/* ** Copyright (C) 1999-2016 Erik de Castro Lopo ** ** This program is free software; you can redistribute it and/or modify ** it under the terms of the GNU General Public License as published by ** the Free Software Foundation; either version 2 of the License, or ** (at your option) any later version. ** ** This program is distributed in the hope that it will be useful, ** but WITHOUT ANY WARRANTY; without even the implied warranty of ** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ** GNU General Public License for more details. ** ** You should have received a copy of the GNU General Public License ** along with this program; if not, write to the Free Software ** Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "sfconfig.h" #include #include #include #include #include #if HAVE_UNISTD_H #include #else #include "sf_unistd.h" #endif #include #include "utils.h" #define BUFFER_SIZE (1 << 14) #define SAMPLE_RATE 11025 #ifndef M_PI #define M_PI 3.14159265358979323846264338 #endif #define LCT_MAX(x, y) ((x) > (y) ? (x) : (y)) static const char LCT_TEST_PREFIX[] = "lct" ; static void lcomp_test_short (const char *filename, int filetype, int chan, double margin) ; static void lcomp_test_int (const char *filename, int filetype, int chan, double margin) ; static void lcomp_test_float (const char *filename, int filetype, int chan, double margin) ; static void lcomp_test_double (const char *filename, int filetype, int chan, double margin) ; static void sdlcomp_test_short (const char *filename, int filetype, int chan, double margin) ; static void sdlcomp_test_int (const char *filename, int filetype, int chan, double margin) ; static void sdlcomp_test_float (const char *filename, int filetype, int chan, double margin) ; static void sdlcomp_test_double (const char *filename, int filetype, int chan, double margin) ; static void read_raw_test (const char *filename, int filetype, int chan) ; static int error_function (double data, double orig, double margin) ; static int decay_response (int k) ; static void gen_signal_double (double *data, double scale, int channels, int datalen) ; static void smoothed_diff_short (short *data, unsigned int datalen) ; static void smoothed_diff_int (int *data, unsigned int datalen) ; static void smoothed_diff_float (float *data, unsigned int datalen) ; static void smoothed_diff_double (double *data, unsigned int datalen) ; static void check_comment (SNDFILE * file, int format, int lineno) ; static int is_lossy (int filetype) ; static int check_opus_version (SNDFILE *file) ; /* ** Force the start of these buffers to be double aligned. Sparc-solaris will ** choke if they are not. */ typedef union { double d [BUFFER_SIZE + 1] ; float f [BUFFER_SIZE + 1] ; int i [BUFFER_SIZE + 1] ; short s [BUFFER_SIZE + 1] ; char c [BUFFER_SIZE + 1] ; } BUFFER ; static BUFFER data_buffer ; static BUFFER orig_buffer ; static BUFFER smooth_buffer ; static const char *long_comment = "This is really quite a long comment. It is designed to be long enough " "to screw up the encoders and decoders if the file container format does " "not handle things correctly. If everything is working correctly, the " "decoder will only decode the actual audio data, and not this string at " "the end of the file." ; int main (int argc, char *argv []) { int do_all = 0 ; int test_count = 0 ; if (argc != 2) { printf ("Usage : %s \n", argv [0]) ; printf (" Where is one of the following:\n") ; printf (" wav_ima - test IMA ADPCM WAV file functions\n") ; printf (" wav_msadpcm - test MS ADPCM WAV file functions\n") ; printf (" wav_gsm610 - test GSM 6.10 WAV file functions\n") ; printf (" wav_ulaw - test u-law WAV file functions\n") ; printf (" wav_alaw - test A-law WAV file functions\n") ; printf (" wve - test Psion WVE file functions\n") ; printf (" all - perform all tests\n") ; exit (1) ; } ; do_all = ! strcmp (argv [1], "all") ; if (do_all || strcmp (argv [1], "wav_pcm") == 0) { /* This is just a sanity test for PCM encoding. */ lcomp_test_short ("pcm.wav", SF_FORMAT_WAV | SF_FORMAT_PCM_16, 2, 1e-50) ; lcomp_test_int ("pcm.wav", SF_FORMAT_WAV | SF_FORMAT_PCM_32, 2, 1e-50) ; lcomp_test_short ("pcm.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_PCM_16, 2, 1e-50) ; lcomp_test_int ("pcm.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_PCM_32, 2, 1e-50) ; /* Lite remove start */ lcomp_test_float ("pcm.wav", SF_FORMAT_WAV | SF_FORMAT_FLOAT, 2, 1e-50) ; lcomp_test_double ("pcm.wav", SF_FORMAT_WAV | SF_FORMAT_DOUBLE, 2, 1e-50) ; /* Lite remove end */ read_raw_test ("pcm.wav", SF_FORMAT_WAV | SF_FORMAT_PCM_U8, 2) ; test_count++ ; } ; /* For all the rest, if the file format supports more than 1 channel, use stereo. */ /* Lite remove start */ if (do_all || strcmp (argv [1], "wav_ima") == 0) { lcomp_test_short ("ima.wav", SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_int ("ima.wav", SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.65) ; lcomp_test_float ("ima.wav", SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_double ("ima.wav", SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_short ("ima.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_int ("ima.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_float ("ima.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_double ("ima.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; sdlcomp_test_short ("ima.wav", SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; sdlcomp_test_int ("ima.wav", SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; sdlcomp_test_float ("ima.wav", SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; sdlcomp_test_double ("ima.wav", SF_FORMAT_WAV | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "wav_msadpcm") == 0) { lcomp_test_short ("msadpcm.wav", SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_int ("msadpcm.wav", SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_float ("msadpcm.wav", SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_double ("msadpcm.wav", SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_short ("msadpcm.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_int ("msadpcm.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_float ("msadpcm.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_double ("msadpcm.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; sdlcomp_test_short ("msadpcm.wav", SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; sdlcomp_test_int ("msadpcm.wav", SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; sdlcomp_test_float ("msadpcm.wav", SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; sdlcomp_test_double ("msadpcm.wav", SF_FORMAT_WAV | SF_FORMAT_MS_ADPCM, 2, 0.36) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "wav_g721") == 0) { printf ("**** Fix this later : error bound should be 0.06 ****\n") ; lcomp_test_short ("g721.wav", SF_FORMAT_WAV | SF_FORMAT_G721_32, 1, 0.7) ; lcomp_test_int ("g721.wav", SF_FORMAT_WAV | SF_FORMAT_G721_32, 1, 0.7) ; lcomp_test_short ("g721.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_G721_32, 1, 0.7) ; lcomp_test_int ("g721.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_G721_32, 1, 0.7) ; test_count++ ; } ; /* Lite remove end */ if (do_all || strcmp (argv [1], "wav_ulaw") == 0) { lcomp_test_short ("ulaw.wav", SF_FORMAT_WAV | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.wav", SF_FORMAT_WAV | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_short ("ulaw.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("ulaw.wav", SF_FORMAT_WAV | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.wav", SF_FORMAT_WAV | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove end */ read_raw_test ("ulaw.wav", SF_FORMAT_WAV | SF_FORMAT_ULAW, 2) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "wav_alaw") == 0) { lcomp_test_short ("alaw.wav", SF_FORMAT_WAV | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.wav", SF_FORMAT_WAV | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("alaw.wav", SF_FORMAT_WAV | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.wav", SF_FORMAT_WAV | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove end */ read_raw_test ("alaw.wav", SF_FORMAT_WAV | SF_FORMAT_ALAW, 2) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "wav_gsm610") == 0) { /* Don't do lcomp_test_XXX as the errors are too big. */ sdlcomp_test_short ("gsm610.wav", SF_FORMAT_WAV | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_int ("gsm610.wav", SF_FORMAT_WAV | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_short ("gsm610.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_int ("gsm610.rifx", SF_ENDIAN_BIG | SF_FORMAT_WAV | SF_FORMAT_GSM610, 1, 0.24) ; /* Lite remove start */ sdlcomp_test_float ("gsm610.wav", SF_FORMAT_WAV | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_double ("gsm610.wav", SF_FORMAT_WAV | SF_FORMAT_GSM610, 1, 0.24) ; /* Lite remove end */ test_count++ ; } ; /* Lite remove start */ if (do_all || strcmp (argv [1], "wav_nmsadpcm") == 0) { lcomp_test_short ("nms_16.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_16, 1, 0.37) ; lcomp_test_int ("nms_16.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_16, 1, 0.31) ; lcomp_test_float ("nms_16.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_16, 1, 0.34) ; lcomp_test_double ("nms_16.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_16, 1, 0.34) ; lcomp_test_short ("nms_24.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_24, 1, 0.15) ; lcomp_test_int ("nms_24.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_24, 1, 0.10) ; lcomp_test_float ("nms_24.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_24, 1, 0.14) ; lcomp_test_double ("nms_24.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_24, 1, 0.14) ; lcomp_test_short ("nms_32.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_32, 1, 0.036) ; lcomp_test_int ("nms_32.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_32, 1, 0.045) ; lcomp_test_float ("nms_32.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_32, 1, 0.035) ; lcomp_test_double ("nms_32.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_32, 1, 0.035) ; sdlcomp_test_short ("nms_16.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_16, 1, 0.16) ; sdlcomp_test_int ("nms_16.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_16, 1, 0.16) ; sdlcomp_test_float ("nms_16.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_16, 1, 0.16) ; sdlcomp_test_double ("nms_16.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_16, 1, 0.16) ; sdlcomp_test_short ("nms_24.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_24, 1, 0.06) ; sdlcomp_test_int ("nms_24.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_24, 1, 0.06) ; sdlcomp_test_float ("nms_24.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_24, 1, 0.06) ; sdlcomp_test_double ("nms_24.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_24, 1, 0.06) ; sdlcomp_test_short ("nms_32.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_32, 1, 0.017) ; sdlcomp_test_int ("nms_32.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_32, 1, 0.018) ; sdlcomp_test_float ("nms_32.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_32, 1, 0.018) ; sdlcomp_test_double ("nms_32.wav", SF_FORMAT_WAV | SF_FORMAT_NMS_ADPCM_32, 1, 0.018) ; test_count++ ; } ; /* Lite remove end */ if (do_all || strcmp (argv [1], "aiff_ulaw") == 0) { lcomp_test_short ("ulaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("ulaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove end */ read_raw_test ("ulaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ULAW, 2) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "aiff_alaw") == 0) { lcomp_test_short ("alaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("alaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove end */ read_raw_test ("alaw.aiff", SF_FORMAT_AIFF | SF_FORMAT_ALAW, 2) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "aiff_gsm610") == 0) { /* Don't do lcomp_test_XXX as the errors are too big. */ sdlcomp_test_short ("gsm610.aiff", SF_FORMAT_AIFF | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_int ("gsm610.aiff", SF_FORMAT_AIFF | SF_FORMAT_GSM610, 1, 0.24) ; /* Lite remove start */ sdlcomp_test_float ("gsm610.aiff", SF_FORMAT_AIFF | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_double ("gsm610.aiff", SF_FORMAT_AIFF | SF_FORMAT_GSM610, 1, 0.24) ; /* Lite remove end */ test_count++ ; } ; if (strcmp (argv [1], "aiff_ima") == 0) { lcomp_test_short ("ima.aiff", SF_FORMAT_AIFF | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_int ("ima.aiff", SF_FORMAT_AIFF | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; /* Lite remove start */ lcomp_test_float ("ima.aiff", SF_FORMAT_AIFF | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_double ("ima.aiff", SF_FORMAT_AIFF | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; /* Lite remove end */ } ; if (do_all || strcmp (argv [1], "au_ulaw") == 0) { lcomp_test_short ("ulaw.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("ulaw.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove end */ test_count++ ; } ; if (do_all || strcmp (argv [1], "au_alaw") == 0) { lcomp_test_short ("alaw.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("alaw.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove end */ test_count++ ; } ; /* Lite remove start */ if (do_all || strcmp (argv [1], "au_g721") == 0) { printf ("**** Fix this later : error bound should be 0.06 ****\n") ; lcomp_test_short ("g721.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G721_32, 1, 0.7) ; lcomp_test_int ("g721.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G721_32, 1, 0.7) ; lcomp_test_float ("g721.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G721_32, 1, 0.7) ; lcomp_test_double ("g721.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G721_32, 1, 0.7) ; /*- sdlcomp_test_short ("g721.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G721_32, 1, 0.07) ; sdlcomp_test_int ("g721.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G721_32, 1, 0.07) ; sdlcomp_test_float ("g721.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G721_32, 1, 0.07) ; sdlcomp_test_double ("g721.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G721_32, 1, 0.12) ; -*/ test_count++ ; } ; if (do_all || strcmp (argv [1], "au_g723") == 0) { printf ("**** Fix this later : error bound should be 0.16 ****\n") ; lcomp_test_short ("g723_24.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G723_24, 1, 0.7) ; lcomp_test_int ("g723_24.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G723_24, 1, 0.7) ; lcomp_test_float ("g723_24.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G723_24, 1, 0.7) ; lcomp_test_double ("g723_24.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G723_24, 1, 0.7) ; lcomp_test_short ("g723_40.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G723_40, 1, 0.85) ; lcomp_test_int ("g723_40.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G723_40, 1, 0.84) ; lcomp_test_float ("g723_40.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G723_40, 1, 0.86) ; lcomp_test_double ("g723_40.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G723_40, 1, 0.86) ; /*- sdlcomp_test_short ("g723.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G723_24, 1, 0.15) ; sdlcomp_test_int ("g723.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G723_24, 1, 0.15) ; sdlcomp_test_float ("g723.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_G723_24, 1, 0.15) ; sdlcomp_test_double ("g723.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_G723_24, 1, 0.15) ; -*/ test_count++ ; } ; /* Lite remove end */ if (do_all || strcmp (argv [1], "caf_ulaw") == 0) { lcomp_test_short ("ulaw.caf", SF_FORMAT_CAF | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.caf", SF_FORMAT_CAF | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("ulaw.caf", SF_FORMAT_CAF | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.caf", SF_FORMAT_CAF | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove end */ read_raw_test ("ulaw.caf", SF_FORMAT_CAF | SF_FORMAT_ULAW, 2) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "caf_alaw") == 0) { lcomp_test_short ("alaw.caf", SF_FORMAT_CAF | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.caf", SF_FORMAT_CAF | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("alaw.caf", SF_FORMAT_CAF | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.caf", SF_FORMAT_CAF | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove end */ read_raw_test ("alaw.caf", SF_FORMAT_CAF | SF_FORMAT_ALAW, 2) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "raw_ulaw") == 0) { lcomp_test_short ("ulaw.raw", SF_ENDIAN_LITTLE | SF_FORMAT_RAW | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.raw", SF_ENDIAN_BIG | SF_FORMAT_RAW | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("ulaw.raw", SF_ENDIAN_LITTLE | SF_FORMAT_RAW | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.raw", SF_ENDIAN_BIG | SF_FORMAT_RAW | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove end */ test_count++ ; } ; if (do_all || strcmp (argv [1], "raw_alaw") == 0) { lcomp_test_short ("alaw.raw", SF_ENDIAN_LITTLE | SF_FORMAT_RAW | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.raw", SF_ENDIAN_BIG | SF_FORMAT_RAW | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("alaw.raw", SF_ENDIAN_LITTLE | SF_FORMAT_RAW | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.raw", SF_ENDIAN_BIG | SF_FORMAT_RAW | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove end */ test_count++ ; } ; if (do_all || strcmp (argv [1], "raw_gsm610") == 0) { /* Don't do lcomp_test_XXX as the errors are too big. */ sdlcomp_test_short ("raw.gsm", SF_FORMAT_RAW | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_int ("raw.gsm", SF_FORMAT_RAW | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_float ("raw.gsm", SF_FORMAT_RAW | SF_FORMAT_GSM610, 1, 0.24) ; sdlcomp_test_double ("raw.gsm", SF_FORMAT_RAW | SF_FORMAT_GSM610, 1, 0.24) ; test_count++ ; } ; /* Lite remove start */ if (do_all || strcmp (argv [1], "raw_nmsadpcm") == 0) { lcomp_test_short ("raw.vce16", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_16, 1, 0.37) ; lcomp_test_int ("raw.vce16", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_16, 1, 0.31) ; lcomp_test_float ("raw.vce16", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_16, 1, 0.34) ; lcomp_test_double ("raw.vce16", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_16, 1, 0.34) ; lcomp_test_short ("raw.vce24", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_24, 1, 0.15) ; lcomp_test_int ("raw.vce24", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_24, 1, 0.10) ; lcomp_test_float ("raw.vce24", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_24, 1, 0.14) ; lcomp_test_double ("raw.vce24", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_24, 1, 0.14) ; lcomp_test_short ("raw.vce32", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_32, 1, 0.036) ; lcomp_test_int ("raw.vce32", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_32, 1, 0.045) ; lcomp_test_float ("raw.vce32", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_32, 1, 0.035) ; lcomp_test_double ("raw.vce32", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_32, 1, 0.035) ; sdlcomp_test_short ("raw.vce16", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_16, 1, 0.16) ; sdlcomp_test_int ("raw.vce16", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_16, 1, 0.16) ; sdlcomp_test_float ("raw.vce16", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_16, 1, 0.16) ; sdlcomp_test_double ("raw.vce16", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_16, 1, 0.16) ; sdlcomp_test_short ("raw.vce24", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_24, 1, 0.06) ; sdlcomp_test_int ("raw.vce24", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_24, 1, 0.06) ; sdlcomp_test_float ("raw.vce24", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_24, 1, 0.06) ; sdlcomp_test_double ("raw.vce24", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_24, 1, 0.06) ; sdlcomp_test_short ("raw.vce32", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_32, 1, 0.017) ; sdlcomp_test_int ("raw.vce32", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_32, 1, 0.018) ; sdlcomp_test_float ("raw.vce32", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_32, 1, 0.018) ; sdlcomp_test_double ("raw.vce32", SF_FORMAT_RAW | SF_FORMAT_NMS_ADPCM_32, 1, 0.018) ; test_count++ ; } ; /* Lite remove end */ if (do_all || strcmp (argv [1], "ogg_vorbis") == 0) { if (HAVE_EXTERNAL_XIPH_LIBS) { /* Don't do lcomp_test_XXX as the errors are too big. */ sdlcomp_test_short ("vorbis.oga", SF_FORMAT_OGG | SF_FORMAT_VORBIS, 1, 0.30) ; sdlcomp_test_int ("vorbis.oga", SF_FORMAT_OGG | SF_FORMAT_VORBIS, 1, 0.30) ; sdlcomp_test_float ("vorbis.oga", SF_FORMAT_OGG | SF_FORMAT_VORBIS, 1, 0.30) ; sdlcomp_test_double ("vorbis.oga", SF_FORMAT_OGG | SF_FORMAT_VORBIS, 1, 0.30) ; } else puts (" No Ogg/Vorbis tests because Ogg/Vorbis support was not compiled in.") ; test_count++ ; } ; if (do_all || strcmp (argv [1], "ogg_opus") == 0) { if (HAVE_EXTERNAL_XIPH_LIBS) { /* Don't do lcomp_test_XXX as the errors are too big. */ sdlcomp_test_short ("opus.opus", SF_FORMAT_OGG | SF_FORMAT_OPUS, 1, 0.57) ; sdlcomp_test_int ("opus.opus", SF_FORMAT_OGG | SF_FORMAT_OPUS, 1, 0.54) ; sdlcomp_test_float ("opus.opus", SF_FORMAT_OGG | SF_FORMAT_OPUS, 1, 0.55) ; sdlcomp_test_double ("opus.opus", SF_FORMAT_OGG | SF_FORMAT_OPUS, 1, 0.55) ; } else puts (" No Ogg/Opus tests because Ogg/Opus support was not compiled in.") ; test_count++ ; } ; /* Lite remove start */ if (do_all || strcmp (argv [1], "ircam_ulaw") == 0) { lcomp_test_short ("ulaw.ircam", SF_ENDIAN_LITTLE | SF_FORMAT_IRCAM | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.ircam", SF_ENDIAN_BIG | SF_FORMAT_IRCAM | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_float ("ulaw.ircam", SF_ENDIAN_LITTLE | SF_FORMAT_IRCAM | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.ircam", SF_ENDIAN_BIG | SF_FORMAT_IRCAM | SF_FORMAT_ULAW, 2, 0.04) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "ircam_alaw") == 0) { lcomp_test_short ("alaw.ircam", SF_ENDIAN_LITTLE | SF_FORMAT_IRCAM | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.ircam", SF_ENDIAN_BIG | SF_FORMAT_IRCAM | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_float ("alaw.ircam", SF_ENDIAN_LITTLE | SF_FORMAT_IRCAM | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.ircam", SF_ENDIAN_BIG | SF_FORMAT_IRCAM | SF_FORMAT_ALAW, 2, 0.04) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "nist_ulaw") == 0) { lcomp_test_short ("ulaw.nist", SF_ENDIAN_LITTLE | SF_FORMAT_NIST | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.nist", SF_ENDIAN_BIG | SF_FORMAT_NIST | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_float ("ulaw.nist", SF_ENDIAN_LITTLE | SF_FORMAT_NIST | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.nist", SF_ENDIAN_BIG | SF_FORMAT_NIST | SF_FORMAT_ULAW, 2, 0.04) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "nist_alaw") == 0) { lcomp_test_short ("alaw.nist", SF_ENDIAN_LITTLE | SF_FORMAT_NIST | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.nist", SF_ENDIAN_BIG | SF_FORMAT_NIST | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_float ("alaw.nist", SF_ENDIAN_LITTLE | SF_FORMAT_NIST | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.nist", SF_ENDIAN_BIG | SF_FORMAT_NIST | SF_FORMAT_ALAW, 2, 0.04) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "voc_ulaw") == 0) { lcomp_test_short ("ulaw.voc", SF_FORMAT_VOC | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.voc", SF_FORMAT_VOC | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_float ("ulaw.voc", SF_FORMAT_VOC | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.voc", SF_FORMAT_VOC | SF_FORMAT_ULAW, 2, 0.04) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "voc_alaw") == 0) { lcomp_test_short ("alaw.voc", SF_FORMAT_VOC | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.voc", SF_FORMAT_VOC | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_float ("alaw.voc", SF_FORMAT_VOC | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.voc", SF_FORMAT_VOC | SF_FORMAT_ALAW, 2, 0.04) ; test_count++ ; } ; /* Lite remove end */ if (do_all || strcmp (argv [1], "w64_ulaw") == 0) { lcomp_test_short ("ulaw.w64", SF_FORMAT_W64 | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_int ("ulaw.w64", SF_FORMAT_W64 | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("ulaw.w64", SF_FORMAT_W64 | SF_FORMAT_ULAW, 2, 0.04) ; lcomp_test_double ("ulaw.w64", SF_FORMAT_W64 | SF_FORMAT_ULAW, 2, 0.04) ; /* Lite remove end */ read_raw_test ("ulaw.w64", SF_FORMAT_W64 | SF_FORMAT_ULAW, 2) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "w64_alaw") == 0) { lcomp_test_short ("alaw.w64", SF_FORMAT_W64 | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_int ("alaw.w64", SF_FORMAT_W64 | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove start */ lcomp_test_float ("alaw.w64", SF_FORMAT_W64 | SF_FORMAT_ALAW, 2, 0.04) ; lcomp_test_double ("alaw.w64", SF_FORMAT_W64 | SF_FORMAT_ALAW, 2, 0.04) ; /* Lite remove end */ read_raw_test ("alaw.w64", SF_FORMAT_W64 | SF_FORMAT_ALAW, 2) ; test_count++ ; } ; /* Lite remove start */ if (do_all || strcmp (argv [1], "w64_ima") == 0) { lcomp_test_short ("ima.w64", SF_FORMAT_W64 | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_int ("ima.w64", SF_FORMAT_W64 | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_float ("ima.w64", SF_FORMAT_W64 | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; lcomp_test_double ("ima.w64", SF_FORMAT_W64 | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; sdlcomp_test_short ("ima.w64", SF_FORMAT_W64 | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; sdlcomp_test_int ("ima.w64", SF_FORMAT_W64 | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; sdlcomp_test_float ("ima.w64", SF_FORMAT_W64 | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; sdlcomp_test_double ("ima.w64", SF_FORMAT_W64 | SF_FORMAT_IMA_ADPCM, 2, 0.18) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "w64_msadpcm") == 0) { lcomp_test_short ("msadpcm.w64", SF_FORMAT_W64 | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_int ("msadpcm.w64", SF_FORMAT_W64 | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_float ("msadpcm.w64", SF_FORMAT_W64 | SF_FORMAT_MS_ADPCM, 2, 0.36) ; lcomp_test_double ("msadpcm.w64", SF_FORMAT_W64 | SF_FORMAT_MS_ADPCM, 2, 0.36) ; sdlcomp_test_short ("msadpcm.w64", SF_FORMAT_W64 | SF_FORMAT_MS_ADPCM, 2, 0.36) ; sdlcomp_test_int ("msadpcm.w64", SF_FORMAT_W64 | SF_FORMAT_MS_ADPCM, 2, 0.36) ; sdlcomp_test_float ("msadpcm.w64", SF_FORMAT_W64 | SF_FORMAT_MS_ADPCM, 2, 0.36) ; sdlcomp_test_double ("msadpcm.w64", SF_FORMAT_W64 | SF_FORMAT_MS_ADPCM, 2, 0.36) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "wve") == 0) { lcomp_test_short ("psion.wve", SF_FORMAT_WVE | SF_FORMAT_ALAW, 1, 0.04) ; lcomp_test_int ("psion.wve", SF_FORMAT_WVE | SF_FORMAT_ALAW, 1, 0.04) ; /* Lite remove start */ lcomp_test_float ("psion.wve", SF_FORMAT_WVE | SF_FORMAT_ALAW, 1, 0.04) ; lcomp_test_double ("psion.wve", SF_FORMAT_WVE | SF_FORMAT_ALAW, 1, 0.04) ; /* Lite remove end */ test_count++ ; } ; /* Lite remove end */ if (do_all || strcmp (argv [1], "w64_gsm610") == 0) { /* Don't do lcomp_test_XXX as the errors are too big. */ sdlcomp_test_short ("gsm610.w64", SF_FORMAT_W64 | SF_FORMAT_GSM610, 1, 0.2) ; sdlcomp_test_int ("gsm610.w64", SF_FORMAT_W64 | SF_FORMAT_GSM610, 1, 0.2) ; /* Lite remove start */ sdlcomp_test_float ("gsm610.w64", SF_FORMAT_W64 | SF_FORMAT_GSM610, 1, 0.2) ; sdlcomp_test_double ("gsm610.w64", SF_FORMAT_W64 | SF_FORMAT_GSM610, 1, 0.2) ; /* Lite remove end */ test_count++ ; } ; /* Lite remove start */ if (do_all || strcmp (argv [1], "vox_adpcm") == 0) { lcomp_test_short ("adpcm.vox", SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM, 1, 0.17) ; lcomp_test_int ("adpcm.vox", SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM, 1, 0.17) ; lcomp_test_float ("adpcm.vox", SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM, 1, 0.17) ; lcomp_test_double ("adpcm.vox", SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM, 1, 0.17) ; sdlcomp_test_short ("adpcm.vox", SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM, 1, 0.072) ; sdlcomp_test_int ("adpcm.vox", SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM, 1, 0.072) ; sdlcomp_test_float ("adpcm.vox", SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM, 1, 0.072) ; sdlcomp_test_double ("adpcm.vox", SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM, 1, 0.072) ; test_count++ ; } ; if (do_all || strcmp (argv [1], "xi_dpcm") == 0) { lcomp_test_short ("8bit.xi", SF_FORMAT_XI | SF_FORMAT_DPCM_8, 1, 0.25) ; lcomp_test_int ("8bit.xi", SF_FORMAT_XI | SF_FORMAT_DPCM_8, 1, 0.25) ; lcomp_test_short ("16bit.xi", SF_FORMAT_XI | SF_FORMAT_DPCM_16, 1, 0.002) ; lcomp_test_int ("16bit.xi", SF_FORMAT_XI | SF_FORMAT_DPCM_16, 1, 0.002) ; lcomp_test_float ("16bit.xi", SF_FORMAT_XI | SF_FORMAT_DPCM_16, 1, 0.002) ; lcomp_test_double ("16bit.xi", SF_FORMAT_XI | SF_FORMAT_DPCM_16, 1, 0.002) ; test_count++ ; } ; /* Lite remove end */ if (test_count == 0) { printf ("************************************\n") ; printf ("* No '%s' test defined.\n", argv [1]) ; printf ("************************************\n") ; return 1 ; } ; return 0 ; } /* main */ /*============================================================================================ ** Here are the test functions. */ static void lcomp_test_short (const char *filename, int filetype, int channels, double margin) { SNDFILE *file ; SF_INFO sfinfo ; int k, m, seekpos, half_max_abs ; sf_count_t datalen ; short *orig, *data ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("lcomp_test_short", filename) ; datalen = BUFFER_SIZE / channels ; data = data_buffer.s ; orig = orig_buffer.s ; gen_signal_double (orig_buffer.d, 32000.0, channels, (int) datalen) ; for (k = 0 ; k < channels * datalen ; k++) orig [k] = (short) (orig_buffer.d [k]) ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_FALSE, __LINE__) ; test_writef_short_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (short)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if ((sfinfo.format & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK)) != (filetype & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK))) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", sfinfo.frames, datalen) ; exit (1) ; } ; if (sfinfo.frames > (datalen + datalen / 20)) { printf ("Too many frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", sfinfo.frames, datalen) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_log_buffer_or_die (file, __LINE__) ; check_comment (file, filetype, __LINE__) ; test_readf_short_or_die (file, 0, data, datalen, __LINE__) ; half_max_abs = 0 ; for (k = 0 ; k < datalen ; k++) { if (error_function (data [k], orig [k], margin)) { printf ("\n\nLine %d: Incorrect sample A (#%d : %d should be %d).\n", __LINE__, k, data [k], orig [k]) ; oct_save_short (orig, data, (int) datalen) ; exit (1) ; } ; half_max_abs = LCT_MAX (half_max_abs, abs (data [k] / 2)) ; } ; if (half_max_abs < 1.0) { printf ("\n\nLine %d: Signal is all zeros.\n", __LINE__) ; exit (1) ; } ; if ((k = (int) sf_readf_short (file, data, datalen)) != sfinfo.frames - datalen) { printf ("\n\nLine %d: Incorrect read length (%" PRId64 " should be %d).\n", __LINE__, channels * sfinfo.frames - datalen, k) ; exit (1) ; } ; /* This check is only for block based encoders which must append silence ** to the end of a file so as to fill out a block. */ for (k = 0 ; k < sfinfo.frames - datalen ; k++) if (abs (data [channels * k]) > decay_response (channels * k)) { printf ("\n\nLine %d : Incorrect sample B (#%d : abs (%d) should be < %d).\n", __LINE__, channels * k, data [channels * k], decay_response (channels * k)) ; exit (1) ; } ; if (! sfinfo.seekable) { sf_close (file) ; unlink (filename) ; printf ("ok\n") ; return ; } ; /* Now test sf_seek function. */ if ((k = (int) sf_seek (file, 0, SEEK_SET)) != 0) { printf ("\n\nLine %d: Seek to start of file failed (%d).\n", __LINE__, k) ; exit (1) ; } ; for (m = 0 ; m < 3 ; m++) { test_readf_short_or_die (file, m, data, 11, __LINE__) ; for (k = 0 ; k < channels * 11 ; k++) if (error_function (1.0 * data [k], 1.0 * orig [k + channels * m * 11], margin)) { printf ("\n\nLine %d: Incorrect sample (m = %d) (#%d : %d => %d).\n", __LINE__, m, k + channels * m * 11, orig [k + channels * m * 11], data [k]) ; for (m = 0 ; m < channels ; m++) printf ("%d ", data [m]) ; printf ("\n") ; exit (1) ; } ; } ; seekpos = BUFFER_SIZE / 10 ; /* Check seek from start of file. */ if ((k = (int) sf_seek (file, seekpos, SEEK_SET)) != seekpos) { printf ("Seek to start of file + %d failed (%d).\n", seekpos, k) ; exit (1) ; } ; test_readf_short_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin)) { printf ("\n\nLine %d: sf_seek (SEEK_SET) followed by sf_readf_short failed (%d, %d).\n", __LINE__, orig [1], data [0]) ; exit (1) ; } ; if ((k = (int) sf_seek (file, 0, SEEK_CUR)) != seekpos + 1) { printf ("\n\nLine %d: sf_seek (SEEK_CUR) with 0 offset failed (%d should be %d)\n", __LINE__, k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) + BUFFER_SIZE / 5 ; k = (int) sf_seek (file, BUFFER_SIZE / 5, SEEK_CUR) ; test_readf_short_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin) || k != seekpos) { printf ("\n\nLine %d: sf_seek (forwards, SEEK_CUR) followed by sf_readf_short failed (%d, %d) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos + 1) ; oct_save_short (orig, data, (int) datalen) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) - 20 ; /* Check seek backward from current position. */ k = (int) sf_seek (file, -20, SEEK_CUR) ; test_readf_short_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (backwards, SEEK_CUR) followed by sf_readf_short failed (%d, %d) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos) ; exit (1) ; } ; /* Check that read past end of file returns number of items. */ sf_seek (file, sfinfo.frames, SEEK_SET) ; if ((k = (int) sf_readf_short (file, data, datalen)) != 0) { printf ("\n\nLine %d: Return value from sf_readf_short past end of file incorrect (%d).\n", __LINE__, k) ; exit (1) ; } ; /* Check seek backward from end. */ if ((k = (int) sf_seek (file, 5 - sfinfo.frames, SEEK_END)) != 5) { printf ("\n\nLine %d: sf_seek (SEEK_END) returned %d instead of %d.\n", __LINE__, k, 5) ; exit (1) ; } ; test_readf_short_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [5 * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_END) followed by sf_readf_short failed (%d should be %d).\n", __LINE__, data [0], orig [5 * channels]) ; exit (1) ; } ; sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* lcomp_test_short */ /*-------------------------------------------------------------------------------------------- */ static void lcomp_test_int (const char *filename, int filetype, int channels, double margin) { SNDFILE *file ; SF_INFO sfinfo ; int k, m, half_max_abs ; sf_count_t datalen, seekpos ; double scale, max_val ; int *orig, *data ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("lcomp_test_int", filename) ; datalen = BUFFER_SIZE / channels ; if (is_lossy (filetype)) { scale = 1.0 * 0x10000 ; max_val = 32000.0 * scale ; } else { scale = 1.0 ; max_val = 0x7fffffff * scale ; } ; data = data_buffer.i ; orig = orig_buffer.i ; gen_signal_double (orig_buffer.d, max_val, channels, (int) datalen) ; for (k = 0 ; k < channels * datalen ; k++) orig [k] = lrint (orig_buffer.d [k]) ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_FALSE, __LINE__) ; test_writef_int_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (int)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if ((sfinfo.format & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK)) != (filetype & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK))) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.frames > (datalen + datalen / 20)) { printf ("Too many.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_log_buffer_or_die (file, __LINE__) ; check_comment (file, filetype, __LINE__) ; test_readf_int_or_die (file, 0, data, datalen, __LINE__) ; half_max_abs = 0 ; for (k = 0 ; k < datalen ; k++) { if (error_function (data [k] / scale, orig [k] / scale, margin)) { printf ("\nLine %d: Incorrect sample (#%d : %f should be %f).\n", __LINE__, k, data [k] / scale, orig [k] / scale) ; oct_save_int (orig, data, (int) datalen) ; exit (1) ; } ; half_max_abs = LCT_MAX (half_max_abs, abs (data [k] / 2)) ; } ; if (half_max_abs < 1.0) { printf ("\n\nLine %d: Signal is all zeros (%d, 0x%X).\n", __LINE__, half_max_abs, half_max_abs) ; exit (1) ; } ; if ((k = (int) sf_readf_int (file, data, datalen)) != sfinfo.frames - datalen) { printf ("\n\nLine %d: Incorrect read length (%" PRId64 " should be %d).\n", __LINE__, channels * sfinfo.frames - datalen, k) ; exit (1) ; } ; /* This check is only for block based encoders which must append silence ** to the end of a file so as to fill out a block. */ if ((sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_MS_ADPCM) for (k = 0 ; k < sfinfo.frames - datalen ; k++) if (ABS (data [channels * k] / scale) > decay_response (channels * k)) { printf ("\n\nLine %d : Incorrect sample B (#%d : abs (%d) should be < %d).\n", __LINE__, channels * k, data [channels * k], decay_response (channels * k)) ; exit (1) ; } ; if (! sfinfo.seekable) { sf_close (file) ; unlink (filename) ; printf ("ok\n") ; return ; } ; /* Now test sf_seek function. */ if ((k = (int) sf_seek (file, 0, SEEK_SET)) != 0) { printf ("\n\nLine %d: Seek to start of file failed (%d).\n", __LINE__, k) ; exit (1) ; } ; for (m = 0 ; m < 3 ; m++) { test_readf_int_or_die (file, m, data, 11, __LINE__) ; for (k = 0 ; k < channels * 11 ; k++) if (error_function (data [k] / scale, orig [k + channels * m * 11] / scale, margin)) { printf ("\nLine %d: Incorrect sample (m = %d) (#%d : %d => %d).\n", __LINE__, m, k + channels * m * 11, orig [k + channels * m * 11], data [k]) ; for (m = 0 ; m < channels ; m++) printf ("%d ", data [m]) ; printf ("\n") ; exit (1) ; } ; } ; seekpos = BUFFER_SIZE / 10 ; /* Check seek from start of file. */ if ((k = (int) sf_seek (file, seekpos, SEEK_SET)) != seekpos) { printf ("Seek to start of file + %" PRId64 " failed (%d).\n", seekpos, k) ; exit (1) ; } ; test_readf_int_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_SET) followed by sf_readf_int failed (%d, %d).\n", __LINE__, orig [1], data [0]) ; exit (1) ; } ; if ((k = (int) sf_seek (file, 0, SEEK_CUR)) != seekpos + 1) { printf ("\n\nLine %d: sf_seek (SEEK_CUR) with 0 offset failed (%d should be %" PRId64 ")\n", __LINE__, k, seekpos + 1) ; exit (1) ; } ; seekpos = sf_seek (file, 0, SEEK_CUR) + BUFFER_SIZE / 5 ; k = (int) sf_seek (file, BUFFER_SIZE / 5, SEEK_CUR) ; test_readf_int_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (forwards, SEEK_CUR) followed by sf_readf_int failed (%d, %d) (%d, %" PRId64 ").\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos + 1) ; exit (1) ; } ; seekpos = sf_seek (file, 0, SEEK_CUR) - 20 ; /* Check seek backward from current position. */ k = (int) sf_seek (file, -20, SEEK_CUR) ; test_readf_int_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (backwards, SEEK_CUR) followed by sf_readf_int failed (%d, %d) (%d, %" PRId64 ").\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos) ; exit (1) ; } ; /* Check that read past end of file returns number of items. */ sf_seek (file, sfinfo.frames, SEEK_SET) ; if ((k = (int) sf_readf_int (file, data, datalen)) != 0) { printf ("\n\nLine %d: Return value from sf_readf_int past end of file incorrect (%d).\n", __LINE__, k) ; exit (1) ; } ; /* Check seek backward from end. */ if ((k = (int) sf_seek (file, 5 - sfinfo.frames, SEEK_END)) != 5) { printf ("\n\nLine %d: sf_seek (SEEK_END) returned %d instead of %d.\n", __LINE__, k, 5) ; exit (1) ; } ; test_readf_int_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0] / scale, orig [5 * channels] / scale, margin)) { printf ("\nLine %d: sf_seek (SEEK_END) followed by sf_readf_short failed (%d should be %d).\n", __LINE__, data [0], orig [5]) ; exit (1) ; } ; sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* lcomp_test_int */ /*-------------------------------------------------------------------------------------------- */ static void lcomp_test_float (const char *filename, int filetype, int channels, double margin) { SNDFILE *file ; SF_INFO sfinfo ; int k, m, seekpos ; sf_count_t datalen ; float *orig, *data ; double half_max_abs ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("lcomp_test_float", filename) ; datalen = BUFFER_SIZE / channels ; data = data_buffer.f ; orig = orig_buffer.f ; gen_signal_double (orig_buffer.d, 32000.0, channels, (int) datalen) ; for (k = 0 ; k < channels * datalen ; k++) orig [k] = (float) orig_buffer.d [k] ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_FALSE, __LINE__) ; sf_command (file, SFC_SET_NORM_FLOAT, NULL, SF_FALSE) ; test_writef_float_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (float)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if ((sfinfo.format & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK)) != (filetype & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK))) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.frames > (datalen + datalen / 20)) { printf ("Too many.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_comment (file, filetype, __LINE__) ; sf_command (file, SFC_SET_NORM_FLOAT, NULL, SF_FALSE) ; check_log_buffer_or_die (file, __LINE__) ; check_comment (file, filetype, __LINE__) ; sf_command (file, SFC_SET_NORM_FLOAT, NULL, SF_FALSE) ; test_readf_float_or_die (file, 0, data, datalen, __LINE__) ; half_max_abs = 0.0 ; for (k = 0 ; k < datalen ; k++) { if (error_function (data [k], orig [k], margin)) { printf ("\nLine %d: Incorrect sample A (#%d : %f should be %f).\n", __LINE__, k, data [k], orig [k]) ; oct_save_float (orig, data, (int) datalen) ; exit (1) ; } ; half_max_abs = LCT_MAX (half_max_abs, fabs (0.5 * data [k])) ; } ; if (half_max_abs < 1.0) { printf ("\n\nLine %d: Signal is all zeros.\n", __LINE__) ; exit (1) ; } ; if ((k = (int) sf_readf_float (file, data, datalen)) != sfinfo.frames - datalen) { printf ("\n\nLine %d: Incorrect read length (%" PRId64 " should be %d).\n", __LINE__, channels * sfinfo.frames - datalen, k) ; exit (1) ; } ; /* This check is only for block based encoders which must append silence ** to the end of a file so as to fill out a block. */ if ((sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_MS_ADPCM) for (k = 0 ; k < sfinfo.frames - datalen ; k++) if (ABS (data [channels * k]) > decay_response (channels * k)) { printf ("\n\nLine %d : Incorrect sample B (#%d : abs (%f) should be < %d).\n", __LINE__, channels * k, data [channels * k], decay_response (channels * k)) ; exit (1) ; } ; if (! sfinfo.seekable) { sf_close (file) ; unlink (filename) ; printf ("ok\n") ; return ; } ; /* Now test sf_seek function. */ if ((k = (int) sf_seek (file, 0, SEEK_SET)) != 0) { printf ("\n\nLine %d: Seek to start of file failed (%d).\n", __LINE__, k) ; exit (1) ; } ; for (m = 0 ; m < 3 ; m++) { test_readf_float_or_die (file, 0, data, 11, __LINE__) ; for (k = 0 ; k < channels * 11 ; k++) if (error_function (data [k], orig [k + channels * m * 11], margin)) { printf ("\nLine %d: Incorrect sample (m = %d) (#%d : %f => %f).\n", __LINE__, m, k + channels * m * 11, orig [k + channels * m * 11], data [k]) ; for (m = 0 ; m < channels ; m++) printf ("%f ", data [m]) ; printf ("\n") ; exit (1) ; } ; } ; seekpos = BUFFER_SIZE / 10 ; /* Check seek from start of file. */ if ((k = (int) sf_seek (file, seekpos, SEEK_SET)) != seekpos) { printf ("Seek to start of file + %d failed (%d).\n", seekpos, k) ; exit (1) ; } ; test_readf_float_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0], orig [seekpos * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_SET) followed by sf_readf_float failed (%f, %f).\n", __LINE__, orig [1], data [0]) ; exit (1) ; } ; if ((k = (int) sf_seek (file, 0, SEEK_CUR)) != seekpos + 1) { printf ("\n\nLine %d: sf_seek (SEEK_CUR) with 0 offset failed (%d should be %d)\n", __LINE__, k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) + BUFFER_SIZE / 5 ; k = (int) sf_seek (file, BUFFER_SIZE / 5, SEEK_CUR) ; test_readf_float_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0], orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (forwards, SEEK_CUR) followed by sf_readf_float failed (%f, %f) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) - 20 ; /* Check seek backward from current position. */ k = (int) sf_seek (file, -20, SEEK_CUR) ; test_readf_float_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0], orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (backwards, SEEK_CUR) followed by sf_readf_float failed (%f, %f) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos) ; exit (1) ; } ; /* Check that read past end of file returns number of items. */ sf_seek (file, sfinfo.frames, SEEK_SET) ; if ((k = (int) sf_readf_float (file, data, datalen)) != 0) { printf ("\n\nLine %d: Return value from sf_readf_float past end of file incorrect (%d).\n", __LINE__, k) ; exit (1) ; } ; /* Check seek backward from end. */ if ((k = (int) sf_seek (file, 5 - sfinfo.frames, SEEK_END)) != 5) { printf ("\n\nLine %d: sf_seek (SEEK_END) returned %d instead of %d.\n", __LINE__, k, 5) ; exit (1) ; } ; test_readf_float_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0], orig [5 * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_END) followed by sf_readf_short failed (%f should be %f).\n", __LINE__, data [0], orig [5 * channels]) ; exit (1) ; } ; sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* lcomp_test_float */ /*-------------------------------------------------------------------------------------------- */ static void lcomp_test_double (const char *filename, int filetype, int channels, double margin) { SNDFILE *file ; SF_INFO sfinfo ; int k, m, seekpos ; sf_count_t datalen ; double *orig, *data ; double half_max_abs ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("lcomp_test_double", filename) ; datalen = BUFFER_SIZE / channels ; data = data_buffer.d ; orig = orig_buffer.d ; gen_signal_double (orig_buffer.d, 32000.0, channels, (int) datalen) ; for (k = 0 ; k < channels * datalen ; k++) orig [k] = orig_buffer.d [k] ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_FALSE, __LINE__) ; sf_command (file, SFC_SET_NORM_DOUBLE, NULL, SF_FALSE) ; test_writef_double_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (double)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if ((sfinfo.format & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK)) != (filetype & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK))) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.frames > (datalen + datalen / 20)) { printf ("Too many.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_comment (file, filetype, __LINE__) ; sf_command (file, SFC_SET_NORM_DOUBLE, NULL, SF_FALSE) ; check_log_buffer_or_die (file, __LINE__) ; check_comment (file, filetype, __LINE__) ; sf_command (file, SFC_SET_NORM_DOUBLE, NULL, SF_FALSE) ; test_readf_double_or_die (file, 0, data, datalen, __LINE__) ; half_max_abs = 0.0 ; for (k = 0 ; k < datalen ; k++) { if (error_function (data [k], orig [k], margin)) { printf ("\nLine %d: Incorrect sample A (#%d : %f should be %f).\n", __LINE__, k, data [k], orig [k]) ; oct_save_double (orig, data, (int) datalen) ; exit (1) ; } ; half_max_abs = LCT_MAX (half_max_abs, ABS (0.5 * data [k])) ; } ; if (half_max_abs < 1.0) { printf ("\n\nLine %d: Signal is all zeros.\n", __LINE__) ; exit (1) ; } ; if ((k = (int) sf_readf_double (file, data, datalen)) != sfinfo.frames - datalen) { printf ("\n\nLine %d: Incorrect read length (%" PRId64 " should be %d).\n", __LINE__, channels * sfinfo.frames - datalen, k) ; exit (1) ; } ; /* This check is only for block based encoders which must append silence ** to the end of a file so as to fill out a block. */ if ((sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_MS_ADPCM) for (k = 0 ; k < sfinfo.frames - datalen ; k++) if (ABS (data [channels * k]) > decay_response (channels * k)) { printf ("\n\nLine %d : Incorrect sample B (#%d : abs (%f) should be < %d).\n", __LINE__, channels * k, data [channels * k], decay_response (channels * k)) ; exit (1) ; } ; if (! sfinfo.seekable) { sf_close (file) ; unlink (filename) ; printf ("ok\n") ; return ; } ; /* Now test sf_seek function. */ if ((k = (int) sf_seek (file, 0, SEEK_SET)) != 0) { printf ("\n\nLine %d: Seek to start of file failed (%d).\n", __LINE__, k) ; exit (1) ; } ; for (m = 0 ; m < 3 ; m++) { test_readf_double_or_die (file, m, data, 11, __LINE__) ; for (k = 0 ; k < channels * 11 ; k++) if (error_function (data [k], orig [k + channels * m * 11], margin)) { printf ("\nLine %d: Incorrect sample (m = %d) (#%d : %f => %f).\n", __LINE__, m, k + channels * m * 11, orig [k + channels * m * 11], data [k]) ; for (m = 0 ; m < channels ; m++) printf ("%f ", data [m]) ; printf ("\n") ; exit (1) ; } ; } ; seekpos = BUFFER_SIZE / 10 ; /* Check seek from start of file. */ if ((k = (int) sf_seek (file, seekpos, SEEK_SET)) != seekpos) { printf ("Seek to start of file + %d failed (%d).\n", seekpos, k) ; exit (1) ; } ; test_readf_double_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0], orig [seekpos * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_SET) followed by sf_readf_double failed (%f, %f).\n", __LINE__, orig [1], data [0]) ; exit (1) ; } ; if ((k = (int) sf_seek (file, 0, SEEK_CUR)) != seekpos + 1) { printf ("\n\nLine %d: sf_seek (SEEK_CUR) with 0 offset failed (%d should be %d)\n", __LINE__, k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) + BUFFER_SIZE / 5 ; k = (int) sf_seek (file, BUFFER_SIZE / 5, SEEK_CUR) ; test_readf_double_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0], orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (forwards, SEEK_CUR) followed by sf_readf_double failed (%f, %f) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) - 20 ; /* Check seek backward from current position. */ k = (int) sf_seek (file, -20, SEEK_CUR) ; test_readf_double_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0], orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (backwards, SEEK_CUR) followed by sf_readf_double failed (%f, %f) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos) ; exit (1) ; } ; /* Check that read past end of file returns number of items. */ sf_seek (file, sfinfo.frames, SEEK_SET) ; if ((k = (int) sf_readf_double (file, data, datalen)) != 0) { printf ("\n\nLine %d: Return value from sf_readf_double past end of file incorrect (%d).\n", __LINE__, k) ; exit (1) ; } ; /* Check seek backward from end. */ if ((k = (int) sf_seek (file, 5 - sfinfo.frames, SEEK_END)) != 5) { printf ("\n\nLine %d: sf_seek (SEEK_END) returned %d instead of %d.\n", __LINE__, k, 5) ; exit (1) ; } ; test_readf_double_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0], orig [5 * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_END) followed by sf_readf_short failed (%f should be %f).\n", __LINE__, data [0], orig [5 * channels]) ; exit (1) ; } ; sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* lcomp_test_double */ /*======================================================================================== ** Smoothed differential loss compression tests. */ static void sdlcomp_test_short (const char *filename, int filetype, int channels, double margin) { SNDFILE *file ; SF_INFO sfinfo ; int k, m, seekpos, half_max_abs ; sf_count_t datalen ; short *orig, *data, *smooth ; channels = 1 ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("sdlcomp_test_short", filename) ; datalen = BUFFER_SIZE ; orig = orig_buffer.s ; data = data_buffer.s ; smooth = smooth_buffer.s ; gen_signal_double (orig_buffer.d, 32000.0, channels, (int) datalen) ; for (k = 0 ; k < datalen ; k++) orig [k] = (short) lrint (orig_buffer.d [k]) ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; /* The Vorbis encoder has a bug on PowerPC and X86-64 with sample rates ** <= 22050. Increasing the sample rate to 32000 avoids triggering it. ** See https://trac.xiph.org/ticket/1229 ** ** Opus only supports discrete sample rates. Choose supported 12000. */ if ((file = sf_open (filename, SFM_WRITE, &sfinfo)) == NULL) { const char * errstr ; errstr = sf_strerror (NULL) ; if (strstr (errstr, "Sample rate chosen is known to trigger a Vorbis") != NULL) { printf ("\n Sample rate -> 32kHz ") ; sfinfo.samplerate = 32000 ; } else if (strstr (errstr, "Opus only supports sample rates of") != NULL) { printf ("\n Sample rate -> 12kHz ") ; sfinfo.samplerate = 12000 ; } else { printf ("Line %d: sf_open_fd (SFM_WRITE) failed : %s\n", __LINE__, errstr) ; dump_log_buffer (NULL) ; exit (1) ; } ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_TRUE, __LINE__) ; } ; if ((filetype & SF_FORMAT_SUBMASK) == SF_FORMAT_OPUS && !check_opus_version (file)) { sf_close (file) ; unlink (filename) ; return ; } ; test_write_short_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (short)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if (sfinfo.format != filetype) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.frames > (datalen + 400)) { printf ("Too many.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", sfinfo.frames, datalen) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_comment (file, filetype, __LINE__) ; sf_command (file, SFC_SET_NORM_FLOAT, NULL, SF_FALSE) ; check_log_buffer_or_die (file, __LINE__) ; test_readf_short_or_die (file, 0, data, datalen, __LINE__) ; memcpy (smooth, orig, datalen * sizeof (short)) ; smoothed_diff_short (data, (unsigned int) datalen) ; smoothed_diff_short (smooth, (unsigned int) datalen) ; half_max_abs = 0 ; for (k = 0 ; k < datalen ; k++) { if (error_function (1.0 * data [k], 1.0 * smooth [k], margin)) { printf ("\nLine %d: Incorrect sample (#%d : %d should be %d).\n", __LINE__, k, data [k], smooth [k]) ; oct_save_short (orig, smooth, (int) datalen) ; exit (1) ; } ; half_max_abs = (int) (LCT_MAX (half_max_abs, ABS (0.5 * data [k]))) ; } ; if (half_max_abs < 1) { printf ("\n\nLine %d: Signal is all zeros.\n", __LINE__) ; exit (1) ; } ; if ((k = (int) sf_read_short (file, data, datalen)) != sfinfo.frames - datalen) { printf ("\n\nLine %d: Incorrect read length (%d should be %" PRId64 ").\n", __LINE__, k, sfinfo.frames - datalen) ; exit (1) ; } ; if ((sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_MS_ADPCM && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_GSM610) for (k = 0 ; k < sfinfo.frames - datalen ; k++) if (ABS (data [k]) > decay_response (k)) { printf ("\n\nLine %d: Incorrect sample (#%" PRId64 " : abs (%d) should be < %d).\n", __LINE__, datalen + k, data [k], decay_response (k)) ; exit (1) ; } ; /* Now test sf_seek function. */ if (sfinfo.seekable) { if ((k = (int) sf_seek (file, 0, SEEK_SET)) != 0) { printf ("\n\nLine %d: Seek to start of file failed (%d).\n", __LINE__, k) ; exit (1) ; } ; for (m = 0 ; m < 3 ; m++) { test_readf_short_or_die (file, m, data, datalen / 7, __LINE__) ; smoothed_diff_short (data, (unsigned int) (datalen / 7)) ; memcpy (smooth, orig + m * datalen / 7, datalen / 7 * sizeof (short)) ; smoothed_diff_short (smooth, (unsigned int) (datalen / 7)) ; for (k = 0 ; k < datalen / 7 ; k++) if (error_function (1.0 * data [k], 1.0 * smooth [k], margin)) { printf ("\nLine %d: Incorrect sample C (#%d (%" PRId64 ") : %d => %d).\n", __LINE__, k, k + m * (datalen / 7), smooth [k], data [k]) ; for (m = 0 ; m < 10 ; m++) printf ("%d ", data [k]) ; printf ("\n") ; exit (1) ; } ; } ; /* for (m = 0 ; m < 3 ; m++) */ seekpos = BUFFER_SIZE / 10 ; /* Check seek from start of file. */ if ((k = (int) sf_seek (file, seekpos, SEEK_SET)) != seekpos) { printf ("Seek to start of file + %d failed (%d).\n", seekpos, k) ; exit (1) ; } ; test_readf_short_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_SET) followed by sf_read_short failed (%d, %d).\n", __LINE__, orig [1], data [0]) ; exit (1) ; } ; if ((k = (int) sf_seek (file, 0, SEEK_CUR)) != seekpos + 1) { printf ("\n\nLine %d: sf_seek (SEEK_CUR) with 0 offset failed (%d should be %d)\n", __LINE__, k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) + BUFFER_SIZE / 5 ; k = (int) sf_seek (file, BUFFER_SIZE / 5, SEEK_CUR) ; test_readf_short_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (forwards, SEEK_CUR) followed by sf_read_short failed (%d, %d) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) - 20 ; /* Check seek backward from current position. */ k = (int) sf_seek (file, -20, SEEK_CUR) ; test_readf_short_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (backwards, SEEK_CUR) followed by sf_read_short failed (%d, %d) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos) ; exit (1) ; } ; /* Check that read past end of file returns number of items. */ sf_seek (file, sfinfo.frames, SEEK_SET) ; if ((k = (int) sf_read_short (file, data, datalen)) != 0) { printf ("\n\nLine %d: Return value from sf_read_short past end of file incorrect (%d).\n", __LINE__, k) ; exit (1) ; } ; /* Check seek backward from end. */ if ((k = (int) sf_seek (file, 5 - sfinfo.frames, SEEK_END)) != 5) { printf ("\n\nLine %d: sf_seek (SEEK_END) returned %d instead of %d.\n", __LINE__, k, 5) ; exit (1) ; } ; test_read_short_or_die (file, 0, data, channels, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [5 * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_END) followed by sf_read_short failed (%d should be %d).\n", __LINE__, data [0], orig [5 * channels]) ; exit (1) ; } ; } /* if (sfinfo.seekable) */ sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* sdlcomp_test_short */ static void sdlcomp_test_int (const char *filename, int filetype, int channels, double margin) { SNDFILE *file ; SF_INFO sfinfo ; int k, m, seekpos, half_max_abs ; sf_count_t datalen ; int *orig, *data, *smooth ; double scale ; channels = 1 ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("sdlcomp_test_int", filename) ; datalen = BUFFER_SIZE ; scale = 1.0 * 0x10000 ; orig = orig_buffer.i ; data = data_buffer.i ; smooth = smooth_buffer.i ; gen_signal_double (orig_buffer.d, 32000.0 * scale, channels, (int) datalen) ; for (k = 0 ; k < datalen ; k++) orig [k] = lrint (orig_buffer.d [k]) ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; /* The Vorbis encoder has a bug on PowerPC and X86-64 with sample rates ** <= 22050. Increasing the sample rate to 32000 avoids triggering it. ** See https://trac.xiph.org/ticket/1229 ** ** Opus only supports discrete sample rates. Choose supported 12000. */ if ((file = sf_open (filename, SFM_WRITE, &sfinfo)) == NULL) { const char * errstr ; errstr = sf_strerror (NULL) ; if (strstr (errstr, "Sample rate chosen is known to trigger a Vorbis") != NULL) { printf ("\n Sample rate -> 32kHz ") ; sfinfo.samplerate = 32000 ; } else if (strstr (errstr, "Opus only supports sample rates of") != NULL) { printf ("\n Sample rate -> 12kHz ") ; sfinfo.samplerate = 12000 ; } else { printf ("Line %d: sf_open_fd (SFM_WRITE) failed : %s\n", __LINE__, errstr) ; dump_log_buffer (NULL) ; exit (1) ; } ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_TRUE, __LINE__) ; } ; if ((filetype & SF_FORMAT_SUBMASK) == SF_FORMAT_OPUS && !check_opus_version (file)) { sf_close (file) ; unlink (filename) ; return ; } ; test_writef_int_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (int)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if (sfinfo.format != filetype) { printf ("Returned format incorrect (0x%08X => 0x%08X).\n", filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.frames > (datalen + 400)) { printf ("Too many.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", sfinfo.frames, datalen) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_log_buffer_or_die (file, __LINE__) ; test_readf_int_or_die (file, 0, data, datalen, __LINE__) ; memcpy (smooth, orig, datalen * sizeof (int)) ; smoothed_diff_int (data, (unsigned int) datalen) ; smoothed_diff_int (smooth, (unsigned int) datalen) ; half_max_abs = abs (data [0] >> 16) ; for (k = 1 ; k < datalen ; k++) { if (error_function (data [k] / scale, smooth [k] / scale, margin)) { printf ("\nLine %d: Incorrect sample (#%d : %d should be %d).\n", __LINE__, k, data [k], smooth [k]) ; oct_save_int (orig, smooth, (int) datalen) ; exit (1) ; } ; half_max_abs = LCT_MAX (half_max_abs, abs (data [k] / 2)) ; } ; if (half_max_abs < 1) { printf ("\n\nLine %d: Signal is all zeros.\n", __LINE__) ; exit (1) ; } ; if ((k = (int) sf_readf_int (file, data, datalen)) != sfinfo.frames - datalen) { printf ("\n\nLine %d: Incorrect read length (%d should be %" PRId64 ").\n", __LINE__, k, sfinfo.frames - datalen) ; exit (1) ; } ; if ((sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_IMA_ADPCM && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_MS_ADPCM && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_GSM610 && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_G721_32 && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_G723_24 && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_NMS_ADPCM_16 && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_NMS_ADPCM_24 && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_NMS_ADPCM_32) for (k = 0 ; k < sfinfo.frames - datalen ; k++) if (abs (data [k]) > decay_response (k)) { printf ("\n\nLine %d: Incorrect sample (#%" PRId64 " : abs (%d) should be < %d).\n", __LINE__, datalen + k, data [k], decay_response (k)) ; exit (1) ; } ; /* Now test sf_seek function. */ if (sfinfo.seekable) { if ((k = (int) sf_seek (file, 0, SEEK_SET)) != 0) { printf ("\n\nLine %d: Seek to start of file failed (%d).\n", __LINE__, k) ; exit (1) ; } ; for (m = 0 ; m < 3 ; m++) { test_readf_int_or_die (file, m, data, datalen / 7, __LINE__) ; smoothed_diff_int (data, (unsigned int) (datalen / 7)) ; memcpy (smooth, orig + m * datalen / 7, datalen / 7 * sizeof (int)) ; smoothed_diff_int (smooth, (unsigned int) (datalen / 7)) ; for (k = 0 ; k < datalen / 7 ; k++) if (error_function (data [k] / scale, smooth [k] / scale, margin)) { printf ("\nLine %d: Incorrect sample (#%d (%" PRId64 ") : %d => %d).\n", __LINE__, k, k + m * (datalen / 7), smooth [k], data [k]) ; for (m = 0 ; m < 10 ; m++) printf ("%d ", data [k]) ; printf ("\n") ; exit (1) ; } ; } ; /* for (m = 0 ; m < 3 ; m++) */ seekpos = BUFFER_SIZE / 10 ; /* Check seek from start of file. */ if ((k = (int) sf_seek (file, seekpos, SEEK_SET)) != seekpos) { printf ("Seek to start of file + %d failed (%d).\n", seekpos, k) ; exit (1) ; } ; test_readf_int_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin)) { printf ("\nLine %d: sf_seek (SEEK_SET) followed by sf_readf_int failed (%d, %d).\n", __LINE__, orig [1], data [0]) ; exit (1) ; } ; if ((k = (int) sf_seek (file, 0, SEEK_CUR)) != seekpos + 1) { printf ("\n\nLine %d: sf_seek (SEEK_CUR) with 0 offset failed (%d should be %d)\n", __LINE__, k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) + BUFFER_SIZE / 5 ; k = (int) sf_seek (file, BUFFER_SIZE / 5, SEEK_CUR) ; test_readf_int_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (forwards, SEEK_CUR) followed by sf_readf_int failed (%d, %d) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) - 20 ; /* Check seek backward from current position. */ k = (int) sf_seek (file, -20, SEEK_CUR) ; test_readf_int_or_die (file, 0, data, 1, __LINE__) ; if (error_function (1.0 * data [0], 1.0 * orig [seekpos * channels], margin) || k != seekpos) { printf ("\nLine %d: sf_seek (backwards, SEEK_CUR) followed by sf_readf_int failed (%d, %d) (%d, %d).\n", __LINE__, data [0], orig [seekpos * channels], k, seekpos) ; exit (1) ; } ; /* Check that read past end of file returns number of items. */ sf_seek (file, sfinfo.frames, SEEK_SET) ; if ((k = (int) sf_readf_int (file, data, datalen)) != 0) { printf ("\n\nLine %d: Return value from sf_readf_int past end of file incorrect (%d).\n", __LINE__, k) ; exit (1) ; } ; /* Check seek backward from end. */ if ((k = (int) sf_seek (file, 5 - sfinfo.frames, SEEK_END)) != 5) { printf ("\n\nLine %d: sf_seek (SEEK_END) returned %d instead of %d.\n", __LINE__, k, 5) ; exit (1) ; } ; test_readf_int_or_die (file, 0, data, 1, __LINE__) ; if (error_function (data [0] / scale, orig [5] / scale, margin)) { printf ("\nLine %d: sf_seek (SEEK_END) followed by sf_readf_int failed (%d should be %d).\n", __LINE__, data [0], orig [5]) ; exit (1) ; } ; } /* if (sfinfo.seekable) */ sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* sdlcomp_test_int */ static void sdlcomp_test_float (const char *filename, int filetype, int channels, double margin) { SNDFILE *file ; SF_INFO sfinfo ; int k, m, seekpos ; sf_count_t datalen ; float *orig, *data, *smooth ; double half_max_abs , scale ; channels = 1 ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("sdlcomp_test_float", filename) ; switch ((filetype & SF_FORMAT_SUBMASK)) { case SF_FORMAT_VORBIS : /* Vorbis starts to loose fidelity with floating point values outside ** the range of approximately [-2000.0, 2000.0] (Determined ** experimentally, not know if it is a limitation of Vorbis or ** libvorbis.) */ scale = 16.0 ; /* 32000/16 = 2000 */ break ; case SF_FORMAT_OPUS : /* The Opus spec says that non-normalized floating point value ** support (extended dynamic range in its terms) is optional and ** cannot be relied upon. */ scale = 32000.0 ; /* 32000/32000 = 1 */ break ; default : scale = 1.0 ; break ; } ; datalen = BUFFER_SIZE ; orig = orig_buffer.f ; data = data_buffer.f ; smooth = smooth_buffer.f ; gen_signal_double (orig_buffer.d, 32000.0 / scale, channels, (int) datalen) ; for (k = 0 ; k < datalen ; k++) orig [k] = (float) orig_buffer.d [k] ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; /* The Vorbis encoder has a bug on PowerPC and X86-64 with sample rates ** <= 22050. Increasing the sample rate to 32000 avoids triggering it. ** See https://trac.xiph.org/ticket/1229 ** ** Opus only supports discrete sample rates. Choose supported 12000. */ if ((file = sf_open (filename, SFM_WRITE, &sfinfo)) == NULL) { const char * errstr ; errstr = sf_strerror (NULL) ; if (strstr (errstr, "Sample rate chosen is known to trigger a Vorbis") != NULL) { printf ("\n Sample rate -> 32kHz ") ; sfinfo.samplerate = 32000 ; } else if (strstr (errstr, "Opus only supports sample rates of") != NULL) { printf ("\n Sample rate -> 12kHz ") ; sfinfo.samplerate = 12000 ; } else { printf ("Line %d: sf_open_fd (SFM_WRITE) failed : %s\n", __LINE__, errstr) ; dump_log_buffer (NULL) ; exit (1) ; } ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_TRUE, __LINE__) ; } ; if ((filetype & SF_FORMAT_SUBMASK) == SF_FORMAT_OPUS && !check_opus_version (file)) { sf_close (file) ; unlink (filename) ; return ; } ; sf_command (file, SFC_SET_NORM_FLOAT, NULL, SF_FALSE) ; test_write_float_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (float)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if ((sfinfo.format & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK)) != (filetype & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK))) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.frames > (datalen + 400)) { printf ("Too many.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", sfinfo.frames, datalen) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_comment (file, filetype, __LINE__) ; sf_command (file, SFC_SET_NORM_FLOAT, NULL, SF_FALSE) ; check_log_buffer_or_die (file, __LINE__) ; test_read_float_or_die (file, 0, data, datalen, __LINE__) ; memcpy (smooth, orig, datalen * sizeof (float)) ; smoothed_diff_float (data, (unsigned int) datalen) ; smoothed_diff_float (smooth, (unsigned int) datalen) ; half_max_abs = fabs (data [0]) ; for (k = 1 ; k < datalen ; k++) { if (error_function (data [k] * scale, smooth [k] * scale, margin)) { printf ("\nLine %d: Incorrect sample (#%d : %d should be %d).\n", __LINE__, k, (int) (data [k] * scale), (int) (smooth [k] * scale)) ; oct_save_float (orig, smooth, (int) datalen) ; exit (1) ; } ; half_max_abs = LCT_MAX (half_max_abs, ABS (0.5 * data [k] * scale)) ; } ; if (half_max_abs <= 0.0) { printf ("\n\nLine %d: Signal is all zeros.\n", __LINE__) ; printf ("half_max_abs : % 10.6f\n", half_max_abs) ; exit (1) ; } ; if ((k = (int) sf_read_float (file, data, datalen)) != sfinfo.frames - datalen) { printf ("\n\nLine %d: Incorrect read length (%d should be %" PRId64 ").\n", __LINE__, k, sfinfo.frames - datalen) ; exit (1) ; } ; if ((sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_MS_ADPCM && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_GSM610) for (k = 0 ; k < sfinfo.frames - datalen ; k++) if (ABS (data [k]) > decay_response (k)) { printf ("\n\nLine %d: Incorrect sample (#%" PRId64 " : abs (%d) should be < %d).\n", __LINE__, datalen + k, (int) data [k], (int) decay_response (k)) ; exit (1) ; } ; /* Now test sf_seek function. */ if (sfinfo.seekable) { if ((k = (int) sf_seek (file, 0, SEEK_SET)) != 0) { printf ("\n\nLine %d: Seek to start of file failed (%d).\n", __LINE__, k) ; exit (1) ; } ; for (m = 0 ; m < 3 ; m++) { test_read_float_or_die (file, 0, data, datalen / 7, __LINE__) ; smoothed_diff_float (data, (unsigned int) (datalen / 7)) ; memcpy (smooth, orig + m * datalen / 7, datalen / 7 * sizeof (float)) ; smoothed_diff_float (smooth, (unsigned int) (datalen / 7)) ; for (k = 0 ; k < datalen / 7 ; k++) if (error_function (data [k] * scale, smooth [k] * scale, margin)) { printf ("\nLine %d: Incorrect sample C (#%d (%" PRId64 ") : %d => %d).\n", __LINE__, k, k + m * (datalen / 7), (int) (smooth [k] * scale), (int) (data [k] * scale)) ; for (m = 0 ; m < 10 ; m++) printf ("%d ", (int) data [k]) ; printf ("\n") ; exit (1) ; } ; } ; /* for (m = 0 ; m < 3 ; m++) */ seekpos = BUFFER_SIZE / 10 ; /* Check seek from start of file. */ if ((k = (int) sf_seek (file, seekpos, SEEK_SET)) != seekpos) { printf ("Seek to start of file + %d failed (%d).\n", seekpos, k) ; exit (1) ; } ; test_read_float_or_die (file, 0, data, channels, __LINE__) ; if (error_function (data [0] * scale, orig [seekpos * channels] * scale, margin)) { printf ("\nLine %d: sf_seek (SEEK_SET) followed by sf_read_float failed (%d, %d).\n", __LINE__, (int) (orig [1] * scale), (int) (data [0] * scale)) ; exit (1) ; } ; if ((k = (int) sf_seek (file, 0, SEEK_CUR)) != seekpos + 1) { printf ("\n\nLine %d: sf_seek (SEEK_CUR) with 0 offset failed (%d should be %d)\n", __LINE__, k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) + BUFFER_SIZE / 5 ; k = (int) sf_seek (file, BUFFER_SIZE / 5, SEEK_CUR) ; test_read_float_or_die (file, 0, data, channels, __LINE__) ; if (error_function (data [0] * scale, orig [seekpos * channels] * scale, margin) || k != seekpos) { printf ("\nLine %d: sf_seek (forwards, SEEK_CUR) followed by sf_read_float failed (%d, %d) (%d, %d).\n", __LINE__, (int) (data [0] * scale), (int) (orig [seekpos * channels] * scale), k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) - 20 ; /* Check seek backward from current position. */ k = (int) sf_seek (file, -20, SEEK_CUR) ; test_read_float_or_die (file, 0, data, channels, __LINE__) ; if (error_function (data [0] * scale, orig [seekpos * channels] * scale, margin) || k != seekpos) { printf ("\nLine %d: sf_seek (backwards, SEEK_CUR) followed by sf_read_float failed (%d, %d) (%d, %d).\n", __LINE__, (int) (data [0] * scale), (int) (orig [seekpos * channels] * scale), k, seekpos) ; exit (1) ; } ; /* Check that read past end of file returns number of items. */ sf_seek (file, sfinfo.frames, SEEK_SET) ; if ((k = (int) sf_read_float (file, data, datalen)) != 0) { printf ("\n\nLine %d: Return value from sf_read_float past end of file incorrect (%d).\n", __LINE__, k) ; exit (1) ; } ; /* Check seek backward from end. */ if ((k = (int) sf_seek (file, 5 - sfinfo.frames, SEEK_END)) != 5) { printf ("\n\nLine %d: sf_seek (SEEK_END) returned %d instead of %d.\n", __LINE__, k, 5) ; exit (1) ; } ; test_read_float_or_die (file, 0, data, channels, __LINE__) ; if (error_function (data [0] * scale, orig [5 * channels] * scale, margin)) { printf ("\nLine %d: sf_seek (SEEK_END) followed by sf_read_float failed (%f should be %f).\n", __LINE__, data [0] * scale, orig [5 * channels] * scale) ; exit (1) ; } ; } /* if (sfinfo.seekable) */ sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* sdlcomp_test_float */ static void sdlcomp_test_double (const char *filename, int filetype, int channels, double margin) { SNDFILE *file ; SF_INFO sfinfo ; int k, m, seekpos ; sf_count_t datalen ; double *orig, *data, *smooth, half_max_abs, scale ; channels = 1 ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("sdlcomp_test_double", filename) ; switch ((filetype & SF_FORMAT_SUBMASK)) { case SF_FORMAT_VORBIS : /* Vorbis starts to loose fidelity with floating point values outside ** the range of approximately [-2000.0, 2000.0] (Determined ** experimentally, not know if it is a limitation of Vorbis or ** libvorbis.) */ scale = 16.0 ; /* 32000/16 = 2000 */ break ; case SF_FORMAT_OPUS : /* The Opus spec says that non-normalized floating point value ** support (extended dynamic range in its terms) is optional and ** cannot be relied upon. */ scale = 32000.0 ; /* 32000/32000 = 1 */ break ; default : scale = 1.0 ; break ; } ; datalen = BUFFER_SIZE ; orig = orig_buffer.d ; data = data_buffer.d ; smooth = smooth_buffer.d ; gen_signal_double (orig_buffer.d, 32000.0 / scale, channels, (int) datalen) ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; /* The Vorbis encoder has a bug on PowerPC and X86-64 with sample rates ** <= 22050. Increasing the sample rate to 32000 avoids triggering it. ** See https://trac.xiph.org/ticket/1229 ** ** Opus only supports discrete sample rates. Choose supported 12000. */ if ((file = sf_open (filename, SFM_WRITE, &sfinfo)) == NULL) { const char * errstr ; errstr = sf_strerror (NULL) ; if (strstr (errstr, "Sample rate chosen is known to trigger a Vorbis") != NULL) { printf ("\n Sample rate -> 32kHz ") ; sfinfo.samplerate = 32000 ; } else if (strstr (errstr, "Opus only supports sample rates of") != NULL) { printf ("\n Sample rate -> 12kHz ") ; sfinfo.samplerate = 12000 ; } else { printf ("Line %d: sf_open_fd (SFM_WRITE) failed : %s\n", __LINE__, errstr) ; dump_log_buffer (NULL) ; exit (1) ; } ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_TRUE, __LINE__) ; } ; if ((filetype & SF_FORMAT_SUBMASK) == SF_FORMAT_OPUS && !check_opus_version (file)) { sf_close (file) ; unlink (filename) ; return ; } ; sf_command (file, SFC_SET_NORM_DOUBLE, NULL, SF_FALSE) ; test_write_double_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (double)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if (sfinfo.format != filetype) { printf ("Returned format incorrect (0x%08X => 0x%08X).\n", filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.frames > (datalen + 400)) { printf ("Too many.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", sfinfo.frames, datalen) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_comment (file, filetype, __LINE__) ; check_comment (file, filetype, __LINE__) ; sf_command (file, SFC_SET_NORM_DOUBLE, NULL, SF_FALSE) ; check_log_buffer_or_die (file, __LINE__) ; test_read_double_or_die (file, 0, data, datalen, __LINE__) ; memcpy (smooth, orig, datalen * sizeof (double)) ; smoothed_diff_double (data, (unsigned int) datalen) ; smoothed_diff_double (smooth, (unsigned int) datalen) ; half_max_abs = 0.0 ; for (k = 0 ; k < datalen ; k++) { if (error_function (data [k] * scale, smooth [k] * scale, margin)) { printf ("\n\nLine %d: Incorrect sample (#%d : %d should be %d).\n", __LINE__, k, (int) (data [k] * scale), (int) (smooth [k] * scale)) ; oct_save_double (orig, smooth, (int) datalen) ; exit (1) ; } ; half_max_abs = LCT_MAX (half_max_abs, 0.5 * fabs (data [k] * scale)) ; } ; if (half_max_abs < 1.0) { printf ("\n\nLine %d: Signal is all zeros.\n", __LINE__) ; exit (1) ; } ; if ((k = (int) sf_read_double (file, data, datalen)) != sfinfo.frames - datalen) { printf ("\n\nLine %d: Incorrect read length (%d should be %" PRId64 ").\n", __LINE__, k, sfinfo.frames - datalen) ; exit (1) ; } ; if ((sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_MS_ADPCM && (sfinfo.format & SF_FORMAT_SUBMASK) != SF_FORMAT_GSM610) for (k = 0 ; k < sfinfo.frames - datalen ; k++) if (ABS (data [k]) > decay_response (k)) { printf ("\n\nLine %d: Incorrect sample (#%" PRId64 " : abs (%d) should be < %d).\n", __LINE__, datalen + k, (int) data [k], (int) decay_response (k)) ; exit (1) ; } ; /* Now test sf_seek function. */ if (sfinfo.seekable) { if ((k = (int) sf_seek (file, 0, SEEK_SET)) != 0) { printf ("\n\nLine %d: Seek to start of file failed (%d).\n", __LINE__, k) ; exit (1) ; } ; for (m = 0 ; m < 3 ; m++) { test_read_double_or_die (file, m, data, datalen / 7, __LINE__) ; smoothed_diff_double (data, (unsigned int) (datalen / 7)) ; memcpy (smooth, orig + m * datalen / 7, datalen / 7 * sizeof (double)) ; smoothed_diff_double (smooth, (unsigned int) (datalen / 7)) ; for (k = 0 ; k < datalen / 7 ; k++) if (error_function (data [k] * scale, smooth [k] * scale, margin)) { printf ("\nLine %d: Incorrect sample C (#%d (%" PRId64 ") : %d => %d).\n", __LINE__, k, k + m * (datalen / 7), (int) (smooth [k] * scale), (int) (data [k] * scale)) ; for (m = 0 ; m < 10 ; m++) printf ("%d ", (int) data [k]) ; printf ("\n") ; exit (1) ; } ; } ; /* for (m = 0 ; m < 3 ; m++) */ seekpos = BUFFER_SIZE / 10 ; /* Check seek from start of file. */ if ((k = (int) sf_seek (file, seekpos, SEEK_SET)) != seekpos) { printf ("Seek to start of file + %d failed (%d).\n", seekpos, k) ; exit (1) ; } ; test_read_double_or_die (file, 0, data, channels, __LINE__) ; if (error_function (data [0] * scale, orig [seekpos * channels] * scale, margin)) { printf ("\nLine %d: sf_seek (SEEK_SET) followed by sf_read_double failed (%d, %d).\n", __LINE__, (int) (orig [1] * scale), (int) (data [0] * scale)) ; exit (1) ; } ; if ((k = (int) sf_seek (file, 0, SEEK_CUR)) != seekpos + 1) { printf ("\n\nLine %d: sf_seek (SEEK_CUR) with 0 offset failed (%d should be %d)\n", __LINE__, k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) + BUFFER_SIZE / 5 ; k = (int) sf_seek (file, BUFFER_SIZE / 5, SEEK_CUR) ; test_read_double_or_die (file, 0, data, channels, __LINE__) ; if (error_function (data [0] * scale, orig [seekpos * channels] * scale, margin) || k != seekpos) { printf ("\nLine %d: sf_seek (forwards, SEEK_CUR) followed by sf_read_double failed (%d, %d) (%d, %d).\n", __LINE__, (int) (data [0] * scale), (int) (orig [seekpos * channels] * scale), k, seekpos + 1) ; exit (1) ; } ; seekpos = (int) sf_seek (file, 0, SEEK_CUR) - 20 ; /* Check seek backward from current position. */ k = (int) sf_seek (file, -20, SEEK_CUR) ; test_read_double_or_die (file, 0, data, channels, __LINE__) ; if (error_function (data [0] * scale, orig [seekpos * channels] * scale, margin) || k != seekpos) { printf ("\nLine %d: sf_seek (backwards, SEEK_CUR) followed by sf_read_double failed (%d, %d) (%d, %d).\n", __LINE__, (int) (data [0] * scale), (int) (orig [seekpos * channels] * scale), k, seekpos) ; exit (1) ; } ; /* Check that read past end of file returns number of items. */ sf_seek (file, sfinfo.frames, SEEK_SET) ; if ((k = (int) sf_read_double (file, data, datalen)) != 0) { printf ("\n\nLine %d: Return value from sf_read_double past end of file incorrect (%d).\n", __LINE__, k) ; exit (1) ; } ; /* Check seek backward from end. */ if ((k = (int) sf_seek (file, 5 - sfinfo.frames, SEEK_END)) != 5) { printf ("\n\nLine %d: sf_seek (SEEK_END) returned %d instead of %d.\n", __LINE__, k, 5) ; exit (1) ; } ; test_read_double_or_die (file, 0, data, channels, __LINE__) ; if (error_function (data [0] * scale, orig [5 * channels] * scale, margin)) { printf ("\nLine %d: sf_seek (SEEK_END) followed by sf_read_double failed (%f should be %f).\n", __LINE__, data [0] * scale, orig [5 * channels] * scale) ; exit (1) ; } ; } /* if (sfinfo.seekable) */ sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* sdlcomp_test_double */ static void read_raw_test (const char *filename, int filetype, int channels) { SNDFILE *file ; SF_INFO sfinfo ; sf_count_t count, datalen ; short *orig, *data ; int k ; get_unique_test_name (&filename, LCT_TEST_PREFIX) ; print_test_name ("read_raw_test", filename) ; datalen = ARRAY_LEN (orig_buffer.s) / 2 ; orig = orig_buffer.s ; data = data_buffer.s ; gen_signal_double (orig_buffer.d, 32000.0, channels, (int) datalen) ; for (k = 0 ; k < datalen ; k++) orig [k] = (short) lrint (orig_buffer.d [k]) ; sfinfo.samplerate = SAMPLE_RATE ; sfinfo.frames = 123456789 ; /* Ridiculous value. */ sfinfo.channels = channels ; sfinfo.format = filetype ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_FALSE, __LINE__) ; test_write_short_or_die (file, 0, orig, datalen, __LINE__) ; sf_set_string (file, SF_STR_COMMENT, long_comment) ; sf_close (file) ; memset (data, 0, datalen * sizeof (double)) ; if ((filetype & SF_FORMAT_TYPEMASK) != SF_FORMAT_RAW) memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_FALSE, __LINE__) ; if (sfinfo.format != filetype) { printf ("Returned format incorrect (0x%08X => 0x%08X).\n", filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames < datalen / channels) { printf ("Too few.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", datalen, sfinfo.frames) ; exit (1) ; } ; if (sfinfo.frames > (datalen + 400)) { printf ("Too many.frames in file. (%" PRId64 " should be a little more than %" PRId64 ")\n", sfinfo.frames, datalen) ; exit (1) ; } ; if (sfinfo.channels != channels) { printf ("Incorrect number of channels in file.\n") ; exit (1) ; } ; check_comment (file, filetype, __LINE__) ; count = sf_read_raw (file, orig_buffer.c, datalen + 5 * channels) ; if (count != sfinfo.channels * sfinfo.frames) { printf ("\nLine %d : sf_read_raw returned %" PRId64 " should be %" PRId64 "\n", __LINE__, count, sfinfo.channels * sfinfo.frames) ; exit (1) ; } ; sf_close (file) ; unlink (filename) ; printf ("ok\n") ; } /* read_raw_test */ /*======================================================================================== ** Auxiliary functions */ #define SIGNAL_MAXVAL 30000.0 #define DECAY_COUNT 1000 static int decay_response (int k) { if (k < 1) return (int) (1.2 * SIGNAL_MAXVAL) ; if (k > DECAY_COUNT) return 0 ; return (int) (1.2 * SIGNAL_MAXVAL * (DECAY_COUNT - k) / (1.0 * DECAY_COUNT)) ; } /* decay_response */ static void gen_signal_double (double *data, double scale, int channels, int datalen) { int k, ramplen ; double amp = 0.0 ; ramplen = DECAY_COUNT ; if (channels == 1) { for (k = 0 ; k < datalen ; k++) { if (k <= ramplen) amp = scale * k / ((double) ramplen) ; else if (k > datalen - ramplen) amp = scale * (datalen - k) / ((double) ramplen) ; /*-printf ("%3d : %g\n", k, amp) ;-*/ data [k] = amp * (0.4 * sin (33.3 * 2.0 * M_PI * ((double) (k+1)) / ((double) SAMPLE_RATE)) + 0.3 * cos (201.1 * 2.0 * M_PI * ((double) (k+1)) / ((double) SAMPLE_RATE))) ; } ; } else { for (k = 0 ; k < datalen ; k ++) { if (k <= ramplen) amp = scale * k / ((double) ramplen) ; else if (k > datalen - ramplen) amp = scale * (datalen - k) / ((double) ramplen) ; data [2 * k] = amp * (0.4 * sin (33.3 * 2.0 * M_PI * ((double) (k+1)) / ((double) SAMPLE_RATE)) + 0.3 * cos (201.1 * 2.0 * M_PI * ((double) (k+1)) / ((double) SAMPLE_RATE))) ; data [2 * k + 1] = amp * (0.4 * sin (55.5 * 2.0 * M_PI * ((double) (k+1)) / ((double) SAMPLE_RATE)) + 0.3 * cos (201.1 * 2.0 * M_PI * ((double) (k+1)) / ((double) SAMPLE_RATE))) ; } ; } ; return ; } /* gen_signal_double */ static int error_function (double data, double orig, double margin) { double error ; if (fabs (orig) <= 500.0) error = fabs (fabs (data) - fabs (orig)) / 2000.0 ; else if (fabs (orig) <= 1000.0) error = fabs (data - orig) / 3000.0 ; else error = fabs (data - orig) / fabs (orig) ; if (error > margin) { printf ("\n\nerror_function (data = %f, orig = %f, margin = %f) -> %f\n", data, orig, margin, error) ; return 1 ; } ; return 0 ; } /* error_function */ static void smoothed_diff_short (short *data, unsigned int datalen) { unsigned int k ; double memory = 0.0 ; /* Calculate the smoothed sample-to-sample difference. */ for (k = 0 ; k < datalen - 1 ; k++) { memory = 0.7 * memory + (1 - 0.7) * (double) (data [k+1] - data [k]) ; data [k] = (short) memory ; } ; data [datalen-1] = data [datalen-2] ; } /* smoothed_diff_short */ static void smoothed_diff_int (int *data, unsigned int datalen) { unsigned int k ; double memory = 0.0 ; /* Calculate the smoothed sample-to-sample difference. */ for (k = 0 ; k < datalen - 1 ; k++) { memory = 0.7 * memory + (1 - 0.7) * (double) (data [k+1] - data [k]) ; data [k] = (int) memory ; } ; data [datalen-1] = data [datalen-2] ; } /* smoothed_diff_int */ static void smoothed_diff_float (float *data, unsigned int datalen) { unsigned int k ; float memory = 0.0 ; /* Calculate the smoothed sample-to-sample difference. */ for (k = 0 ; k < datalen - 1 ; k++) { memory = (float) (0.7 * memory + (1 - 0.7) * (data [k+1] - data [k])) ; data [k] = memory ; } ; data [datalen-1] = data [datalen-2] ; } /* smoothed_diff_float */ static void smoothed_diff_double (double *data, unsigned int datalen) { unsigned int k ; double memory = 0.0 ; /* Calculate the smoothed sample-to-sample difference. */ for (k = 0 ; k < datalen - 1 ; k++) { memory = 0.7 * memory + (1 - 0.7) * (data [k+1] - data [k]) ; data [k] = memory ; } ; data [datalen-1] = data [datalen-2] ; } /* smoothed_diff_double */ static void check_comment (SNDFILE * file, int format, int lineno) { const char *comment ; switch (format & SF_FORMAT_TYPEMASK) { case SF_FORMAT_AIFF : case SF_FORMAT_WAV : case SF_FORMAT_WAVEX : break ; default : return ; } ; comment = sf_get_string (file, SF_STR_COMMENT) ; if (comment == NULL) { printf ("\n\nLine %d : File does not contain a comment string.\n\n", lineno) ; exit (1) ; } ; if (strcmp (comment, long_comment) != 0) { printf ("\n\nLine %d : File comment does not match comment written.\n\n", lineno) ; exit (1) ; } ; return ; } /* check_comment */ static int is_lossy (int filetype) { switch (SF_FORMAT_SUBMASK & filetype) { case SF_FORMAT_PCM_U8 : case SF_FORMAT_PCM_S8 : case SF_FORMAT_PCM_16 : case SF_FORMAT_PCM_24 : case SF_FORMAT_PCM_32 : case SF_FORMAT_FLOAT : case SF_FORMAT_DOUBLE : return 0 ; default : break ; } ; return 1 ; } /* is_lossy */ static int check_opus_version (SNDFILE *file) { char log_buf [256] ; char *str, *p ; const char *str_libopus = "Opus library version: " ; int ver_major, ver_minor ; sf_command (file, SFC_GET_LOG_INFO, log_buf, sizeof (log_buf)) ; str = strstr (log_buf, str_libopus) ; if (str) { str += strlen (str_libopus) ; if ((p = strchr (str, '\n'))) *p = '\0' ; if (sscanf (str, "libopus %d.%d", &ver_major, &ver_minor) == 2) { /* Reject versions prior to 1.3 */ if (ver_major > 1 || (ver_major == 1 && ver_minor >= 3)) { /* ** Make sure that the libopus in use is not fixed-point, as it ** sacrifices accuracy. libopus API documentation explicitly ** allows checking for this suffix to determine if it is. */ if (!strstr (str, "-fixed")) return 1 ; } ; } ; } ; printf ("skipping (%s)\n", str ? str : "unknown libopus version") ; return 0 ; } /* check_opus_version */