/* ** Copyright (C) 1999-2019 Erik de Castro Lopo ** Copyright (C) 2008 George Blood Audio ** ** All rights reserved. ** ** Redistribution and use in source and binary forms, with or without ** modification, are permitted provided that the following conditions are ** met: ** ** * Redistributions of source code must retain the above copyright ** notice, this list of conditions and the following disclaimer. ** * Redistributions in binary form must reproduce the above copyright ** notice, this list of conditions and the following disclaimer in ** the documentation and/or other materials provided with the ** distribution. ** * Neither the author nor the names of any contributors may be used ** to endorse or promote products derived from this software without ** specific prior written permission. ** ** THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ** "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED ** TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR ** PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR ** CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, ** EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, ** PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; ** OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, ** WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR ** OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ** ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include "common.h" #define BUFFER_LEN 4096 #define MIN(x, y) ((x) < (y) ? (x) : (y)) int sfe_copy_data_fp (SNDFILE *outfile, SNDFILE *infile, int channels, int normalize) { static double data [BUFFER_LEN], max ; sf_count_t frames, readcount, k ; frames = BUFFER_LEN / channels ; readcount = frames ; sf_command (infile, SFC_CALC_SIGNAL_MAX, &max, sizeof (max)) ; if (!isnormal (max)) /* neither zero, subnormal, infinite, nor NaN */ return 1 ; if (!normalize && max < 1.0) { while (readcount > 0) { readcount = sf_readf_double (infile, data, frames) ; sf_writef_double (outfile, data, readcount) ; } ; } else { sf_command (infile, SFC_SET_NORM_DOUBLE, NULL, SF_FALSE) ; while (readcount > 0) { readcount = sf_readf_double (infile, data, frames) ; for (k = 0 ; k < readcount * channels ; k++) { data [k] /= max ; if (!isfinite (data [k])) /* infinite or NaN */ return 1; } sf_writef_double (outfile, data, readcount) ; } ; } ; return 0 ; } /* sfe_copy_data_fp */ void sfe_copy_data_int (SNDFILE *outfile, SNDFILE *infile, int channels) { static int data [BUFFER_LEN] ; int frames, readcount ; frames = BUFFER_LEN / channels ; readcount = frames ; while (readcount > 0) { readcount = sf_readf_int (infile, data, frames) ; sf_writef_int (outfile, data, readcount) ; } ; return ; } /* sfe_copy_data_int */ /*============================================================================== */ static int merge_broadcast_info (SNDFILE * infile, SNDFILE * outfile, int format, const METADATA_INFO * info) { SF_BROADCAST_INFO_2K binfo ; int infileminor ; memset (&binfo, 0, sizeof (binfo)) ; if ((SF_FORMAT_TYPEMASK & format) != SF_FORMAT_WAV) { printf ("Error : This is not a WAV file and hence broadcast info cannot be added to it.\n\n") ; return 1 ; } ; infileminor = SF_FORMAT_SUBMASK & format ; switch (infileminor) { case SF_FORMAT_PCM_16 : case SF_FORMAT_PCM_24 : case SF_FORMAT_PCM_32 : break ; default : printf ( "Warning : The EBU Technical Recommendation R68-2000 states that the only\n" " allowed encodings are Linear PCM and MPEG3. This file is not in\n" " the right format.\n\n" ) ; break ; } ; if (sf_command (infile, SFC_GET_BROADCAST_INFO, &binfo, sizeof (binfo)) == 0) { if (infile == outfile) { printf ( "Error : Attempting in-place broadcast info update, but file does not\n" " have a 'bext' chunk to modify. The solution is to specify both\n" " input and output files on the command line.\n\n" ) ; return 1 ; } ; } ; #define REPLACE_IF_NEW(x) \ if (info->x != NULL) \ { memset (binfo.x, 0, sizeof (binfo.x)) ; \ memcpy (binfo.x, info->x, MIN (strlen (info->x), sizeof (binfo.x))) ; \ } ; REPLACE_IF_NEW (description) ; REPLACE_IF_NEW (originator) ; REPLACE_IF_NEW (originator_reference) ; REPLACE_IF_NEW (origination_date) ; REPLACE_IF_NEW (origination_time) ; REPLACE_IF_NEW (umid) ; /* Special case loudness values */ #define REPLACE_IF_NEW_INT(x) \ if (info->x != NULL) \ { binfo.x = round (atof (info->x) * 100.0) ; \ } ; REPLACE_IF_NEW_INT (loudness_value) ; REPLACE_IF_NEW_INT (loudness_range) ; REPLACE_IF_NEW_INT (max_true_peak_level) ; REPLACE_IF_NEW_INT (max_momentary_loudness) ; REPLACE_IF_NEW_INT (max_shortterm_loudness) ; /* Special case for Time Ref. */ if (info->time_ref != NULL) { uint64_t ts = atoll (info->time_ref) ; binfo.time_reference_high = (ts >> 32) ; binfo.time_reference_low = (ts & 0xffffffff) ; } ; /* Special case for coding_history because we may want to append. */ if (info->coding_history != NULL) { if (info->coding_hist_append) { int slen = strlen (binfo.coding_history) ; while (slen > 1 && isspace (binfo.coding_history [slen - 1])) slen -- ; memcpy (binfo.coding_history + slen, info->coding_history, sizeof (binfo.coding_history) - slen) ; } else { size_t slen = MIN (strlen (info->coding_history), sizeof (binfo.coding_history)) ; memset (binfo.coding_history, 0, sizeof (binfo.coding_history)) ; memcpy (binfo.coding_history, info->coding_history, slen) ; binfo.coding_history_size = slen ; } ; } ; if (sf_command (outfile, SFC_SET_BROADCAST_INFO, &binfo, sizeof (binfo)) == 0) { printf ("Error : Setting of broadcast info chunks failed.\n\n") ; return 1 ; } ; return 0 ; } /* merge_broadcast_info*/ static void update_strings (SNDFILE * outfile, const METADATA_INFO * info) { if (info->title != NULL) sf_set_string (outfile, SF_STR_TITLE, info->title) ; if (info->copyright != NULL) sf_set_string (outfile, SF_STR_COPYRIGHT, info->copyright) ; if (info->artist != NULL) sf_set_string (outfile, SF_STR_ARTIST, info->artist) ; if (info->comment != NULL) sf_set_string (outfile, SF_STR_COMMENT, info->comment) ; if (info->date != NULL) sf_set_string (outfile, SF_STR_DATE, info->date) ; if (info->album != NULL) sf_set_string (outfile, SF_STR_ALBUM, info->album) ; if (info->license != NULL) sf_set_string (outfile, SF_STR_LICENSE, info->license) ; } /* update_strings */ void sfe_apply_metadata_changes (const char * filenames [2], const METADATA_INFO * info) { SNDFILE *infile = NULL, *outfile = NULL ; SF_INFO sfinfo ; METADATA_INFO tmpinfo ; int error_code = 0 ; memset (&sfinfo, 0, sizeof (sfinfo)) ; memset (&tmpinfo, 0, sizeof (tmpinfo)) ; if (filenames [1] == NULL) infile = outfile = sf_open (filenames [0], SFM_RDWR, &sfinfo) ; else { infile = sf_open (filenames [0], SFM_READ, &sfinfo) ; /* Output must be WAV. */ sfinfo.format = SF_FORMAT_WAV | (SF_FORMAT_SUBMASK & sfinfo.format) ; outfile = sf_open (filenames [1], SFM_WRITE, &sfinfo) ; } ; if (infile == NULL) { printf ("Error : Not able to open input file '%s' : %s\n", filenames [0], sf_strerror (infile)) ; error_code = 1 ; goto cleanup_exit ; } ; if (outfile == NULL) { printf ("Error : Not able to open output file '%s' : %s\n", filenames [1], sf_strerror (outfile)) ; error_code = 1 ; goto cleanup_exit ; } ; if (info->has_bext_fields && merge_broadcast_info (infile, outfile, sfinfo.format, info)) { error_code = 1 ; goto cleanup_exit ; } ; if (infile != outfile) { int infileminor = SF_FORMAT_SUBMASK & sfinfo.format ; /* If the input file is not the same as the output file, copy the data. */ if ((infileminor == SF_FORMAT_DOUBLE) || (infileminor == SF_FORMAT_FLOAT)) { if (sfe_copy_data_fp (outfile, infile, sfinfo.channels, SF_FALSE) != 0) { printf ("Error : Not able to decode input file '%s'\n", filenames [0]) ; error_code = 1 ; goto cleanup_exit ; } ; } else sfe_copy_data_int (outfile, infile, sfinfo.channels) ; } ; update_strings (outfile, info) ; cleanup_exit : if (outfile != NULL && outfile != infile) sf_close (outfile) ; if (infile != NULL) sf_close (infile) ; if (error_code) exit (error_code) ; return ; } /* sfe_apply_metadata_changes */ /*============================================================================== */ typedef struct { const char *ext ; int len ; int format ; } OUTPUT_FORMAT_MAP ; /* Map a file name extension to a container format. */ static OUTPUT_FORMAT_MAP format_map [] = { { "wav", 0, SF_FORMAT_WAV }, { "aif", 3, SF_FORMAT_AIFF }, { "au", 0, SF_FORMAT_AU }, { "snd", 0, SF_FORMAT_AU }, { "raw", 0, SF_FORMAT_RAW }, { "gsm", 0, SF_FORMAT_RAW | SF_FORMAT_GSM610 }, { "vox", 0, SF_FORMAT_RAW | SF_FORMAT_VOX_ADPCM }, { "paf", 0, SF_FORMAT_PAF | SF_ENDIAN_BIG }, { "fap", 0, SF_FORMAT_PAF | SF_ENDIAN_LITTLE }, { "svx", 0, SF_FORMAT_SVX }, { "nist", 0, SF_FORMAT_NIST }, { "sph", 0, SF_FORMAT_NIST }, { "voc", 0, SF_FORMAT_VOC }, { "ircam", 0, SF_FORMAT_IRCAM }, { "sf", 0, SF_FORMAT_IRCAM }, { "w64", 0, SF_FORMAT_W64 }, { "mat", 0, SF_FORMAT_MAT4 }, { "mat4", 0, SF_FORMAT_MAT4 }, { "mat5", 0, SF_FORMAT_MAT5 }, { "pvf", 0, SF_FORMAT_PVF }, { "xi", 0, SF_FORMAT_XI }, { "htk", 0, SF_FORMAT_HTK }, { "sds", 0, SF_FORMAT_SDS }, { "avr", 0, SF_FORMAT_AVR }, { "wavex", 0, SF_FORMAT_WAVEX }, { "sd2", 0, SF_FORMAT_SD2 }, { "flac", 0, SF_FORMAT_FLAC }, { "caf", 0, SF_FORMAT_CAF }, { "wve", 0, SF_FORMAT_WVE }, { "prc", 0, SF_FORMAT_WVE }, { "ogg", 0, SF_FORMAT_OGG }, { "oga", 0, SF_FORMAT_OGG }, { "opus", 0, SF_FORMAT_OGG | SF_FORMAT_OPUS }, { "mpc", 0, SF_FORMAT_MPC2K }, { "rf64", 0, SF_FORMAT_RF64 }, } ; /* format_map */ int sfe_file_type_of_ext (const char *str, int format) { char buffer [16], *cptr ; int k ; format &= SF_FORMAT_SUBMASK ; if ((cptr = strrchr (str, '.')) == NULL) return 0 ; strncpy (buffer, cptr + 1, 15) ; buffer [15] = 0 ; for (k = 0 ; buffer [k] ; k++) buffer [k] = tolower ((buffer [k])) ; for (k = 0 ; k < (int) (sizeof (format_map) / sizeof (format_map [0])) ; k++) { if ((format_map [k].len > 0 && strncmp (buffer, format_map [k].ext, format_map [k].len) == 0) || (strcmp (buffer, format_map [k].ext) == 0)) { if (format_map [k].format & SF_FORMAT_SUBMASK) return format_map [k].format ; else return format_map [k].format | format ; } ; } ; /* Default if all the above fails. */ return (SF_FORMAT_WAV | SF_FORMAT_PCM_24) ; } /* sfe_file_type_of_ext */ void sfe_dump_format_map (void) { SF_FORMAT_INFO info ; int k ; for (k = 0 ; k < ARRAY_LEN (format_map) ; k++) { info.format = format_map [k].format ; sf_command (NULL, SFC_GET_FORMAT_INFO, &info, sizeof (info)) ; printf (" %-10s : %s", format_map [k].ext, info.name == NULL ? "????" : info.name) ; if (format_map [k].format & SF_FORMAT_SUBMASK) { info.format = format_map [k].format & SF_FORMAT_SUBMASK ; sf_command (NULL, SFC_GET_FORMAT_INFO, &info, sizeof (info)) ; printf (" %s", info.name == NULL ? "????" : info.name) ; } ; putchar ('\n') ; } ; } /* sfe_dump_format_map */ const char * program_name (const char * argv0) { const char * tmp ; tmp = strrchr (argv0, '/') ; argv0 = tmp ? tmp + 1 : argv0 ; /* Remove leading libtool name mangling. */ if (strstr (argv0, "lt-") == argv0) return argv0 + 3 ; return argv0 ; } /* program_name */ const char * sfe_endian_name (int format) { switch (format & SF_FORMAT_ENDMASK) { case SF_ENDIAN_FILE : return "file" ; case SF_ENDIAN_LITTLE : return "little" ; case SF_ENDIAN_BIG : return "big" ; case SF_ENDIAN_CPU : return "cpu" ; default : break ; } ; return "unknown" ; } /* sfe_endian_name */ const char * sfe_container_name (int format) { switch (format & SF_FORMAT_TYPEMASK) { case SF_FORMAT_WAV : return "WAV" ; case SF_FORMAT_AIFF : return "AIFF" ; case SF_FORMAT_AU : return "AU" ; case SF_FORMAT_RAW : return "RAW" ; case SF_FORMAT_PAF : return "PAF" ; case SF_FORMAT_SVX : return "SVX" ; case SF_FORMAT_NIST : return "NIST" ; case SF_FORMAT_VOC : return "VOC" ; case SF_FORMAT_IRCAM : return "IRCAM" ; case SF_FORMAT_W64 : return "W64" ; case SF_FORMAT_MAT4 : return "MAT4" ; case SF_FORMAT_MAT5 : return "MAT5" ; case SF_FORMAT_PVF : return "PVF" ; case SF_FORMAT_XI : return "XI" ; case SF_FORMAT_HTK : return "HTK" ; case SF_FORMAT_SDS : return "SDS" ; case SF_FORMAT_AVR : return "AVR" ; case SF_FORMAT_WAVEX : return "WAVEX" ; case SF_FORMAT_SD2 : return "SD2" ; case SF_FORMAT_FLAC : return "FLAC" ; case SF_FORMAT_CAF : return "CAF" ; case SF_FORMAT_WVE : return "WVE" ; case SF_FORMAT_OGG : return "OGG" ; case SF_FORMAT_MPC2K : return "MPC2K" ; case SF_FORMAT_RF64 : return "RF64" ; default : break ; } ; return "unknown" ; } /* sfe_container_name */ const char * sfe_codec_name (int format) { switch (format & SF_FORMAT_SUBMASK) { case SF_FORMAT_PCM_S8 : return "signed 8 bit PCM" ; case SF_FORMAT_PCM_16 : return "16 bit PCM" ; case SF_FORMAT_PCM_24 : return "24 bit PCM" ; case SF_FORMAT_PCM_32 : return "32 bit PCM" ; case SF_FORMAT_PCM_U8 : return "unsigned 8 bit PCM" ; case SF_FORMAT_FLOAT : return "32 bit float" ; case SF_FORMAT_DOUBLE : return "64 bit double" ; case SF_FORMAT_ULAW : return "u-law" ; case SF_FORMAT_ALAW : return "a-law" ; case SF_FORMAT_IMA_ADPCM : return "IMA ADPCM" ; case SF_FORMAT_MS_ADPCM : return "MS ADPCM" ; case SF_FORMAT_GSM610 : return "gsm610" ; case SF_FORMAT_VOX_ADPCM : return "Vox ADPCM" ; case SF_FORMAT_G721_32 : return "g721 32kbps" ; case SF_FORMAT_G723_24 : return "g723 24kbps" ; case SF_FORMAT_G723_40 : return "g723 40kbps" ; case SF_FORMAT_DWVW_12 : return "12 bit DWVW" ; case SF_FORMAT_DWVW_16 : return "16 bit DWVW" ; case SF_FORMAT_DWVW_24 : return "14 bit DWVW" ; case SF_FORMAT_DWVW_N : return "DWVW" ; case SF_FORMAT_DPCM_8 : return "8 bit DPCM" ; case SF_FORMAT_DPCM_16 : return "16 bit DPCM" ; case SF_FORMAT_VORBIS : return "Vorbis" ; case SF_FORMAT_ALAC_16 : return "16 bit ALAC" ; case SF_FORMAT_ALAC_20 : return "20 bit ALAC" ; case SF_FORMAT_ALAC_24 : return "24 bit ALAC" ; case SF_FORMAT_ALAC_32 : return "32 bit ALAC" ; case SF_FORMAT_OPUS : return "Opus" ; default : break ; } ; return "unknown" ; } /* sfe_codec_name */