/* * Command line parsing related functions * * Copyright (c) 1999 Mark Taylor * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* $Id: parse.c,v 1.68 2001/03/11 11:24:25 aleidinger Exp $ */ #include #include #include #include #include #ifdef HAVE_CONFIG_H # include #endif #include "lame.h" #include "brhist.h" #include "parse.h" #include "main.h" #include "get_audio.h" /* GLOBAL VARIABLES. set by parse_args() */ /* we need to clean this up */ sound_file_format input_format; int swapbytes; /* force byte swapping default=0*/ int silent; int brhist; float update_interval; /* to use Frank's time status display */ int mp3_delay; /* to adjust the number of samples truncated during decode */ int mp3_delay_set; /* user specified the value of the mp3 encoder delay to assume for decoding */ /* * license - Writes version and license to the file specified by fp */ static int lame_version_print(FILE*const fp) { const char *v = get_lame_version(); const char *u = get_lame_url(); const int lenv = strlen(v); const int lenu = strlen (u); const int lw = 80; /* line width of terminal in characters */ const int sw = 16; /* static width of text */ if (lw >= lenv + lenu + sw || lw < lenu + 2) /* text fits in 80 chars/line, or line even too small for url */ fprintf(fp, "mp3enc (from lame version %s (%s))\n\n", v, u); else /* text too long, wrap url into next line, right aligned */ fprintf(fp, "mp3enc (from lame version %s)\n%*s(%s)\n\n", v, lw - 2 - lenu, "", u); return 0; } /* print version & license */ int print_license(const lame_global_flags*gfp, FILE*const fp, const char*ProgramName) { lame_version_print(fp); fprintf(fp, "Can I use LAME in my commercial program?\n\n" "Yes, you can, under the restrictions of the LGPL. In particular, you\n" "can include a compiled version of the LAME library (for example,\n" "lame.dll) with a commercial program. Some notable requirements of\n" "the LGPL:\n" "\n" "1. In your program, you cannot include any source code from LAME, with\n" " the exception of files whose only purpose is to describe the library\n" " interface (such as lame.h).\n" "\n" "2. Any modifications of LAME must be released under the LGPL.\n" " The LAME project (www.mp3dev.org) would appreciate being\n" " notified of any modifications.\n" "\n" "3. You must give prominent notice that your program is:\n" " A. using LAME (including version number)\n" " B. LAME is under the LGPL\n" " C. Provide a copy of the LGPL. (the file COPYING contains the LGPL)\n" " D. Provide a copy of LAME source, or a pointer where the LAME\n" " source can be obtained (such as www.mp3dev.org)\n" " An example of prominent notice would be an \"About the LAME encoding engine\"\n" " button in some pull down menu within the executable of your program.\n" "\n" "4. If you determine that distribution of LAME requires a patent license,\n" " you must obtain such license.\n" "\n" "\n" "*** IMPORTANT NOTE ***\n" "\n" "The decoding functions provided in LAME use the mpglib decoding engine which\n" "is under the GPL. They may not be used by any program not released under the\n" "GPL unless you obtain such permission from the MPG123 project (www.mpg123.de).\n" "\n"); return 0; } /* * usage - Writes command line syntax to the file specified by fp */ /* print general syntax */ int usage(const lame_global_flags*gfp, FILE*const fp, const char*ProgramName) { lame_version_print(fp); fprintf(fp, "usage: %s [options] [outfile]\n\n" " and/or can be \"-\", which means stdin/stdout.\n" "\n" "Try \"%s --help\" for more information\n" " or \"%s --longhelp\"\n" " or \"%s -?\" for a complete options list\n\n", ProgramName, ProgramName, ProgramName, ProgramName); return 0; } /* * short_help - Writes command line syntax to the file specified by fp * but only the most important ones, to fit on a vt100 terminal */ /* print short syntax help */ int short_help(const lame_global_flags*gfp, FILE*const fp, const char*ProgramName) { lame_version_print(fp); fprintf(fp, "usage: %s [options] [outfile]\n\n" " and/or can be \"-\", which means stdin/stdout.\n" "\n" "RECOMMENDED:\n" " mp3enc -h input.wav output.mp3\n" "\n" "OPTIONS:\n" " -b bitrate set the bitrate, default 128 kbps\n" " -f fast mode (lower quality)\n" " -h higher quality, but a little slower. Recommended.\n" " -k keep ALL frequencies (disables all filters)\n" " Can cause ringing and twinkling\n" " -m mode (s)tereo, (j)oint, (m)ono or (a)uto\n" " default is (j) or (s) depending on bitrate\n" " -V n quality setting for VBR. default n=%i\n" "\n" " --preset type type must be phone, voice, fm, tape, hifi, cd or studio\n" " \"--preset help\" gives some more infos on these\n" "\n" " --longhelp full list of options\n" "\n", ProgramName, gfp->VBR_q); return 0; } /* * wait_for - Writes command line syntax to the file specified by fp */ static void wait_for (FILE*const fp, int lessmode) { if (lessmode ) { fflush(fp); getchar (); } else fprintf(fp, "\n"); fprintf(fp, "\n"); } /* print long syntax help */ int long_help(const lame_global_flags*gfp, FILE*const fp, const char*ProgramName, int lessmode) { lame_version_print(fp); fprintf(fp, "usage: %s [options] [outfile]\n\n" " and/or can be \"-\", which means stdin/stdout.\n" "\n" "RECOMMENDED:\n" " mp3enc -h input.wav output.mp3\n" "\n" "OPTIONS:\n" " Input options:\n" " -r input is raw pcm\n" " -x force byte-swapping of input\n" " -s sfreq sampling frequency of input file (kHz) - default 44.1 kHz\n" " --mp1input input file is a MPEG Layer I file\n" " --mp2input input file is a MPEG Layer II file\n" " --mp3input input file is a MPEG Layer III file\n" " --ogginput input file is a Ogg Vorbis file", ProgramName); wait_for (fp, lessmode); fprintf(fp, " Operational options:\n" " -m (s)tereo, (j)oint, (f)orce, (m)ono or (a)auto \n" " default is (s) or (j) depending on bitrate\n" " force = force ms_stereo on all frames.\n" " auto = jstereo, with varialbe mid/side threshold\n" " -a downmix from stereo to mono file for mono encoding\n" " -d allow channels to have different blocktypes\n" " --disptime print progress report every arg seconds\n" " --ogg encode to Ogg Vorbis instead of MP3\n" " --freeformat produce a free format bitstream\n" " --decode input=mp3 file, output=wav\n" " -t disable writing wav header when using --decode\n" " --comp choose bitrate to achive a compression ratio of \n" " --scale scale input (multiply PCM data) by \n" " --athonly only use the ATH for masking\n" " --noath disable the ATH for masking\n" " --athlower x lower the ATH x dB\n" " --notemp disable temporal masking effect\n" " --short use short blocks\n" " --noshort do not use short blocks\n" " --voice experimental voice mode\n" " --preset type type must be phone, voice, fm, tape, hifi, cd or studio\n" " \"--preset help\" gives some more infos on these"); wait_for (fp, lessmode); fprintf(fp, " Verbosity:\n" " -S don't print progress report, VBR histograms\n" " --silent don't print anything on screen\n" " --quiet don't print anything on screen\n" " --verbose print a lot of useful information, default\n" "\n" " Noise shaping & psycho acoustic algorithms:\n" " -q = 0...9. Default -q 5 \n" " -q 0: Highest quality, very slow \n" " -q 9: Poor quality, but fast \n" " -h Same as -q 2. Recommended.\n" " -f Same as -q 7. Fast, ok quality\n"); wait_for (fp, lessmode); fprintf(fp, " CBR (constant bitrate, the default) options:\n" " -b set the bitrate in kbps, default 128 kbps\n" "\n" " ABR options:\n" " --abr specify average bitrate desired (instead of quality)\n" "\n" " VBR options:\n" " -v use variable bitrate (VBR) (--vbr-old)\n" " --vbr-old use old variable bitrate (VBR) routine\n" " --vbr-new use new variable bitrate (VBR) routine\n" " --vbr-mtrh a merger of old and new (VBR) routine\n" " -V n quality setting for VBR. default n=%i\n" " 0=high quality,bigger files. 9=smaller files\n" " -b specify minimum allowed bitrate, default 32 kbps\n" " -B specify maximum allowed bitrate, default 320 kbps\n" " -F strictly enforce the -b option, for use with players that\n" " do not support low bitrate mp3 (Apex AD600-A DVD/mp3 player)\n" " -t disable writing Xing VBR informational tag\n" " --nohist disable VBR histogram display", gfp->VBR_q); wait_for (fp, lessmode); fprintf(fp, " MP3 header/stream options:\n" " -e de-emphasis n/5/c (obsolete)\n" " -c mark as copyright\n" " -o mark as non-original\n" " -p error protection. adds 16 bit checksum to every frame\n" " (the checksum is computed correctly)\n" " --nores disable the bit reservoir\n" " --strictly-enforce-ISO comply as much as possible to ISO MPEG spec\n" "\n" " Filter options:\n" " -k keep ALL frequencies (disables all filters),\n" " Can cause ringing and twinkling\n" " --lowpass frequency(kHz), lowpass filter cutoff above freq\n" " --lowpass-width frequency(kHz) - default 15%% of lowpass freq\n" " --highpass frequency(kHz), highpass filter cutoff below freq\n" " --highpass-width frequency(kHz) - default 15%% of highpass freq\n" " --resample sampling frequency of output file(kHz)- default=automatic\n" " --cwlimit compute tonality up to freq (in kHz) default 8.8717"); wait_for (fp, lessmode); fprintf(fp, " ID3 tag options:\n" " --tt audio/song title (max 30 chars for version 1 tag)\n" " --ta <artist> audio/song artist (max 30 chars for version 1 tag)\n" " --tl <album> audio/song album (max 30 chars for version 1 tag)\n" " --ty <year> audio/song year of issue (1 to 9999)\n" " --tc <comment> user-defined text (max 30 chars for v1 tag, 28 for v1.1)\n" " --tn <track> audio/song track number (1 to 255, creates v1.1 tag)\n" " --tg <genre> audio/song genre (name or number in list)\n" " --add-id3v2 force addition of version 2 tag\n" " --id3v1-only add only a version 1 tag\n" " --id3v2-only add only a version 2 tag\n" " --space-id3v1 pad version 1 tag with spaces instead of nulls\n" " --pad-id3v2 pad version 2 tag with extra 128 bytes\n" " --genre-list print alphabetically sorted ID3 genre list and exit\n" "\n" " Note: A version 2 tag will NOT be added unless one of the input fields\n" " won't fit in a version 1 tag (e.g. the title string is longer than 30\n" " characters), or the '--add-id3v2' or '--id3v2-only' options are used,\n" " or output is redirected to stdout." #if defined(HAVE_VORBIS) "\n\n" " Note: All '--t*' options (except those for track and genre) work for Ogg\n" " Vorbis output, but other ID3-specific options are ignored." #endif ); wait_for (fp, lessmode); display_bitrates(fp); return 0; } static void display_bitrate(FILE*const fp, const char*const version, const int div, const int index) { int i; fprintf(fp, "\nMPEG-%-3s layer III sample frequencies (kHz): %2d %2d %g\n" "bitrates (kbps):", version, 32 / div, 48 / div, 44.1 / div); for (i = 1; i <= 14; i++) fprintf(fp, " %2i", bitrate_table [index] [i]); fprintf(fp, "\n"); } int display_bitrates(FILE*const fp) { display_bitrate(fp, "1" , 1, 1); display_bitrate(fp, "2" , 2, 0); display_bitrate(fp, "2.5", 4, 0); fprintf(fp, "\n"); fflush(fp); return 0; } typedef struct { const char*name; /* name of preset */ long resample; /* resample frequency in Hz, or -1 for no resampling */ short highpass_freq; /* highpass frequency in Hz, or -1 for no highpass filtering */ short lowpass_freq; /* lowpass frequency in Hz, or -1 for no lowpass filtering */ short lowpass_width; /* lowpass width in Hz */ signed char no_short_blocks; /* use of short blocks, 1: no, 0: yes */ signed char quality; /* quality, the same as -f or -h */ MPEG_mode mode; /* channel mode (mono, stereo, joint) */ short cbr; /* CBR data rate in kbps (8...320) */ signed char xvbr_mode; /* VBR mode (0...9) */ short vbr_min; /* minimum VBR rate in kbps(8...256) */ short vbr_max; /* maximum VBR rate in kbps (16...320) */ } preset_t; const preset_t Presets [] = { /* name fs fu fo dfo shrt qual mode cbr vbr_mode/min/max */ { "phone" , 8000, 125, 3400, 0, 1, 5, MONO , 16, 6, 8, 24 }, /* phone standard 300-3400 */ { "phon+" , 11025, 100, 4000, 0, 1, 5, MONO , 24, 4, 16, 32 }, /* phone theoretical limits */ { "lw" , 11025, -1, 4000, 0, 0, 5, MONO , 24, 3, 16, 56 }, /* LW */ { "mw-eu" , 11025, -1, 4000, 0, 0, 5, MONO , 24, 3, 16, 56 }, /* MW in europe */ { "mw-us" , 16000, -1, 7500, 0, 0, 5, MONO , 40, 3, 24, 112 }, /* MW in U.S.A. */ { "sw" , 11025, -1, 4000, 0, 0, 5, MONO , 24, 3, 16, 56 }, /* SW */ { "fm" , 32000, -1, 15000, 0, 0, 3, JOINT_STEREO, 112, 3, 80, 256 }, { "voice" , 24000, -1, 12000, 0, 1, 5, MONO , 56, 4, 40, 112 }, { "radio" , -1, -1, 15000, 0, 0, 3, JOINT_STEREO, 128, 3, 96, 256 }, { "tape" , -1, -1, 18000, 900, 0, 3, JOINT_STEREO, 128, 3, 96, 256 }, { "hifi" , -1, -1, 18000, 900, 0, -1, JOINT_STEREO, 160, 2, 112, 320 }, { "cd" , -1, -1, -1, -1, 0, -1, STEREO , 192, 1, 128, 320 }, { "studio", -1, -1, -1, -1, 0, -1, STEREO , 256, 0, 160, 320 }, }; /* * Writes presetting info to #stdout# */ /* print possible combination */ static int presets_info(const lame_global_flags*gfp, FILE*const fp, const char*ProgramName) { int i; fprintf(fp, "\n"); lame_version_print(fp); fprintf(fp, "Presets are some shortcuts for common settings.\n"); fprintf(fp, "They can be combined with -v if you want VBR MP3s.\n"); fprintf(fp, "\n "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) fprintf(fp, strlen(Presets[i].name) <= 4? "%5s ": " %-5s", Presets[i].name); fprintf(fp, "\n================="); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) fprintf(fp, "======"); fprintf(fp, "\n--resample "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) if (Presets[i].resample < 0) fprintf(fp, " "); else fprintf(fp, "%6.3g", Presets[i].resample * 1.e-3); fprintf(fp, "\n--highpass "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) if (Presets[i].highpass_freq < 0) fprintf(fp, " "); else fprintf(fp, "%6.3g", Presets[i].highpass_freq * 1.e-3); fprintf(fp, "\n--lowpass "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) if (Presets[i].lowpass_freq < 0) fprintf(fp, " "); else fprintf(fp, "%6.3g", Presets[i].lowpass_freq * 1.e-3); fprintf(fp, "\n--lowpass-width "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) if (Presets[i].lowpass_width < 0) fprintf(fp, " "); else fprintf(fp, "%6.3g", Presets[i].lowpass_width * 1.e-3); fprintf(fp, "\n--noshort "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) switch (Presets[i].no_short_blocks ) { case 1: fprintf(fp, " yes"); break; case 0: fprintf(fp, " no"); break; case -1: fprintf(fp, " "); break; default: assert (0); break; } fprintf(fp, "\n "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) switch (Presets[i].mode ) { case MONO: fprintf(fp, " -mm"); break; case JOINT_STEREO: fprintf(fp, " -mj"); break; case STEREO: fprintf(fp, " -ms"); break; case -1: fprintf(fp, " "); break; default: assert (0); break; } fprintf(fp, "\n "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) switch (Presets[i].quality ) { case -1: fprintf(fp, " "); break; case 2: fprintf(fp, " -h"); break; case 3: fprintf(fp, " -q3"); break; case 5: fprintf(fp, " "); break; case 7: fprintf(fp, " -f"); break; default: assert (0); break; } fprintf(fp, "\n-b "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) fprintf(fp, "%6u", Presets[i].cbr); fprintf(fp, "\n-- PLUS WITH -v "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) fprintf(fp, "------"); fprintf(fp, "-\n-V "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) fprintf(fp, "%6u", Presets[i].xvbr_mode); fprintf(fp, "\n-b "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) fprintf(fp, "%6u", Presets[i].vbr_min); fprintf(fp, "\n-B "); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) fprintf(fp, "%6u", Presets[i].vbr_max); fprintf(fp, "\n----------------"); for (i = 0; i < sizeof(Presets) / sizeof(*Presets); i++) fprintf(fp, "------"); fprintf(fp, "-\nEXAMPLES:\n"); fprintf(fp, " a) --preset fm\n"); fprintf(fp, " equal to: -mj -b112 --resample 32 --lowpass 15 --lowpass-width 0\n"); fprintf(fp, " b) -v --preset studio\n"); fprintf(fp, " equals to: -h -ms -V0 -b160 -B320\n"); return 0; } static int presets_setup(lame_global_flags*gfp, const char*preset_name, const char*ProgramName) { int i; for (i = 0; i < sizeof Presets / sizeof *Presets; i++) if (0 == strncmp(preset_name, Presets[i].name, strlen(preset_name))) { if (Presets[i].resample >= 0) (void) lame_set_out_samplerate(gfp, Presets[i].resample); if (Presets[i].highpass_freq >= 0) gfp ->highpassfreq = Presets[i].highpass_freq, gfp ->highpasswidth = 0; gfp ->lowpassfreq = Presets[i].lowpass_freq; gfp ->lowpasswidth = Presets[i].lowpass_width; gfp ->no_short_blocks = Presets[i].no_short_blocks; (void) lame_set_quality(gfp, Presets[i].quality); (void) lame_set_mode(gfp, Presets[i].mode); gfp ->brate = Presets[i].cbr; gfp ->VBR_q = Presets[i].xvbr_mode; gfp ->VBR_min_bitrate_kbps = Presets[i].vbr_min; gfp ->VBR_max_bitrate_kbps = Presets[i].vbr_max; return 0; } presets_info(gfp, stderr, ProgramName); return -1; } static void genre_list_handler(int num, const char *name, void *cookie) { printf("%3d %s\n", num, name); } /* * parse_args - Sets encoding parameters to the specifications of the * command line. Default settings are used for parameters * not specified in the command line. * * If the input file is in WAVE or AIFF format, the sampling frequency is read * from the AIFF header. * * The input and output filenames are read into #inpath# and #outpath#. */ /* would use real "strcasecmp" but it isn't portable */ static int local_strcasecmp(const char*s1, const char*s2) { unsigned char c1, c2; do { c1 = tolower(*s1); c2 = tolower(*s2); if (!c1) break; ++s1; ++s2; } while (c1 == c2); return c1 - c2; } /* * LAME is a simple frontend which just uses the file extension * to determine the file type. Trying to analyze the file * contents is well beyond the scope of LAME and should not be added. */ static int filename_to_type(const char*FileName) { int len = strlen(FileName); if (len < 4) return sf_unknown; FileName += len - 4; if (0 == local_strcasecmp(FileName, ".mpg" )) return sf_mp1; if (0 == local_strcasecmp(FileName, ".mp1" )) return sf_mp1; if (0 == local_strcasecmp(FileName, ".mp2" )) return sf_mp2; if (0 == local_strcasecmp(FileName, ".mp3" )) return sf_mp3; if (0 == local_strcasecmp(FileName, ".ogg" )) return sf_ogg; if (0 == local_strcasecmp(FileName, ".wav" )) return sf_wave; if (0 == local_strcasecmp(FileName, ".aif" )) return sf_aiff; if (0 == local_strcasecmp(FileName, ".raw" )) return sf_raw; return sf_unknown; } static int resample_rate(double freq) { if (freq >= 1.e3) freq *= 1.e-3; switch ((int)freq) { case 8: return 8000; case 11: return 11025; case 12: return 12000; case 16: return 16000; case 22: return 22050; case 24: return 24000; case 32: return 32000; case 44: return 44100; case 48: return 48000; default: fprintf(stderr, "Illegal resample frequency: %.3f kHz\n", freq); return 0; } } /* Ugly, NOT final version */ #define T_IF(str) if (0 == local_strcasecmp (token,str) ) { #define T_ELIF(str) } else if (0 == local_strcasecmp (token,str) ) { #define T_ELIF2(str1,str2) } else if (0 == local_strcasecmp(token,str1) || \ 0 == local_strcasecmp(token,str2)) { #define T_ELSE } else { #define T_END } int parse_args(lame_global_flags*gfp, int argc, char **argv) { int err, i, autoconvert = 0; double val; const char *ProgramName = argv[0]; /* turn on display options. user settings may turn them off below */ silent = 0; brhist = 1; mp3_delay = 0; mp3_delay_set = 0; id3tag_init(gfp); /* process args */ for (i = 0, err = 0; ++i < argc && !err; ) { char c; char *token, *arg, *nextArg; int argUsed; token = argv[i]; if (*token++ == '-' ) { argUsed = 0; nextArg = i + 1 < argc? argv[i+1]: ""; if (*token == '-') { /* GNU style */ token++; T_IF ("resample") argUsed = 1; (void) lame_set_out_samplerate(gfp, resample_rate(atof (nextArg) )); T_ELIF ("vbr-old") gfp->VBR = vbr_rh; T_ELIF ("vbr-new") gfp->VBR = vbr_mt; T_ELIF ("vbr-mtrh") gfp->VBR = vbr_mtrh; T_ELIF ("r3mix") gfp->VBR = vbr_rh; gfp->VBR_q = 1; (void) lame_set_quality(gfp, 2); gfp->lowpassfreq = 19500; (void) lame_set_mode(gfp, JOINT_STEREO); gfp->ATHtype = 3; gfp->VBR_min_bitrate_kbps = 64; T_ELIF ("abr") argUsed = 1; gfp->VBR = vbr_abr; gfp->VBR_mean_bitrate_kbps = atoi(nextArg); /* * values larger than 8000 are bps (like * Fraunhofer), so it's strange to get 320000 * bps MP3 when specifying 8000 bps MP3. */ if (gfp ->VBR_mean_bitrate_kbps >= 8000) gfp->VBR_mean_bitrate_kbps = (gfp->VBR_mean_bitrate_kbps + 500 )/1000; gfp->VBR_mean_bitrate_kbps = Min(gfp->VBR_mean_bitrate_kbps, 320); gfp->VBR_mean_bitrate_kbps = Max(gfp->VBR_mean_bitrate_kbps, 8); T_ELIF ("mp1input") input_format = sf_mp1; T_ELIF ("mp2input") input_format = sf_mp2; T_ELIF ("mp3input") input_format = sf_mp3; T_ELIF ("ogginput") #if defined(HAVE_VORBIS) input_format = sf_ogg; #else fprintf(stderr, "Error: mp3enc not compiled with Vorbis support\n"); return -1; #endif T_ELIF ("ogg") #if defined(HAVE_VORBIS) (void) lame_set_ogg(gfp, 1); #else fprintf(stderr, "Error: mp3enc not compiled with Vorbis support\n"); return -1; #endif T_ELIF ("phone") if (presets_setup(gfp, token, ProgramName ) < 0) return -1; T_ELIF ("voice") if (presets_setup(gfp, token, ProgramName ) < 0) return -1; T_ELIF ("radio") if (presets_setup(gfp, token, ProgramName ) < 0) return -1; T_ELIF ("tape") if (presets_setup(gfp, token, ProgramName ) < 0) return -1; T_ELIF ("cd") if (presets_setup(gfp, token, ProgramName ) < 0) return -1; T_ELIF ("studio") if (presets_setup(gfp, token, ProgramName ) < 0) return -1; T_ELIF ("noshort") gfp->no_short_blocks = 1; T_ELIF ("short") gfp->no_short_blocks = 0; T_ELIF ("decode") (void) lame_set_decode_only(gfp, 1); T_ELIF ("decode-mp3delay") mp3_delay = atoi(nextArg); mp3_delay_set = 1; argUsed = 1; T_ELIF ("noath") gfp->noATH = 1; T_ELIF ("nores") gfp->disable_reservoir = 1; gfp->padding_type = 0; T_ELIF ("strictly-enforce-ISO") gfp->strict_ISO = 1; T_ELIF ("athonly") gfp->ATHonly = 1; T_ELIF ("athlower") argUsed = 1; gfp->ATHlower = atof(nextArg); T_ELIF ("athtype") argUsed = 1; gfp->ATHtype = atoi(nextArg); T_ELIF ("scale") argUsed = 1; (void) lame_set_scale(gfp, atof(nextArg)); T_ELIF ("freeformat") gfp->free_format = 1; T_ELIF ("athshort") gfp->ATHshort = 1; T_ELIF ("nohist") brhist = 0; /* options for ID3 tag */ T_ELIF ("tt") argUsed = 1; id3tag_set_title(gfp, nextArg); T_ELIF ("ta") argUsed = 1; id3tag_set_artist(gfp, nextArg); T_ELIF ("tl") argUsed = 1; id3tag_set_album(gfp, nextArg); T_ELIF ("ty") argUsed = 1; id3tag_set_year(gfp, nextArg); T_ELIF ("tc") argUsed = 1; id3tag_set_comment(gfp, nextArg); T_ELIF ("tn") argUsed = 1; id3tag_set_track(gfp, nextArg); T_ELIF ("tg") argUsed = 1; if (id3tag_set_genre(gfp, nextArg)) { fprintf(stderr, "Unknown genre: %s. Specify genre name or number\n", nextArg); return -1; } T_ELIF ("add-id3v2") id3tag_add_v2(gfp); T_ELIF ("id3v1-only") id3tag_v1_only(gfp); T_ELIF ("id3v2-only") id3tag_v2_only(gfp); T_ELIF ("space-id3v1") id3tag_space_v1(gfp); T_ELIF ("pad-id3v2") id3tag_pad_v2(gfp); T_ELIF ("genre-list") id3tag_genre_list(genre_list_handler, NULL); return - 2; T_ELIF ("lowpass") val = atof(nextArg); argUsed = 1; /* useful are 0.001 kHz...50 kHz, 50 Hz...50000 Hz */ gfp ->lowpassfreq = val * (val < 50. ? 1.e3 : 1.e0 ) + 0.5; if (val < 0.001 || val > 50000. ) { fprintf(stderr, "Must specify lowpass with --lowpass freq, freq >= 0.001 kHz\n"); return -1; } T_ELIF ("lowpass-width") argUsed = 1; gfp->lowpasswidth = 1000.0 * atof(nextArg ) + 0.5; if (gfp->lowpasswidth < 0) { fprintf(stderr, "Must specify lowpass width with --lowpass-width freq, freq >= 0 kHz\n"); return -1; } T_ELIF ("highpass") val = atof(nextArg); argUsed = 1; /* useful are 0.001 kHz...16 kHz, 16 Hz...50000 Hz */ gfp->highpassfreq = val * (val < 16. ? 1.e3 : 1.e0 ) + 0.5; if (val < 0.001 || val > 50000. ) { fprintf(stderr, "Must specify highpass with --highpass freq, freq >= 0.001 kHz\n"); return -1; } T_ELIF ("highpass-width") argUsed = 1; gfp->highpasswidth = 1000.0 * atof(nextArg ) + 0.5; if (gfp->highpasswidth < 0) { fprintf(stderr, "Must specify highpass width with --highpass-width freq, freq >= 0 kHz\n"); return -1; } T_ELIF ("cwlimit") val = atof (nextArg); argUsed = 1; /* useful are 0.001 kHz...50 kHz, 50 Hz...50000 Hz */ gfp ->cwlimit = val *(val <= 50. ? 1.e3 : 1.e0); if (gfp->cwlimit <= 0 ) { fprintf(stderr, "Must specify cwlimit with --cwlimit freq, freq >= 0.001 kHz\n"); return -1; } T_ELIF ("comp") argUsed = 1; gfp->compression_ratio = atof(nextArg); if (gfp->compression_ratio < 1.0 ) { fprintf(stderr, "Must specify compression ratio >= 1.0\n"); return -1; } T_ELIF ("notemp") gfp->useTemporal = 0; T_ELIF ("nspsytune") gfp->exp_nspsytune |= 1; gfp->experimentalZ = 1; gfp->experimentalX = 1; T_ELIF ("nssafejoint") gfp->exp_nspsytune |= 2; T_ELIF ("ns-bass") argUsed = 1; { double d; int k; d = atof(nextArg); k = (int)(d * 4); if (k < -32) k = -32; if (k > 31) k = 31; if (k < 0) k += 64; gfp->exp_nspsytune |= (k << 2); } T_ELIF ("ns-alto") argUsed = 1; { double d; int k; d = atof(nextArg); k = (int)(d * 4); if (k < -32) k = -32; if (k > 31) k = 31; if (k < 0) k += 64; gfp->exp_nspsytune |= (k << 8); } T_ELIF ("ns-treble") argUsed = 1; { double d; int k; d = atof(nextArg); k = (int)(d * 4); if (k < -32) k = -32; if (k > 31) k = 31; if (k < 0) k += 64; gfp->exp_nspsytune |= (k << 14); } /* some more GNU-ish options could be added * brief => few messages on screen (name, status report) * o/output file => specifies output filename * O => stdout * i/input file => specifies input filename * I => stdin */ T_ELIF2 ("quiet", "silent") silent = 10; /* on a scale from 1 to 10 be very silent */ T_ELIF ("verbose") silent = 0; /* print a lot on screen, the default */ T_ELIF2 ("version", "license") print_license(gfp, stdout, ProgramName); return - 2; T_ELIF2 ("help", "usage") short_help(gfp, stdout, ProgramName); return - 2; T_ELIF ("longhelp") long_help(gfp, stdout, ProgramName, 0 /* lessmode=NO */); return - 2; T_ELIF ("?") long_help(gfp, stdout, ProgramName, 1 /* lessmode=YES */); return - 2; T_ELIF ("preset") argUsed = 1; if (presets_setup(gfp, nextArg, ProgramName ) < 0) return -1; T_ELIF ("disptime") argUsed = 1; update_interval = atof (nextArg); T_ELSE fprintf(stderr, "%s: unrec option --%s\n", ProgramName, token); T_END i += argUsed; } else { while ((c = *token++) != '\0' ) { arg = *token ? token : nextArg; switch (c) { case 'm': argUsed = 1; switch (*arg ) { case 's': (void) lame_set_mode(gfp, STEREO); break; case 'd': (void) lame_set_mode(gfp, DUAL_CHANNEL); fprintf(stderr, "%s: dual channel is not supported yet, the result (perhaps stereo)\n" " may not be what you expect\n", ProgramName); break; case 'f': gfp->force_ms = 1; /* FALLTHROUGH */ case 'j': (void) lame_set_mode(gfp, JOINT_STEREO); break; case 'm': (void) lame_set_mode(gfp, MONO); break; case 'a': (void) lame_set_mode_automs(gfp, 1); /* lame picks mode & uses variable MS threshold */ break; default : fprintf(stderr, "%s: -m mode must be s/d/j/f/m not %s\n", ProgramName, arg); err = 1; break; } break; case 'V': argUsed = 1; /* to change VBR default look in lame.h */ if (gfp->VBR == vbr_off) gfp->VBR = vbr_default; gfp->VBR_q = atoi(arg); if (gfp->VBR_q < 0) gfp->VBR_q = 0; if (gfp->VBR_q > 9) gfp->VBR_q = 9; break; case 'v': /* to change VBR default look in lame.h */ if (gfp->VBR == vbr_off) gfp->VBR = vbr_default; break; case 'q': argUsed = 1; { int tmp_quality = atoi(arg); /* XXX should we move this into lame_set_quality()? */ if (tmp_quality < 0) tmp_quality = 0; if (tmp_quality > 9) tmp_quality = 9; (void) lame_set_quality(gfp, tmp_quality); } break; case 'f': (void) lame_set_quality(gfp, 7); break; case 'h': (void) lame_set_quality(gfp, 2); break; case 's': argUsed = 1; val = atof(arg); (void) lame_set_in_samplerate(gfp, val *(val <= 192 ? 1.e3 : 1.e0 ) + 0.5); break; case 'b': argUsed = 1; gfp->brate = atoi(arg); gfp->VBR_min_bitrate_kbps = gfp->brate; break; case 'B': argUsed = 1; gfp->VBR_max_bitrate_kbps = atoi(arg); break; case 'F': gfp->VBR_hard_min = 1; break; case 't': /* dont write VBR tag */ (void) lame_set_bWriteVbrTag(gfp, 0); (void) lame_set_disable_waveheader(gfp, 1); break; case 'r': /* force raw pcm input file */ #if defined(LIBSNDFILE) fprintf(stderr, "WARNING: libsndfile may ignore -r and perform fseek's on the input.\n" "Compile without libsndfile if this is a problem.\n"); #endif input_format = sf_raw; break; case 'x': /* force byte swapping */ swapbytes = 1; break; case 'p': /* (jo) error_protection: add crc16 information to stream */ gfp->error_protection = 1; break; case 'a': /* autoconvert input file from stereo to mono - for mono mp3 encoding */ autoconvert = 1; (void) lame_set_mode(gfp, MONO); break; case 'k': gfp->lowpassfreq = -1; gfp->highpassfreq = -1; break; case 'd': gfp->allow_diff_short = 1; break; case 'S': silent = 1; break; case 'X': argUsed = 1; gfp->experimentalX = atoi(arg); break; case 'Y': gfp->experimentalY = 1; break; case 'Z': gfp->experimentalZ = 1; break; #if defined(HAVE_GTK) case 'g': /* turn on gtk analysis */ (void) lame_set_analysis(gfp, 1); break; #endif case 'e': argUsed = 1; switch (*arg) { case 'n': gfp ->emphasis = 0; break; case '5': gfp ->emphasis = 1; break; case 'c': gfp ->emphasis = 3; break; default : fprintf(stderr, "%s: -e emp must be n/5/c not %s\n", ProgramName, arg); err = 1; break; } break; case 'c': gfp->copyright = 1; break; case 'o': gfp->original = 0; break; case '?': long_help(gfp, stderr, ProgramName, 0 /* LESSMODE=NO */); return -1; default: fprintf(stderr, "%s: unrec option %c\n", ProgramName, c); err = 1; break; } if (argUsed) { if (arg == token) token = ""; /* no more from token */ else ++i; /* skip arg we used */ arg = ""; argUsed = 0; } } } } else { fprintf(stderr, "%s: excess arg %s\n", ProgramName, argv[i]); err = 1; } } if (err) { usage(gfp, stderr, ProgramName); return -1; } // if (inPath[0] == '-') silent = 1; /* turn off status - it's broken for stdin */ /* some file options not allowed with stdout */ // if (outPath[0] == '-') (void) lame_set_bWriteVbrTag(gfp, 0); /* turn off VBR tag */ #if !(defined HAVE_MPGLIB || defined AMIGA_MPEGA) if (input_format == sf_mp1 || input_format == sf_mp2 || input_format == sf_mp3) { fprintf(stderr, "Error: libmp3lame not compiled with mpg123 *decoding* support \n"); return -1; } #endif #if !(defined HAVE_VORBIS) if (input_format == sf_ogg) { fprintf(stderr, "Error: mp3enc not compiled with Vorbis support\n"); return -1; } #endif /* default guess for number of channels */ if (autoconvert) (void) lame_set_num_channels(gfp, 2); else if (MONO == lame_get_mode(gfp )) (void) lame_set_num_channels(gfp, 1); else (void) lame_set_num_channels(gfp, 2); if (gfp->free_format) { if (gfp ->brate < 8 || gfp ->brate > 640) { fprintf(stderr, "For free format, specify a bitrate between 8 and 640 kbps\n"); return -1; } } return 0; }