Mercurial > SDL_sound_CoreAudio
view decoders/timidity/readmidi.c @ 591:8faf61a640f0 tip
Resynced fixes for unit conversion bugs in the Ogg Tremor decoder from SoundDecoder/ALmixer.
Ogg Vorbis uses seconds and we multiply by 1000 to convert to milliseconds. But Ogg Tremor already uses milliseconds but I was still multiplying by 1000.
author | Eric Wing <ewing . public |-at-| gmail . com> |
---|---|
date | Thu, 25 Oct 2012 16:34:18 -0700 |
parents | c66080364dff |
children |
line wrap: on
line source
/* TiMidity -- Experimental MIDI to WAVE converter Copyright (C) 1995 Tuukka Toivonen <toivonen@clinet.fi> This program is free software; you can redistribute it and/or modify it under the terms of the GNU 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #if HAVE_CONFIG_H # include <config.h> #endif #include <stdio.h> #include <stdlib.h> #include <string.h> #include "SDL_sound.h" #define __SDL_SOUND_INTERNAL__ #include "SDL_sound_internal.h" #include "timidity.h" #include "common.h" #include "instrum.h" #include "playmidi.h" /* Computes how many (fractional) samples one MIDI delta-time unit contains */ static void compute_sample_increment(MidiSong *song, Sint32 tempo, Sint32 divisions) { double a; a = (double) (tempo) * (double) (song->rate) * (65536.0/1000000.0) / (double)(divisions); song->sample_correction = (Sint32)(a) & 0xFFFF; song->sample_increment = (Sint32)(a) >> 16; SNDDBG(("Samples per delta-t: %d (correction %d)", song->sample_increment, song->sample_correction)); } /* Read variable-length number (7 bits per byte, MSB first) */ static Sint32 getvl(SDL_RWops *rw) { Sint32 l=0; Uint8 c; for (;;) { SDL_RWread(rw, &c, 1, 1); l += (c & 0x7f); if (!(c & 0x80)) return l; l<<=7; } } /* Print a string from the file, followed by a newline. Any non-ASCII or unprintable characters will be converted to periods. */ static int dumpstring(SDL_RWops *rw, Sint32 len, char *label) { signed char *s=safe_malloc(len+1); if (len != (Sint32) SDL_RWread(rw, s, 1, len)) { free(s); return -1; } s[len]='\0'; while (len--) { if (s[len]<32) s[len]='.'; } SNDDBG(("%s%s", label, s)); free(s); return 0; } #define MIDIEVENT(at,t,ch,pa,pb) \ new=safe_malloc(sizeof(MidiEventList)); \ new->event.time=at; new->event.type=t; new->event.channel=ch; \ new->event.a=pa; new->event.b=pb; new->next=0;\ return new; #define MAGIC_EOT ((MidiEventList *)(-1)) /* Read a MIDI event, returning a freshly allocated element that can be linked to the event list */ static MidiEventList *read_midi_event(MidiSong *song) { static Uint8 laststatus, lastchan; static Uint8 nrpn=0, rpn_msb[16], rpn_lsb[16]; /* one per channel */ Uint8 me, type, a,b,c; Sint32 len; MidiEventList *new; for (;;) { song->at += getvl(song->rw); if (SDL_RWread(song->rw, &me, 1, 1) != 1) { SNDDBG(("read_midi_event: SDL_RWread() failure\n")); return 0; } if(me==0xF0 || me == 0xF7) /* SysEx event */ { len=getvl(song->rw); SDL_RWseek(song->rw, len, SEEK_CUR); } else if(me==0xFF) /* Meta event */ { SDL_RWread(song->rw, &type, 1, 1); len=getvl(song->rw); if (type>0 && type<16) { static char *label[]={ "Text event: ", "Text: ", "Copyright: ", "Track name: ", "Instrument: ", "Lyric: ", "Marker: ", "Cue point: "}; dumpstring(song->rw, len, label[(type>7) ? 0 : type]); } else switch(type) { case 0x2F: /* End of Track */ return MAGIC_EOT; case 0x51: /* Tempo */ SDL_RWread(song->rw, &a, 1, 1); SDL_RWread(song->rw, &b, 1, 1); SDL_RWread(song->rw, &c, 1, 1); MIDIEVENT(song->at, ME_TEMPO, c, a, b); default: SNDDBG(("(Meta event type 0x%02x, length %d)\n", type, len)); SDL_RWseek(song->rw, len, SEEK_CUR); break; } } else { a=me; if (a & 0x80) /* status byte */ { lastchan=a & 0x0F; laststatus=(a>>4) & 0x07; SDL_RWread(song->rw, &a, 1, 1); a &= 0x7F; } switch(laststatus) { case 0: /* Note off */ SDL_RWread(song->rw, &b, 1, 1); b &= 0x7F; MIDIEVENT(song->at, ME_NOTEOFF, lastchan, a,b); case 1: /* Note on */ SDL_RWread(song->rw, &b, 1, 1); b &= 0x7F; MIDIEVENT(song->at, ME_NOTEON, lastchan, a,b); case 2: /* Key Pressure */ SDL_RWread(song->rw, &b, 1, 1); b &= 0x7F; MIDIEVENT(song->at, ME_KEYPRESSURE, lastchan, a, b); case 3: /* Control change */ SDL_RWread(song->rw, &b, 1, 1); b &= 0x7F; { int control=255; switch(a) { case 7: control=ME_MAINVOLUME; break; case 10: control=ME_PAN; break; case 11: control=ME_EXPRESSION; break; case 64: control=ME_SUSTAIN; break; case 120: control=ME_ALL_SOUNDS_OFF; break; case 121: control=ME_RESET_CONTROLLERS; break; case 123: control=ME_ALL_NOTES_OFF; break; /* These should be the SCC-1 tone bank switch commands. I don't know why there are two, or why the latter only allows switching to bank 0. Also, some MIDI files use 0 as some sort of continuous controller. This will cause lots of warnings about undefined tone banks. */ case 0: control=ME_TONE_BANK; break; case 32: if (b!=0) SNDDBG(("(Strange: tone bank change 0x20%02x)\n", b)); else control=ME_TONE_BANK; break; case 100: nrpn=0; rpn_msb[lastchan]=b; break; case 101: nrpn=0; rpn_lsb[lastchan]=b; break; case 99: nrpn=1; rpn_msb[lastchan]=b; break; case 98: nrpn=1; rpn_lsb[lastchan]=b; break; case 6: if (nrpn) { SNDDBG(("(Data entry (MSB) for NRPN %02x,%02x: %d)\n", rpn_msb[lastchan], rpn_lsb[lastchan], b)); break; } switch((rpn_msb[lastchan]<<8) | rpn_lsb[lastchan]) { case 0x0000: /* Pitch bend sensitivity */ control=ME_PITCH_SENS; break; case 0x7F7F: /* RPN reset */ /* reset pitch bend sensitivity to 2 */ MIDIEVENT(song->at, ME_PITCH_SENS, lastchan, 2, 0); default: SNDDBG(("(Data entry (MSB) for RPN %02x,%02x: %d)\n", rpn_msb[lastchan], rpn_lsb[lastchan], b)); break; } break; default: SNDDBG(("(Control %d: %d)\n", a, b)); break; } if (control != 255) { MIDIEVENT(song->at, control, lastchan, b, 0); } } break; case 4: /* Program change */ a &= 0x7f; MIDIEVENT(song->at, ME_PROGRAM, lastchan, a, 0); case 5: /* Channel pressure - NOT IMPLEMENTED */ break; case 6: /* Pitch wheel */ SDL_RWread(song->rw, &b, 1, 1); b &= 0x7F; MIDIEVENT(song->at, ME_PITCHWHEEL, lastchan, a, b); default: SNDDBG(("*** Can't happen: status 0x%02X, channel 0x%02X\n", laststatus, lastchan)); break; } } } return new; } #undef MIDIEVENT /* Read a midi track into the linked list, either merging with any previous tracks or appending to them. */ static int read_track(MidiSong *song, int append) { MidiEventList *meep; MidiEventList *next, *new; Sint32 len; char tmp[4]; meep = song->evlist; if (append && meep) { /* find the last event in the list */ for (; meep->next; meep=meep->next) ; song->at = meep->event.time; } else song->at=0; /* Check the formalities */ if (SDL_RWread(song->rw, tmp, 1, 4) != 4 || SDL_RWread(song->rw, &len, 4, 1) != 1) { SNDDBG(("Can't read track header.\n")); return -1; } len=SDL_SwapBE32(len); if (memcmp(tmp, "MTrk", 4)) { SNDDBG(("Corrupt MIDI file.\n")); return -2; } for (;;) { if (!(new=read_midi_event(song))) /* Some kind of error */ return -2; if (new==MAGIC_EOT) /* End-of-track Hack. */ { return 0; } next=meep->next; while (next && (next->event.time < new->event.time)) { meep=next; next=meep->next; } new->next=next; meep->next=new; song->event_count++; /* Count the event. (About one?) */ meep=new; } } /* Free the linked event list from memory. */ static void free_midi_list(MidiSong *song) { MidiEventList *meep, *next; if (!(meep = song->evlist)) return; while (meep) { next=meep->next; free(meep); meep=next; } song->evlist=0; } /* Allocate an array of MidiEvents and fill it from the linked list of events, marking used instruments for loading. Convert event times to samples: handle tempo changes. Strip unnecessary events from the list. Free the linked list. */ static MidiEvent *groom_list(MidiSong *song, Sint32 divisions,Sint32 *eventsp, Sint32 *samplesp) { MidiEvent *groomed_list, *lp; MidiEventList *meep; Sint32 i, our_event_count, tempo, skip_this_event, new_value; Sint32 sample_cum, samples_to_do, at, st, dt, counting_time; int current_bank[16], current_set[16], current_program[16]; /* Or should each bank have its own current program? */ for (i=0; i<16; i++) { current_bank[i]=0; current_set[i]=0; current_program[i]=song->default_program; } tempo=500000; compute_sample_increment(song, tempo, divisions); /* This may allocate a bit more than we need */ groomed_list=lp=safe_malloc(sizeof(MidiEvent) * (song->event_count+1)); meep=song->evlist; our_event_count=0; st=at=sample_cum=0; counting_time=2; /* We strip any silence before the first NOTE ON. */ for (i = 0; i < song->event_count; i++) { skip_this_event=0; if (meep->event.type==ME_TEMPO) { tempo= meep->event.channel + meep->event.b * 256 + meep->event.a * 65536; compute_sample_increment(song, tempo, divisions); skip_this_event=1; } else switch (meep->event.type) { case ME_PROGRAM: if (ISDRUMCHANNEL(song, meep->event.channel)) { if (song->drumset[meep->event.a]) /* Is this a defined drumset? */ new_value=meep->event.a; else { SNDDBG(("Drum set %d is undefined\n", meep->event.a)); new_value=meep->event.a=0; } if (current_set[meep->event.channel] != new_value) current_set[meep->event.channel]=new_value; else skip_this_event=1; } else { new_value=meep->event.a; if ((current_program[meep->event.channel] != SPECIAL_PROGRAM) && (current_program[meep->event.channel] != new_value)) current_program[meep->event.channel] = new_value; else skip_this_event=1; } break; case ME_NOTEON: if (counting_time) counting_time=1; if (ISDRUMCHANNEL(song, meep->event.channel)) { /* Mark this instrument to be loaded */ if (!(song->drumset[current_set[meep->event.channel]] ->instrument[meep->event.a])) song->drumset[current_set[meep->event.channel]] ->instrument[meep->event.a] = MAGIC_LOAD_INSTRUMENT; } else { if (current_program[meep->event.channel]==SPECIAL_PROGRAM) break; /* Mark this instrument to be loaded */ if (!(song->tonebank[current_bank[meep->event.channel]] ->instrument[current_program[meep->event.channel]])) song->tonebank[current_bank[meep->event.channel]] ->instrument[current_program[meep->event.channel]] = MAGIC_LOAD_INSTRUMENT; } break; case ME_TONE_BANK: if (ISDRUMCHANNEL(song, meep->event.channel)) { skip_this_event=1; break; } if (song->tonebank[meep->event.a]) /* Is this a defined tone bank? */ new_value=meep->event.a; else { SNDDBG(("Tone bank %d is undefined\n", meep->event.a)); new_value=meep->event.a=0; } if (current_bank[meep->event.channel]!=new_value) current_bank[meep->event.channel]=new_value; else skip_this_event=1; break; } /* Recompute time in samples*/ if ((dt=meep->event.time - at) && !counting_time) { samples_to_do = song->sample_increment * dt; sample_cum += song->sample_correction * dt; if (sample_cum & 0xFFFF0000) { samples_to_do += ((sample_cum >> 16) & 0xFFFF); sample_cum &= 0x0000FFFF; } st += samples_to_do; } else if (counting_time==1) counting_time=0; if (!skip_this_event) { /* Add the event to the list */ *lp=meep->event; lp->time=st; lp++; our_event_count++; } at=meep->event.time; meep=meep->next; } /* Add an End-of-Track event */ lp->time=st; lp->type=ME_EOT; our_event_count++; free_midi_list(song); *eventsp=our_event_count; *samplesp=st; return groomed_list; } MidiEvent *read_midi_file(MidiSong *song, Sint32 *count, Sint32 *sp) { Sint32 len, divisions; Sint16 format, tracks, divisions_tmp; int i; char tmp[4]; song->event_count=0; song->at=0; song->evlist=0; if (SDL_RWread(song->rw, tmp, 1, 4) != 4 || SDL_RWread(song->rw, &len, 4, 1) != 1) { SNDDBG(("Not a MIDI file!\n")); return 0; } len=SDL_SwapBE32(len); if (memcmp(tmp, "MThd", 4) || len < 6) { SNDDBG(("Not a MIDI file!\n")); return 0; } SDL_RWread(song->rw, &format, 2, 1); SDL_RWread(song->rw, &tracks, 2, 1); SDL_RWread(song->rw, &divisions_tmp, 2, 1); format=SDL_SwapBE16(format); tracks=SDL_SwapBE16(tracks); divisions_tmp=SDL_SwapBE16(divisions_tmp); if (divisions_tmp<0) { /* SMPTE time -- totally untested. Got a MIDI file that uses this? */ divisions= (Sint32)(-(divisions_tmp/256)) * (Sint32)(divisions_tmp & 0xFF); } else divisions=(Sint32)(divisions_tmp); if (len > 6) { SNDDBG(("MIDI file header size %u bytes", len)); SDL_RWseek(song->rw, len-6, SEEK_CUR); /* skip the excess */ } if (format<0 || format >2) { SNDDBG(("Unknown MIDI file format %d\n", format)); return 0; } SNDDBG(("Format: %d Tracks: %d Divisions: %d\n", format, tracks, divisions)); /* Put a do-nothing event first in the list for easier processing */ song->evlist=safe_malloc(sizeof(MidiEventList)); song->evlist->event.time=0; song->evlist->event.type=ME_NONE; song->evlist->next=0; song->event_count++; switch(format) { case 0: if (read_track(song, 0)) { free_midi_list(song); return 0; } break; case 1: for (i=0; i<tracks; i++) if (read_track(song, 0)) { free_midi_list(song); return 0; } break; case 2: /* We simply play the tracks sequentially */ for (i=0; i<tracks; i++) if (read_track(song, 1)) { free_midi_list(song); return 0; } break; } return groom_list(song, divisions, count, sp); }