/* * Read a Standard MIDI File. Externally-assigned function pointers are * called upon recognizing things in the file. See midifile(3). */ /***************************************************************************** * Change Log * Date | who : Change *-----------+----------------------------------------------------------------- * 2-Mar-92 | GWL : created changelog; MIDIFILE_ERROR to satisfy compiler *****************************************************************************/ #include "stdio.h" #include "mfmidi.h" #include "string.h" #define MIDIFILE_ERROR -1 /* public stuff */ extern int abort_flag; void Midifile_reader::midifile() { int ntrks; midifile_error = 0; ntrks = readheader(); if (midifile_error) return; if (ntrks <= 0) { mferror("No tracks!"); /* no need to return since midifile_error is set */ } while (ntrks-- > 0 && !midifile_error) readtrack(); } int Midifile_reader::readmt(char *s, int skip) /* read through the "MThd" or "MTrk" header string */ /* if skip == 1, we attempt to skip initial garbage. */ { int nread = 0; char b[4]; char buff[32]; int c; char *errmsg = "expecting "; retry: while ( nread<4 ) { c = Mf_getc(); if ( c == EOF ) { errmsg = "EOF while expecting "; goto err; } b[nread++] = c; } /* See if we found the 4 characters we're looking for */ if ( s[0]==b[0] && s[1]==b[1] && s[2]==b[2] && s[3]==b[3] ) return(0); if ( skip ) { /* If we are supposed to skip initial garbage, */ /* try again with the next character. */ b[0]=b[1]; b[1]=b[2]; b[2]=b[3]; nread = 3; goto retry; } err: (void) strcpy(buff,errmsg); (void) strcat(buff,s); mferror(buff); return(0); } int Midifile_reader::egetc() /* read a single character and abort on EOF */ { int c = Mf_getc(); if ( c == EOF ) { mferror("premature EOF"); return EOF; } Mf_toberead--; return(c); } int Midifile_reader::readheader() /* read a header chunk */ { int format, ntrks, division; if ( readmt("MThd",Mf_skipinit) == EOF ) return(0); Mf_toberead = read32bit(); if (midifile_error) return MIDIFILE_ERROR; format = read16bit(); if (midifile_error) return MIDIFILE_ERROR; ntrks = read16bit(); if (midifile_error) return MIDIFILE_ERROR; division = read16bit(); if (midifile_error) return MIDIFILE_ERROR; Mf_header(format,ntrks,division); /* flush any extra stuff, in case the length of header is not 6 */ while ( Mf_toberead > 0 && !midifile_error) (void) egetc(); return(ntrks); } void Midifile_reader::readtrack() /* read a track chunk */ { /* This array is indexed by the high half of a status byte. It's */ /* value is either the number of bytes needed (1 or 2) for a channel */ /* message, or 0 (meaning it's not a channel message). */ static int chantype[] = { 0, 0, 0, 0, 0, 0, 0, 0, /* 0x00 through 0x70 */ 2, 2, 2, 2, 1, 1, 2, 0 /* 0x80 through 0xf0 */ }; long lookfor, lng; int c, c1, type; int sysexcontinue = 0; /* 1 if last message was an unfinished sysex */ int running = 0; /* 1 when running status used */ int status = 0; /* (possibly running) status byte */ int needed; if ( readmt("MTrk",0) == EOF ) return; Mf_toberead = read32bit(); if (midifile_error) return; Mf_currtime = 0L; Mf_starttrack(); while ( Mf_toberead > 0 ) { Mf_currtime += readvarinum(); /* delta time */ if (midifile_error) return; c = egetc(); if (midifile_error) return; if ( sysexcontinue && c != 0xf7 ) { mferror("didn't find expected continuation of a sysex"); return; } if ( (c & 0x80) == 0 ) { /* running status? */ if ( status == 0 ) { mferror("unexpected running status"); return; } running = 1; } else { status = c; running = 0; } needed = chantype[ (status>>4) & 0xf ]; if ( needed ) { /* ie. is it a channel message? */ if ( running ) c1 = c; else { c1 = egetc(); if (midifile_error) return; } chanmessage( status, c1, (needed>1) ? egetc() : 0 ); if (midifile_error) return; continue;; } switch ( c ) { case 0xff: /* meta event */ type = egetc(); if (midifile_error) return; /* watch out - Don't combine the next 2 statements */ lng = readvarinum(); if (midifile_error) return; lookfor = Mf_toberead - lng; msginit(); while ( Mf_toberead > lookfor ) { char c = egetc(); if (midifile_error) return; msgadd(c); } metaevent(type); break; case 0xf0: /* start of system exclusive */ /* watch out - Don't combine the next 2 statements */ lng = readvarinum(); if (midifile_error) return; lookfor = Mf_toberead - lng; msginit(); msgadd(0xf0); while ( Mf_toberead > lookfor ) { c = egetc(); if (midifile_error) return; msgadd(c); } if ( c==0xf7 || Mf_nomerge==0 ) sysex(); else sysexcontinue = 1; /* merge into next msg */ break; case 0xf7: /* sysex continuation or arbitrary stuff */ /* watch out - Don't combine the next 2 statements */ lng = readvarinum(); if (midifile_error) return; lookfor = Mf_toberead - lng; if ( ! sysexcontinue ) msginit(); while ( Mf_toberead > lookfor ) { c = egetc(); if (midifile_error) return; msgadd(c); } if ( ! sysexcontinue ) { Mf_arbitrary(msgleng(), msg()); } else if ( c == 0xf7 ) { sysex(); sysexcontinue = 0; } break; default: badbyte(c); break; } } Mf_endtrack(); return; } void Midifile_reader::badbyte(int c) { char buff[32]; (void) sprintf(buff,"unexpected byte: 0x%02x",c); mferror(buff); } void Midifile_reader::metaevent(int type) { int leng = msgleng(); char *m = msg(); switch ( type ) { case 0x00: Mf_seqnum(to16bit(m[0],m[1])); break; case 0x01: /* Text event */ case 0x02: /* Copyright notice */ case 0x03: /* Sequence/Track name */ case 0x04: /* Instrument name */ case 0x05: /* Lyric */ case 0x06: /* Marker */ case 0x07: /* Cue point */ case 0x08: case 0x09: case 0x0a: case 0x0b: case 0x0c: case 0x0d: case 0x0e: case 0x0f: /* These are all text events */ Mf_text(type,leng,m); break; case 0x20: Mf_chanprefix(m[0]); break; case 0x21: Mf_portprefix(m[0]); break; case 0x2f: /* End of Track */ Mf_eot(); break; case 0x51: /* Set tempo */ Mf_tempo(to32bit(0,m[0],m[1],m[2])); break; case 0x54: Mf_smpte(m[0],m[1],m[2],m[3],m[4]); break; case 0x58: Mf_timesig(m[0],m[1],m[2],m[3]); break; case 0x59: Mf_keysig(m[0],m[1]); break; case 0x7f: Mf_sqspecific(leng,m); break; default: Mf_metamisc(type,leng,m); } } void Midifile_reader::sysex() { Mf_sysex(msgleng(), msg()); } void Midifile_reader::chanmessage(int status, int c1, int c2) { int chan = status & 0xf; switch ( status & 0xf0 ) { case NOTEOFF: Mf_off(chan,c1,c2); break; case NOTEON: Mf_on(chan,c1,c2); break; case PRESSURE: Mf_pressure(chan,c1,c2); break; case CONTROLLER: Mf_controller(chan,c1,c2); break; case PITCHBEND: Mf_pitchbend(chan,c1,c2); break; case PROGRAM: Mf_program(chan,c1); break; case CHANPRESSURE: Mf_chanpressure(chan,c1); break; } } /* readvarinum - read a varying-length number, and return the */ /* number of characters it took. */ long Midifile_reader::readvarinum() { long value; int c; c = egetc(); if (midifile_error) return 0; value = (long) c; if ( c & 0x80 ) { value &= 0x7f; do { c = egetc(); if (midifile_error) return 0; value = (value << 7) + (c & 0x7f); } while (c & 0x80); } return (value); } long Midifile_reader::to32bit(int c1, int c2, int c3, int c4) { long value = 0L; value = (c1 & 0xff); value = (value<<8) + (c2 & 0xff); value = (value<<8) + (c3 & 0xff); value = (value<<8) + (c4 & 0xff); return (value); } int Midifile_reader::to16bit(int c1, int c2) { return ((c1 & 0xff ) << 8) + (c2 & 0xff); } long Midifile_reader::read32bit() { int c1, c2, c3, c4; c1 = egetc(); if (midifile_error) return 0; c2 = egetc(); if (midifile_error) return 0; c3 = egetc(); if (midifile_error) return 0; c4 = egetc(); if (midifile_error) return 0; return to32bit(c1,c2,c3,c4); } int Midifile_reader::read16bit() { int c1, c2; c1 = egetc(); if (midifile_error) return 0; c2 = egetc(); if (midifile_error) return 0; return to16bit(c1,c2); } void Midifile_reader::mferror(char *s) { Mf_error(s); midifile_error = 1; } /* The code below allows collection of a system exclusive message of */ /* arbitrary length. The Msgbuff is expanded as necessary. The only */ /* visible data/routines are msginit(), msgadd(), msg(), msgleng(). */ #define MSGINCREMENT 128 Midifile_reader::Midifile_reader() { Mf_nomerge = 0; Mf_currtime = 0L; Mf_skipinit = 0; Mf_toberead = 0; Msgbuff = 0; /* message buffer */ Msgsize = 0; /* Size of currently allocated Msg */ Msgindex = 0; /* index of next available location in Msg */ } void Midifile_reader::finalize() { if (Msgbuff) Mf_free(Msgbuff, Msgsize); Msgbuff = NULL; } void Midifile_reader::msginit() { Msgindex = 0; } char *Midifile_reader::msg() { return(Msgbuff); } int Midifile_reader::msgleng() { return(Msgindex); } void Midifile_reader::msgadd(int c) { /* If necessary, allocate larger message buffer. */ if ( Msgindex >= Msgsize ) msgenlarge(); Msgbuff[Msgindex++] = c; } void Midifile_reader::msgenlarge() { char *newmess; char *oldmess = Msgbuff; int oldleng = Msgsize; Msgsize += MSGINCREMENT; newmess = (char *) Mf_malloc((sizeof(char) * Msgsize) ); /* copy old message into larger new one */ if ( oldmess != 0 ) { register char *p = newmess; register char *q = oldmess; register char *endq = &oldmess[oldleng]; for ( ; q!=endq ; p++,q++ ) *p = *q; Mf_free(oldmess, oldleng); } Msgbuff = newmess; }