/* MikMod sound library (c) 2004, Raphael Assenat (c) 1998, 1999, 2000, 2001 Miodrag Vallat and others - see file AUTHORS for complete list. 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 program 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. */ /*============================================================================== WAV sample loader ==============================================================================*/ /* FIXME: Stereo .WAV files are not yet supported as samples. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifdef HAVE_UNISTD_H #include #endif #include #include "mikmod_internals.h" #ifdef SUNOS extern int fprintf(FILE *, const char *, ...); #endif static void extract_channel(const char *src, char *dst, int num_chan, int num_samples, int samp_size, int channel); typedef struct WAV { CHAR rID[4]; ULONG rLen; CHAR wID[4]; CHAR fID[4]; ULONG fLen; UWORD wFormatTag; UWORD nChannels; ULONG nSamplesPerSec; ULONG nAvgBytesPerSec; UWORD nBlockAlign; UWORD nFormatSpecific; } WAV; static BOOL isWaveFile(MREADER* reader) { WAV wh; _mm_fseek(reader, SEEK_SET, 0); /* read wav header */ _mm_read_string(wh.rID,4,reader); wh.rLen = _mm_read_I_ULONG(reader); _mm_read_string(wh.wID,4,reader); /* check for correct header */ if(_mm_eof(reader)|| memcmp(wh.rID,"RIFF",4) || memcmp(wh.wID,"WAVE",4)) { return 0; } return 1; } static SAMPLE* Sample_LoadGeneric_internal_wav(MREADER* reader) { SAMPLE *si=NULL; WAV wh; BOOL have_fmt=0; _mm_fseek(reader, SEEK_SET, 0); /* read wav header */ _mm_read_string(wh.rID,4,reader); wh.rLen = _mm_read_I_ULONG(reader); _mm_read_string(wh.wID,4,reader); /* check for correct header */ if(_mm_eof(reader)|| memcmp(wh.rID,"RIFF",4) || memcmp(wh.wID,"WAVE",4)) { _mm_errno = MMERR_UNKNOWN_WAVE_TYPE; return NULL; } /* scan all RIFF blocks until we find the sample data */ for(;;) { CHAR dID[4]; ULONG len,start; _mm_read_string(dID,4,reader); len = _mm_read_I_ULONG(reader); /* truncated file ? */ if (_mm_eof(reader)) { _mm_errno=MMERR_UNKNOWN_WAVE_TYPE; return NULL; } start = _mm_ftell(reader); /* sample format block should be present only once and before a data block */ if(!memcmp(dID,"fmt ",4)) { wh.wFormatTag = _mm_read_I_UWORD(reader); wh.nChannels = _mm_read_I_UWORD(reader); wh.nSamplesPerSec = _mm_read_I_ULONG(reader); wh.nAvgBytesPerSec = _mm_read_I_ULONG(reader); wh.nBlockAlign = _mm_read_I_UWORD(reader); wh.nFormatSpecific = _mm_read_I_UWORD(reader); #ifdef MIKMOD_DEBUG fprintf(stderr,"\rwavloader : wFormatTag=%04x blockalign=%04x nFormatSpc=%04x\n", wh.wFormatTag,wh.nBlockAlign,wh.nFormatSpecific); #endif if((have_fmt)||(wh.nChannels>1)) { _mm_errno=MMERR_UNKNOWN_WAVE_TYPE; return NULL; } have_fmt=1; } else /* sample data block should be present only once and after a format block */ if(!memcmp(dID,"data",4)) { if(!have_fmt) { _mm_errno=MMERR_UNKNOWN_WAVE_TYPE; return NULL; } if(!(si=(SAMPLE*)MikMod_malloc(sizeof(SAMPLE)))) return NULL; si->speed = wh.nSamplesPerSec/wh.nChannels; si->volume = 64; si->length = len; if(wh.nBlockAlign == 2) { si->flags = SF_16BITS | SF_SIGNED; si->length >>= 1; } si->inflags = si->flags; SL_RegisterSample(si,MD_SNDFX,reader); SL_LoadSamples(); /* skip any other remaining blocks - so in case of repeated sample fragments, we'll return the first anyway instead of an error */ break; } /* onto next block */ _mm_fseek(reader,start+len,SEEK_SET); if (_mm_eof(reader)) break; } return si; } static SAMPLE* Sample_LoadRawGeneric_internal(MREADER* reader, ULONG rate, ULONG channel, ULONG flags) { SAMPLE *si; long len; int samp_size=1; if(!(si=(SAMPLE*)MikMod_malloc(sizeof(SAMPLE)))) return NULL; /* length */ _mm_fseek(reader, 0, SEEK_END); len = _mm_ftell(reader); si->panning = PAN_CENTER; si->speed = rate/1; si->volume = 64; si->length = len; si->loopstart=0; si->loopend = len; si->susbegin = 0; si->susend = 0; si->inflags = si->flags = flags; if (si->flags & SF_16BITS) { si->length >>= 1; si->loopstart >>= 1; si->loopend >>= 1; samp_size = 2; } if (si->flags & SF_STEREO) { char *data, *channel_data; int num_samp = si->length/samp_size/2; MREADER *chn_reader; data = (char*)MikMod_malloc(si->length); if (!data) { MikMod_free(si); return NULL; } channel_data = (char*)MikMod_malloc(si->length/2); if (!channel_data) { MikMod_free(data); MikMod_free(si); return NULL; } /* load the raw samples completely, and fully extract the * requested channel. Create a memory reader pointing to * the channel data. */ _mm_fseek(reader, 0, SEEK_SET); reader->Read(reader, data, si->length); extract_channel(data, channel_data, 2, num_samp, samp_size, channel); chn_reader = _mm_new_mem_reader(channel_data, num_samp * samp_size); if (!chn_reader) { MikMod_free(channel_data); MikMod_free(data); MikMod_free(si); return NULL; } /* half of the samples were in the other channel */ si->loopstart=0; si->length=num_samp; si->loopend=num_samp; SL_RegisterSample(si, MD_SNDFX, chn_reader); SL_LoadSamples(); _mm_delete_mem_reader(chn_reader); MikMod_free(channel_data); MikMod_free(data); return si; } _mm_fseek(reader, 0, SEEK_SET); SL_RegisterSample(si, MD_SNDFX, reader); SL_LoadSamples(); return si; } static SAMPLE* Sample_LoadGeneric_internal(MREADER* reader, const char *options) { if (isWaveFile(reader)) { return Sample_LoadGeneric_internal_wav(reader); } return NULL; } MIKMODAPI SAMPLE* Sample_LoadRawGeneric(MREADER* reader, ULONG rate, ULONG channel, ULONG flags) { SAMPLE* result; MUTEX_LOCK(vars); result = Sample_LoadRawGeneric_internal(reader, rate, channel, flags); MUTEX_UNLOCK(vars); return result; } MIKMODAPI SAMPLE *Sample_LoadRawMem(const char *buf, int len, ULONG rate, ULONG channel, ULONG flags) { SAMPLE *result=NULL; MREADER *reader; if (!buf || len <= 0) return NULL; if ((reader=_mm_new_mem_reader(buf, len)) != NULL) { result=Sample_LoadRawGeneric(reader, rate, channel, flags); _mm_delete_mem_reader(reader); } return result; } MIKMODAPI SAMPLE* Sample_LoadRawFP(FILE *fp, ULONG rate, ULONG channel, ULONG flags) { SAMPLE* result=NULL; MREADER* reader; if(fp && (reader=_mm_new_file_reader(fp)) != NULL) { result=Sample_LoadRawGeneric(reader, rate, channel, flags); _mm_delete_file_reader(reader); } return result; } MIKMODAPI SAMPLE* Sample_LoadRaw(const CHAR* filename, ULONG rate, ULONG channel, ULONG flags) { FILE *fp; SAMPLE *si=NULL; if(!(md_mode & DMODE_SOFT_SNDFX)) return NULL; if((fp=_mm_fopen(filename,"rb")) != NULL) { si = Sample_LoadRawFP(fp, rate, channel, flags); _mm_fclose(fp); } return si; } MIKMODAPI SAMPLE* Sample_LoadGeneric(MREADER* reader) { SAMPLE* result; MUTEX_LOCK(vars); result=Sample_LoadGeneric_internal(reader, NULL); MUTEX_UNLOCK(vars); return result; } MIKMODAPI SAMPLE *Sample_LoadMem(const char *buf, int len) { SAMPLE* result=NULL; MREADER* reader; if (!buf || len <= 0) return NULL; if ((reader=_mm_new_mem_reader(buf, len)) != NULL) { result=Sample_LoadGeneric(reader); _mm_delete_mem_reader(reader); } return result; } MIKMODAPI SAMPLE* Sample_LoadFP(FILE *fp) { SAMPLE* result=NULL; MREADER* reader; if(fp && (reader=_mm_new_file_reader(fp)) != NULL) { result=Sample_LoadGeneric(reader); _mm_delete_file_reader(reader); } return result; } MIKMODAPI SAMPLE* Sample_Load(const CHAR* filename) { FILE *fp; SAMPLE *si=NULL; if(!(md_mode & DMODE_SOFT_SNDFX)) return NULL; if((fp=_mm_fopen(filename,"rb")) != NULL) { si = Sample_LoadFP(fp); _mm_fclose(fp); } return si; } MIKMODAPI void Sample_Free(SAMPLE* si) { if(si) { if (si->onfree) si->onfree(si->ctx); MD_SampleUnload(si->handle); MikMod_free(si); } } void Sample_Free_internal(SAMPLE *si) { MUTEX_LOCK(vars); Sample_Free(si); MUTEX_UNLOCK(vars); } static void extract_channel(const char *src, char *dst, int num_chan, int num_samples, int samp_size, int channel) { int i; #ifdef MIKMOD_DEBUG fprintf(stderr,"Extract channel: %p %p, num_chan=%d, num_samples=%d, samp_size=%d, channel=%d\n", src,dst,num_chan,num_samples,samp_size,channel); #endif src += channel * samp_size; while (num_samples--) { for (i=0; i