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annotate src/libsndfile-1.0.27/tests/utils.c @ 72:7b5216b54e42

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Update exclusion list
author Chris Cannam
date Fri, 25 Jan 2019 13:49:22 +0000
parents 1df64224f5ac
children
rev   line source
Chris@40 1 /*
Chris@40 2 ** Copyright (C) 2002-2016 Erik de Castro Lopo <erikd@mega-nerd.com>
Chris@40 3 **
Chris@40 4 ** This program is free software; you can redistribute it and/or modify
Chris@40 5 ** it under the terms of the GNU General Public License as published by
Chris@40 6 ** the Free Software Foundation; either version 2 of the License, or
Chris@40 7 ** (at your option) any later version.
Chris@40 8 **
Chris@40 9 ** This program is distributed in the hope that it will be useful,
Chris@40 10 ** but WITHOUT ANY WARRANTY; without even the implied warranty of
Chris@40 11 ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
Chris@40 12 ** GNU General Public License for more details.
Chris@40 13 **
Chris@40 14 ** You should have received a copy of the GNU General Public License
Chris@40 15 ** along with this program; if not, write to the Free Software
Chris@40 16 ** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
Chris@40 17 */
Chris@40 18
Chris@40 19 /*
Chris@40 20 ** Utility functions to make writing the test suite easier.
Chris@40 21 **
Chris@40 22 ** The .c and .h files were generated automagically with Autogen from
Chris@40 23 ** the files utils.def and utils.tpl.
Chris@40 24 */
Chris@40 25
Chris@40 26
Chris@40 27
Chris@40 28 #include "sfconfig.h"
Chris@40 29
Chris@40 30 #include <stdio.h>
Chris@40 31 #include <stdlib.h>
Chris@40 32 #include <inttypes.h>
Chris@40 33
Chris@40 34 #if HAVE_UNISTD_H
Chris@40 35 #include <unistd.h>
Chris@40 36 #endif
Chris@40 37
Chris@40 38 #if (HAVE_DECL_S_IRGRP == 0)
Chris@40 39 #include <sf_unistd.h>
Chris@40 40 #endif
Chris@40 41
Chris@40 42 #include <errno.h>
Chris@40 43 #include <string.h>
Chris@40 44 #include <ctype.h>
Chris@40 45 #include <math.h>
Chris@40 46 #include <fcntl.h>
Chris@40 47 #include <sys/stat.h>
Chris@40 48
Chris@40 49 #include <sndfile.h>
Chris@40 50
Chris@40 51 #include "utils.h"
Chris@40 52
Chris@40 53 #ifndef M_PI
Chris@40 54 #define M_PI 3.14159265358979323846264338
Chris@40 55 #endif
Chris@40 56
Chris@40 57 #define LOG_BUFFER_SIZE 2048
Chris@40 58
Chris@40 59 /*
Chris@40 60 ** Neat solution to the Win32/OS2 binary file flage requirement.
Chris@40 61 ** If O_BINARY isn't already defined by the inclusion of the system
Chris@40 62 ** headers, set it to zero.
Chris@40 63 */
Chris@40 64 #ifndef O_BINARY
Chris@40 65 #define O_BINARY 0
Chris@40 66 #endif
Chris@40 67
Chris@40 68
Chris@40 69 void
Chris@40 70 gen_windowed_sine_float (float *data, int len, double maximum)
Chris@40 71 { int k ;
Chris@40 72
Chris@40 73 memset (data, 0, len * sizeof (float)) ;
Chris@40 74
Chris@40 75 len = (5 * len) / 6 ;
Chris@40 76
Chris@40 77 for (k = 0 ; k < len ; k++)
Chris@40 78 { data [k] = sin (2.0 * k * M_PI * 1.0 / 32.0 + 0.4) ;
Chris@40 79
Chris@40 80 /* Apply Hanning Window. */
Chris@40 81 data [k] *= maximum * (0.5 - 0.5 * cos (2.0 * M_PI * k / ((len) - 1))) ;
Chris@40 82 }
Chris@40 83
Chris@40 84 return ;
Chris@40 85 } /* gen_windowed_sine_float */
Chris@40 86
Chris@40 87 void
Chris@40 88 gen_windowed_sine_double (double *data, int len, double maximum)
Chris@40 89 { int k ;
Chris@40 90
Chris@40 91 memset (data, 0, len * sizeof (double)) ;
Chris@40 92
Chris@40 93 len = (5 * len) / 6 ;
Chris@40 94
Chris@40 95 for (k = 0 ; k < len ; k++)
Chris@40 96 { data [k] = sin (2.0 * k * M_PI * 1.0 / 32.0 + 0.4) ;
Chris@40 97
Chris@40 98 /* Apply Hanning Window. */
Chris@40 99 data [k] *= maximum * (0.5 - 0.5 * cos (2.0 * M_PI * k / ((len) - 1))) ;
Chris@40 100 }
Chris@40 101
Chris@40 102 return ;
Chris@40 103 } /* gen_windowed_sine_double */
Chris@40 104
Chris@40 105
Chris@40 106 void
Chris@40 107 create_short_sndfile (const char *filename, int format, int channels)
Chris@40 108 { short data [2 * 3 * 4 * 5 * 6 * 7] = { 0, } ;
Chris@40 109 SNDFILE *file ;
Chris@40 110 SF_INFO sfinfo ;
Chris@40 111
Chris@40 112 sfinfo.samplerate = 44100 ;
Chris@40 113 sfinfo.channels = channels ;
Chris@40 114 sfinfo.format = format ;
Chris@40 115
Chris@40 116 if ((file = sf_open (filename, SFM_WRITE, &sfinfo)) == NULL)
Chris@40 117 { printf ("Error (%s, %d) : sf_open failed : %s\n", __FILE__, __LINE__, sf_strerror (file)) ;
Chris@40 118 exit (1) ;
Chris@40 119 } ;
Chris@40 120
Chris@40 121 sf_write_short (file, data, ARRAY_LEN (data)) ;
Chris@40 122
Chris@40 123 sf_close (file) ;
Chris@40 124 } /* create_short_sndfile */
Chris@40 125
Chris@40 126 void
Chris@40 127 check_file_hash_or_die (const char *filename, uint64_t target_hash, int line_num)
Chris@40 128 { static unsigned char buf [4096] ;
Chris@40 129 uint64_t cksum ;
Chris@40 130 FILE *file ;
Chris@40 131 int k, read_count ;
Chris@40 132
Chris@40 133 memset (buf, 0, sizeof (buf)) ;
Chris@40 134
Chris@40 135 /* The 'b' in the mode string means binary for Win32. */
Chris@40 136 if ((file = fopen (filename, "rb")) == NULL)
Chris@40 137 { printf ("\n\nLine %d: could not open file '%s'\n\n", line_num, filename) ;
Chris@40 138 exit (1) ;
Chris@40 139 } ;
Chris@40 140
Chris@40 141 cksum = 0 ;
Chris@40 142
Chris@40 143 while ((read_count = fread (buf, 1, sizeof (buf), file)))
Chris@40 144 for (k = 0 ; k < read_count ; k++)
Chris@40 145 cksum = (cksum * 511 + buf [k]) & 0xfffffffffffff ;
Chris@40 146
Chris@40 147 fclose (file) ;
Chris@40 148
Chris@40 149 if (target_hash == 0)
Chris@40 150 { printf (" 0x%" PRIx64 "\n", cksum) ;
Chris@40 151 return ;
Chris@40 152 } ;
Chris@40 153
Chris@40 154 if (cksum != target_hash)
Chris@40 155 { printf ("\n\nLine %d: incorrect hash value 0x%" PRIx64 " should be 0x%" PRIx64 ".\n\n", line_num, cksum, target_hash) ;
Chris@40 156 exit (1) ;
Chris@40 157 } ;
Chris@40 158
Chris@40 159 return ;
Chris@40 160 } /* check_file_hash_or_die */
Chris@40 161
Chris@40 162 void
Chris@40 163 print_test_name (const char *test, const char *filename)
Chris@40 164 { int count ;
Chris@40 165
Chris@40 166 if (test == NULL)
Chris@40 167 { printf (__FILE__ ": bad test of filename parameter.\n") ;
Chris@40 168 exit (1) ;
Chris@40 169 } ;
Chris@40 170
Chris@40 171 if (filename == NULL || strlen (filename) == 0)
Chris@40 172 { printf (" %-30s : ", test) ;
Chris@40 173 count = 25 ;
Chris@40 174 }
Chris@40 175 else
Chris@40 176 { printf (" %-30s : %s ", test, filename) ;
Chris@40 177 count = 24 - strlen (filename) ;
Chris@40 178 } ;
Chris@40 179
Chris@40 180 while (count -- > 0)
Chris@40 181 putchar ('.') ;
Chris@40 182 putchar (' ') ;
Chris@40 183
Chris@40 184 fflush (stdout) ;
Chris@40 185 } /* print_test_name */
Chris@40 186
Chris@40 187 void
Chris@40 188 dump_data_to_file (const char *filename, const void *data, unsigned int datalen)
Chris@40 189 { FILE *file ;
Chris@40 190
Chris@40 191 if ((file = fopen (filename, "wb")) == NULL)
Chris@40 192 { printf ("\n\nLine %d : could not open file : %s\n\n", __LINE__, filename) ;
Chris@40 193 exit (1) ;
Chris@40 194 } ;
Chris@40 195
Chris@40 196 if (fwrite (data, 1, datalen, file) != datalen)
Chris@40 197 { printf ("\n\nLine %d : fwrite failed.\n\n", __LINE__) ;
Chris@40 198 exit (1) ;
Chris@40 199 } ;
Chris@40 200
Chris@40 201 fclose (file) ;
Chris@40 202
Chris@40 203 } /* dump_data_to_file */
Chris@40 204
Chris@40 205 /*-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-
Chris@40 206 */
Chris@40 207
Chris@40 208 static char octfilename [] = "error.dat" ;
Chris@40 209
Chris@40 210 int
Chris@40 211 oct_save_short (const short *a, const short *b, int len)
Chris@40 212 { FILE *file ;
Chris@40 213 int k ;
Chris@40 214
Chris@40 215 if (! (file = fopen (octfilename, "w")))
Chris@40 216 return 1 ;
Chris@40 217
Chris@40 218 fprintf (file, "# Not created by Octave\n") ;
Chris@40 219
Chris@40 220 fprintf (file, "# name: a\n") ;
Chris@40 221 fprintf (file, "# type: matrix\n") ;
Chris@40 222 fprintf (file, "# rows: %d\n", len) ;
Chris@40 223 fprintf (file, "# columns: 1\n") ;
Chris@40 224
Chris@40 225 for (k = 0 ; k < len ; k++)
Chris@40 226 fprintf (file, "% d" "\n", a [k]) ;
Chris@40 227
Chris@40 228 fprintf (file, "# name: b\n") ;
Chris@40 229 fprintf (file, "# type: matrix\n") ;
Chris@40 230 fprintf (file, "# rows: %d\n", len) ;
Chris@40 231 fprintf (file, "# columns: 1\n") ;
Chris@40 232
Chris@40 233 for (k = 0 ; k < len ; k++)
Chris@40 234 fprintf (file, "% d" "\n", b [k]) ;
Chris@40 235
Chris@40 236 fclose (file) ;
Chris@40 237 return 0 ;
Chris@40 238 } /* oct_save_short */
Chris@40 239 int
Chris@40 240 oct_save_int (const int *a, const int *b, int len)
Chris@40 241 { FILE *file ;
Chris@40 242 int k ;
Chris@40 243
Chris@40 244 if (! (file = fopen (octfilename, "w")))
Chris@40 245 return 1 ;
Chris@40 246
Chris@40 247 fprintf (file, "# Not created by Octave\n") ;
Chris@40 248
Chris@40 249 fprintf (file, "# name: a\n") ;
Chris@40 250 fprintf (file, "# type: matrix\n") ;
Chris@40 251 fprintf (file, "# rows: %d\n", len) ;
Chris@40 252 fprintf (file, "# columns: 1\n") ;
Chris@40 253
Chris@40 254 for (k = 0 ; k < len ; k++)
Chris@40 255 fprintf (file, "% d" "\n", a [k]) ;
Chris@40 256
Chris@40 257 fprintf (file, "# name: b\n") ;
Chris@40 258 fprintf (file, "# type: matrix\n") ;
Chris@40 259 fprintf (file, "# rows: %d\n", len) ;
Chris@40 260 fprintf (file, "# columns: 1\n") ;
Chris@40 261
Chris@40 262 for (k = 0 ; k < len ; k++)
Chris@40 263 fprintf (file, "% d" "\n", b [k]) ;
Chris@40 264
Chris@40 265 fclose (file) ;
Chris@40 266 return 0 ;
Chris@40 267 } /* oct_save_int */
Chris@40 268 int
Chris@40 269 oct_save_float (const float *a, const float *b, int len)
Chris@40 270 { FILE *file ;
Chris@40 271 int k ;
Chris@40 272
Chris@40 273 if (! (file = fopen (octfilename, "w")))
Chris@40 274 return 1 ;
Chris@40 275
Chris@40 276 fprintf (file, "# Not created by Octave\n") ;
Chris@40 277
Chris@40 278 fprintf (file, "# name: a\n") ;
Chris@40 279 fprintf (file, "# type: matrix\n") ;
Chris@40 280 fprintf (file, "# rows: %d\n", len) ;
Chris@40 281 fprintf (file, "# columns: 1\n") ;
Chris@40 282
Chris@40 283 for (k = 0 ; k < len ; k++)
Chris@40 284 fprintf (file, "% g" "\n", a [k]) ;
Chris@40 285
Chris@40 286 fprintf (file, "# name: b\n") ;
Chris@40 287 fprintf (file, "# type: matrix\n") ;
Chris@40 288 fprintf (file, "# rows: %d\n", len) ;
Chris@40 289 fprintf (file, "# columns: 1\n") ;
Chris@40 290
Chris@40 291 for (k = 0 ; k < len ; k++)
Chris@40 292 fprintf (file, "% g" "\n", b [k]) ;
Chris@40 293
Chris@40 294 fclose (file) ;
Chris@40 295 return 0 ;
Chris@40 296 } /* oct_save_float */
Chris@40 297 int
Chris@40 298 oct_save_double (const double *a, const double *b, int len)
Chris@40 299 { FILE *file ;
Chris@40 300 int k ;
Chris@40 301
Chris@40 302 if (! (file = fopen (octfilename, "w")))
Chris@40 303 return 1 ;
Chris@40 304
Chris@40 305 fprintf (file, "# Not created by Octave\n") ;
Chris@40 306
Chris@40 307 fprintf (file, "# name: a\n") ;
Chris@40 308 fprintf (file, "# type: matrix\n") ;
Chris@40 309 fprintf (file, "# rows: %d\n", len) ;
Chris@40 310 fprintf (file, "# columns: 1\n") ;
Chris@40 311
Chris@40 312 for (k = 0 ; k < len ; k++)
Chris@40 313 fprintf (file, "% g" "\n", a [k]) ;
Chris@40 314
Chris@40 315 fprintf (file, "# name: b\n") ;
Chris@40 316 fprintf (file, "# type: matrix\n") ;
Chris@40 317 fprintf (file, "# rows: %d\n", len) ;
Chris@40 318 fprintf (file, "# columns: 1\n") ;
Chris@40 319
Chris@40 320 for (k = 0 ; k < len ; k++)
Chris@40 321 fprintf (file, "% g" "\n", b [k]) ;
Chris@40 322
Chris@40 323 fclose (file) ;
Chris@40 324 return 0 ;
Chris@40 325 } /* oct_save_double */
Chris@40 326
Chris@40 327
Chris@40 328 void
Chris@40 329 check_log_buffer_or_die (SNDFILE *file, int line_num)
Chris@40 330 { static char buffer [LOG_BUFFER_SIZE] ;
Chris@40 331 int count ;
Chris@40 332
Chris@40 333 memset (buffer, 0, sizeof (buffer)) ;
Chris@40 334
Chris@40 335 /* Get the log buffer data. */
Chris@40 336 count = sf_command (file, SFC_GET_LOG_INFO, buffer, LOG_BUFFER_SIZE) ;
Chris@40 337
Chris@40 338 if (LOG_BUFFER_SIZE - count < 2)
Chris@40 339 { printf ("\n\nLine %d : Possible long log buffer.\n", line_num) ;
Chris@40 340 exit (1) ;
Chris@40 341 }
Chris@40 342
Chris@40 343 /* Look for "Should" */
Chris@40 344 if (strstr (buffer, "ould"))
Chris@40 345 { printf ("\n\nLine %d : Log buffer contains `ould'. Dumping.\n", line_num) ;
Chris@40 346 puts (buffer) ;
Chris@40 347 exit (1) ;
Chris@40 348 } ;
Chris@40 349
Chris@40 350 /* Look for "**" */
Chris@40 351 if (strstr (buffer, "*"))
Chris@40 352 { printf ("\n\nLine %d : Log buffer contains `*'. Dumping.\n", line_num) ;
Chris@40 353 puts (buffer) ;
Chris@40 354 exit (1) ;
Chris@40 355 } ;
Chris@40 356
Chris@40 357 /* Look for "Should" */
Chris@40 358 if (strstr (buffer, "nknown marker"))
Chris@40 359 { printf ("\n\nLine %d : Log buffer contains `nknown marker'. Dumping.\n", line_num) ;
Chris@40 360 puts (buffer) ;
Chris@40 361 exit (1) ;
Chris@40 362 } ;
Chris@40 363
Chris@40 364 return ;
Chris@40 365 } /* check_log_buffer_or_die */
Chris@40 366
Chris@40 367 int
Chris@40 368 string_in_log_buffer (SNDFILE *file, const char *s)
Chris@40 369 { static char buffer [LOG_BUFFER_SIZE] ;
Chris@40 370 int count ;
Chris@40 371
Chris@40 372 memset (buffer, 0, sizeof (buffer)) ;
Chris@40 373
Chris@40 374 /* Get the log buffer data. */
Chris@40 375 count = sf_command (file, SFC_GET_LOG_INFO, buffer, LOG_BUFFER_SIZE) ;
Chris@40 376
Chris@40 377 if (LOG_BUFFER_SIZE - count < 2)
Chris@40 378 { printf ("Possible long log buffer.\n") ;
Chris@40 379 exit (1) ;
Chris@40 380 }
Chris@40 381
Chris@40 382 /* Look for string */
Chris@40 383 return strstr (buffer, s) ? SF_TRUE : SF_FALSE ;
Chris@40 384 } /* string_in_log_buffer */
Chris@40 385
Chris@40 386 void
Chris@40 387 hexdump_file (const char * filename, sf_count_t offset, sf_count_t length)
Chris@40 388 {
Chris@40 389 FILE * file ;
Chris@40 390 char buffer [16] ;
Chris@40 391 int k, m, ch, readcount ;
Chris@40 392
Chris@40 393 if (length > 1000000)
Chris@40 394 { printf ("\n\nError : length (%" PRId64 ") too long.\n\n", offset) ;
Chris@40 395 exit (1) ;
Chris@40 396 } ;
Chris@40 397
Chris@40 398 if ((file = fopen (filename, "r")) == NULL)
Chris@40 399 { printf ("\n\nError : hexdump_file (%s) could not open file for read.\n\n", filename) ;
Chris@40 400 exit (1) ;
Chris@40 401 } ;
Chris@40 402
Chris@40 403 if (fseek (file, offset, SEEK_SET) != 0)
Chris@40 404 { printf ("\n\nError : fseek(file, %" PRId64 ", SEEK_SET) failed : %s\n\n", offset, strerror (errno)) ;
Chris@40 405 exit (1) ;
Chris@40 406 } ;
Chris@40 407
Chris@40 408 puts ("\n\n") ;
Chris@40 409
Chris@40 410 for (k = 0 ; k < length ; k+= sizeof (buffer))
Chris@40 411 { readcount = fread (buffer, 1, sizeof (buffer), file) ;
Chris@40 412
Chris@40 413 printf ("%08" PRIx64 " : ", offset + k) ;
Chris@40 414
Chris@40 415 for (m = 0 ; m < readcount ; m++)
Chris@40 416 printf ("%02x ", buffer [m] & 0xFF) ;
Chris@40 417
Chris@40 418 for (m = readcount ; m < SIGNED_SIZEOF (buffer) ; m++)
Chris@40 419 printf (" ") ;
Chris@40 420
Chris@40 421 printf (" ") ;
Chris@40 422 for (m = 0 ; m < readcount ; m++)
Chris@40 423 { ch = isprint (buffer [m]) ? buffer [m] : '.' ;
Chris@40 424 putchar (ch) ;
Chris@40 425 } ;
Chris@40 426
Chris@40 427 if (readcount < SIGNED_SIZEOF (buffer))
Chris@40 428 break ;
Chris@40 429
Chris@40 430 putchar ('\n') ;
Chris@40 431 } ;
Chris@40 432
Chris@40 433 puts ("\n") ;
Chris@40 434
Chris@40 435 fclose (file) ;
Chris@40 436 } /* hexdump_file */
Chris@40 437
Chris@40 438 void
Chris@40 439 dump_log_buffer (SNDFILE *file)
Chris@40 440 { static char buffer [LOG_BUFFER_SIZE] ;
Chris@40 441
Chris@40 442 memset (buffer, 0, sizeof (buffer)) ;
Chris@40 443
Chris@40 444 /* Get the log buffer data. */
Chris@40 445 sf_command (file, SFC_GET_LOG_INFO, buffer, LOG_BUFFER_SIZE) ;
Chris@40 446
Chris@40 447 if (strlen (buffer) < 1)
Chris@40 448 puts ("Log buffer empty.\n") ;
Chris@40 449 else
Chris@40 450 puts (buffer) ;
Chris@40 451
Chris@40 452 return ;
Chris@40 453 } /* dump_log_buffer */
Chris@40 454
Chris@40 455 void
Chris@40 456 test_sf_format_or_die (const SF_INFO *info, int line_num)
Chris@40 457 { int res ;
Chris@40 458
Chris@40 459 if ((res = sf_format_check (info)) != 1)
Chris@40 460 { printf ("\n\nLine %d : sf_format_check returned error (%d)\n\n", line_num,res) ;
Chris@40 461 exit (1) ;
Chris@40 462 } ;
Chris@40 463
Chris@40 464 return ;
Chris@40 465 } /* test_sf_format_or_die */
Chris@40 466
Chris@40 467 SNDFILE *
Chris@40 468 test_open_file_or_die (const char *filename, int mode, SF_INFO *sfinfo, int allow_fd, int line_num)
Chris@40 469 { static int count = 0 ;
Chris@40 470
Chris@40 471 SNDFILE *file ;
Chris@40 472 const char *modestr, *func_name ;
Chris@40 473 int oflags = 0, omode = 0, err ;
Chris@40 474
Chris@40 475 /*
Chris@40 476 ** Need to test both sf_open() and sf_open_fd().
Chris@40 477 ** Do so alternately.
Chris@40 478 */
Chris@40 479 switch (mode)
Chris@40 480 { case SFM_READ :
Chris@40 481 modestr = "SFM_READ" ;
Chris@40 482 oflags = O_RDONLY | O_BINARY ;
Chris@40 483 omode = 0 ;
Chris@40 484 break ;
Chris@40 485
Chris@40 486 case SFM_WRITE :
Chris@40 487 modestr = "SFM_WRITE" ;
Chris@40 488 oflags = O_WRONLY | O_CREAT | O_TRUNC | O_BINARY ;
Chris@40 489 omode = S_IRUSR | S_IWUSR | S_IRGRP ;
Chris@40 490 break ;
Chris@40 491
Chris@40 492 case SFM_RDWR :
Chris@40 493 modestr = "SFM_RDWR" ;
Chris@40 494 oflags = O_RDWR | O_CREAT | O_BINARY ;
Chris@40 495 omode = S_IRUSR | S_IWUSR | S_IRGRP ;
Chris@40 496 break ;
Chris@40 497 default :
Chris@40 498 printf ("\n\nLine %d: Bad mode.\n", line_num) ;
Chris@40 499 fflush (stdout) ;
Chris@40 500 exit (1) ;
Chris@40 501 } ;
Chris@40 502
Chris@40 503 if (OS_IS_WIN32)
Chris@40 504 { /* Windows does not understand and ignores the S_IRGRP flag, but Wine
Chris@40 505 ** gives a run time warning message, so just clear it.
Chris@40 506 */
Chris@40 507 omode &= ~S_IRGRP ;
Chris@40 508 } ;
Chris@40 509
Chris@40 510 if (allow_fd && ((++count) & 1) == 1)
Chris@40 511 { int fd ;
Chris@40 512
Chris@40 513 /* Only use the three argument open() function if omode != 0. */
Chris@40 514 fd = (omode == 0) ? open (filename, oflags) : open (filename, oflags, omode) ;
Chris@40 515
Chris@40 516 if (fd < 0)
Chris@40 517 { printf ("\n\n%s : open failed : %s\n", __func__, strerror (errno)) ;
Chris@40 518 exit (1) ;
Chris@40 519 } ;
Chris@40 520
Chris@40 521 func_name = "sf_open_fd" ;
Chris@40 522 file = sf_open_fd (fd, mode, sfinfo, SF_TRUE) ;
Chris@40 523 }
Chris@40 524 else
Chris@40 525 { func_name = "sf_open" ;
Chris@40 526 file = sf_open (filename, mode, sfinfo) ;
Chris@40 527 } ;
Chris@40 528
Chris@40 529 if (file == NULL)
Chris@40 530 { printf ("\n\nLine %d: %s (%s) failed : %s\n\n", line_num, func_name, modestr, sf_strerror (NULL)) ;
Chris@40 531 dump_log_buffer (file) ;
Chris@40 532 exit (1) ;
Chris@40 533 } ;
Chris@40 534
Chris@40 535 err = sf_error (file) ;
Chris@40 536 if (err != SF_ERR_NO_ERROR)
Chris@40 537 { printf ("\n\nLine %d : sf_error : %s\n\n", line_num, sf_error_number (err)) ;
Chris@40 538 dump_log_buffer (file) ;
Chris@40 539 exit (1) ;
Chris@40 540 } ;
Chris@40 541
Chris@40 542 return file ;
Chris@40 543 } /* test_open_file_or_die */
Chris@40 544
Chris@40 545 void
Chris@40 546 test_read_write_position_or_die (SNDFILE *file, int line_num, int pass, sf_count_t read_pos, sf_count_t write_pos)
Chris@40 547 { sf_count_t pos ;
Chris@40 548
Chris@40 549 /* Check the current read position. */
Chris@40 550 if (read_pos >= 0 && (pos = sf_seek (file, 0, SEEK_CUR | SFM_READ)) != read_pos)
Chris@40 551 { printf ("\n\nLine %d ", line_num) ;
Chris@40 552 if (pass > 0)
Chris@40 553 printf ("(pass %d): ", pass) ;
Chris@40 554 printf ("Read position (%" PRId64 ") should be %" PRId64 ".\n", pos, read_pos) ;
Chris@40 555 exit (1) ;
Chris@40 556 } ;
Chris@40 557
Chris@40 558 /* Check the current write position. */
Chris@40 559 if (write_pos >= 0 && (pos = sf_seek (file, 0, SEEK_CUR | SFM_WRITE)) != write_pos)
Chris@40 560 { printf ("\n\nLine %d", line_num) ;
Chris@40 561 if (pass > 0)
Chris@40 562 printf (" (pass %d)", pass) ;
Chris@40 563 printf (" : Write position (%" PRId64 ") should be %" PRId64 ".\n", pos, write_pos) ;
Chris@40 564 exit (1) ;
Chris@40 565 } ;
Chris@40 566
Chris@40 567 return ;
Chris@40 568 } /* test_read_write_position */
Chris@40 569
Chris@40 570 void
Chris@40 571 test_seek_or_die (SNDFILE *file, sf_count_t offset, int whence, sf_count_t new_pos, int channels, int line_num)
Chris@40 572 { sf_count_t position ;
Chris@40 573 const char *channel_name, *whence_name ;
Chris@40 574
Chris@40 575 switch (whence)
Chris@40 576 { case SEEK_SET :
Chris@40 577 whence_name = "SEEK_SET" ;
Chris@40 578 break ;
Chris@40 579 case SEEK_CUR :
Chris@40 580 whence_name = "SEEK_CUR" ;
Chris@40 581 break ;
Chris@40 582 case SEEK_END :
Chris@40 583 whence_name = "SEEK_END" ;
Chris@40 584 break ;
Chris@40 585
Chris@40 586 /* SFM_READ */
Chris@40 587 case SEEK_SET | SFM_READ :
Chris@40 588 whence_name = "SFM_READ | SEEK_SET" ;
Chris@40 589 break ;
Chris@40 590 case SEEK_CUR | SFM_READ :
Chris@40 591 whence_name = "SFM_READ | SEEK_CUR" ;
Chris@40 592 break ;
Chris@40 593 case SEEK_END | SFM_READ :
Chris@40 594 whence_name = "SFM_READ | SEEK_END" ;
Chris@40 595 break ;
Chris@40 596
Chris@40 597 /* SFM_WRITE */
Chris@40 598 case SEEK_SET | SFM_WRITE :
Chris@40 599 whence_name = "SFM_WRITE | SEEK_SET" ;
Chris@40 600 break ;
Chris@40 601 case SEEK_CUR | SFM_WRITE :
Chris@40 602 whence_name = "SFM_WRITE | SEEK_CUR" ;
Chris@40 603 break ;
Chris@40 604 case SEEK_END | SFM_WRITE :
Chris@40 605 whence_name = "SFM_WRITE | SEEK_END" ;
Chris@40 606 break ;
Chris@40 607
Chris@40 608 default :
Chris@40 609 printf ("\n\nLine %d: bad whence parameter.\n", line_num) ;
Chris@40 610 exit (1) ;
Chris@40 611 } ;
Chris@40 612
Chris@40 613 channel_name = (channels == 1) ? "Mono" : "Stereo" ;
Chris@40 614
Chris@40 615 if ((position = sf_seek (file, offset, whence)) != new_pos)
Chris@40 616 { printf ("\n\nLine %d : %s : sf_seek (file, %" PRId64 ", %s) returned %" PRId64 " (should be %" PRId64 ").\n\n",
Chris@40 617 line_num, channel_name, offset, whence_name, position, new_pos) ;
Chris@40 618 exit (1) ;
Chris@40 619 } ;
Chris@40 620
Chris@40 621 } /* test_seek_or_die */
Chris@40 622
Chris@40 623
Chris@40 624
Chris@40 625 void
Chris@40 626 test_read_short_or_die (SNDFILE *file, int pass, short *test, sf_count_t items, int line_num)
Chris@40 627 { sf_count_t count ;
Chris@40 628
Chris@40 629 if ((count = sf_read_short (file, test, items)) != items)
Chris@40 630 { printf ("\n\nLine %d", line_num) ;
Chris@40 631 if (pass > 0)
Chris@40 632 printf (" (pass %d)", pass) ;
Chris@40 633 printf (" : sf_read_short failed with short read (%" PRId64 " => %" PRId64 ").\n",
Chris@40 634 items, count) ;
Chris@40 635 fflush (stdout) ;
Chris@40 636 puts (sf_strerror (file)) ;
Chris@40 637 exit (1) ;
Chris@40 638 } ;
Chris@40 639
Chris@40 640 return ;
Chris@40 641 } /* test_read_short_or_die */
Chris@40 642
Chris@40 643 void
Chris@40 644 test_read_int_or_die (SNDFILE *file, int pass, int *test, sf_count_t items, int line_num)
Chris@40 645 { sf_count_t count ;
Chris@40 646
Chris@40 647 if ((count = sf_read_int (file, test, items)) != items)
Chris@40 648 { printf ("\n\nLine %d", line_num) ;
Chris@40 649 if (pass > 0)
Chris@40 650 printf (" (pass %d)", pass) ;
Chris@40 651 printf (" : sf_read_int failed with short read (%" PRId64 " => %" PRId64 ").\n",
Chris@40 652 items, count) ;
Chris@40 653 fflush (stdout) ;
Chris@40 654 puts (sf_strerror (file)) ;
Chris@40 655 exit (1) ;
Chris@40 656 } ;
Chris@40 657
Chris@40 658 return ;
Chris@40 659 } /* test_read_int_or_die */
Chris@40 660
Chris@40 661 void
Chris@40 662 test_read_float_or_die (SNDFILE *file, int pass, float *test, sf_count_t items, int line_num)
Chris@40 663 { sf_count_t count ;
Chris@40 664
Chris@40 665 if ((count = sf_read_float (file, test, items)) != items)
Chris@40 666 { printf ("\n\nLine %d", line_num) ;
Chris@40 667 if (pass > 0)
Chris@40 668 printf (" (pass %d)", pass) ;
Chris@40 669 printf (" : sf_read_float failed with short read (%" PRId64 " => %" PRId64 ").\n",
Chris@40 670 items, count) ;
Chris@40 671 fflush (stdout) ;
Chris@40 672 puts (sf_strerror (file)) ;
Chris@40 673 exit (1) ;
Chris@40 674 } ;
Chris@40 675
Chris@40 676 return ;
Chris@40 677 } /* test_read_float_or_die */
Chris@40 678
Chris@40 679 void
Chris@40 680 test_read_double_or_die (SNDFILE *file, int pass, double *test, sf_count_t items, int line_num)
Chris@40 681 { sf_count_t count ;
Chris@40 682
Chris@40 683 if ((count = sf_read_double (file, test, items)) != items)
Chris@40 684 { printf ("\n\nLine %d", line_num) ;
Chris@40 685 if (pass > 0)
Chris@40 686 printf (" (pass %d)", pass) ;
Chris@40 687 printf (" : sf_read_double failed with short read (%" PRId64 " => %" PRId64 ").\n",
Chris@40 688 items, count) ;
Chris@40 689 fflush (stdout) ;
Chris@40 690 puts (sf_strerror (file)) ;
Chris@40 691 exit (1) ;
Chris@40 692 } ;
Chris@40 693
Chris@40 694 return ;
Chris@40 695 } /* test_read_double_or_die */
Chris@40 696
Chris@40 697
Chris@40 698 void
Chris@40 699 test_readf_short_or_die (SNDFILE *file, int pass, short *test, sf_count_t frames, int line_num)
Chris@40 700 { sf_count_t count ;
Chris@40 701
Chris@40 702 if ((count = sf_readf_short (file, test, frames)) != frames)
Chris@40 703 { printf ("\n\nLine %d", line_num) ;
Chris@40 704 if (pass > 0)
Chris@40 705 printf (" (pass %d)", pass) ;
Chris@40 706 printf (" : sf_readf_short failed with short readf (%" PRId64 " => %" PRId64 ").\n",
Chris@40 707 frames, count) ;
Chris@40 708 fflush (stdout) ;
Chris@40 709 puts (sf_strerror (file)) ;
Chris@40 710 exit (1) ;
Chris@40 711 } ;
Chris@40 712
Chris@40 713 return ;
Chris@40 714 } /* test_readf_short_or_die */
Chris@40 715
Chris@40 716 void
Chris@40 717 test_readf_int_or_die (SNDFILE *file, int pass, int *test, sf_count_t frames, int line_num)
Chris@40 718 { sf_count_t count ;
Chris@40 719
Chris@40 720 if ((count = sf_readf_int (file, test, frames)) != frames)
Chris@40 721 { printf ("\n\nLine %d", line_num) ;
Chris@40 722 if (pass > 0)
Chris@40 723 printf (" (pass %d)", pass) ;
Chris@40 724 printf (" : sf_readf_int failed with short readf (%" PRId64 " => %" PRId64 ").\n",
Chris@40 725 frames, count) ;
Chris@40 726 fflush (stdout) ;
Chris@40 727 puts (sf_strerror (file)) ;
Chris@40 728 exit (1) ;
Chris@40 729 } ;
Chris@40 730
Chris@40 731 return ;
Chris@40 732 } /* test_readf_int_or_die */
Chris@40 733
Chris@40 734 void
Chris@40 735 test_readf_float_or_die (SNDFILE *file, int pass, float *test, sf_count_t frames, int line_num)
Chris@40 736 { sf_count_t count ;
Chris@40 737
Chris@40 738 if ((count = sf_readf_float (file, test, frames)) != frames)
Chris@40 739 { printf ("\n\nLine %d", line_num) ;
Chris@40 740 if (pass > 0)
Chris@40 741 printf (" (pass %d)", pass) ;
Chris@40 742 printf (" : sf_readf_float failed with short readf (%" PRId64 " => %" PRId64 ").\n",
Chris@40 743 frames, count) ;
Chris@40 744 fflush (stdout) ;
Chris@40 745 puts (sf_strerror (file)) ;
Chris@40 746 exit (1) ;
Chris@40 747 } ;
Chris@40 748
Chris@40 749 return ;
Chris@40 750 } /* test_readf_float_or_die */
Chris@40 751
Chris@40 752 void
Chris@40 753 test_readf_double_or_die (SNDFILE *file, int pass, double *test, sf_count_t frames, int line_num)
Chris@40 754 { sf_count_t count ;
Chris@40 755
Chris@40 756 if ((count = sf_readf_double (file, test, frames)) != frames)
Chris@40 757 { printf ("\n\nLine %d", line_num) ;
Chris@40 758 if (pass > 0)
Chris@40 759 printf (" (pass %d)", pass) ;
Chris@40 760 printf (" : sf_readf_double failed with short readf (%" PRId64 " => %" PRId64 ").\n",
Chris@40 761 frames, count) ;
Chris@40 762 fflush (stdout) ;
Chris@40 763 puts (sf_strerror (file)) ;
Chris@40 764 exit (1) ;
Chris@40 765 } ;
Chris@40 766
Chris@40 767 return ;
Chris@40 768 } /* test_readf_double_or_die */
Chris@40 769
Chris@40 770
Chris@40 771 void
Chris@40 772 test_read_raw_or_die (SNDFILE *file, int pass, void *test, sf_count_t items, int line_num)
Chris@40 773 { sf_count_t count ;
Chris@40 774
Chris@40 775 if ((count = sf_read_raw (file, test, items)) != items)
Chris@40 776 { printf ("\n\nLine %d", line_num) ;
Chris@40 777 if (pass > 0)
Chris@40 778 printf (" (pass %d)", pass) ;
Chris@40 779 printf (" : sf_read_raw failed with short read (%" PRId64 " => %" PRId64 ").\n", items, count) ;
Chris@40 780 fflush (stdout) ;
Chris@40 781 puts (sf_strerror (file)) ;
Chris@40 782 exit (1) ;
Chris@40 783 } ;
Chris@40 784
Chris@40 785 return ;
Chris@40 786 } /* test_read_raw_or_die */
Chris@40 787
Chris@40 788
Chris@40 789
Chris@40 790 void
Chris@40 791 test_write_short_or_die (SNDFILE *file, int pass, const short *test, sf_count_t items, int line_num)
Chris@40 792 { sf_count_t count ;
Chris@40 793
Chris@40 794 if ((count = sf_write_short (file, test, items)) != items)
Chris@40 795 { printf ("\n\nLine %d", line_num) ;
Chris@40 796 if (pass > 0)
Chris@40 797 printf (" (pass %d)", pass) ;
Chris@40 798 printf (" : sf_write_short failed with short write (%" PRId64 " => %" PRId64 ").\n",
Chris@40 799 items, count) ;
Chris@40 800 fflush (stdout) ;
Chris@40 801 puts (sf_strerror (file)) ;
Chris@40 802 exit (1) ;
Chris@40 803 } ;
Chris@40 804
Chris@40 805 return ;
Chris@40 806 } /* test_write_short_or_die */
Chris@40 807
Chris@40 808 void
Chris@40 809 test_write_int_or_die (SNDFILE *file, int pass, const int *test, sf_count_t items, int line_num)
Chris@40 810 { sf_count_t count ;
Chris@40 811
Chris@40 812 if ((count = sf_write_int (file, test, items)) != items)
Chris@40 813 { printf ("\n\nLine %d", line_num) ;
Chris@40 814 if (pass > 0)
Chris@40 815 printf (" (pass %d)", pass) ;
Chris@40 816 printf (" : sf_write_int failed with short write (%" PRId64 " => %" PRId64 ").\n",
Chris@40 817 items, count) ;
Chris@40 818 fflush (stdout) ;
Chris@40 819 puts (sf_strerror (file)) ;
Chris@40 820 exit (1) ;
Chris@40 821 } ;
Chris@40 822
Chris@40 823 return ;
Chris@40 824 } /* test_write_int_or_die */
Chris@40 825
Chris@40 826 void
Chris@40 827 test_write_float_or_die (SNDFILE *file, int pass, const float *test, sf_count_t items, int line_num)
Chris@40 828 { sf_count_t count ;
Chris@40 829
Chris@40 830 if ((count = sf_write_float (file, test, items)) != items)
Chris@40 831 { printf ("\n\nLine %d", line_num) ;
Chris@40 832 if (pass > 0)
Chris@40 833 printf (" (pass %d)", pass) ;
Chris@40 834 printf (" : sf_write_float failed with short write (%" PRId64 " => %" PRId64 ").\n",
Chris@40 835 items, count) ;
Chris@40 836 fflush (stdout) ;
Chris@40 837 puts (sf_strerror (file)) ;
Chris@40 838 exit (1) ;
Chris@40 839 } ;
Chris@40 840
Chris@40 841 return ;
Chris@40 842 } /* test_write_float_or_die */
Chris@40 843
Chris@40 844 void
Chris@40 845 test_write_double_or_die (SNDFILE *file, int pass, const double *test, sf_count_t items, int line_num)
Chris@40 846 { sf_count_t count ;
Chris@40 847
Chris@40 848 if ((count = sf_write_double (file, test, items)) != items)
Chris@40 849 { printf ("\n\nLine %d", line_num) ;
Chris@40 850 if (pass > 0)
Chris@40 851 printf (" (pass %d)", pass) ;
Chris@40 852 printf (" : sf_write_double failed with short write (%" PRId64 " => %" PRId64 ").\n",
Chris@40 853 items, count) ;
Chris@40 854 fflush (stdout) ;
Chris@40 855 puts (sf_strerror (file)) ;
Chris@40 856 exit (1) ;
Chris@40 857 } ;
Chris@40 858
Chris@40 859 return ;
Chris@40 860 } /* test_write_double_or_die */
Chris@40 861
Chris@40 862
Chris@40 863 void
Chris@40 864 test_writef_short_or_die (SNDFILE *file, int pass, const short *test, sf_count_t frames, int line_num)
Chris@40 865 { sf_count_t count ;
Chris@40 866
Chris@40 867 if ((count = sf_writef_short (file, test, frames)) != frames)
Chris@40 868 { printf ("\n\nLine %d", line_num) ;
Chris@40 869 if (pass > 0)
Chris@40 870 printf (" (pass %d)", pass) ;
Chris@40 871 printf (" : sf_writef_short failed with short writef (%" PRId64 " => %" PRId64 ").\n",
Chris@40 872 frames, count) ;
Chris@40 873 fflush (stdout) ;
Chris@40 874 puts (sf_strerror (file)) ;
Chris@40 875 exit (1) ;
Chris@40 876 } ;
Chris@40 877
Chris@40 878 return ;
Chris@40 879 } /* test_writef_short_or_die */
Chris@40 880
Chris@40 881 void
Chris@40 882 test_writef_int_or_die (SNDFILE *file, int pass, const int *test, sf_count_t frames, int line_num)
Chris@40 883 { sf_count_t count ;
Chris@40 884
Chris@40 885 if ((count = sf_writef_int (file, test, frames)) != frames)
Chris@40 886 { printf ("\n\nLine %d", line_num) ;
Chris@40 887 if (pass > 0)
Chris@40 888 printf (" (pass %d)", pass) ;
Chris@40 889 printf (" : sf_writef_int failed with short writef (%" PRId64 " => %" PRId64 ").\n",
Chris@40 890 frames, count) ;
Chris@40 891 fflush (stdout) ;
Chris@40 892 puts (sf_strerror (file)) ;
Chris@40 893 exit (1) ;
Chris@40 894 } ;
Chris@40 895
Chris@40 896 return ;
Chris@40 897 } /* test_writef_int_or_die */
Chris@40 898
Chris@40 899 void
Chris@40 900 test_writef_float_or_die (SNDFILE *file, int pass, const float *test, sf_count_t frames, int line_num)
Chris@40 901 { sf_count_t count ;
Chris@40 902
Chris@40 903 if ((count = sf_writef_float (file, test, frames)) != frames)
Chris@40 904 { printf ("\n\nLine %d", line_num) ;
Chris@40 905 if (pass > 0)
Chris@40 906 printf (" (pass %d)", pass) ;
Chris@40 907 printf (" : sf_writef_float failed with short writef (%" PRId64 " => %" PRId64 ").\n",
Chris@40 908 frames, count) ;
Chris@40 909 fflush (stdout) ;
Chris@40 910 puts (sf_strerror (file)) ;
Chris@40 911 exit (1) ;
Chris@40 912 } ;
Chris@40 913
Chris@40 914 return ;
Chris@40 915 } /* test_writef_float_or_die */
Chris@40 916
Chris@40 917 void
Chris@40 918 test_writef_double_or_die (SNDFILE *file, int pass, const double *test, sf_count_t frames, int line_num)
Chris@40 919 { sf_count_t count ;
Chris@40 920
Chris@40 921 if ((count = sf_writef_double (file, test, frames)) != frames)
Chris@40 922 { printf ("\n\nLine %d", line_num) ;
Chris@40 923 if (pass > 0)
Chris@40 924 printf (" (pass %d)", pass) ;
Chris@40 925 printf (" : sf_writef_double failed with short writef (%" PRId64 " => %" PRId64 ").\n",
Chris@40 926 frames, count) ;
Chris@40 927 fflush (stdout) ;
Chris@40 928 puts (sf_strerror (file)) ;
Chris@40 929 exit (1) ;
Chris@40 930 } ;
Chris@40 931
Chris@40 932 return ;
Chris@40 933 } /* test_writef_double_or_die */
Chris@40 934
Chris@40 935
Chris@40 936 void
Chris@40 937 test_write_raw_or_die (SNDFILE *file, int pass, const void *test, sf_count_t items, int line_num)
Chris@40 938 { sf_count_t count ;
Chris@40 939
Chris@40 940 if ((count = sf_write_raw (file, test, items)) != items)
Chris@40 941 { printf ("\n\nLine %d", line_num) ;
Chris@40 942 if (pass > 0)
Chris@40 943 printf (" (pass %d)", pass) ;
Chris@40 944 printf (" : sf_write_raw failed with short write (%" PRId64 " => %" PRId64 ").\n", items, count) ;
Chris@40 945 fflush (stdout) ;
Chris@40 946 puts (sf_strerror (file)) ;
Chris@40 947 exit (1) ;
Chris@40 948 } ;
Chris@40 949
Chris@40 950 return ;
Chris@40 951 } /* test_write_raw_or_die */
Chris@40 952
Chris@40 953
Chris@40 954 void
Chris@40 955 compare_short_or_die (const short *expected, const short *actual, unsigned count, int line_num)
Chris@40 956 {
Chris@40 957 unsigned k ;
Chris@40 958
Chris@40 959 for (k = 0 ; k < count ; k++)
Chris@40 960 if (expected [k] != actual [k])
Chris@40 961 { printf ("\n\nLine %d : Error at index %d, got " "% d" ", should be " "% d" ".\n\n", line_num, k, actual [k], expected [k]) ;
Chris@40 962 exit (1) ;
Chris@40 963 } ;
Chris@40 964
Chris@40 965 return ;
Chris@40 966 } /* compare_short_or_die */
Chris@40 967 void
Chris@40 968 compare_int_or_die (const int *expected, const int *actual, unsigned count, int line_num)
Chris@40 969 {
Chris@40 970 unsigned k ;
Chris@40 971
Chris@40 972 for (k = 0 ; k < count ; k++)
Chris@40 973 if (expected [k] != actual [k])
Chris@40 974 { printf ("\n\nLine %d : Error at index %d, got " "% d" ", should be " "% d" ".\n\n", line_num, k, actual [k], expected [k]) ;
Chris@40 975 exit (1) ;
Chris@40 976 } ;
Chris@40 977
Chris@40 978 return ;
Chris@40 979 } /* compare_int_or_die */
Chris@40 980 void
Chris@40 981 compare_float_or_die (const float *expected, const float *actual, unsigned count, int line_num)
Chris@40 982 {
Chris@40 983 unsigned k ;
Chris@40 984
Chris@40 985 for (k = 0 ; k < count ; k++)
Chris@40 986 if (expected [k] != actual [k])
Chris@40 987 { printf ("\n\nLine %d : Error at index %d, got " "% g" ", should be " "% g" ".\n\n", line_num, k, actual [k], expected [k]) ;
Chris@40 988 exit (1) ;
Chris@40 989 } ;
Chris@40 990
Chris@40 991 return ;
Chris@40 992 } /* compare_float_or_die */
Chris@40 993 void
Chris@40 994 compare_double_or_die (const double *expected, const double *actual, unsigned count, int line_num)
Chris@40 995 {
Chris@40 996 unsigned k ;
Chris@40 997
Chris@40 998 for (k = 0 ; k < count ; k++)
Chris@40 999 if (expected [k] != actual [k])
Chris@40 1000 { printf ("\n\nLine %d : Error at index %d, got " "% g" ", should be " "% g" ".\n\n", line_num, k, actual [k], expected [k]) ;
Chris@40 1001 exit (1) ;
Chris@40 1002 } ;
Chris@40 1003
Chris@40 1004 return ;
Chris@40 1005 } /* compare_double_or_die */
Chris@40 1006
Chris@40 1007
Chris@40 1008
Chris@40 1009 void
Chris@40 1010 delete_file (int format, const char *filename)
Chris@40 1011 { char rsrc_name [512], *fname ;
Chris@40 1012
Chris@40 1013 unlink (filename) ;
Chris@40 1014
Chris@40 1015 if ((format & SF_FORMAT_TYPEMASK) != SF_FORMAT_SD2)
Chris@40 1016 return ;
Chris@40 1017
Chris@40 1018 /*
Chris@40 1019 ** Now try for a resource fork stored as a separate file.
Chris@40 1020 ** Grab the un-adulterated filename again.
Chris@40 1021 */
Chris@40 1022 snprintf (rsrc_name, sizeof (rsrc_name), "%s", filename) ;
Chris@40 1023
Chris@40 1024 if ((fname = strrchr (rsrc_name, '/')) != NULL)
Chris@40 1025 fname ++ ;
Chris@40 1026 else if ((fname = strrchr (rsrc_name, '\\')) != NULL)
Chris@40 1027 fname ++ ;
Chris@40 1028 else
Chris@40 1029 fname = rsrc_name ;
Chris@40 1030
Chris@40 1031 memmove (fname + 2, fname, strlen (fname) + 1) ;
Chris@40 1032 fname [0] = '.' ;
Chris@40 1033 fname [1] = '_' ;
Chris@40 1034
Chris@40 1035 unlink (rsrc_name) ;
Chris@40 1036 } /* delete_file */
Chris@40 1037
Chris@40 1038 static int allowed_open_files = -1 ;
Chris@40 1039
Chris@40 1040 void
Chris@40 1041 count_open_files (void)
Chris@40 1042 {
Chris@40 1043 #if OS_IS_WIN32
Chris@40 1044 return ;
Chris@40 1045 #else
Chris@40 1046 int k, count = 0 ;
Chris@40 1047 struct stat statbuf ;
Chris@40 1048
Chris@40 1049 if (allowed_open_files > 0)
Chris@40 1050 return ;
Chris@40 1051
Chris@40 1052 for (k = 0 ; k < 1024 ; k++)
Chris@40 1053 if (fstat (k, &statbuf) == 0)
Chris@40 1054 count ++ ;
Chris@40 1055
Chris@40 1056 allowed_open_files = count ;
Chris@40 1057 #endif
Chris@40 1058 } /* count_open_files */
Chris@40 1059
Chris@40 1060 void
Chris@40 1061 increment_open_file_count (void)
Chris@40 1062 { allowed_open_files ++ ;
Chris@40 1063 } /* increment_open_file_count */
Chris@40 1064
Chris@40 1065 void
Chris@40 1066 check_open_file_count_or_die (int lineno)
Chris@40 1067 {
Chris@40 1068 #if OS_IS_WIN32
Chris@40 1069 (void) lineno ;
Chris@40 1070 return ;
Chris@40 1071 #else
Chris@40 1072 int k, count = 0 ;
Chris@40 1073 struct stat statbuf ;
Chris@40 1074
Chris@40 1075 if (allowed_open_files < 0)
Chris@40 1076 count_open_files () ;
Chris@40 1077
Chris@40 1078 for (k = 0 ; k < 1024 ; k++)
Chris@40 1079 if (fstat (k, &statbuf) == 0)
Chris@40 1080 count ++ ;
Chris@40 1081
Chris@40 1082 if (count > allowed_open_files)
Chris@40 1083 { printf ("\nLine %d : number of open files (%d) > allowed (%d).\n\n", lineno, count, allowed_open_files) ;
Chris@40 1084 exit (1) ;
Chris@40 1085 } ;
Chris@40 1086 #endif
Chris@40 1087 } /* check_open_file_count_or_die */
Chris@40 1088
Chris@40 1089 void
Chris@40 1090 write_mono_file (const char * filename, int format, int srate, float * output, int len)
Chris@40 1091 { SNDFILE * file ;
Chris@40 1092 SF_INFO sfinfo ;
Chris@40 1093
Chris@40 1094 memset (&sfinfo, 0, sizeof (sfinfo)) ;
Chris@40 1095
Chris@40 1096 sfinfo.samplerate = srate ;
Chris@40 1097 sfinfo.channels = 1 ;
Chris@40 1098 sfinfo.format = format ;
Chris@40 1099
Chris@40 1100 if ((file = sf_open (filename, SFM_WRITE, &sfinfo)) == NULL)
Chris@40 1101 { printf ("sf_open (%s) : %s\n", filename, sf_strerror (NULL)) ;
Chris@40 1102 exit (1) ;
Chris@40 1103 } ;
Chris@40 1104
Chris@40 1105 sf_write_float (file, output, len) ;
Chris@40 1106
Chris@40 1107 sf_close (file) ;
Chris@40 1108 } /* write_mono_file */
Chris@40 1109
Chris@40 1110 void
Chris@40 1111 gen_lowpass_signal_float (float *data, int len)
Chris@40 1112 { int64_t value = 0x1243456 ;
Chris@40 1113 double sample, last_val = 0.0 ;
Chris@40 1114 int k ;
Chris@40 1115
Chris@40 1116 for (k = 0 ; k < len ; k++)
Chris@40 1117 { /* Not a crypto quality RNG. */
Chris@40 1118 value = (11117 * value + 211231) & 0xffffffff ;
Chris@40 1119 value = (11117 * value + 211231) & 0xffffffff ;
Chris@40 1120 value = (11117 * value + 211231) & 0xffffffff ;
Chris@40 1121
Chris@40 1122 sample = value / (0x7fffffff * 1.000001) ;
Chris@40 1123 sample = 0.2 * sample - 0.9 * last_val ;
Chris@40 1124
Chris@40 1125 last_val = sample ;
Chris@40 1126
Chris@40 1127 data [k] = 0.5 * (sample + sin (2.0 * k * M_PI * 1.0 / 32.0)) ;
Chris@40 1128 } ;
Chris@40 1129
Chris@40 1130 } /* gen_lowpass_signal_float */
Chris@40 1131
Chris@40 1132
Chris@40 1133 /*
Chris@40 1134 ** Windows is fucked.
Chris@40 1135 ** If a file is opened R/W and data is written to it, then fstat will return
Chris@40 1136 ** the correct file length, but stat will return zero.
Chris@40 1137 */
Chris@40 1138
Chris@40 1139 sf_count_t
Chris@40 1140 file_length (const char * fname)
Chris@40 1141 { struct stat data ;
Chris@40 1142
Chris@40 1143 if (stat (fname, &data) != 0)
Chris@40 1144 return 0 ;
Chris@40 1145
Chris@40 1146 return (sf_count_t) data.st_size ;
Chris@40 1147 } /* file_length */
Chris@40 1148
Chris@40 1149 sf_count_t
Chris@40 1150 file_length_fd (int fd)
Chris@40 1151 { struct stat data ;
Chris@40 1152
Chris@40 1153 memset (&data, 0, sizeof (data)) ;
Chris@40 1154 if (fstat (fd, &data) != 0)
Chris@40 1155 return 0 ;
Chris@40 1156
Chris@40 1157 return (sf_count_t) data.st_size ;
Chris@40 1158 } /* file_length_fd */
Chris@40 1159
Chris@40 1160
Chris@40 1161
Chris@40 1162