Mercurial > SDL_sound_CoreAudio
view decoders/mikmod.c @ 474:c66080364dff
Most decoders now report total sample play time, now. Technically, this
breaks binary compatibility with the 1.0 branch, since it extends the
Sound_Sample struct, but most (all?) programs are just passing pointers
allocated by SDL_sound around, and might be okay.
Source-level compatibility is not broken...yet! :)
--ryan.
-------- Original Message --------
Subject: SDL_sound patch: Finding total length of time of sound file.
Date: Sun, 26 Jan 2003 09:31:17 -0800 (PST)
Hi Ryan,
I am working with Eric Wing and helping him modify
SDL_sound. AS part of our efforts in improving and
enhancing SDL_sound, we like to submit this patch. We
modified the codecs to find the total time of a sound
file. Below is the explanation of the patch. The
patch is appended as an attachment to this email.
* MOTIVATION:
We needed the ability to get the total play time of a
sample (And we noticed that we're not the only ones).
Since SDL_sound blocks direct access to the specific
decoders, there is no way for a user to know this
information short of decoding the whole thing.
Because of this, we believe this will be a useful
addition, even though the accuracy may not be perfect
(subject to each decoder) or the information may not
always be available.
* CONTRIBUTORS:
Wesley Leong (modified the majority of the codecs and
verified the results)
Eric Wing (showed everyone how to do modify codec,
modified mikmod)
Wang Lam (modified a handful of codecs, researched
into specs and int overflow)
Ahilan Anantha (modified a few codecs and helped with
integer math)
* GENERAL ISSUES:
We chose the value to be milliseconds as an Sint32.
Milliseconds because that's what Sound_Seek takes as a
parameter and -1 to allow for instances/codecs where
the value could not be determined. We are
not sure if this is the final convention you want, so
we are willing to work with you on this.
We also expect the total_time field to be set on open
and never again modified by SDL_sound. Users may
access it directly much like the sample buffer and
buffer_size. We thought about recomputing the time
on DecodeAll, but since users may seek or decode small
chunks first, not all the data may be there. So this
is better done by the user. This may be good
information to document.
Currently, all the main codecs are implemented except
for QuickTime.
| author | Ryan C. Gordon <icculus@icculus.org> |
|---|---|
| date | Sat, 08 May 2004 08:19:50 +0000 |
| parents | 1edb89260487 |
| children | 3e705c9180e5 |
line wrap: on
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/* * SDL_sound -- An abstract sound format decoding API. * Copyright (C) 2001 Ryan C. Gordon. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser 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 */ /* * Module player for SDL_sound. This driver handles anything MikMod does, and * is based on SDL_mixer. * * Please see the file COPYING in the source's root directory. * * This file written by Torbjörn Andersson (d91tan@Update.UU.SE) */ #if HAVE_CONFIG_H # include <config.h> #endif #ifdef SOUND_SUPPORTS_MIKMOD #include <stdio.h> #include <stdlib.h> #include <string.h> #include "SDL_sound.h" #define __SDL_SOUND_INTERNAL__ #include "SDL_sound_internal.h" #include "mikmod.h" static int MIKMOD_init(void); static void MIKMOD_quit(void); static int MIKMOD_open(Sound_Sample *sample, const char *ext); static void MIKMOD_close(Sound_Sample *sample); static Uint32 MIKMOD_read(Sound_Sample *sample); static int MIKMOD_rewind(Sound_Sample *sample); static int MIKMOD_seek(Sound_Sample *sample, Uint32 ms); static const char *extensions_mikmod[] = { "669", /* Composer 669 */ "AMF", /* DMP Advanced Module Format */ "DSM", /* DSIK internal format */ "FAR", /* Farandole module */ "GDM", /* General DigiMusic module */ "IMF", /* Imago Orpheus module */ "IT", /* Impulse tracker */ "M15", /* 15 instrument MOD / Ultimate Sound Tracker (old M15 format) */ "MED", /* Amiga MED module */ "MOD", /* Generic MOD (Protracker, StarTracker, FastTracker, etc) */ "MTM", /* MTM module */ "OKT", /* Oktalyzer module */ "S3M", /* Screamtracker module */ "STM", /* Screamtracker 2 module */ "STX", /* STMIK 0.2 module */ "ULT", /* Ultratracker module */ "UNI", /* UNIMOD - libmikmod's and APlayer's internal module format */ "XM", /* Fasttracker module */ NULL }; const Sound_DecoderFunctions __Sound_DecoderFunctions_MIKMOD = { { extensions_mikmod, "Play modules through MikMod", "Torbjörn Andersson <d91tan@Update.UU.SE>", "http://mikmod.raphnet.net/" }, MIKMOD_init, /* init() method */ MIKMOD_quit, /* quit() method */ MIKMOD_open, /* open() method */ MIKMOD_close, /* close() method */ MIKMOD_read, /* read() method */ MIKMOD_rewind, /* rewind() method */ MIKMOD_seek /* seek() method */ }; /* Make MikMod read from a RWops... */ typedef struct MRWOPSREADER { MREADER core; Sound_Sample *sample; int end; } MRWOPSREADER; static BOOL _mm_RWopsReader_eof(MREADER *reader) { MRWOPSREADER *rwops_reader = (MRWOPSREADER *) reader; Sound_Sample *sample = rwops_reader->sample; Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; int pos = SDL_RWtell(internal->rw); if (rwops_reader->end == pos) return(1); return(0); } /* _mm_RWopsReader_eof */ static BOOL _mm_RWopsReader_read(MREADER *reader, void *ptr, size_t size) { MRWOPSREADER *rwops_reader = (MRWOPSREADER *) reader; Sound_Sample *sample = rwops_reader->sample; Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; return(SDL_RWread(internal->rw, ptr, size, 1)); } /* _mm_RWopsReader_Read */ static int _mm_RWopsReader_get(MREADER *reader) { char buf; MRWOPSREADER *rwops_reader = (MRWOPSREADER *) reader; Sound_Sample *sample = rwops_reader->sample; Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; if (SDL_RWread(internal->rw, &buf, 1, 1) != 1) return(EOF); return((int) buf); } /* _mm_RWopsReader_get */ static BOOL _mm_RWopsReader_seek(MREADER *reader, long offset, int whence) { MRWOPSREADER *rwops_reader = (MRWOPSREADER *) reader; Sound_Sample *sample = rwops_reader->sample; Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; return(SDL_RWseek(internal->rw, offset, whence)); } /* _mm_RWopsReader_seek */ static long _mm_RWopsReader_tell(MREADER *reader) { MRWOPSREADER *rwops_reader = (MRWOPSREADER *) reader; Sound_Sample *sample = rwops_reader->sample; Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; return(SDL_RWtell(internal->rw)); } /* _mm_RWopsReader_tell */ static MREADER *_mm_new_rwops_reader(Sound_Sample *sample) { Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; MRWOPSREADER *reader = (MRWOPSREADER *) malloc(sizeof (MRWOPSREADER)); if (reader != NULL) { int failed_seek = 1; int here; reader->core.Eof = _mm_RWopsReader_eof; reader->core.Read = _mm_RWopsReader_read; reader->core.Get = _mm_RWopsReader_get; reader->core.Seek = _mm_RWopsReader_seek; reader->core.Tell = _mm_RWopsReader_tell; reader->sample = sample; /* RWops does not explicitly support an eof check, so we shall find the end manually - this requires seek support for the RWop */ here = SDL_RWtell(internal->rw); if (here != -1) { reader->end = SDL_RWseek(internal->rw, 0, SEEK_END); if (reader->end != -1) { /* Move back */ if (SDL_RWseek(internal->rw, here, SEEK_SET) != -1) failed_seek = 0; } /* if */ } /* if */ if (failed_seek) { free(reader); reader = NULL; } /* if */ } /* if */ return((MREADER *) reader); } /* _mm_new_rwops_reader */ static void _mm_delete_rwops_reader(MREADER *reader) { /* SDL_sound will delete the RWops and sample at a higher level... */ if (reader != NULL) free(reader); } /* _mm_delete_rwops_reader */ static int MIKMOD_init(void) { MikMod_RegisterDriver(&drv_nos); /* * Quick and dirty hack to prevent an infinite loop problem * found when using SDL_mixer and SDL_sound together and * both have MikMod compiled in. So, check to see if * MikMod has already been registered first before calling * RegisterAllLoaders() */ if (MikMod_InfoLoader() == NULL) { MikMod_RegisterAllLoaders(); } /* if */ /* * Both DMODE_SOFT_MUSIC and DMODE_16BITS should be set by default, * so this is just for clarity. I haven't experimented with any of * the other flags. There are a few which are said to give better * sound quality. */ md_mode |= (DMODE_SOFT_MUSIC | DMODE_16BITS); md_mixfreq = 0; md_reverb = 1; BAIL_IF_MACRO(MikMod_Init(""), MikMod_strerror(MikMod_errno), 0); return(1); /* success. */ } /* MIKMOD_init */ static void MIKMOD_quit(void) { MikMod_Exit(); md_mixfreq = 0; } /* MIKMOD_quit */ static int MIKMOD_open(Sound_Sample *sample, const char *ext) { Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; MREADER *reader; MODULE *module; Uint32 i; /* temp counter for time computation */ double segment_time = 0.0; /* temp holder for time */ reader = _mm_new_rwops_reader(sample); BAIL_IF_MACRO(reader == NULL, ERR_OUT_OF_MEMORY, 0); module = Player_LoadGeneric(reader, 64, 0); _mm_delete_rwops_reader(reader); BAIL_IF_MACRO(module == NULL, "MIKMOD: Not a module file.", 0); module->extspd = 1; module->panflag = 1; module->wrap = 0; module->loop = 0; if (md_mixfreq == 0) md_mixfreq = (!sample->desired.rate) ? 44100 : sample->desired.rate; sample->actual.channels = 2; sample->actual.rate = md_mixfreq; sample->actual.format = AUDIO_S16SYS; internal->decoder_private = (void *) module; Player_Start(module); Player_SetPosition(0); sample->flags = SOUND_SAMPLEFLAG_NONE; /* * module->sngtime = current song time in 2^-10 seconds * sample->total_time = (module->sngtime * 1000) / (1<<10) */ sample->total_time = (module->sngtime * 1000) / (1<<10); SNDDBG(("MIKMOD: Name: %s\n", module->songname)); SNDDBG(("MIKMOD: Type: %s\n", module->modtype)); SNDDBG(("MIKMOD: Accepting data stream\n")); /* * This is a quick and dirty way for getting the play time * of a file. This will often be wrong because the tracker format * allows for so much. If you want a better one, use ModPlug, * demand that the Mikmod people write better functionality, * or write a more complicated version of the code below. * * There are two dumb ways to compute the length. The really * dumb way is to look at the header and take the initial * speed/tempo values. However, speed values can change throughout * the file. The slightly smarter way is to iterate through * all the positions and add up each segment's time based * on the idea that each segment will give us its own * speed value. The hope is that this is more accurate. * However, this demands that the file be seekable * and that we can change the position of the sample. * Depending on the assumptions of SDL_sound, this block * of code should be enabled or disabled. If disabled, * you still can make the computations doing the first method. * For now, we will assume it's acceptable to seek a Mod file * since this is essentially how Modplug also does it. * * Keep in mind that this will be incorrect for loops, jumps, short * patterns and other features. */ sample->flags |= SOUND_SAMPLEFLAG_CANSEEK; /* * For each position (which corresponds to a particular pattern), * get the speed values and compute the time length of the segment */ sample->total_time = 0; for (i = 0; i < module->numpos; i++) { Player_SetPosition(i); /* Must call update, or the speed values won't get reset */ MikMod_Update(); /* Now the magic formula: * Multiply the number of positions by the * Number of rows (usually 64 but can be different) by the * time it takes to read one row (1/50) * by the speed by the * magic reference beats per minute / the beats per minute * * We're using positions instead of patterns because in our * test cases, this seems to be the correct value for the * number of sections you hear during normal playback. * They typically map to a fewer number of patterns * where some patterns get replayed multiple times * in a song (think chorus). Since we're in a for-loop, * the multiplication is implicit while we're adding * all the segments. * * From a tracker format spec, it seems that 64 rows * is the normal (00-3F), but I've seen songs that * either have less or are jumping positions in the * middle of a pattern. It looks like Mikmod might * reveal this number for us. * * According to the spec, it seems that a speed of 1 * corresponds to reading 1 row in 50 ticks. However, * I'm not sure if ticks are real seconds or this * notion of second units: * Assuming that it's just normal seconds, we get 1/50 = 0.02. * * The current speed and current tempo (beats per minute) * we can just grab. However, we need a magic number * to figure out what the tempo is based on. Our primitive * stopwatch results and intuition seem to imply 120-130bpm * is the magic number. Looking at the majority of tracker * files I have, 125 seems to be the common value. Furthermore * most (if not all) of my Future Crew .S3M (Scream Tracker 3) * files also use 125. Since they invented that format, * I'll also assume that's the base number. */ if(module->bpm == 0) { /* * Should never get here, but I don't want any * divide by zero errors */ continue; } /* if */ segment_time += (module->numrow * .02 * module->sngspd * 125.0 / module->bpm); } /* for */ /* Now convert to milliseconds and store the value */ sample->total_time = (Sint32)(segment_time * 1000); /* Reset the sample to the beginning */ Player_SetPosition(0); MikMod_Update(); return(1); /* we'll handle this data. */ } /* MIKMOD_open */ static void MIKMOD_close(Sound_Sample *sample) { Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; MODULE *module = (MODULE *) internal->decoder_private; Player_Free(module); } /* MIKMOD_close */ static Uint32 MIKMOD_read(Sound_Sample *sample) { Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; MODULE *module = (MODULE *) internal->decoder_private; /* Switch to the current module, stopping any previous one. */ Player_Start(module); if (!Player_Active()) { sample->flags |= SOUND_SAMPLEFLAG_EOF; return(0); } /* if */ return((Uint32) VC_WriteBytes(internal->buffer, internal->buffer_size)); } /* MIKMOD_read */ static int MIKMOD_rewind(Sound_Sample *sample) { Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; MODULE *module = (MODULE *) internal->decoder_private; Player_Start(module); Player_SetPosition(0); return(1); } /* MIKMOD_rewind */ static int MIKMOD_seek(Sound_Sample *sample, Uint32 ms) { Sound_SampleInternal *internal = (Sound_SampleInternal *) sample->opaque; MODULE *module = (MODULE *) internal->decoder_private; double last_time = 0.0; double current_time = 0.0; double target_time; Uint32 i; /* * Heaven may know what the argument to Player_SetPosition() is. * I, however, haven't the faintest idea. */ Player_Start(module); /* * Mikmod only lets you seek to the beginning of a pattern. * This means we'll get very coarse grain seeks. The * value we pass to SetPosition is a value between 0 * and the number of positions in the file. The * dumb approach would be to take our total_time that * we've already calculated and divide it up by the * number of positions and seek to the position that results. * However, because songs can alter their speed/tempo during * playback, different patterns in the song can take * up different amounts of time. So the slightly * smarter approach is to repeat what was done in the * total_time computation and traverse through the file * until we find the closest position. * The follwing is basically cut and paste from the * open function. */ if (ms == 0) /* Check end conditions to simplify things */ { Player_SetPosition(0); return(1); } /* if */ if (ms >= sample->total_time) Player_SetPosition(module->numpos); /* Convert time to seconds (double) to make comparisons easier */ target_time = ms / 1000.0; for (i = 0; i < module->numpos; i++) { Player_SetPosition(i); /* Must call update, or the speed values won't get reset */ MikMod_Update(); /* Divide by zero check */ if(module->bpm == 0) continue; last_time = current_time; /* See the notes in the open function about the formula */ current_time += (module->numrow * .02 * module->sngspd * 125.0 / module->bpm); if(target_time <= current_time) break; /* We now have our interval, so break out */ } /* for */ if( (target_time-last_time) > (current_time-target_time) ) { /* The target time is closer to the higher position, so go there */ Player_SetPosition(i+1); } /* if */ else { /* The target time is closer to the lower position, so go there */ Player_SetPosition(i); } /* else */ return(1); } /* MIKMOD_seek */ #endif /* SOUND_SUPPORTS_MIKMOD */ /* end of mikmod.c ... */