/* * Command line frontend program * * Copyright (c) 1999 Mark Taylor * 2000 Takehiro TOMINAGA * 2010-2011 Robert Hegemann * * 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: lame_main.c,v 1.9.2.1 2011/11/18 08:38:04 robert Exp $ */ #ifdef HAVE_CONFIG_H # include #endif #include #include #ifdef STDC_HEADERS # include # include #else # ifndef HAVE_STRCHR # define strchr index # define strrchr rindex # endif char *strchr(), *strrchr(); # ifndef HAVE_MEMCPY # define memcpy(d, s, n) bcopy ((s), (d), (n)) # define memmove(d, s, n) bcopy ((s), (d), (n)) # endif #endif #ifdef HAVE_FCNTL_H # include #endif #ifdef __sun__ /* woraround for SunOS 4.x, it has SEEK_* defined here */ #include #endif #if defined(_WIN32) # include #endif /* main.c is example code for how to use libmp3lame.a. To use this library, you only need the library and lame.h. All other .h files are private to the library. */ #include "lame.h" #include "console.h" #include "parse.h" #include "main.h" #include "get_audio.h" #include "timestatus.h" /* PLL 14/04/2000 */ #if macintosh #include #endif #ifdef WITH_DMALLOC #include #endif /************************************************************************ * * main * * PURPOSE: MPEG-1,2 Layer III encoder with GPSYCHO * psychoacoustic model. * ************************************************************************/ static int parse_args_from_string(lame_global_flags * const gfp, const char *p, char *inPath, char *outPath) { /* Quick & very Dirty */ char *q; char *f; char *r[128]; int c = 0; int ret; if (p == NULL || *p == '\0') return 0; f = q = malloc(strlen(p) + 1); strcpy(q, p); r[c++] = "lhama"; for (;;) { r[c++] = q; while (*q != ' ' && *q != '\0') q++; if (*q == '\0') break; *q++ = '\0'; } r[c] = NULL; ret = parse_args(gfp, c, r, inPath, outPath, NULL, NULL); free(f); return ret; } static FILE * init_files(lame_global_flags * gf, char const *inPath, char const *outPath) { FILE *outf; /* Mostly it is not useful to use the same input and output name. This test is very easy and buggy and don't recognize different names assigning the same file */ if (0 != strcmp("-", outPath) && 0 == strcmp(inPath, outPath)) { error_printf("Input file and Output file are the same. Abort.\n"); return NULL; } /* open the wav/aiff/raw pcm or mp3 input file. This call will * open the file, try to parse the headers and * set gf.samplerate, gf.num_channels, gf.num_samples. * if you want to do your own file input, skip this call and set * samplerate, num_channels and num_samples yourself. */ if (init_infile(gf, inPath) < 0) { error_printf("Can't init infile '%s'\n", inPath); return NULL; } if ((outf = init_outfile(outPath, lame_get_decode_only(gf))) == NULL) { error_printf("Can't init outfile '%s'\n", outPath); return NULL; } return outf; } static void printInputFormat(lame_t gfp) { int const v_main = 2 - lame_get_version(gfp); char const *v_ex = lame_get_out_samplerate(gfp) < 16000 ? ".5" : ""; switch (global_reader.input_format) { case sf_mp123: /* FIXME: !!! */ break; case sf_mp3: console_printf("MPEG-%u%s Layer %s", v_main, v_ex, "III"); break; case sf_mp2: console_printf("MPEG-%u%s Layer %s", v_main, v_ex, "II"); break; case sf_mp1: console_printf("MPEG-%u%s Layer %s", v_main, v_ex, "I"); break; case sf_raw: console_printf("raw PCM data"); break; case sf_wave: console_printf("Microsoft WAVE"); break; case sf_aiff: console_printf("SGI/Apple AIFF"); break; default: console_printf("unknown"); break; } } /* the simple lame decoder */ /* After calling lame_init(), lame_init_params() and * init_infile(), call this routine to read the input MP3 file * and output .wav data to the specified file pointer*/ /* lame_decoder will ignore the first 528 samples, since these samples * represent the mpglib delay (and are all 0). skip = number of additional * samples to skip, to (for example) compensate for the encoder delay */ static int lame_decoder(lame_t gfp, FILE * outf, char *inPath, char *outPath) { short int Buffer[2][1152]; int i, iread; double wavsize; int tmp_num_channels = lame_get_num_channels(gfp); int skip_start = samples_to_skip_at_start(); int skip_end = samples_to_skip_at_end(); DecoderProgress dp = 0; if (!(tmp_num_channels >= 1 && tmp_num_channels <= 2)) { error_printf("Internal error. Aborting."); exit(-1); } if (global_ui_config.silent < 9) { console_printf("\rinput: %s%s(%g kHz, %i channel%s, ", strcmp(inPath, "-") ? inPath : "", strlen(inPath) > 26 ? "\n\t" : " ", lame_get_in_samplerate(gfp) / 1.e3, tmp_num_channels, tmp_num_channels != 1 ? "s" : ""); printInputFormat(gfp); console_printf(")\noutput: %s%s(16 bit, Microsoft WAVE)\n", strcmp(outPath, "-") ? outPath : "", strlen(outPath) > 45 ? "\n\t" : " "); if (skip_start > 0) console_printf("skipping initial %i samples (encoder+decoder delay)\n", skip_start); if (skip_end > 0) console_printf("skipping final %i samples (encoder padding-decoder delay)\n", skip_end); switch (global_reader.input_format) { case sf_mp3: case sf_mp2: case sf_mp1: dp = decoder_progress_init(lame_get_num_samples(gfp), global_decoder.mp3input_data.framesize); break; case sf_raw: case sf_wave: case sf_aiff: default: dp = decoder_progress_init(lame_get_num_samples(gfp), lame_get_in_samplerate(gfp) < 32000 ? 576 : 1152); break; } } if (0 == global_decoder.disable_wav_header) WriteWaveHeader(outf, 0x7FFFFFFF, lame_get_in_samplerate(gfp), tmp_num_channels, 16); /* unknown size, so write maximum 32 bit signed value */ wavsize = 0; do { iread = get_audio16(gfp, Buffer); /* read in 'iread' samples */ if (iread >= 0) { wavsize += iread; if (dp != 0) { decoder_progress(dp, &global_decoder.mp3input_data, iread); } put_audio16(outf, Buffer, iread, tmp_num_channels); } } while (iread > 0); i = (16 / 8) * tmp_num_channels; assert(i > 0); if (wavsize <= 0) { if (global_ui_config.silent < 10) error_printf("WAVE file contains 0 PCM samples\n"); wavsize = 0; } else if (wavsize > 0xFFFFFFD0 / i) { if (global_ui_config.silent < 10) error_printf("Very huge WAVE file, can't set filesize accordingly\n"); wavsize = 0xFFFFFFD0; } else { wavsize *= i; } /* if outf is seekable, rewind and adjust length */ if (!global_decoder.disable_wav_header && strcmp("-", outPath) && !fseek(outf, 0l, SEEK_SET)) WriteWaveHeader(outf, (int) wavsize, lame_get_in_samplerate(gfp), tmp_num_channels, 16); fclose(outf); close_infile(); if (dp != 0) decoder_progress_finish(dp); return 0; } static void print_trailing_info(lame_global_flags * gf) { if (lame_get_findReplayGain(gf)) { int RadioGain = lame_get_RadioGain(gf); console_printf("ReplayGain: %s%.1fdB\n", RadioGain > 0 ? "+" : "", ((float) RadioGain) / 10.0); if (RadioGain > 0x1FE || RadioGain < -0x1FE) error_printf ("WARNING: ReplayGain exceeds the -51dB to +51dB range. Such a result is too\n" " high to be stored in the header.\n"); } /* if (the user requested printing info about clipping) and (decoding on the fly has actually been performed) */ if (global_ui_config.print_clipping_info && lame_get_decode_on_the_fly(gf)) { float noclipGainChange = (float) lame_get_noclipGainChange(gf) / 10.0f; float noclipScale = lame_get_noclipScale(gf); if (noclipGainChange > 0.0) { /* clipping occurs */ console_printf ("WARNING: clipping occurs at the current gain. Set your decoder to decrease\n" " the gain by at least %.1fdB or encode again ", noclipGainChange); /* advice the user on the scale factor */ if (noclipScale > 0) { console_printf("using --scale %.2f\n", noclipScale); console_printf(" or less (the value under --scale is approximate).\n"); } else { /* the user specified his own scale factor. We could suggest * the scale factor of (32767.0/gfp->PeakSample)*(gfp->scale) * but it's usually very inaccurate. So we'd rather advice him to * disable scaling first and see our suggestion on the scale factor then. */ console_printf("using --scale \n" " (For a suggestion on the optimal value of encode\n" " with --scale 1 first)\n"); } } else { /* no clipping */ if (noclipGainChange > -0.1) console_printf ("\nThe waveform does not clip and is less than 0.1dB away from full scale.\n"); else console_printf ("\nThe waveform does not clip and is at least %.1fdB away from full scale.\n", -noclipGainChange); } } } static int write_xing_frame(lame_global_flags * gf, FILE * outf, size_t offset) { unsigned char mp3buffer[LAME_MAXMP3BUFFER]; size_t imp3, owrite; imp3 = lame_get_lametag_frame(gf, mp3buffer, sizeof(mp3buffer)); if (imp3 <= 0) { return 0; /* nothing to do */ } if (global_ui_config.silent <= 0) { console_printf("Writing LAME Tag..."); } if (imp3 > sizeof(mp3buffer)) { error_printf ("Error writing LAME-tag frame: buffer too small: buffer size=%d frame size=%d\n", sizeof(mp3buffer), imp3); return -1; } if (fseek(outf, offset, SEEK_SET) != 0) { error_printf("fatal error: can't update LAME-tag frame!\n"); return -1; } owrite = (int) fwrite(mp3buffer, 1, imp3, outf); if (owrite != imp3) { error_printf("Error writing LAME-tag \n"); return -1; } if (global_ui_config.silent <= 0) { console_printf("done\n"); } return imp3; } static int write_id3v1_tag(lame_t gf, FILE * outf) { unsigned char mp3buffer[128]; int imp3, owrite; imp3 = lame_get_id3v1_tag(gf, mp3buffer, sizeof(mp3buffer)); if (imp3 <= 0) { return 0; } if ((size_t) imp3 > sizeof(mp3buffer)) { error_printf("Error writing ID3v1 tag: buffer too small: buffer size=%d ID3v1 size=%d\n", sizeof(mp3buffer), imp3); return 0; /* not critical */ } owrite = (int) fwrite(mp3buffer, 1, imp3, outf); if (owrite != imp3) { error_printf("Error writing ID3v1 tag \n"); return 1; } return 0; } static int lame_encoder_loop(lame_global_flags * gf, FILE * outf, int nogap, char *inPath, char *outPath) { unsigned char mp3buffer[LAME_MAXMP3BUFFER]; int Buffer[2][1152]; int iread, imp3, owrite; size_t id3v2_size; encoder_progress_begin(gf, inPath, outPath); id3v2_size = lame_get_id3v2_tag(gf, 0, 0); if (id3v2_size > 0) { unsigned char *id3v2tag = malloc(id3v2_size); if (id3v2tag != 0) { imp3 = lame_get_id3v2_tag(gf, id3v2tag, id3v2_size); owrite = (int) fwrite(id3v2tag, 1, imp3, outf); free(id3v2tag); if (owrite != imp3) { encoder_progress_end(gf); error_printf("Error writing ID3v2 tag \n"); return 1; } } } else { unsigned char* id3v2tag = getOldTag(gf); id3v2_size = sizeOfOldTag(gf); if ( id3v2_size > 0 ) { size_t owrite = fwrite(id3v2tag, 1, id3v2_size, outf); if (owrite != id3v2_size) { encoder_progress_end(gf); error_printf("Error writing ID3v2 tag \n"); return 1; } } } if (global_writer.flush_write == 1) { fflush(outf); } /* encode until we hit eof */ do { /* read in 'iread' samples */ iread = get_audio(gf, Buffer); if (iread >= 0) { encoder_progress(gf); /* encode */ imp3 = lame_encode_buffer_int(gf, Buffer[0], Buffer[1], iread, mp3buffer, sizeof(mp3buffer)); /* was our output buffer big enough? */ if (imp3 < 0) { if (imp3 == -1) error_printf("mp3 buffer is not big enough... \n"); else error_printf("mp3 internal error: error code=%i\n", imp3); return 1; } owrite = (int) fwrite(mp3buffer, 1, imp3, outf); if (owrite != imp3) { error_printf("Error writing mp3 output \n"); return 1; } } if (global_writer.flush_write == 1) { fflush(outf); } } while (iread > 0); if (nogap) imp3 = lame_encode_flush_nogap(gf, mp3buffer, sizeof(mp3buffer)); /* may return one more mp3 frame */ else imp3 = lame_encode_flush(gf, mp3buffer, sizeof(mp3buffer)); /* may return one more mp3 frame */ if (imp3 < 0) { if (imp3 == -1) error_printf("mp3 buffer is not big enough... \n"); else error_printf("mp3 internal error: error code=%i\n", imp3); return 1; } encoder_progress_end(gf); owrite = (int) fwrite(mp3buffer, 1, imp3, outf); if (owrite != imp3) { error_printf("Error writing mp3 output \n"); return 1; } if (global_writer.flush_write == 1) { fflush(outf); } imp3 = write_id3v1_tag(gf, outf); if (global_writer.flush_write == 1) { fflush(outf); } if (imp3) { return 1; } write_xing_frame(gf, outf, id3v2_size); if (global_writer.flush_write == 1) { fflush(outf); } if (global_ui_config.silent <= 0) { print_trailing_info(gf); } return 0; } static int lame_encoder(lame_global_flags * gf, FILE * outf, int nogap, char *inPath, char *outPath) { int ret; ret = lame_encoder_loop(gf, outf, nogap, inPath, outPath); fclose(outf); /* close the output file */ close_infile(); /* close the input file */ return ret; } static void parse_nogap_filenames(int nogapout, char const *inPath, char *outPath, char *outdir) { char const *slasher; size_t n; /* FIXME: replace strcpy by safer strncpy */ strcpy(outPath, outdir); if (!nogapout) { strncpy(outPath, inPath, PATH_MAX + 1 - 4); n = strlen(outPath); /* nuke old extension, if one */ if (outPath[n - 3] == 'w' && outPath[n - 2] == 'a' && outPath[n - 1] == 'v' && outPath[n - 4] == '.') { outPath[n - 3] = 'm'; outPath[n - 2] = 'p'; outPath[n - 1] = '3'; } else { outPath[n + 0] = '.'; outPath[n + 1] = 'm'; outPath[n + 2] = 'p'; outPath[n + 3] = '3'; outPath[n + 4] = 0; } } else { slasher = inPath; slasher += PATH_MAX + 1 - 4; /* backseek to last dir delemiter */ while (*slasher != '/' && *slasher != '\\' && slasher != inPath && *slasher != ':') { slasher--; } /* skip one foward if needed */ if (slasher != inPath && (outPath[strlen(outPath) - 1] == '/' || outPath[strlen(outPath) - 1] == '\\' || outPath[strlen(outPath) - 1] == ':')) slasher++; else if (slasher == inPath && (outPath[strlen(outPath) - 1] != '/' && outPath[strlen(outPath) - 1] != '\\' && outPath[strlen(outPath) - 1] != ':')) /* FIXME: replace strcat by safer strncat */ #ifdef _WIN32 strncat(outPath, "\\", PATH_MAX + 1 - 4); #elif __OS2__ strncat(outPath, "\\", PATH_MAX + 1 - 4); #else strncat(outPath, "/", PATH_MAX + 1 - 4); #endif strncat(outPath, slasher, PATH_MAX + 1 - 4); n = strlen(outPath); /* nuke old extension */ if (outPath[n - 3] == 'w' && outPath[n - 2] == 'a' && outPath[n - 1] == 'v' && outPath[n - 4] == '.') { outPath[n - 3] = 'm'; outPath[n - 2] = 'p'; outPath[n - 1] = '3'; } else { outPath[n + 0] = '.'; outPath[n + 1] = 'm'; outPath[n + 2] = 'p'; outPath[n + 3] = '3'; outPath[n + 4] = 0; } } } int lame_main(lame_t gf, int argc, char **argv) { char inPath[PATH_MAX + 1]; char outPath[PATH_MAX + 1]; char nogapdir[PATH_MAX + 1]; /* support for "nogap" encoding of up to 200 .wav files */ #define MAX_NOGAP 200 int nogapout = 0; int max_nogap = MAX_NOGAP; char nogap_inPath_[MAX_NOGAP][PATH_MAX + 1]; char *nogap_inPath[MAX_NOGAP]; int ret; int i; FILE *outf; lame_set_msgf(gf, &frontend_msgf); lame_set_errorf(gf, &frontend_errorf); lame_set_debugf(gf, &frontend_debugf); if (argc <= 1) { usage(stderr, argv[0]); /* no command-line args, print usage, exit */ return 1; } memset(inPath, 0, sizeof(inPath)); memset(nogap_inPath_, 0, sizeof(nogap_inPath_)); for (i = 0; i < MAX_NOGAP; ++i) { nogap_inPath[i] = &nogap_inPath_[i][0]; } /* parse the command line arguments, setting various flags in the * struct 'gf'. If you want to parse your own arguments, * or call libmp3lame from a program which uses a GUI to set arguments, * skip this call and set the values of interest in the gf struct. * (see the file API and lame.h for documentation about these parameters) */ { char *str = lame_getenv("LAMEOPT"); parse_args_from_string(gf, str, inPath, outPath); free(str); } ret = parse_args(gf, argc, argv, inPath, outPath, nogap_inPath, &max_nogap); if (ret < 0) { return ret == -2 ? 0 : 1; } if (global_ui_config.update_interval < 0.) global_ui_config.update_interval = 2.; if (outPath[0] != '\0' && max_nogap > 0) { strncpy(nogapdir, outPath, PATH_MAX + 1); nogapout = 1; } /* initialize input file. This also sets samplerate and as much other data on the input file as available in the headers */ if (max_nogap > 0) { /* for nogap encoding of multiple input files, it is not possible to * specify the output file name, only an optional output directory. */ parse_nogap_filenames(nogapout, nogap_inPath[0], outPath, nogapdir); outf = init_files(gf, nogap_inPath[0], outPath); } else { outf = init_files(gf, inPath, outPath); } if (outf == NULL) { return -1; } /* turn off automatic writing of ID3 tag data into mp3 stream * we have to call it before 'lame_init_params', because that * function would spit out ID3v2 tag data. */ lame_set_write_id3tag_automatic(gf, 0); /* Now that all the options are set, lame needs to analyze them and * set some more internal options and check for problems */ ret = lame_init_params(gf); if (ret < 0) { if (ret == -1) { display_bitrates(stderr); } error_printf("fatal error during initialization\n"); return ret; } if (global_ui_config.silent > 0) { global_ui_config.brhist = 0; /* turn off VBR histogram */ } if (lame_get_decode_only(gf)) { /* decode an mp3 file to a .wav */ ret = lame_decoder(gf, outf, inPath, outPath); } else if (max_nogap == 0) { /* encode a single input file */ ret = lame_encoder(gf, outf, 0, inPath, outPath); } else { /* encode multiple input files using nogap option */ for (i = 0; i < max_nogap; ++i) { int use_flush_nogap = (i != (max_nogap - 1)); if (i > 0) { parse_nogap_filenames(nogapout, nogap_inPath[i], outPath, nogapdir); /* note: if init_files changes anything, like samplerate, num_channels, etc, we are screwed */ outf = init_files(gf, nogap_inPath[i], outPath); /* reinitialize bitstream for next encoding. this is normally done * by lame_init_params(), but we cannot call that routine twice */ lame_init_bitstream(gf); } lame_set_nogap_total(gf, max_nogap); lame_set_nogap_currentindex(gf, i); ret = lame_encoder(gf, outf, use_flush_nogap, nogap_inPath[i], outPath); } } return ret; }