sv-dependency-builds: src/libsndfile-1.0.25/tests/benchmark.c annotate

annotate src/libsndfile-1.0.25/tests/benchmark.c @ 88:fe7c3a0b0259

Add some MinGW builds

author	Chris Cannam <cannam@all-day-breakfast.com>
date	Wed, 20 Mar 2013 13:49:36 +0000
parents	545efbb81310
children

rev	line source
cannam@85	1 /*
cannam@85	2 ** Copyright (C) 2002-2011 Erik de Castro Lopo <erikd@mega-nerd.com>
cannam@85	3 **
cannam@85	4 ** This program is free software; you can redistribute it and/or modify
cannam@85	5 ** it under the terms of the GNU General Public License as published by
cannam@85	6 ** the Free Software Foundation; either version 2 of the License, or
cannam@85	7 ** (at your option) any later version.
cannam@85	8 **
cannam@85	9 ** This program is distributed in the hope that it will be useful,
cannam@85	10 ** but WITHOUT ANY WARRANTY; without even the implied warranty of
cannam@85	11 ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
cannam@85	12 ** GNU General Public License for more details.
cannam@85	13 **
cannam@85	14 ** You should have received a copy of the GNU General Public License
cannam@85	15 ** along with this program; if not, write to the Free Software
cannam@85	16 ** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
cannam@85	17 */
cannam@85	18
cannam@85	19 #include "sfconfig.h"
cannam@85	20
cannam@85	21 #include <stdio.h>
cannam@85	22 #include <stdlib.h>
cannam@85	23
cannam@85	24 #if HAVE_UNISTD_H
cannam@85	25 #include <unistd.h>
cannam@85	26 #endif
cannam@85	27
cannam@85	28 #if (HAVE_DECL_S_IRGRP == 0)
cannam@85	29 #include <sf_unistd.h>
cannam@85	30 #endif
cannam@85	31
cannam@85	32 #include <string.h>
cannam@85	33 #include <math.h>
cannam@85	34 #include <time.h>
cannam@85	35 #include <fcntl.h>
cannam@85	36 #include <sys/stat.h>
cannam@85	37
cannam@85	38 #include <sndfile.h>
cannam@85	39
cannam@85	40 #ifndef M_PI
cannam@85	41 #define M_PI 3.14159265358979323846264338
cannam@85	42 #endif
cannam@85	43
cannam@85	44 /*
cannam@85	45 ** Neat solution to the Win32/OS2 binary file flage requirement.
cannam@85	46 ** If O_BINARY isn't already defined by the inclusion of the system
cannam@85	47 ** headers, set it to zero.
cannam@85	48 */
cannam@85	49 #ifndef O_BINARY
cannam@85	50 #define O_BINARY 0
cannam@85	51 #endif
cannam@85	52
cannam@85	53 #define WRITE_FLAGS (O_WRONLY \| O_CREAT \| O_TRUNC \| O_BINARY)
cannam@85	54 #define READ_FLAGS (O_RDONLY \| O_BINARY)
cannam@85	55
cannam@85	56 #if (defined (WIN32) \|\| defined (_WIN32) \|\| defined (__OS2__))
cannam@85	57 #define WRITE_PERMS 0777
cannam@85	58 #else
cannam@85	59 #define WRITE_PERMS (S_IRUSR \| S_IWUSR \| S_IRGRP)
cannam@85	60 #endif
cannam@85	61
cannam@85	62 #define BUFFER_SIZE (1<<18)
cannam@85	63 #define BLOCK_COUNT (30)
cannam@85	64 #define TEST_DURATION (5) /* 5 Seconds. */
cannam@85	65
cannam@85	66 typedef struct
cannam@85	67 { double write_rate ;
cannam@85	68 double read_rate ;
cannam@85	69 } PERF_STATS ;
cannam@85	70
cannam@85	71 static void *data = NULL ;
cannam@85	72
cannam@85	73 static void calc_raw_performance (PERF_STATS *stats) ;
cannam@85	74
cannam@85	75 static void calc_short_performance (int format, double read_rate, double write_rate) ;
cannam@85	76 static void calc_int_performance (int format, double read_rate, double write_rate) ;
cannam@85	77 static void calc_float_performance (int format, double read_rate, double write_rate) ;
cannam@85	78
cannam@85	79
cannam@85	80 static int cpu_is_big_endian (void) ;
cannam@85	81
cannam@85	82 static const char* get_subtype_str (int subtype) ;
cannam@85	83
cannam@85	84 int
cannam@85	85 main (int argc, char *argv [])
cannam@85	86 { PERF_STATS stats ;
cannam@85	87 char buffer [256] = "Benchmarking " ;
cannam@85	88 int format_major ;
cannam@85	89
cannam@85	90 if (! (data = malloc (BUFFER_SIZE * sizeof (double))))
cannam@85	91 { perror ("Error : malloc failed") ;
cannam@85	92 exit (1) ;
cannam@85	93 } ;
cannam@85	94
cannam@85	95 sf_command (NULL, SFC_GET_LIB_VERSION, buffer + strlen (buffer), sizeof (buffer) - strlen (buffer)) ;
cannam@85	96
cannam@85	97 puts (buffer) ;
cannam@85	98 memset (buffer, '-', strlen (buffer)) ;
cannam@85	99 puts (buffer) ;
cannam@85	100 printf ("Each test takes a little over %d seconds.\n\n", TEST_DURATION) ;
cannam@85	101
cannam@85	102 calc_raw_performance (&stats) ;
cannam@85	103
cannam@85	104 if (argc < 2 \|\| strcmp ("--native-only", argv [1]) == 0)
cannam@85	105 { puts ("\nNative endian I/O :") ;
cannam@85	106 format_major = cpu_is_big_endian () ? SF_FORMAT_AIFF : SF_FORMAT_WAV ;
cannam@85	107
cannam@85	108 calc_short_performance (format_major \| SF_FORMAT_PCM_16, stats.read_rate, stats.write_rate) ;
cannam@85	109 calc_int_performance (format_major \| SF_FORMAT_PCM_24, stats.read_rate, stats.write_rate) ;
cannam@85	110 calc_int_performance (format_major \| SF_FORMAT_PCM_32, stats.read_rate, stats.write_rate) ;
cannam@85	111 calc_float_performance (format_major \| SF_FORMAT_PCM_16, stats.read_rate, stats.write_rate) ;
cannam@85	112 calc_float_performance (format_major \| SF_FORMAT_PCM_24, stats.read_rate, stats.write_rate) ;
cannam@85	113 calc_float_performance (format_major \| SF_FORMAT_PCM_32, stats.read_rate, stats.write_rate) ;
cannam@85	114 calc_float_performance (format_major \| SF_FORMAT_FLOAT , stats.read_rate, stats.write_rate) ;
cannam@85	115 } ;
cannam@85	116
cannam@85	117 if (argc < 2 \|\| strcmp ("--swap-only", argv [1]) == 0)
cannam@85	118 { puts ("\nEndian swapped I/O :") ;
cannam@85	119 format_major = cpu_is_big_endian () ? SF_FORMAT_WAV : SF_FORMAT_AIFF ;
cannam@85	120
cannam@85	121 calc_short_performance (format_major \| SF_FORMAT_PCM_16, stats.read_rate, stats.write_rate) ;
cannam@85	122 calc_int_performance (format_major \| SF_FORMAT_PCM_24, stats.read_rate, stats.write_rate) ;
cannam@85	123 calc_int_performance (format_major \| SF_FORMAT_PCM_32, stats.read_rate, stats.write_rate) ;
cannam@85	124 calc_float_performance (format_major \| SF_FORMAT_PCM_16, stats.read_rate, stats.write_rate) ;
cannam@85	125 calc_float_performance (format_major \| SF_FORMAT_PCM_24, stats.read_rate, stats.write_rate) ;
cannam@85	126 calc_float_performance (format_major \| SF_FORMAT_PCM_32, stats.read_rate, stats.write_rate) ;
cannam@85	127 calc_float_performance (format_major \| SF_FORMAT_FLOAT , stats.read_rate, stats.write_rate) ;
cannam@85	128 } ;
cannam@85	129
cannam@85	130 puts ("") ;
cannam@85	131
cannam@85	132 free (data) ;
cannam@85	133
cannam@85	134 return 0 ;
cannam@85	135 } /* main */
cannam@85	136
cannam@85	137 /*==============================================================================
cannam@85	138 */
cannam@85	139
cannam@85	140 static void
cannam@85	141 calc_raw_performance (PERF_STATS *stats)
cannam@85	142 { clock_t start_clock, clock_time ;
cannam@85	143 int fd, k, byte_count, retval, op_count ;
cannam@85	144 const char *filename ;
cannam@85	145
cannam@85	146 filename = "benchmark.dat" ;
cannam@85	147
cannam@85	148 byte_count = BUFFER_SIZE * sizeof (short) ;
cannam@85	149
cannam@85	150 /* Collect write stats */
cannam@85	151 printf (" Raw write PCM_16 : ") ;
cannam@85	152 fflush (stdout) ;
cannam@85	153
cannam@85	154 clock_time = 0 ;
cannam@85	155 op_count = 0 ;
cannam@85	156 start_clock = clock () ;
cannam@85	157
cannam@85	158 while (clock_time < (CLOCKS_PER_SEC * TEST_DURATION))
cannam@85	159 { if ((fd = open (filename, WRITE_FLAGS, WRITE_PERMS)) < 0)
cannam@85	160 { printf ("Error : not able to open file : %s\n", filename) ;
cannam@85	161 perror ("") ;
cannam@85	162 exit (1) ;
cannam@85	163 } ;
cannam@85	164
cannam@85	165 for (k = 0 ; k < BLOCK_COUNT ; k++)
cannam@85	166 { if ((retval = write (fd, data, byte_count)) != byte_count)
cannam@85	167 { printf ("Error : write returned %d (should have been %d)\n", retval, byte_count) ;
cannam@85	168 exit (1) ;
cannam@85	169 } ;
cannam@85	170 } ;
cannam@85	171
cannam@85	172 close (fd) ;
cannam@85	173
cannam@85	174 clock_time = clock () - start_clock ;
cannam@85	175 op_count ++ ;
cannam@85	176 } ;
cannam@85	177
cannam@85	178 stats->write_rate = (1.0 * BUFFER_SIZE) * BLOCK_COUNT * op_count ;
cannam@85	179 stats->write_rate = (1.0 CLOCKS_PER_SEC) / clock_time ;
cannam@85	180 printf ("%10.0f samples per sec\n", stats->write_rate) ;
cannam@85	181
cannam@85	182 /* Collect read stats */
cannam@85	183 printf (" Raw read PCM_16 : ") ;
cannam@85	184 fflush (stdout) ;
cannam@85	185
cannam@85	186 clock_time = 0 ;
cannam@85	187 op_count = 0 ;
cannam@85	188 start_clock = clock () ;
cannam@85	189
cannam@85	190 while (clock_time < (CLOCKS_PER_SEC * TEST_DURATION))
cannam@85	191 { if ((fd = open (filename, READ_FLAGS)) < 0)
cannam@85	192 { printf ("Error : not able to open file : %s\n", filename) ;
cannam@85	193 perror ("") ;
cannam@85	194 exit (1) ;
cannam@85	195 } ;
cannam@85	196
cannam@85	197 for (k = 0 ; k < BLOCK_COUNT ; k++)
cannam@85	198 { if ((retval = read (fd, data, byte_count)) != byte_count)
cannam@85	199 { printf ("Error : write returned %d (should have been %d)\n", retval, byte_count) ;
cannam@85	200 exit (1) ;
cannam@85	201 } ;
cannam@85	202 } ;
cannam@85	203
cannam@85	204 close (fd) ;
cannam@85	205
cannam@85	206 clock_time = clock () - start_clock ;
cannam@85	207 op_count ++ ;
cannam@85	208 } ;
cannam@85	209
cannam@85	210 stats->read_rate = (1.0 * BUFFER_SIZE) * BLOCK_COUNT * op_count ;
cannam@85	211 stats->read_rate = (1.0 CLOCKS_PER_SEC) / clock_time ;
cannam@85	212 printf ("%10.0f samples per sec\n", stats->read_rate) ;
cannam@85	213
cannam@85	214 unlink (filename) ;
cannam@85	215 } /* calc_raw_performance */
cannam@85	216
cannam@85	217 /*------------------------------------------------------------------------------
cannam@85	218 */
cannam@85	219
cannam@85	220 static void
cannam@85	221 calc_short_performance (int format, double read_rate, double write_rate)
cannam@85	222 { SNDFILE *file ;
cannam@85	223 SF_INFO sfinfo ;
cannam@85	224 clock_t start_clock, clock_time ;
cannam@85	225 double performance ;
cannam@85	226 int k, item_count, retval, op_count ;
cannam@85	227 const char* subtype ;
cannam@85	228 short *short_data ;
cannam@85	229 const char *filename ;
cannam@85	230
cannam@85	231 filename = "benchmark.dat" ;
cannam@85	232 subtype = get_subtype_str (format & SF_FORMAT_SUBMASK) ;
cannam@85	233
cannam@85	234 short_data = data ;
cannam@85	235 item_count = BUFFER_SIZE ;
cannam@85	236 for (k = 0 ; k < item_count ; k++)
cannam@85	237 short_data [k] = 32700.0 * sin (2 * M_PI * k / 32000.0) ;
cannam@85	238
cannam@85	239 /* Collect write stats */
cannam@85	240 printf (" Write %-5s to %s : ", "short", subtype) ;
cannam@85	241 fflush (stdout) ;
cannam@85	242
cannam@85	243 sfinfo.channels = 1 ;
cannam@85	244 sfinfo.format = format ;
cannam@85	245 sfinfo.frames = 1 ;
cannam@85	246 sfinfo.samplerate = 32000 ;
cannam@85	247
cannam@85	248 clock_time = 0 ;
cannam@85	249 op_count = 0 ;
cannam@85	250 start_clock = clock () ;
cannam@85	251
cannam@85	252 while (clock_time < (CLOCKS_PER_SEC * TEST_DURATION))
cannam@85	253 { if (! (file = sf_open (filename, SFM_WRITE, &sfinfo)))
cannam@85	254 { printf ("Error : not able to open file : %s\n", filename) ;
cannam@85	255 perror ("") ;
cannam@85	256 exit (1) ;
cannam@85	257 } ;
cannam@85	258
cannam@85	259 /* Turn off the addition of a PEAK chunk. */
cannam@85	260 sf_command (file, SFC_SET_ADD_PEAK_CHUNK, NULL, SF_FALSE) ;
cannam@85	261
cannam@85	262 for (k = 0 ; k < BLOCK_COUNT ; k++)
cannam@85	263 { if ((retval = sf_write_short (file, short_data, item_count)) != item_count)
cannam@85	264 { printf ("Error : sf_write_short returned %d (should have been %d)\n", retval, item_count) ;
cannam@85	265 exit (1) ;
cannam@85	266 } ;
cannam@85	267 } ;
cannam@85	268
cannam@85	269 sf_close (file) ;
cannam@85	270
cannam@85	271 clock_time = clock () - start_clock ;
cannam@85	272 op_count ++ ;
cannam@85	273 } ;
cannam@85	274
cannam@85	275 performance = (1.0 * BUFFER_SIZE) * BLOCK_COUNT * op_count ;
cannam@85	276 performance = (1.0 CLOCKS_PER_SEC) / clock_time ;
cannam@85	277 printf ("%6.2f%% of raw write\n", 100.0 * performance / write_rate) ;
cannam@85	278
cannam@85	279 /* Collect read stats */
cannam@85	280 printf (" Read %-5s from %s : ", "short", subtype) ;
cannam@85	281 fflush (stdout) ;
cannam@85	282
cannam@85	283 clock_time = 0 ;
cannam@85	284 op_count = 0 ;
cannam@85	285 start_clock = clock () ;
cannam@85	286
cannam@85	287 while (clock_time < (CLOCKS_PER_SEC * TEST_DURATION))
cannam@85	288 { if (! (file = sf_open (filename, SFM_READ, &sfinfo)))
cannam@85	289 { printf ("Error : not able to open file : %s\n", filename) ;
cannam@85	290 perror ("") ;
cannam@85	291 exit (1) ;
cannam@85	292 } ;
cannam@85	293
cannam@85	294 for (k = 0 ; k < BLOCK_COUNT ; k++)
cannam@85	295 { if ((retval = sf_read_short (file, short_data, item_count)) != item_count)
cannam@85	296 { printf ("Error : write returned %d (should have been %d)\n", retval, item_count) ;
cannam@85	297 exit (1) ;
cannam@85	298 } ;
cannam@85	299 } ;
cannam@85	300
cannam@85	301 sf_close (file) ;
cannam@85	302
cannam@85	303 clock_time = clock () - start_clock ;
cannam@85	304 op_count ++ ;
cannam@85	305 } ;
cannam@85	306
cannam@85	307 performance = (1.0 * item_count) * BLOCK_COUNT * op_count ;
cannam@85	308 performance = (1.0 CLOCKS_PER_SEC) / clock_time ;
cannam@85	309 printf ("%6.2f%% of raw read\n", 100.0 * performance / read_rate) ;
cannam@85	310
cannam@85	311 unlink (filename) ;
cannam@85	312
cannam@85	313 } /* calc_short_performance */
cannam@85	314 static void
cannam@85	315 calc_int_performance (int format, double read_rate, double write_rate)
cannam@85	316 { SNDFILE *file ;
cannam@85	317 SF_INFO sfinfo ;
cannam@85	318 clock_t start_clock, clock_time ;
cannam@85	319 double performance ;
cannam@85	320 int k, item_count, retval, op_count ;
cannam@85	321 const char* subtype ;
cannam@85	322 int *int_data ;
cannam@85	323 const char *filename ;
cannam@85	324
cannam@85	325 filename = "benchmark.dat" ;
cannam@85	326 subtype = get_subtype_str (format & SF_FORMAT_SUBMASK) ;
cannam@85	327
cannam@85	328 int_data = data ;
cannam@85	329 item_count = BUFFER_SIZE ;
cannam@85	330 for (k = 0 ; k < item_count ; k++)
cannam@85	331 int_data [k] = 32700.0 * (1<<16) * sin (2 * M_PI * k / 32000.0) ;
cannam@85	332
cannam@85	333 /* Collect write stats */
cannam@85	334 printf (" Write %-5s to %s : ", "int", subtype) ;
cannam@85	335 fflush (stdout) ;
cannam@85	336
cannam@85	337 sfinfo.channels = 1 ;
cannam@85	338 sfinfo.format = format ;
cannam@85	339 sfinfo.frames = 1 ;
cannam@85	340 sfinfo.samplerate = 32000 ;
cannam@85	341
cannam@85	342 clock_time = 0 ;
cannam@85	343 op_count = 0 ;
cannam@85	344 start_clock = clock () ;
cannam@85	345
cannam@85	346 while (clock_time < (CLOCKS_PER_SEC * TEST_DURATION))
cannam@85	347 { if (! (file = sf_open (filename, SFM_WRITE, &sfinfo)))
cannam@85	348 { printf ("Error : not able to open file : %s\n", filename) ;
cannam@85	349 perror ("") ;
cannam@85	350 exit (1) ;
cannam@85	351 } ;
cannam@85	352
cannam@85	353 /* Turn off the addition of a PEAK chunk. */
cannam@85	354 sf_command (file, SFC_SET_ADD_PEAK_CHUNK, NULL, SF_FALSE) ;
cannam@85	355
cannam@85	356 for (k = 0 ; k < BLOCK_COUNT ; k++)
cannam@85	357 { if ((retval = sf_write_int (file, int_data, item_count)) != item_count)
cannam@85	358 { printf ("Error : sf_write_short returned %d (should have been %d)\n", retval, item_count) ;
cannam@85	359 exit (1) ;
cannam@85	360 } ;
cannam@85	361 } ;
cannam@85	362
cannam@85	363 sf_close (file) ;
cannam@85	364
cannam@85	365 clock_time = clock () - start_clock ;
cannam@85	366 op_count ++ ;
cannam@85	367 } ;
cannam@85	368
cannam@85	369 performance = (1.0 * BUFFER_SIZE) * BLOCK_COUNT * op_count ;
cannam@85	370 performance = (1.0 CLOCKS_PER_SEC) / clock_time ;
cannam@85	371 printf ("%6.2f%% of raw write\n", 100.0 * performance / write_rate) ;
cannam@85	372
cannam@85	373 /* Collect read stats */
cannam@85	374 printf (" Read %-5s from %s : ", "int", subtype) ;
cannam@85	375 fflush (stdout) ;
cannam@85	376
cannam@85	377 clock_time = 0 ;
cannam@85	378 op_count = 0 ;
cannam@85	379 start_clock = clock () ;
cannam@85	380
cannam@85	381 while (clock_time < (CLOCKS_PER_SEC * TEST_DURATION))
cannam@85	382 { if (! (file = sf_open (filename, SFM_READ, &sfinfo)))
cannam@85	383 { printf ("Error : not able to open file : %s\n", filename) ;
cannam@85	384 perror ("") ;
cannam@85	385 exit (1) ;
cannam@85	386 } ;
cannam@85	387
cannam@85	388 for (k = 0 ; k < BLOCK_COUNT ; k++)
cannam@85	389 { if ((retval = sf_read_int (file, int_data, item_count)) != item_count)
cannam@85	390 { printf ("Error : write returned %d (should have been %d)\n", retval, item_count) ;
cannam@85	391 exit (1) ;
cannam@85	392 } ;
cannam@85	393 } ;
cannam@85	394
cannam@85	395 sf_close (file) ;
cannam@85	396
cannam@85	397 clock_time = clock () - start_clock ;
cannam@85	398 op_count ++ ;
cannam@85	399 } ;
cannam@85	400
cannam@85	401 performance = (1.0 * item_count) * BLOCK_COUNT * op_count ;
cannam@85	402 performance = (1.0 CLOCKS_PER_SEC) / clock_time ;
cannam@85	403 printf ("%6.2f%% of raw read\n", 100.0 * performance / read_rate) ;
cannam@85	404
cannam@85	405 unlink (filename) ;
cannam@85	406
cannam@85	407 } /* calc_int_performance */
cannam@85	408 static void
cannam@85	409 calc_float_performance (int format, double read_rate, double write_rate)
cannam@85	410 { SNDFILE *file ;
cannam@85	411 SF_INFO sfinfo ;
cannam@85	412 clock_t start_clock, clock_time ;
cannam@85	413 double performance ;
cannam@85	414 int k, item_count, retval, op_count ;
cannam@85	415 const char* subtype ;
cannam@85	416 float *float_data ;
cannam@85	417 const char *filename ;
cannam@85	418
cannam@85	419 filename = "benchmark.dat" ;
cannam@85	420 subtype = get_subtype_str (format & SF_FORMAT_SUBMASK) ;
cannam@85	421
cannam@85	422 float_data = data ;
cannam@85	423 item_count = BUFFER_SIZE ;
cannam@85	424 for (k = 0 ; k < item_count ; k++)
cannam@85	425 float_data [k] = 1.0 * sin (2 * M_PI * k / 32000.0) ;
cannam@85	426
cannam@85	427 /* Collect write stats */
cannam@85	428 printf (" Write %-5s to %s : ", "float", subtype) ;
cannam@85	429 fflush (stdout) ;
cannam@85	430
cannam@85	431 sfinfo.channels = 1 ;
cannam@85	432 sfinfo.format = format ;
cannam@85	433 sfinfo.frames = 1 ;
cannam@85	434 sfinfo.samplerate = 32000 ;
cannam@85	435
cannam@85	436 clock_time = 0 ;
cannam@85	437 op_count = 0 ;
cannam@85	438 start_clock = clock () ;
cannam@85	439
cannam@85	440 while (clock_time < (CLOCKS_PER_SEC * TEST_DURATION))
cannam@85	441 { if (! (file = sf_open (filename, SFM_WRITE, &sfinfo)))
cannam@85	442 { printf ("Error : not able to open file : %s\n", filename) ;
cannam@85	443 perror ("") ;
cannam@85	444 exit (1) ;
cannam@85	445 } ;
cannam@85	446
cannam@85	447 /* Turn off the addition of a PEAK chunk. */
cannam@85	448 sf_command (file, SFC_SET_ADD_PEAK_CHUNK, NULL, SF_FALSE) ;
cannam@85	449
cannam@85	450 for (k = 0 ; k < BLOCK_COUNT ; k++)
cannam@85	451 { if ((retval = sf_write_float (file, float_data, item_count)) != item_count)
cannam@85	452 { printf ("Error : sf_write_short returned %d (should have been %d)\n", retval, item_count) ;
cannam@85	453 exit (1) ;
cannam@85	454 } ;
cannam@85	455 } ;
cannam@85	456
cannam@85	457 sf_close (file) ;
cannam@85	458
cannam@85	459 clock_time = clock () - start_clock ;
cannam@85	460 op_count ++ ;
cannam@85	461 } ;
cannam@85	462
cannam@85	463 performance = (1.0 * BUFFER_SIZE) * BLOCK_COUNT * op_count ;
cannam@85	464 performance = (1.0 CLOCKS_PER_SEC) / clock_time ;
cannam@85	465 printf ("%6.2f%% of raw write\n", 100.0 * performance / write_rate) ;
cannam@85	466
cannam@85	467 /* Collect read stats */
cannam@85	468 printf (" Read %-5s from %s : ", "float", subtype) ;
cannam@85	469 fflush (stdout) ;
cannam@85	470
cannam@85	471 clock_time = 0 ;
cannam@85	472 op_count = 0 ;
cannam@85	473 start_clock = clock () ;
cannam@85	474
cannam@85	475 while (clock_time < (CLOCKS_PER_SEC * TEST_DURATION))
cannam@85	476 { if (! (file = sf_open (filename, SFM_READ, &sfinfo)))
cannam@85	477 { printf ("Error : not able to open file : %s\n", filename) ;
cannam@85	478 perror ("") ;
cannam@85	479 exit (1) ;
cannam@85	480 } ;
cannam@85	481
cannam@85	482 for (k = 0 ; k < BLOCK_COUNT ; k++)
cannam@85	483 { if ((retval = sf_read_float (file, float_data, item_count)) != item_count)
cannam@85	484 { printf ("Error : write returned %d (should have been %d)\n", retval, item_count) ;
cannam@85	485 exit (1) ;
cannam@85	486 } ;
cannam@85	487 } ;
cannam@85	488
cannam@85	489 sf_close (file) ;
cannam@85	490
cannam@85	491 clock_time = clock () - start_clock ;
cannam@85	492 op_count ++ ;
cannam@85	493 } ;
cannam@85	494
cannam@85	495 performance = (1.0 * item_count) * BLOCK_COUNT * op_count ;
cannam@85	496 performance = (1.0 CLOCKS_PER_SEC) / clock_time ;
cannam@85	497 printf ("%6.2f%% of raw read\n", 100.0 * performance / read_rate) ;
cannam@85	498
cannam@85	499 unlink (filename) ;
cannam@85	500
cannam@85	501 } /* calc_float_performance */
cannam@85	502
cannam@85	503
cannam@85	504 /*==============================================================================
cannam@85	505 */
cannam@85	506
cannam@85	507 static int
cannam@85	508 cpu_is_big_endian (void)
cannam@85	509 { unsigned char *cptr ;
cannam@85	510 int endtest ;
cannam@85	511
cannam@85	512 endtest = 0x12345678 ;
cannam@85	513
cannam@85	514 cptr = (unsigned char*) (&endtest) ;
cannam@85	515
cannam@85	516 if (cptr [0] == 0x12 && cptr [1] == 0x34 && cptr [3] == 0x78)
cannam@85	517 return SF_TRUE ;
cannam@85	518
cannam@85	519 return SF_FALSE ;
cannam@85	520 } /* cpu_is_big_endian */
cannam@85	521
cannam@85	522 static const char*
cannam@85	523 get_subtype_str (int subtype)
cannam@85	524 { switch (subtype)
cannam@85	525 { case SF_FORMAT_PCM_16 :
cannam@85	526 return "PCM_16" ;
cannam@85	527
cannam@85	528 case SF_FORMAT_PCM_24 :
cannam@85	529 return "PCM_24" ;
cannam@85	530
cannam@85	531 case SF_FORMAT_PCM_32 :
cannam@85	532 return "PCM_32" ;
cannam@85	533
cannam@85	534 case SF_FORMAT_FLOAT :
cannam@85	535 return "FLOAT " ;
cannam@85	536
cannam@85	537 case SF_FORMAT_DOUBLE :
cannam@85	538 return "DOUBLE" ;
cannam@85	539
cannam@85	540 default : break ;
cannam@85	541 } ;
cannam@85	542
cannam@85	543 return "UNKNOWN" ;
cannam@85	544 } /* get_subtype_str */
cannam@85	545

Mercurial > hg > sv-dependency-builds

annotate src/libsndfile-1.0.25/tests/benchmark.c @ 88:fe7c3a0b0259