Mercurial > ~darius > hgwebdir.cgi > mikmod
view playercode/mloader.c @ 19:84565bb86869
Makefile
Added clean rule
author | darius |
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date | Thu, 23 Apr 1998 22:59:21 +0000 |
parents | 5d614bcc4287 |
children |
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/* Name: MLOADER.C Description: These routines are used to access the available module loaders Portability: All systems - all compilers */ #include <string.h> #include "mikmod.h" FILE *modfp; UNIMOD of; static MLOADER *firstloader = NULL; UWORD finetune[16] = { 8363, 8413, 8463, 8529, 8581, 8651, 8723, 8757, 7895, 7941, 7985, 8046, 8107, 8169, 8232, 8280 }; void ML_InfoLoader(void) { int t; MLOADER *l; // list all registered devicedrivers: for(t=1,l=firstloader; l!=NULL; l=l->next, t++) printf("%d. %s\n",t,l->version); } void ML_RegisterLoader(MLOADER *ldr) { MLOADER *cruise = firstloader; if(cruise!=NULL) { while(cruise->next!=NULL) cruise = cruise->next; cruise->next = ldr; } else firstloader = ldr; } BOOL ReadComment(UWORD len) { //int t; if(len) { if(!(of.comment=(CHAR *)_mm_malloc(len+1))) return 0; fread(of.comment,len,1,modfp); of.comment[len] = 0; } return 1; } BOOL AllocPositions(int total) { if((of.positions = _mm_calloc(total,sizeof(UWORD))) == NULL) return 0; return 1; } BOOL AllocPatterns(void) { int s,t,tracks = 0; // Allocate track sequencing array if(!(of.patterns = (UWORD *)_mm_calloc((ULONG)(of.numpat+1)*of.numchn,sizeof(UWORD)))) return 0; if(!(of.pattrows = (UWORD *)_mm_calloc(of.numpat+1,sizeof(UWORD)))) return 0; for(t=0; t<of.numpat+1; t++) { of.pattrows[t] = 64; for(s=0; s<of.numchn; s++) of.patterns[(t*of.numchn)+s] = tracks++; } return 1; } BOOL AllocTracks(void) { if(!(of.tracks=(UBYTE **)_mm_calloc(of.numtrk,sizeof(UBYTE *)))) return 0; return 1; } BOOL AllocInstruments(void) { int t,n; if((of.instruments=(INSTRUMENT *)_mm_calloc(of.numins,sizeof(INSTRUMENT)))==NULL) return 0; for(t=0; t<of.numins; t++) { for(n=0; n<120; n++) // Init note / sample lookup table { of.instruments[t].samplenote[n] = n; of.instruments[t].samplenumber[n] = t; } of.instruments[t].globvol = 64; } return 1; } BOOL AllocSamples(void) { UWORD u; if((of.samples = (SAMPLE *)_mm_calloc(of.numsmp,sizeof(SAMPLE)))==NULL) return 0; for(u=0; u<of.numsmp; u++) { of.samples[u].panning = 128; of.samples[u].handle = -1; of.samples[u].globvol = 64; of.samples[u].volume = 64; } return 1; } BOOL ML_LoadSamples(void) { SAMPLE *s; int u; for(u=of.numsmp, s=of.samples; u; u--, s++) if(s->length) SL_RegisterSample(s,MD_MUSIC,modfp); return 1; } CHAR *DupStr(CHAR *s, UWORD len) // Creates a CSTR out of a character buffer of 'len' bytes, but strips // any terminating non-printing characters like 0, spaces etc. { UWORD t; CHAR *d = NULL; // Scan for first printing char in buffer [includes high ascii up to 254] while(len) { if(s[len-1] > 0x20) break; len--; } // When the buffer wasn't completely empty, allocate // a cstring and copy the buffer into that string, except // for any control-chars #ifdef __GNUC__ if(len<16) len = 16; #endif if((d=(CHAR *)_mm_malloc(len+1)) != NULL) { for(t=0; t<len; t++) d[t] = (s[t]<32) ? ' ' : s[t]; d[t] = 0; } return d; } static void ML_XFreeSample(SAMPLE *s) { if(s->handle>=0) MD_SampleUnLoad(s->handle); if(s->samplename!=NULL) free(s->samplename); } static void ML_XFreeInstrument(INSTRUMENT *i) { if(i->insname!=NULL) free(i->insname); } static void ML_FreeEx(UNIMOD *mf) { UWORD t; if(mf->songname!=NULL) free(mf->songname); if(mf->composer!=NULL) free(mf->composer); if(mf->comment!=NULL) free(mf->comment); if(mf->modtype!=NULL) free(mf->modtype); if(mf->positions!=NULL) free(mf->positions); if(mf->patterns!=NULL) free(mf->patterns); if(mf->pattrows!=NULL) free(mf->pattrows); if(mf->tracks!=NULL) { for(t=0; t<mf->numtrk; t++) if(mf->tracks[t]!=NULL) free(mf->tracks[t]); free(mf->tracks); } if(mf->instruments != NULL) { for(t=0; t<mf->numins; t++) ML_XFreeInstrument(&mf->instruments[t]); free(mf->instruments); } if(mf->samples != NULL) { for(t=0; t<mf->numsmp; t++) if(mf->samples[t].length) ML_XFreeSample(&mf->samples[t]); free(mf->samples); } memset(mf,0,sizeof(UNIMOD)); } static UNIMOD *ML_AllocUniMod(void) { UNIMOD *mf; if((mf=_mm_calloc(1,sizeof(UNIMOD))) == NULL) return NULL; return mf; } /****************************************** Next are the user-callable functions ******************************************/ void MikMod_FreeSong(UNIMOD *mf) { if(mf!=NULL) { Player_Exit(mf); ML_FreeEx(mf); } } CHAR *MikMod_LoadSongTitle(CHAR *filename) { MLOADER *l; CHAR *retval; FILE *fp; if((fp = _mm_fopen(filename,"rb"))==NULL) return NULL; _mm_errno = 0; _mm_critical = 0; _mm_iobase_setcur(modfp); // Try to find a loader that recognizes the module for(l=firstloader; l!=NULL; l=l->next) { _mm_rewind(modfp); if(l->Test()) break; } if(l==NULL) { _mm_errno = MMERR_NOT_A_MODULE; _mm_iobase_revert(); if(_mm_errorhandler!=NULL) _mm_errorhandler(); return NULL; } retval = l->LoadTitle(); fclose(fp); return(retval); } UNIMOD *MikMod_LoadSongFP(FILE *fp, int maxchan) // Loads a module given a file pointer. // File is loaded from the current file seek position. { int t; MLOADER *l; BOOL ok; UNIMOD *mf; modfp = fp; _mm_errno = 0; _mm_critical = 0; _mm_iobase_setcur(modfp); // Try to find a loader that recognizes the module for(l=firstloader; l!=NULL; l=l->next) { _mm_rewind(modfp); if(l->Test()) break; } if(l==NULL) { _mm_errno = MMERR_NOT_A_MODULE; _mm_iobase_revert(); if(_mm_errorhandler!=NULL) _mm_errorhandler(); return NULL; } // init unitrk routines if(!UniInit()) { if(_mm_errorhandler!=NULL) _mm_errorhandler(); return NULL; } // load the song using the song's loader variable memset(&of,0,sizeof(UNIMOD)); of.initvolume = 128; // init panning array for(t=0; t<64; t++) of.panning[t] = ((t+1)&2) ? 255 : 0; for(t=0; t<64; t++) of.chanvol[t] = 64; // init module loader and load the header / patterns if(l->Init()) { _mm_rewind(modfp); ok = l->Load(); } else ok = 0; // free loader and unitrk allocations l->Cleanup(); UniCleanup(); if(!ok) { ML_FreeEx(&of); _mm_iobase_revert(); if(_mm_errorhandler!=NULL) _mm_errorhandler(); return NULL; } if(!ML_LoadSamples()) { ML_FreeEx(&of); _mm_iobase_revert(); if(_mm_errorhandler!=NULL) _mm_errorhandler(); return NULL; } if((mf=ML_AllocUniMod()) == NULL) { ML_FreeEx(&of); _mm_iobase_revert(); if(_mm_errorhandler!=NULL) _mm_errorhandler(); return NULL; } // Copy the static UNIMOD contents into the dynamic UNIMOD struct. memcpy(mf,&of,sizeof(UNIMOD)); _mm_iobase_revert(); if(maxchan > 0) { if(!(mf->flags & UF_NNA) && (mf->numchn < maxchan)) maxchan = mf->numchn; else if((mf->numvoices!=0) && mf->numvoices < maxchan) maxchan = mf->numvoices; if(maxchan < mf->numchn) mf->flags |= UF_NNA; if(MikMod_SetNumVoices(maxchan,-1)) { MikMod_FreeSong(mf); return NULL; } } return mf; } UNIMOD *MikMod_LoadSong(CHAR *filename, int maxchan) // Open a module via it's filename. The loader will initialize the specified // song-player 'player'. { FILE *fp; UNIMOD *mf; if((fp = _mm_fopen(filename,"rb"))==NULL) return NULL; if((mf = MikMod_LoadSongFP(fp, maxchan)) != NULL) { if(SL_LoadSamples() || Player_Init(mf)) { MikMod_FreeSong(mf); mf = NULL; } } fclose(fp); return mf; }