flags = XVID_CPU_FORCE;
404 :
405 :			xvid_init(NULL, 0, &xinit, NULL);
406 :			xparam.width = XDIM;
407 :			xparam.height = YDIM;
408 :
409 :			xerr = xvid_decore(NULL, XVID_DEC_CREATE, &xparam, NULL);
410 :			dec_handle = xparam.handle;
411 :
412 :			return xerr;
413 :			}
414 :
415 :			int dec_main(unsigned char m4v_buffer, unsigned char out_buffer, int *m4v_size)
416 :			{ /* decode one frame */
417 :
418 :			int xerr;
419 :			XVID_DEC_FRAME xframe;
420 :
421 :			xframe.bitstream = m4v_buffer;
422 :			xframe.length = 1234; // *m4v_size;
423 :			xframe.image = out_buffer;
424 :			xframe.stride = XDIM;
425 :			xframe.colorspace = XVID_CSP_YV12; // XVID_CSP_USER is fastest (no memcopy involved)
426 :
427 :			xerr = xvid_decore(dec_handle, XVID_DEC_DECODE, &xframe, NULL);
428 :
429 :			*m4v_size = xframe.length;
430 :			return xerr;
431 :			}
432 :
433 :			int dec_stop() /* close decoder to release resources */
434 :			{
435 :			int xerr;
436 :			xerr = xvid_decore(dec_handle, XVID_DEC_DESTROY, NULL, NULL);
437 :
438 :			return xerr;
439 :			}
440 :
441 :
442 :			/*********************************************************************/
443 :			/* Main program */
444 :			/*********************************************************************/
445 :
446 :			int main(int argc, char *argv[])
447 :			{
448 :			unsigned char *divx_buffer = NULL;
449 :			unsigned char *divx_read = NULL;
450 :			unsigned char *divx_write = NULL;
451 :			unsigned char **in_buffer;
452 :			unsigned char *out_buffer = NULL;
453 :			unsigned char *divx_pos;
454 :
455 :			int k;
456 :
457 :			double enctime,dectime;
458 :			double totalenctime=0.;
459 :			double totaldectime=0.;
460 :
461 :			long totalsize=0;
462 :			int status;
463 :
464 :			int loop;
465 :			int m4v_size=0;
466 :			int enc_size=0;
467 :			int frame_type[ABS_MAXFRAMENR];
468 :			int Iframes=0, Pframes=0, Bframes=0, use_assembler=0;
469 :			double framepsnr[ABS_MAXFRAMENR];
470 :
471 :			double Ipsnr=0.,Imaxpsnr=0.,Iminpsnr=999.,Ivarpsnr=0.;
472 :			double Ppsnr=0.,Pmaxpsnr=0.,Pminpsnr=999.,Pvarpsnr=0.;
473 :			double Bpsnr=0.,Bmaxpsnr=0.,Bminpsnr=999.,Bvarpsnr=0.;
474 :
475 :			char filename[256];
476 :
477 :			FILE *filehandle;
478 :
479 :			/* read YUV in pgm format from stdin */
480 :			if (!pgmflag)
481 :			{
482 :			pgmflag = 1;
483 :
484 :			if (argc==2 && !strcmp(argv[1],"-asm"))
485 :			use_assembler = 1;
486 :			if (argc>=3)
487 :			{ XDIM = atoi(argv[1]);
488 :			YDIM = atoi(argv[2]);
489 :			if ( (XDIM <= 0) \|\| (XDIM >= 2048) \|\| (YDIM <=0) \|\| (YDIM >= 2048) )
490 :			{ fprintf(stderr,"Wrong frames size %d %d, trying PGM \n",XDIM, YDIM);
491 :			}
492 :			else
493 :			{
494 :			YDIM = YDIM3/2; / for YUV */
495 :			pgmflag = 0;
496 :			}
497 :			}
498 :			}
499 :
500 :			if (pgmflag)
501 :			{ if (read_pgmheader(stdin))
502 :			{
503 :			printf("Wrong input format, I want YUV encapsulated in PGM\n");
504 :			return 1;
505 :			}
506 :			}
507 :
508 :			if (argc>=4)
509 :			{ ARG_QUALITY = atoi(argv[3]);
510 :			if ( (ARG_QUALITY < 0) \|\| (ARG_QUALITY > 6) )
511 :			{ fprintf(stderr,"Wrong Quality\n"); return -1; }
512 :			else
513 :			printf("Quality %d\n",ARG_QUALITY);
514 :			}
515 :			if (argc>=5)
516 :			{ ARG_BITRATE = atoi(argv[4]);
517 :			if ( (ARG_BITRATE <= 0) )
518 :			{ fprintf(stderr,"Wrong Bitrate\n"); return -1; }
519 :			if ( (ARG_BITRATE <= 31) )
520 :			{ ARG_QUANTI = ARG_BITRATE;
521 :			ARG_BITRATE=0;
522 :			printf("Quantizer %d\n",ARG_QUANTI);
523 :			}
524 :			else
525 :			printf("Bitrate %d kbps\n",ARG_BITRATE);
526 :			}
527 :			if (argc>=6)
528 :			{ ARG_FRAMERATE = (float)atof(argv[5]);
529 :			if ( (ARG_FRAMERATE <= 0) )
530 :			{ fprintf(stderr,"Wrong Fraterate %s \n",argv[5]); return -1; }
531 :			printf("Framerate %6.3f fps\n",ARG_FRAMERATE);
532 :			}
533 :
534 :			if (argc>=7)
535 :			{ ARG_MAXFRAMENR = atoi(argv[6]);
536 :			if ( (ARG_MAXFRAMENR <= 0) )
537 :			{ fprintf(stderr,"Wrong number of frames\n"); return -1; }
538 :			printf("max. Framenr. %d\n",ARG_MAXFRAMENR);
539 :			}
540 :
541 :			if (argc>=8)
542 :			{ ARG_MAX_BFRAMES = atoi(argv[7]);
543 :			if ( (ARG_MAX_BFRAMES < -1) )
544 :			{ fprintf(stderr,"Wrong number of bframes\n"); return -1; }
545 :			printf("max. B-Frames %d\n",ARG_MAX_BFRAMES);
546 :			}
547 :			NUMBUFFERS = ARG_MAX_BFRAMES+2;
548 :
549 :			if (argc>=9)
550 :			{ ARG_BQUANT_RATIO = atoi(argv[8]);
551 :			if ( (ARG_BQUANT_RATIO <= 0) )
552 :			{ fprintf(stderr,"Wrong bquant ratio\n"); return -1; }
553 :			printf("bquant ratio %d\n",ARG_BQUANT_RATIO);
554 :			}
555 :
556 :			/* now we know the sizes, so allocate memory */
557 :
558 :			in_buffer = malloc( NUMBUFFERSsizeof(unsigned char) );
559 :			if (!in_buffer)
560 :			goto free_all_memory;
561 :
562 :			for (k=0;k<NUMBUFFERS;k++)
563 :			in_buffer[k] = NULL;
564 :
565 :			for (k=0;k<NUMBUFFERS;k++)
566 :			{
567 :			in_buffer[k] = (unsigned char ) malloc(XDIMYDIM);
568 :			if (!in_buffer[k])
569 :			goto free_all_memory; // goto is one of the most underestimated instructions in C !!!
570 :			}
571 :
572 :			#define DIVX_SIZE (XDIMYDIM200)
573 :			divx_buffer = (unsigned char ) malloc(2DIVX_SIZE); // this should really be enough memory!
574 :			if (!divx_buffer)
575 :			goto free_all_memory;
576 :
577 :			divx_write = divx_buffer;
578 :			divx_read = divx_buffer;
579 :
580 :			YDIM = YDIM2/3; // PGM is YUV 4:2:0 format, so real image height is 2/3 of PGM picture
581 :
582 :			out_buffer = (unsigned char ) malloc(XDIMYDIM*4);
583 :			if (!out_buffer)
584 :			goto free_all_memory;
585 :
586 :
587 :
588 :
589 :
590 :			Iframes=0, Pframes=0, Bframes=0, use_assembler=1;
591 :			filenr=0;
592 :
593 :			/*********************************************************************/
594 :			/* XviD PART Start */
595 :			/*********************************************************************/
596 :
597 :
598 :			status = enc_init(use_assembler);
599 :			if (status)
600 :			{
601 :			printf("Encore INIT problem, return value %d\n", status);
602 :			goto release_all;
603 :			}
604 :
605 :			status = dec_init(use_assembler);
606 :			if (status)
607 :			{
608 :			printf("Decore INIT problem, return value %d\n", status);
609 :			goto release_all;
610 :			}
611 :
612 :
613 :			/*********************************************************************/
614 :			/* Main loop */
615 :			/*********************************************************************/
616 :
617 :			do
618 :			{
619 :			if (pgmflag)
620 :			status = read_pgmdata(stdin, in_buffer[filenr%NUMBUFFERS]); // read PGM data (YUV-format)
621 :			else
622 :			status = read_yuvdata(stdin, in_buffer[filenr%NUMBUFFERS]); // read raw data (YUV-format)
623 :
624 :			if (status)
625 :			{
626 :			// Couldn't read image, most likely end-of-file
627 :			continue;
628 :			}
629 :
630 :
631 :			if (save_ref_flag)
632 :			{
633 :			sprintf(filename, "%s%05d.pgm", filepath, filenr);
634 :			write_pgm(filename,in_buffer[filenr%NUMBUFFERS]);
635 :			}
636 :
637 :
638 :			/*********************************************************************/
639 :			/* analyse this frame before encoding */
640 :			/*********************************************************************/
641 :
642 :			// nothing is done here at the moment, but you could e.g. create
643 :			// histograms or measure entropy or apply preprocessing filters...
644 :
645 :			/*********************************************************************/
646 :			/* encode and decode this frame */
647 :			/*********************************************************************/
648 :
649 :			enctime = -msecond();
650 :			status = enc_main(in_buffer[filenr%NUMBUFFERS], divx_write, &enc_size, &frame_type[filenr]);
651 :			enctime += msecond();
652 :
653 :			if (status)
654 :			printf("Enc_main status: %d\n",status);
655 :			totalenctime += enctime;
656 :			totalsize += enc_size;
657 :
658 :			printf("Frame %5d: intra %d, enctime =%6.1f ms length=%7d bytes \n",
659 :			filenr, frame_type[filenr], enctime*1000, enc_size);
660 :
661 :			if (save_m4v_flag)
662 :			{
663 :			sprintf(filename, "%sframe%05d.m4v", filepath, filenr);
664 :			filehandle = fopen(filename, "wb");
665 :			fwrite(divx_write, enc_size, 1, filehandle);
666 :			fclose(filehandle);
667 :			}
668 :			divx_write += enc_size;
669 :			divx_write=0; / some kind of padding */
670 :			*(divx_write+1)=0;
671 :			*(divx_write+2)=0;
672 :			*(divx_write+3)=0;
673 :
674 :			if (filenr<ARG_MAX_BFRAMES)
675 :			goto nextfile;
676 :
677 :			do {
678 :			dectime = -msecond();
679 :			status = dec_main(divx_read, out_buffer, &m4v_size);
680 :			dectime += msecond();
681 :			divx_read += m4v_size;
682 :			printf("DecFrame %5d: length=%7d bytes (left: %7d)\n", filenr-(ARG_MAX_BFRAMES), m4v_size,
683 :			(divx_write-divx_read));
684 :
685 :			} while (m4v_size<=7);
686 :
687 :			if (status)
688 :			printf("dec_main Status =%d\n",status);
689 :			totaldectime += dectime;
690 :
691 :			/*********************************************************************/
692 :			/* analyse the decoded frame and compare to original */
693 :			/*********************************************************************/
694 :
695 :			if (filenr>ARG_MAX_BFRAMES) {
696 :			framepsnr[filenr-(ARG_MAX_BFRAMES+1)] = PSNR(XDIM,YDIM, in_buffer[(filenr-(ARG_MAX_BFRAMES+1))%NUMBUFFERS], XDIM, out_buffer, XDIM );
697 :
698 :			printf("dectime =%6.1f ms PSNR %5.2f\n",dectime*1000, framepsnr[filenr-(ARG_MAX_BFRAMES+1)]);
699 :			}
700 :
701 :			if (filenr>ARG_MAX_BFRAMES)
702 :			if (save_dec_flag)
703 :			{
704 :			sprintf(filename, "%sdec%05d.pgm", filepath, filenr-(ARG_MAX_BFRAMES+1));
705 :			write_pgm(filename,out_buffer);
706 :			}
707 :
708 :			nextfile:
709 :
710 :			filenr++;
711 :
712 :			if ((int)(divx_read - divx_buffer) > DIVX_SIZE)
713 :			{
714 :			memmove(divx_buffer, divx_read, (int)(divx_buffer+2*DIVX_SIZE-divx_read));
715 :			divx_write -= (int)(divx_read-divx_buffer);
716 :			divx_read = divx_buffer;
717 :			fprintf(stderr,"DIVX-buffer copied\n");
718 :
719 :			}
720 :
721 :			if (pgmflag)
722 :			status = read_pgmheader(stdin); // because if this was the last PGM, stop now
723 :
724 :			} while ( (!status) && (filenr<ARG_MAXFRAMENR) );
725 :
726 :			printf("Status=%d filenr=%d\n",status,filenr);
727 :			filenr--;
728 :
729 :
730 :			/*********************************************************************/
731 :			/* calculate totals and averages for output, print results */
732 :			/*********************************************************************/
733 :
734 :			if (filenr)
735 :			{ totalsize /= filenr;
736 :			totalenctime /= filenr;
737 :			totaldectime /= filenr;
738 :			}
739 :
740 :			for (i=0;i<filenr-(ARG_MAX_BFRAMES+1);i++)
741 :			{
742 :			switch (frame_type[i])
743 :			{
744 :			case 0:
745 :			Pframes++;
746 :			Ppsnr += framepsnr[i];
747 :			break;
748 :			case 1:
749 :			Iframes++;
750 :			Ipsnr += framepsnr[i];
751 :			break;
752 :			case 2:
753 :			default:
754 :			Bframes++;
755 :			Bpsnr += framepsnr[i];
756 :			break;
757 :			}
758 :			}
759 :
760 :			if (Pframes)
761 :			Ppsnr /= Pframes;
762 :			if (Iframes)
763 :			Ipsnr /= Iframes;
764 :			if (Bframes)
765 :			Bpsnr /= Bframes;
766 :
767 :
768 :			for (i=0;i<filenr-(ARG_MAX_BFRAMES+1);i++) // calculate statistics for every frametype: P,I (and B)
769 :			{
770 :			switch (frame_type[i])
771 :			{
772 :			case 0:
773 :			if (framepsnr[i] > Pmaxpsnr)
774 :			Pmaxpsnr = framepsnr[i];
775 :			if (framepsnr[i] < Pminpsnr)
776 :			Pminpsnr = framepsnr[i];
777 :			Pvarpsnr += (framepsnr[i] - Ppsnr)*(framepsnr[i] - Ppsnr) /Pframes;
778 :			break;
779 :			case 1:
780 :			if (framepsnr[i] > Imaxpsnr)
781 :			Imaxpsnr = framepsnr[i];
782 :			if (framepsnr[i] < Pminpsnr)
783 :			Iminpsnr = framepsnr[i];
784 :			Ivarpsnr += (framepsnr[i] - Ipsnr)*(framepsnr[i] - Ipsnr) /Iframes;
785 :			break;
786 :			case 2:
787 :			if (framepsnr[i] > Bmaxpsnr)
788 :			Bmaxpsnr = framepsnr[i];
789 :			if (framepsnr[i] < Pminpsnr)
790 :			Bminpsnr = framepsnr[i];
791 :			Bvarpsnr += (framepsnr[i] - Bpsnr)*(framepsnr[i] - Bpsnr) /Bframes;
792 :			break;
793 :			}
794 :			}
795 :
796 :			printf("Avg. Q%1d %2s ",ARG_QUALITY, (ARG_QUANTI ? " q" : "br"));
797 :			printf("%04d ",MAX(ARG_QUANTI,ARG_BITRATE));
798 :			printf("mbf %01d ",ARG_MAX_BFRAMES);
799 :			printf("bqr %03d ",ARG_MAX_BFRAMES>0 ? ARG_BQUANT_RATIO : 0);
800 :			printf("( %.3f bpp) ", (double)ARG_BITRATE*1000/XDIM/YDIM/ARG_FRAMERATE);
801 :			printf("size %6d ",totalsize);
802 :			printf("( %4d kbps ",(int)(totalsize8ARG_FRAMERATE/1000));
803 :			printf("/ %.3f bpp) ",(double)totalsize*8/XDIM/YDIM);
804 :			printf("enc: %6.1f fps, dec: %6.1f fps ",1/totalenctime, 1/totaldectime);
805 :			printf("PSNR P(%d): %5.2f ( %5.2f , %5.2f ; %5.4f ) ",Pframes,Ppsnr,Pminpsnr,Pmaxpsnr,sqrt(Pvarpsnr/filenr));
806 :			printf("I(%d): %5.2f ( %5.2f , %5.2f ; %5.4f ) ",Iframes,Ipsnr,Iminpsnr,Imaxpsnr,sqrt(Ivarpsnr/filenr));
807 :			if (Bframes)
808 :			printf("B(%d): %5.2f ( %5.2f , %5.2f ; %5.4f ) ",Bframes,Bpsnr,Bminpsnr,Bmaxpsnr,sqrt(Bvarpsnr/filenr));
809 :			printf("\n");
810 :
811 :			/*********************************************************************/
812 :			/* XviD PART Stop */
813 :			/*********************************************************************/
814 :
815 :			release_all:
816 :
817 :			if (enc_handle)
818 :			{
819 :			status = enc_stop();
820 :			if (status)
821 :			printf("Encore RELEASE problem return value %d\n", status);
822 :			}
823 :
824 :			if (dec_handle)
825 :			{
826 :			status = dec_stop();
827 :			if (status)
828 :			printf("Decore RELEASE problem return value %d\n", status);
829 :			}
830 :
831 :
832 :			free_all_memory:
833 :			free(out_buffer);
834 :			free(divx_buffer);
835 :			if (in_buffer)
836 :			for (k=0;k<NUMBUFFERS;k++)
837 :			free(in_buffer[k]);
838 :
839 :			return 0;
840 :			}

No admin address has been configured	ViewVC Help
Powered by ViewVC 1.0.4