int
main(int argc, char **argv)
{
int ret;
lame_global_flags *gf;
char outPath[PATH_MAX + 1];
char nogapdir[PATH_MAX + 1];
char inPath[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];
int i;
FILE *outf;
#if macintosh
argc = ccommand(&argv);
#endif
#if defined(_WIN32)
/* set affinity back to all CPUs. Fix for EAC/lame on SMP systems from
"Todd Richmond" <*****@*****.**> */
typedef BOOL (WINAPI *SPAMFunc)(HANDLE, DWORD);
SPAMFunc func;
SYSTEM_INFO si;
if ((func = (SPAMFunc)GetProcAddress(GetModuleHandle("KERNEL32.DLL"),
"SetProcessAffinityMask")) != NULL) {
GetSystemInfo(&si);
func(GetCurrentProcess(), si.dwActiveProcessorMask);
}
#endif
#ifdef __EMX__
/* This gives wildcard expansion on Non-POSIX shells with OS/2 */
_wildcard(&argc, &argv);
#endif
for (i = 0; i < max_nogap; ++i) {
nogap_inPath[i] = malloc(PATH_MAX + 1);
}
memset(inPath, 0, sizeof(inPath));
/* initialize libmp3lame */
input_format = sf_unknown;
if (NULL == (gf = lame_init())) {
fprintf(stderr, "fatal error during initialization\n");
return 1;
}
if (argc <= 1) {
usage(stderr, argv[0]); /* no command-line args, print usage, exit */
return 1;
}
/* 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)
*/
parse_args_from_string(gf, getenv("LAMEOPT"), inPath, outPath);
ret = parse_args(gf, argc, argv, inPath, outPath, nogap_inPath, &max_nogap);
if (ret < 0)
return ret == -2 ? 0 : 1;
if (update_interval < 0.)
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;
}
/* Now that all the options are set, lame needs to analyze them and
* set some more internal options and check for problems
*/
i = lame_init_params(gf);
if (i < 0) {
if (i == -1) {
display_bitrates(stderr);
}
fprintf(stderr, "fatal error during initialization\n");
return i;
}
if (silent > 0
#ifndef RH_HIST
|| lame_get_VBR(gf) == vbr_off
#endif
) {
brhist = 0; /* turn off VBR histogram */
}
if (lame_get_decode_only(gf)) {
/* decode an mp3 file to a .wav */
if (mp3_delay_set)
lame_decoder(gf, outf, mp3_delay, inPath, outPath);
else
lame_decoder(gf, outf, 0, inPath, outPath);
}
else {
if (max_nogap > 0) {
/*
* 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);
}
brhist_init_package(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);
if (silent<=0) print_lame_tag_leading_info(gf);
lame_mp3_tags_fid(gf, outf); /* add VBR tags to mp3 file */
if (silent<=0) print_trailing_info(gf);
fclose(outf); /* close the output file */
close_infile(); /* close the input file */
/* reinitialize bitstream for next encoding. this is normally done
* by lame_init_params(), but we cannot call that routine twice */
if (use_flush_nogap)
lame_init_bitstream(gf);
}
lame_close(gf);
}
else {
/*
* encode a single input file
*/
brhist_init_package(gf);
ret = lame_encoder(gf, outf, 0, inPath, outPath);
if (silent<=0) print_lame_tag_leading_info(gf);
lame_mp3_tags_fid(gf, outf); /* add VBR tags to mp3 file */
if (silent<=0) print_trailing_info(gf);
fclose(outf); /* close the output file */
close_infile(); /* close the input file */
lame_close(gf);
}
}
return ret;
}
void
encoder_progress_begin( lame_global_flags const* gf
, char const* inPath
, char const* outPath
)
{
brhist_init_package(gf);
global_encoder_progress.time_status_init = 0;
global_encoder_progress.last_time = 0;
global_encoder_progress.last_frame_num = 0;
if (global_ui_config.silent < 9) {
char* i_file = 0;
char* o_file = 0;
#if defined( _WIN32 ) && !defined(__MINGW32__)
inPath = i_file = utf8ToLocal8Bit(inPath);
outPath = o_file = utf8ToConsole8Bit(outPath);
#endif
lame_print_config(gf); /* print useful information about options being used */
console_printf("Encoding %s%s to %s\n",
strcmp(inPath, "-") ? inPath : "<stdin>",
strlen(inPath) + strlen(outPath) < 66 ? "" : "\n ",
strcmp(outPath, "-") ? outPath : "<stdout>");
free(i_file);
free(o_file);
console_printf("Encoding as %g kHz ", 1.e-3 * lame_get_out_samplerate(gf));
{
static const char *mode_names[2][4] = {
{"stereo", "j-stereo", "dual-ch", "single-ch"},
{"stereo", "force-ms", "dual-ch", "single-ch"}
};
switch (lame_get_VBR(gf)) {
case vbr_rh:
console_printf("%s MPEG-%u%s Layer III VBR(q=%g) qval=%i\n",
mode_names[lame_get_force_ms(gf)][lame_get_mode(gf)],
2 - lame_get_version(gf),
lame_get_out_samplerate(gf) < 16000 ? ".5" : "",
lame_get_VBR_quality(gf),
lame_get_quality(gf));
break;
case vbr_mt:
case vbr_mtrh:
console_printf("%s MPEG-%u%s Layer III VBR(q=%g)\n",
mode_names[lame_get_force_ms(gf)][lame_get_mode(gf)],
2 - lame_get_version(gf),
lame_get_out_samplerate(gf) < 16000 ? ".5" : "",
lame_get_VBR_quality(gf));
break;
case vbr_abr:
console_printf("%s MPEG-%u%s Layer III (%gx) average %d kbps qval=%i\n",
mode_names[lame_get_force_ms(gf)][lame_get_mode(gf)],
2 - lame_get_version(gf),
lame_get_out_samplerate(gf) < 16000 ? ".5" : "",
0.1 * (int) (10. * lame_get_compression_ratio(gf) + 0.5),
lame_get_VBR_mean_bitrate_kbps(gf),
lame_get_quality(gf));
break;
default:
console_printf("%s MPEG-%u%s Layer III (%gx) %3d kbps qval=%i\n",
mode_names[lame_get_force_ms(gf)][lame_get_mode(gf)],
2 - lame_get_version(gf),
lame_get_out_samplerate(gf) < 16000 ? ".5" : "",
0.1 * (int) (10. * lame_get_compression_ratio(gf) + 0.5),
lame_get_brate(gf),
lame_get_quality(gf));
break;
}
}
if (global_ui_config.silent <= -10) {
lame_print_internals(gf);
}
}
}