[+ AutoGen5 template c +] /* ** Copyright (C) 1999-2011 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 #if HAVE_UNISTD_H #include #endif #include #include #include "utils.h" #ifndef M_PI #define M_PI 3.14159265358979323846264338 #endif #define HALF_BUFFER_SIZE (1 << 12) #define BUFFER_SIZE (2 * HALF_BUFFER_SIZE) #define SINE_AMP 1.1 #define MAX_ERROR 0.0202 [+ FOR float_type +] [+ FOR data_type +]static void [+ (get "float_short_name") +]_scale_clip_test_[+ (get "name") +] (const char *filename, int filetype, float maxval) ; [+ ENDFOR data_type +][+ ENDFOR float_type +] [+ FOR float_type +] [+ FOR int_type +]static void [+ (get "float_short_name") +]_[+ (get "int_type_name") +]_clip_read_test (const char *filename, int filetype) ; [+ ENDFOR int_type +][+ ENDFOR float_type +] [+ FOR int_type +] [+ FOR float_type +]static void [+ (get "int_type_name") +]_[+ (get "float_short_name") +]_scale_write_test (const char *filename, int filetype) ; [+ ENDFOR float_type +][+ ENDFOR int_type +] typedef union { double dbl [BUFFER_SIZE] ; float flt [BUFFER_SIZE] ; int i [BUFFER_SIZE] ; short s [BUFFER_SIZE] ; } BUFFER ; /* Data buffer. */ static BUFFER buffer_out ; static BUFFER buffer_in ; int main (void) { flt_scale_clip_test_08 ("scale_clip_s8.au", SF_FORMAT_AU | SF_FORMAT_PCM_S8, 1.0 * 0x80) ; flt_scale_clip_test_08 ("scale_clip_u8.wav", SF_FORMAT_WAV | SF_FORMAT_PCM_U8, 1.0 * 0x80) ; dbl_scale_clip_test_08 ("scale_clip_s8.au", SF_FORMAT_AU | SF_FORMAT_PCM_S8, 1.0 * 0x80) ; dbl_scale_clip_test_08 ("scale_clip_u8.wav", SF_FORMAT_WAV | SF_FORMAT_PCM_U8, 1.0 * 0x80) ; /* ** Now use SF_FORMAT_AU where possible because it allows both ** big and little endian files. */ flt_scale_clip_test_16 ("scale_clip_be16.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_PCM_16, 1.0 * 0x8000) ; flt_scale_clip_test_16 ("scale_clip_le16.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_PCM_16, 1.0 * 0x8000) ; flt_scale_clip_test_24 ("scale_clip_be24.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_PCM_24, 1.0 * 0x800000) ; flt_scale_clip_test_24 ("scale_clip_le24.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_PCM_24, 1.0 * 0x800000) ; flt_scale_clip_test_32 ("scale_clip_be32.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_PCM_32, 1.0 * 0x80000000) ; flt_scale_clip_test_32 ("scale_clip_le32.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_PCM_32, 1.0 * 0x80000000) ; dbl_scale_clip_test_16 ("scale_clip_be16.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_PCM_16, 1.0 * 0x8000) ; dbl_scale_clip_test_16 ("scale_clip_le16.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_PCM_16, 1.0 * 0x8000) ; dbl_scale_clip_test_24 ("scale_clip_be24.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_PCM_24, 1.0 * 0x800000) ; dbl_scale_clip_test_24 ("scale_clip_le24.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_PCM_24, 1.0 * 0x800000) ; dbl_scale_clip_test_32 ("scale_clip_be32.au", SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_PCM_32, 1.0 * 0x80000000) ; dbl_scale_clip_test_32 ("scale_clip_le32.au", SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_PCM_32, 1.0 * 0x80000000) ; flt_short_clip_read_test ("flt_short.au" , SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_FLOAT) ; flt_int_clip_read_test ("flt_int.au" , SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_FLOAT) ; dbl_short_clip_read_test ("dbl_short.au" , SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_DOUBLE) ; dbl_int_clip_read_test ("dbl_int.au" , SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_DOUBLE) ; short_flt_scale_write_test ("short_flt.au" , SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_FLOAT) ; int_flt_scale_write_test ("int_flt.au" , SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_FLOAT) ; short_dbl_scale_write_test ("short_dbl.au" , SF_ENDIAN_BIG | SF_FORMAT_AU | SF_FORMAT_DOUBLE) ; int_dbl_scale_write_test ("int_dbl.au" , SF_ENDIAN_LITTLE | SF_FORMAT_AU | SF_FORMAT_DOUBLE) ; return 0 ; } /* main */ /*============================================================================================ ** Here are the test functions. */ [+ FOR float_type +] [+ FOR data_type +]static void [+ (get "float_short_name") +]_scale_clip_test_[+ (get "name") +] (const char *filename, int filetype, float maxval) { SNDFILE *file ; SF_INFO sfinfo ; int k ; [+ (get "float_type_name") +] *data_out, *data_in ; double diff, clip_max_diff ; print_test_name ("[+ (get "float_short_name") +]_scale_clip_test_[+ (get "name") +]", filename) ; data_out = buffer_out.[+ (get "float_short_name") +] ; data_in = buffer_in.[+ (get "float_short_name") +] ; for (k = 0 ; k < HALF_BUFFER_SIZE ; k++) { data_out [k] = 1.2 * sin (2 * M_PI * k / HALF_BUFFER_SIZE) ; data_out [k + HALF_BUFFER_SIZE] = data_out [k] * maxval ; } ; sfinfo.samplerate = 44100 ; sfinfo.frames = 123456789 ; /* Wrong length. Library should correct this on sf_close. */ sfinfo.channels = 1 ; sfinfo.format = filetype ; /* ** Write two versions of the data: ** normalized and clipped ** un-normalized and clipped. */ file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_TRUE, __LINE__) ; sf_command (file, SFC_SET_CLIPPING, NULL, SF_TRUE) ; test_write_[+ (get "float_type_name") +]_or_die (file, 0, data_out, HALF_BUFFER_SIZE, __LINE__) ; sf_command (file, SFC_SET_NORM_[+ (get "float_upper_name") +], NULL, SF_FALSE) ; test_write_[+ (get "float_type_name") +]_or_die (file, 0, data_out + HALF_BUFFER_SIZE, HALF_BUFFER_SIZE, __LINE__) ; sf_close (file) ; memset (&buffer_in, 0, sizeof (buffer_in)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_TRUE, __LINE__) ; sfinfo.format &= (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK) ; if (sfinfo.format != (filetype & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK))) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames != BUFFER_SIZE) { printf ("\n\nLine %d: Incorrect number of frames in file (%d => %ld).\n\n", __LINE__, BUFFER_SIZE, SF_COUNT_TO_LONG (sfinfo.frames)) ; exit (1) ; } ; if (sfinfo.channels != 1) { printf ("\n\nLine %d: Incorrect number of channels in file.\n\n", __LINE__) ; exit (1) ; } ; check_log_buffer_or_die (file, __LINE__) ; test_read_[+ (get "float_type_name") +]_or_die (file, 0, data_in, HALF_BUFFER_SIZE, __LINE__) ; sf_command (file, SFC_SET_NORM_[+ (get "float_upper_name") +], NULL, SF_FALSE) ; test_read_[+ (get "float_type_name") +]_or_die (file, 0, data_in + HALF_BUFFER_SIZE, HALF_BUFFER_SIZE, __LINE__) ; sf_close (file) ; /* Check normalized version. */ clip_max_diff = 0.0 ; for (k = 0 ; k < HALF_BUFFER_SIZE ; k++) { if (fabs (data_in [k]) > 1.0) { printf ("\n\nLine %d: Input sample %d/%d (%f) has not been clipped.\n\n", __LINE__, k, BUFFER_SIZE, data_in [k]) ; exit (1) ; } ; if (data_out [k] * data_in [k] < 0.0) { printf ("\n\nLine %d: Data wrap around at index %d/%d.\n\n", __LINE__, k, BUFFER_SIZE) ; exit (1) ; } ; if (fabs (data_out [k]) > 1.0) continue ; diff = fabs (data_out [k] - data_in [k]) ; if (diff > clip_max_diff) clip_max_diff = diff ; } ; if (clip_max_diff < 1e-20) { printf ("\n\nLine %d: Clipping difference (%e) too small (normalized).\n\n", __LINE__, clip_max_diff) ; exit (1) ; } ; if (clip_max_diff > [+ (get "error_val") +]) { printf ("\n\nLine %d: Clipping difference (%e) too large (normalized).\n\n", __LINE__, clip_max_diff) ; exit (1) ; } ; /* Check the un-normalized data. */ clip_max_diff = 0.0 ; for (k = HALF_BUFFER_SIZE ; k < BUFFER_SIZE ; k++) { if (fabs (data_in [k]) > maxval) { printf ("\n\nLine %d: Input sample %d/%d (%f) has not been clipped.\n\n", __LINE__, k, BUFFER_SIZE, data_in [k]) ; exit (1) ; } ; if (data_out [k] * data_in [k] < 0.0) { printf ("\n\nLine %d: Data wrap around at index %d/%d.\n\n", __LINE__, k, BUFFER_SIZE) ; exit (1) ; } ; if (fabs (data_out [k]) > maxval) continue ; diff = fabs (data_out [k] - data_in [k]) ; if (diff > clip_max_diff) clip_max_diff = diff ; } ; if (clip_max_diff < 1e-20) { printf ("\n\nLine %d: Clipping difference (%e) too small (un-normalized).\n\n", __LINE__, clip_max_diff) ; exit (1) ; } ; if (clip_max_diff > 1.0) { printf ("\n\nLine %d: Clipping difference (%e) too large (un-normalised).\n\n", __LINE__, clip_max_diff) ; exit (1) ; } ; printf ("ok\n") ; unlink (filename) ; } /* [+ (get "float_short_name") +]_scale_clip_test_[+ (get "name") +] */ [+ ENDFOR data_type +] [+ ENDFOR float_type +] /*============================================================================== */ [+ FOR float_type +] [+ FOR int_type +]static void [+ (get "float_short_name") +]_[+ (get "int_type_name") +]_clip_read_test (const char *filename, int filetype) { SNDFILE *file ; SF_INFO sfinfo ; [+ (get "float_type_name") +] *data_out ; [+ (get "int_type_name") +] *data_in, max_value ; int k ; print_test_name ("[+ (get "float_short_name") +]_[+ (get "int_type_name") +]_clip_read_test", filename) ; data_out = buffer_out.[+ (get "float_short_name") +] ; data_in = buffer_in.[+ (get "int_short_name") +] ; for (k = 0 ; k < BUFFER_SIZE ; k++) data_out [k] = 0.995 * sin (4 * M_PI * k / BUFFER_SIZE) ; data_out [BUFFER_SIZE / 8] = 1.0 ; data_out [3 * BUFFER_SIZE / 8] = -1.000000001 ; data_out [5 * BUFFER_SIZE / 8] = 1.0 ; data_out [7 * BUFFER_SIZE / 8] = -1.000000001 ; memset (&sfinfo, 0, sizeof (sfinfo)) ; sfinfo.samplerate = 44100 ; sfinfo.frames = 123456789 ; /* Wrong length. Library should correct this on sf_close. */ sfinfo.channels = 1 ; sfinfo.format = filetype ; /* Save unclipped data to the file. */ file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_TRUE, __LINE__) ; test_write_[+ (get "float_type_name") +]_or_die (file, 0, data_out, BUFFER_SIZE, __LINE__) ; sf_close (file) ; memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_TRUE, __LINE__) ; sf_command (file, SFC_SET_SCALE_FLOAT_INT_READ, NULL, SF_TRUE) ; sfinfo.format &= (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK) ; if (sfinfo.format != (filetype & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK))) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames != BUFFER_SIZE) { printf ("\n\nLine %d: Incorrect number of frames in file (%d => %ld).\n\n", __LINE__, BUFFER_SIZE, SF_COUNT_TO_LONG (sfinfo.frames)) ; exit (1) ; } ; if (sfinfo.channels != 1) { printf ("\n\nLine %d: Incorrect number of channels in file.\n\n", __LINE__) ; exit (1) ; } ; check_log_buffer_or_die (file, __LINE__) ; sf_command (file, SFC_SET_CLIPPING, NULL, SF_TRUE) ; test_read_[+ (get "int_type_name") +]_or_die (file, 0, data_in, BUFFER_SIZE, __LINE__) ; /*-sf_command (file, SFC_SET_NORM_[+ (get "float_upper_name") +], NULL, SF_FALSE) ;-*/ sf_close (file) ; /* Check the first half. */ max_value = 0 ; for (k = 0 ; k < sfinfo.frames ; k++) { /* Check if data_out has different sign from data_in. */ if ((data_out [k] < 0.0 && data_in [k] > 0) || (data_out [k] > 0.0 && data_in [k] < 0)) { printf ("\n\nLine %d: Data wrap around at index %d/%d (%f -> %d).\n\n", __LINE__, k, BUFFER_SIZE, data_out [k], data_in [k]) ; exit (1) ; } ; max_value = (max_value > abs (data_in [k])) ? max_value : abs (data_in [k]) ; } ; unlink (filename) ; puts ("ok") ; } /* [+ (get "float_short_name") +]_[+ (get "int_type_name") +]_clip_read_test */ [+ ENDFOR int_type +][+ ENDFOR float_type +] /*============================================================================== */ [+ FOR int_type +] [+ FOR float_type +]static void [+ (get "int_type_name") +]_[+ (get "float_short_name") +]_scale_write_test (const char *filename, int filetype) { SNDFILE *file ; SF_INFO sfinfo ; [+ (get "int_type_name") +] *data_out ; [+ (get "float_type_name") +] *data_in, max_value ; int k ; print_test_name ("[+ (get "int_type_name") +]_[+ (get "float_short_name") +]_clip_write_test", filename) ; data_out = buffer_out.[+ (get "int_short_name") +] ; data_in = buffer_in.[+ (get "float_short_name") +] ; for (k = 0 ; k < BUFFER_SIZE ; k++) data_out [k] = [+ (get "float_to_int") +] ([+ (get "int_max_value") +] * 0.995 * sin (4 * M_PI * k / BUFFER_SIZE)) ; memset (&sfinfo, 0, sizeof (sfinfo)) ; sfinfo.samplerate = 44100 ; sfinfo.frames = 123456789 ; /* Wrong length. Library should correct this on sf_close. */ sfinfo.channels = 1 ; sfinfo.format = filetype ; file = test_open_file_or_die (filename, SFM_WRITE, &sfinfo, SF_TRUE, __LINE__) ; test_write_[+ (get "int_type_name") +]_or_die (file, 0, data_out, BUFFER_SIZE, __LINE__) ; sf_command (file, SFC_SET_SCALE_INT_FLOAT_WRITE, NULL, SF_TRUE) ; test_write_[+ (get "int_type_name") +]_or_die (file, 0, data_out, BUFFER_SIZE, __LINE__) ; sf_command (file, SFC_SET_SCALE_INT_FLOAT_WRITE, NULL, SF_FALSE) ; test_write_[+ (get "int_type_name") +]_or_die (file, 0, data_out, BUFFER_SIZE, __LINE__) ; sf_close (file) ; memset (&sfinfo, 0, sizeof (sfinfo)) ; file = test_open_file_or_die (filename, SFM_READ, &sfinfo, SF_TRUE, __LINE__) ; sfinfo.format &= (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK) ; if (sfinfo.format != (filetype & (SF_FORMAT_TYPEMASK | SF_FORMAT_SUBMASK))) { printf ("\n\nLine %d: Returned format incorrect (0x%08X => 0x%08X).\n\n", __LINE__, filetype, sfinfo.format) ; exit (1) ; } ; if (sfinfo.frames != 3 * BUFFER_SIZE) { printf ("\n\nLine %d: Incorrect number of frames in file (%d => %ld).\n\n", __LINE__, 3 * BUFFER_SIZE, SF_COUNT_TO_LONG (sfinfo.frames)) ; exit (1) ; } ; if (sfinfo.channels != 1) { printf ("\n\nLine %d: Incorrect number of channels in file.\n\n", __LINE__) ; exit (1) ; } ; check_log_buffer_or_die (file, __LINE__) ; /* Check the first section. */ test_read_[+ (get "float_type_name") +]_or_die (file, 0, data_in, BUFFER_SIZE, __LINE__) ; max_value = 0.0 ; for (k = 0 ; k < BUFFER_SIZE ; k++) max_value = (max_value > fabs (data_in [k])) ? max_value : fabs (data_in [k]) ; if (max_value < 1000.0) { printf ("\n\nLine %d: Max value (%f) < 1000.0.\n\n", __LINE__, max_value) ; exit (1) ; } ; /* Check the second section. */ test_read_[+ (get "float_type_name") +]_or_die (file, 0, data_in, BUFFER_SIZE, __LINE__) ; max_value = 0.0 ; for (k = 0 ; k < BUFFER_SIZE ; k++) max_value = (max_value > fabs (data_in [k])) ? max_value : fabs (data_in [k]) ; if (max_value > 1.0) { printf ("\n\nLine %d: Max value (%f) > 1.0.\n\n", __LINE__, max_value) ; exit (1) ; } ; /* Check the third section. */ test_read_[+ (get "float_type_name") +]_or_die (file, 0, data_in, BUFFER_SIZE, __LINE__) ; max_value = 0.0 ; for (k = 0 ; k < BUFFER_SIZE ; k++) max_value = (max_value > fabs (data_in [k])) ? max_value : fabs (data_in [k]) ; if (max_value < 1000.0) { printf ("\n\nLine %d: Max value (%f) < 1000.0.\n\n", __LINE__, max_value) ; exit (1) ; } ; sf_close (file) ; unlink (filename) ; puts ("ok") ; } /* [+ (get "int_type_name") +]_[+ (get "float_short_name") +]_scale_write_test */ [+ ENDFOR float_type +][+ ENDFOR int_type +]