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MusicKeyboard/src/midifile.c

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Added saving abilities. Included parts of Steven Goodwin's "Steevs MIDI Library" to dump a MIDI file.
2013-09-12 19:10:54 -04:00
/*
* midiFile.c - A general purpose midi file handling library. This code
* can read and write MIDI files in formats 0 and 1.
* Version 1.4
*
* AUTHOR: Steven Goodwin (StevenGoodwin@gmail.com)
* Copyright 1998-2010, Steven Goodwin
*
* 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.
*/
#ifndef _CRT_SECURE_NO_WARNINGS
# define _CRT_SECURE_NO_WARNINGS
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifndef __APPLE__
#include <malloc.h>
#endif
#include "midifile.h"
#ifdef _MSC_VER
# pragma warning(push)
# pragma warning(disable: 4706)
#endif
/*
** Internal Data Structures
*/
typedef struct {
BYTE note, chn;
BYTE valid, p2;
DWORD end_pos;
} MIDI_LAST_NOTE;
typedef struct {
BYTE *ptr;
BYTE *pBase;
BYTE *pEnd;
DWORD pos;
DWORD dt;
/* For Reading MIDI Files */
DWORD sz; /* size of whole iTrack */
/* For Writing MIDI Files */
DWORD iBlockSize; /* max size of track */
BYTE iDefaultChannel; /* use for write only */
BYTE last_status; /* used for running status */
MIDI_LAST_NOTE LastNote[MAX_TRACK_POLYPHONY];
} MIDI_FILE_TRACK;
typedef struct {
DWORD iHeaderSize;
/**/
WORD iVersion; /* 0, 1 or 2 */
WORD iNumTracks; /* number of tracks... (will be 1 for MIDI type 0) */
WORD PPQN; /* pulses per quarter note */
} MIDI_HEADER;
typedef struct {
FILE *pFile;
BOOL bOpenForWriting;
MIDI_HEADER Header;
BYTE *ptr; /* to whole data block */
DWORD file_sz;
MIDI_FILE_TRACK Track[MAX_MIDI_TRACKS];
} _MIDI_FILE;
/*
** Internal Functions
*/
#define DT_DEF 32 /* assume maximum delta-time + msg is no more than 32 bytes */
#define SWAP_WORD(w) (WORD)(((w)>>8)|((w)<<8))
#define SWAP_DWORD(d) (DWORD)((d)>>24)|(((d)>>8)&0xff00)|(((d)<<8)&0xff0000)|(((d)<<24))
#define _VAR_CAST _MIDI_FILE *pMF = (_MIDI_FILE *)_pMF
#define IsFilePtrValid(pMF) (pMF)
#define IsTrackValid(_x) (_midiValidateTrack(pMF, _x))
#define IsChannelValid(_x) ((_x)>=1 && (_x)<=16)
#define IsNoteValid(_x) ((_x)>=0 && (_x)<128)
#define IsMessageValid(_x) ((_x)>=msgNoteOff && (_x)<=msgMetaEvent)
static BOOL _midiValidateTrack(const _MIDI_FILE *pMF, int iTrack)
{
if (!IsFilePtrValid(pMF)) return FALSE;
if (pMF->bOpenForWriting)
{
if (iTrack < 0 || iTrack >= MAX_MIDI_TRACKS)
return FALSE;
}
else /* open for reading */
{
if (!pMF->ptr)
return FALSE;
if (iTrack < 0 || iTrack>=pMF->Header.iNumTracks)
return FALSE;
}
return TRUE;
}
static BYTE *_midiWriteVarLen(BYTE *ptr, int n)
{
register long buffer;
register long value=n;
buffer = value & 0x7f;
while ((value >>= 7) > 0)
{
buffer <<= 8;
buffer |= 0x80;
buffer += (value & 0x7f);
}
while (TRUE)
{
*ptr++ = (BYTE)buffer;
if (buffer & 0x80)
buffer >>= 8;
else
break;
}
return(ptr);
}
/* Return a ptr to valid block of memory to store a message
** of up to sz_reqd bytes
*/
static BYTE *_midiGetPtr(_MIDI_FILE *pMF, int iTrack, int sz_reqd)
{
const DWORD mem_sz_inc = 8092; /* arbitary */
BYTE *ptr;
int curr_offset;
MIDI_FILE_TRACK *pTrack = &pMF->Track[iTrack];
ptr = pTrack->ptr;
if (ptr == NULL || ptr+sz_reqd > pTrack->pEnd) /* need more RAM! */
{
curr_offset = ptr-pTrack->pBase;
if ((ptr = (BYTE *)realloc(pTrack->pBase, mem_sz_inc+pTrack->iBlockSize)))
{
pTrack->pBase = ptr;
pTrack->iBlockSize += mem_sz_inc;
pTrack->pEnd = ptr+pTrack->iBlockSize;
/* Move new ptr to continue data entry: */
pTrack->ptr = ptr+curr_offset;
ptr += curr_offset;
}
else
{
/* NO MEMORY LEFT */
return NULL;
}
}
return ptr;
}
static int _midiGetLength(int ppqn, int iNoteLen, BOOL bOverride)
{
int length = ppqn;
if (bOverride)
{
length = iNoteLen;
}
else
{
switch(iNoteLen)
{
case MIDI_NOTE_DOTTED_MINIM:
length *= 3;
break;
case MIDI_NOTE_DOTTED_CROCHET:
length *= 3;
length /= 2;
break;
case MIDI_NOTE_DOTTED_QUAVER:
length *= 3;
length /= 4;
break;
case MIDI_NOTE_DOTTED_SEMIQUAVER:
length *= 3;
length /= 8;
break;
case MIDI_NOTE_DOTTED_SEMIDEMIQUAVER:
length *= 3;
length /= 16;
break;
case MIDI_NOTE_BREVE:
length *= 4;
break;
case MIDI_NOTE_MINIM:
length *= 2;
break;
case MIDI_NOTE_QUAVER:
length /= 2;
break;
case MIDI_NOTE_SEMIQUAVER:
length /= 4;
break;
case MIDI_NOTE_SEMIDEMIQUAVER:
length /= 8;
break;
case MIDI_NOTE_TRIPLE_CROCHET:
length *= 2;
length /= 3;
break;
}
}
return length;
}
/*
** midiFile* Functions
*/
MIDI_FILE *midiFileCreate(const char *pFilename, BOOL bOverwriteIfExists)
{
_MIDI_FILE *pMF = (_MIDI_FILE *)malloc(sizeof(_MIDI_FILE));
int i;
if (!pMF) return NULL;
if (!bOverwriteIfExists)
{
if ((pMF->pFile = fopen(pFilename, "r")))
{
fclose(pMF->pFile);
free(pMF);
return NULL;
}
}
if ((pMF->pFile = fopen(pFilename, "wb+")))
{/*empty*/}
else
{
free((void *)pMF);
return NULL;
}
pMF->bOpenForWriting = TRUE;
pMF->Header.PPQN = MIDI_PPQN_DEFAULT;
pMF->Header.iVersion = MIDI_VERSION_DEFAULT;
for(i=0;i<MAX_MIDI_TRACKS;++i)
{
pMF->Track[i].pos = 0;
pMF->Track[i].ptr = NULL;
pMF->Track[i].pBase = NULL;
pMF->Track[i].pEnd = NULL;
pMF->Track[i].iBlockSize = 0;
pMF->Track[i].dt = 0;
pMF->Track[i].iDefaultChannel = (BYTE)(i & 0xf);
memset(pMF->Track[i].LastNote, '\0', sizeof(pMF->Track[i].LastNote));
}
return (MIDI_FILE *)pMF;
}
int midiFileSetTracksDefaultChannel(MIDI_FILE *_pMF, int iTrack, int iChannel)
{
int prev;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return 0;
if (!IsTrackValid(iTrack)) return 0;
if (!IsChannelValid(iChannel)) return 0;
/* For programmer each, iChannel is between 1 & 16 - but MIDI uses
** 0-15. Thus, the fudge factor of 1 :)
*/
prev = pMF->Track[iTrack].iDefaultChannel+1;
pMF->Track[iTrack].iDefaultChannel = (BYTE)(iChannel-1);
return prev;
}
int midiFileGetTracksDefaultChannel(const MIDI_FILE *_pMF, int iTrack)
{
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return 0;
if (!IsTrackValid(iTrack)) return 0;
return pMF->Track[iTrack].iDefaultChannel+1;
}
int midiFileSetPPQN(MIDI_FILE *_pMF, int PPQN)
{
int prev;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return MIDI_PPQN_DEFAULT;
prev = pMF->Header.PPQN;
pMF->Header.PPQN = (WORD)PPQN;
return prev;
}
int midiFileGetPPQN(const MIDI_FILE *_pMF)
{
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return MIDI_PPQN_DEFAULT;
return (int)pMF->Header.PPQN;
}
int midiFileSetVersion(MIDI_FILE *_pMF, int iVersion)
{
int prev;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return MIDI_VERSION_DEFAULT;
if (iVersion<0 || iVersion>2) return MIDI_VERSION_DEFAULT;
prev = pMF->Header.iVersion;
pMF->Header.iVersion = (WORD)iVersion;
return prev;
}
int midiFileGetVersion(const MIDI_FILE *_pMF)
{
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return MIDI_VERSION_DEFAULT;
return pMF->Header.iVersion;
}
MIDI_FILE *midiFileOpen(const char *pFilename)
{
FILE *fp = fopen(pFilename, "rb");
_MIDI_FILE *pMF = NULL;
BYTE *ptr;
BOOL bValidFile=FALSE;
long size;
if (fp)
{
if ((pMF = (_MIDI_FILE *)malloc(sizeof(_MIDI_FILE))))
{
fseek(fp, 0L, SEEK_END);
size = ftell(fp);
if ((pMF->ptr = (BYTE *)malloc(size)))
{
fseek(fp, 0L, SEEK_SET);
fread(pMF->ptr, sizeof(BYTE), size, fp);
/* Is this a valid MIDI file ? */
ptr = pMF->ptr;
if (*(ptr+0) == 'M' && *(ptr+1) == 'T' &&
*(ptr+2) == 'h' && *(ptr+3) == 'd')
{
DWORD dwData;
WORD wData;
int i;
dwData = *((DWORD *)(ptr+4));
pMF->Header.iHeaderSize = SWAP_DWORD(dwData);
wData = *((WORD *)(ptr+8));
pMF->Header.iVersion = (WORD)SWAP_WORD(wData);
wData = *((WORD *)(ptr+10));
pMF->Header.iNumTracks = (WORD)SWAP_WORD(wData);
wData = *((WORD *)(ptr+12));
pMF->Header.PPQN = (WORD)SWAP_WORD(wData);
ptr += pMF->Header.iHeaderSize+8;
/*
** Get all tracks
*/
for(i=0;i<MAX_MIDI_TRACKS;++i)
{
pMF->Track[i].pos = 0;
pMF->Track[i].last_status = 0;
}
for(i=0;i<pMF->Header.iNumTracks;++i)
{
pMF->Track[i].pBase = ptr;
pMF->Track[i].ptr = ptr+8;
dwData = *((DWORD *)(ptr+4));
pMF->Track[i].sz = SWAP_DWORD(dwData);
pMF->Track[i].pEnd = ptr+pMF->Track[i].sz+8;
ptr += pMF->Track[i].sz+8;
}
pMF->bOpenForWriting = FALSE;
pMF->pFile = NULL;
bValidFile = TRUE;
}
}
}
fclose(fp);
}
if (!bValidFile)
{
if (pMF) free((void *)pMF);
return NULL;
}
return (MIDI_FILE *)pMF;
}
typedef struct {
int iIdx;
int iEndPos;
} MIDI_END_POINT;
static int qs_cmp_pEndPoints(const void *e1, const void *e2)
{
MIDI_END_POINT *p1 = (MIDI_END_POINT *)e1;
MIDI_END_POINT *p2 = (MIDI_END_POINT *)e2;
return p1->iEndPos-p2->iEndPos;
}
BOOL midiFileFlushTrack(MIDI_FILE *_pMF, int iTrack, BOOL bFlushToEnd, DWORD dwEndTimePos)
{
int sz;
BYTE *ptr;
MIDI_END_POINT *pEndPoints;
int num, i, mx_pts;
BOOL bNoChanges = TRUE;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!_midiValidateTrack(pMF, iTrack)) return FALSE;
sz = sizeof(pMF->Track[0].LastNote)/sizeof(pMF->Track[0].LastNote[0]);
/*
** Flush all
*/
pEndPoints = (MIDI_END_POINT *)malloc(sz * sizeof(MIDI_END_POINT));
mx_pts = 0;
for(i=0;i<sz;++i)
if (pMF->Track[iTrack].LastNote[i].valid)
{
pEndPoints[mx_pts].iIdx = i;
pEndPoints[mx_pts].iEndPos = pMF->Track[iTrack].LastNote[i].end_pos;
mx_pts++;
}
if (bFlushToEnd)
{
if (mx_pts)
dwEndTimePos = pEndPoints[mx_pts-1].iEndPos;
else
dwEndTimePos = pMF->Track[iTrack].pos;
}
if (mx_pts)
{
/* Sort, smallest first, and add the note off msgs */
qsort(pEndPoints, mx_pts, sizeof(MIDI_END_POINT), qs_cmp_pEndPoints);
i = 0;
while ((dwEndTimePos >= (DWORD)pEndPoints[i].iEndPos || bFlushToEnd) && i<mx_pts)
{
ptr = _midiGetPtr(pMF, iTrack, DT_DEF);
if (!ptr)
return FALSE;
num = pEndPoints[i].iIdx; /* get 'LastNote' index */
ptr = _midiWriteVarLen(ptr, pMF->Track[iTrack].LastNote[num].end_pos - pMF->Track[iTrack].pos);
/* msgNoteOn msgNoteOff */
*ptr++ = (BYTE)(msgNoteOff | pMF->Track[iTrack].LastNote[num].chn);
*ptr++ = pMF->Track[iTrack].LastNote[num].note;
*ptr++ = 0;
pMF->Track[iTrack].LastNote[num].valid = FALSE;
pMF->Track[iTrack].pos = pMF->Track[iTrack].LastNote[num].end_pos;
pMF->Track[iTrack].ptr = ptr;
++i;
bNoChanges = FALSE;
}
}
free((void *)pEndPoints);
/*
** Re-calc current position
*/
pMF->Track[iTrack].dt = dwEndTimePos - pMF->Track[iTrack].pos;
return TRUE;
}
BOOL midiFileSyncTracks(MIDI_FILE *_pMF, int iTrack1, int iTrack2)
{
int p1, p2;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack1)) return FALSE;
if (!IsTrackValid(iTrack2)) return FALSE;
p1 = pMF->Track[iTrack1].pos + pMF->Track[iTrack1].dt;
p2 = pMF->Track[iTrack2].pos + pMF->Track[iTrack2].dt;
if (p1 < p2) midiTrackIncTime(pMF, iTrack1, p2-p1, TRUE);
else if (p2 < p1) midiTrackIncTime(pMF, iTrack2, p1-p2, TRUE);
return TRUE;
}
BOOL midiFileClose(MIDI_FILE *_pMF)
{
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (pMF->bOpenForWriting)
{
WORD iNumTracks = 0;
WORD wTest = 256;
BOOL bSwap = FALSE;
int i;
/* Intel processor style-endians need byte swap :( */
if (*((BYTE *)&wTest) == 0)
bSwap = TRUE;
/* Flush our buffers */
for(i=0;i<MAX_MIDI_TRACKS;++i)
{
if (pMF->Track[i].ptr)
{
midiSongAddEndSequence(pMF, i);
midiFileFlushTrack(pMF, i, TRUE, 0);
iNumTracks++;
}
}
/*
** Header
*/
{
const BYTE mthd[4] = {'M', 'T', 'h', 'd'};
DWORD dwData;
WORD wData;
WORD version, PPQN;
fwrite(mthd, sizeof(BYTE), 4, pMF->pFile);
dwData = 6;
if (bSwap) dwData = SWAP_DWORD(dwData);
fwrite(&dwData, sizeof(DWORD), 1, pMF->pFile);
wData = (WORD)(iNumTracks==1?pMF->Header.iVersion:1);
if (bSwap) version = SWAP_WORD(wData); else version = (WORD)wData;
if (bSwap) iNumTracks = SWAP_WORD(iNumTracks);
wData = pMF->Header.PPQN;
if (bSwap) PPQN = SWAP_WORD(wData); else PPQN = wData;
fwrite(&version, sizeof(WORD), 1, pMF->pFile);
fwrite(&iNumTracks, sizeof(WORD), 1, pMF->pFile);
fwrite(&PPQN, sizeof(WORD), 1, pMF->pFile);
}
/*
** Track data
*/
for(i=0;i<MAX_MIDI_TRACKS;++i)
if (pMF->Track[i].ptr)
{
const BYTE mtrk[4] = {'M', 'T', 'r', 'k'};
DWORD sz, dwData;
/* Write track header */
fwrite(&mtrk, sizeof(BYTE), 4, pMF->pFile);
/* Write data size */
sz = dwData = (int)(pMF->Track[i].ptr - pMF->Track[i].pBase);
if (bSwap) sz = SWAP_DWORD(sz);
fwrite(&sz, sizeof(DWORD), 1, pMF->pFile);
/* Write data */
fwrite(pMF->Track[i].pBase, sizeof(BYTE), dwData, pMF->pFile);
/* Free memory */
free((void *)pMF->Track[i].pBase);
}
}
if (pMF->pFile)
return fclose(pMF->pFile)?FALSE:TRUE;
free((void *)pMF);
return TRUE;
}
/*
** midiSong* Functions
*/
BOOL midiSongAddSMPTEOffset(MIDI_FILE *_pMF, int iTrack, int iHours, int iMins, int iSecs, int iFrames, int iFFrames)
{
static BYTE tmp[] = {msgMetaEvent, metaSMPTEOffset, 0x05, 0,0,0,0,0};
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
if (iMins<0 || iMins>59) iMins=0;
if (iSecs<0 || iSecs>59) iSecs=0;
if (iFrames<0 || iFrames>24) iFrames=0;
tmp[3] = (BYTE)iHours;
tmp[4] = (BYTE)iMins;
tmp[5] = (BYTE)iSecs;
tmp[6] = (BYTE)iFrames;
tmp[7] = (BYTE)iFFrames;
return midiTrackAddRaw(pMF, iTrack, sizeof(tmp), tmp, FALSE, 0);
}
BOOL midiSongAddSimpleTimeSig(MIDI_FILE *_pMF, int iTrack, int iNom, int iDenom)
{
return midiSongAddTimeSig(_pMF, iTrack, iNom, iDenom, 24, 8);
}
BOOL midiSongAddTimeSig(MIDI_FILE *_pMF, int iTrack, int iNom, int iDenom, int iClockInMetroTick, int iNotated32nds)
{
static BYTE tmp[] = {msgMetaEvent, metaTimeSig, 0x04, 0,0,0,0};
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
tmp[3] = (BYTE)iNom;
tmp[4] = (BYTE)(MIDI_NOTE_MINIM/iDenom);
tmp[5] = (BYTE)iClockInMetroTick;
tmp[6] = (BYTE)iNotated32nds;
return midiTrackAddRaw(pMF, iTrack, sizeof(tmp), tmp, FALSE, 0);
}
BOOL midiSongAddKeySig(MIDI_FILE *_pMF, int iTrack, tMIDI_KEYSIG iKey)
{
static BYTE tmp[] = {msgMetaEvent, metaKeySig, 0x02, 0, 0};
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
tmp[3] = (BYTE)((iKey&keyMaskKey)*((iKey&keyMaskNeg)?-1:1));
tmp[4] = (BYTE)((iKey&keyMaskMin)?1:0);
return midiTrackAddRaw(pMF, iTrack, sizeof(tmp), tmp, FALSE, 0);
}
BOOL midiSongAddTempo(MIDI_FILE *_pMF, int iTrack, int iTempo)
{
static BYTE tmp[] = {msgMetaEvent, metaSetTempo, 0x03, 0,0,0};
int us; /* micro-seconds per qn */
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
us = 60000000L/iTempo;
tmp[3] = (BYTE)((us>>16)&0xff);
tmp[4] = (BYTE)((us>>8)&0xff);
tmp[5] = (BYTE)((us>>0)&0xff);
return midiTrackAddRaw(pMF, iTrack, sizeof(tmp), tmp, FALSE, 0);
}
BOOL midiSongAddMIDIPort(MIDI_FILE *_pMF, int iTrack, int iPort)
{
static BYTE tmp[] = {msgMetaEvent, metaMIDIPort, 1, 0};
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
tmp[3] = (BYTE)iPort;
return midiTrackAddRaw(pMF, iTrack, sizeof(tmp), tmp, FALSE, 0);
}
BOOL midiSongAddEndSequence(MIDI_FILE *_pMF, int iTrack)
{
static BYTE tmp[] = {msgMetaEvent, metaEndSequence, 0};
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
return midiTrackAddRaw(pMF, iTrack, sizeof(tmp), tmp, FALSE, 0);
}
/*
** midiTrack* Functions
*/
BOOL midiTrackAddRaw(MIDI_FILE *_pMF, int iTrack, int data_sz, const BYTE *pData, BOOL bMovePtr, int dt)
{
MIDI_FILE_TRACK *pTrk;
BYTE *ptr;
int dtime;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
pTrk = &pMF->Track[iTrack];
ptr = _midiGetPtr(pMF, iTrack, data_sz+DT_DEF);
if (!ptr)
return FALSE;
dtime = pTrk->dt;
if (bMovePtr)
dtime += dt;
ptr = _midiWriteVarLen(ptr, dtime);
memcpy(ptr, pData, data_sz);
pTrk->pos += dtime;
pTrk->dt = 0;
pTrk->ptr = ptr+data_sz;
return TRUE;
}
BOOL midiTrackIncTime(MIDI_FILE *_pMF, int iTrack, int iDeltaTime, BOOL bOverridePPQN)
{
DWORD will_end_at;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
will_end_at = _midiGetLength(pMF->Header.PPQN, iDeltaTime, bOverridePPQN);
will_end_at += pMF->Track[iTrack].pos + pMF->Track[iTrack].dt;
midiFileFlushTrack(pMF, iTrack, FALSE, will_end_at);
return TRUE;
}
BOOL midiTrackAddText(MIDI_FILE *_pMF, int iTrack, tMIDI_TEXT iType, const char *pTxt)
{
BYTE *ptr;
int sz;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
sz = strlen(pTxt);
if ((ptr = _midiGetPtr(pMF, iTrack, sz+DT_DEF)))
{
*ptr++ = 0; /* delta-time=0 */
*ptr++ = msgMetaEvent;
*ptr++ = (BYTE)iType;
ptr = _midiWriteVarLen((BYTE *)ptr, sz);
strcpy((char *)ptr, pTxt);
pMF->Track[iTrack].ptr = ptr+sz;
return TRUE;
}
else
{
return FALSE;
}
}
BOOL midiTrackSetKeyPressure(MIDI_FILE *pMF, int iTrack, int iNote, int iAftertouch)
{
return midiTrackAddMsg(pMF, iTrack, msgNoteKeyPressure, iNote, iAftertouch);
}
BOOL midiTrackAddControlChange(MIDI_FILE *pMF, int iTrack, tMIDI_CC iCCType, int iParam)
{
return midiTrackAddMsg(pMF, iTrack, msgControlChange, iCCType, iParam);
}
BOOL midiTrackAddProgramChange(MIDI_FILE *pMF, int iTrack, int iInstrPatch)
{
return midiTrackAddMsg(pMF, iTrack, msgSetProgram, iInstrPatch, 0);
}
BOOL midiTrackChangeKeyPressure(MIDI_FILE *pMF, int iTrack, int iDeltaPressure)
{
return midiTrackAddMsg(pMF, iTrack, msgChangePressure, iDeltaPressure&0x7f, 0);
}
BOOL midiTrackSetPitchWheel(MIDI_FILE *pMF, int iTrack, int iWheelPos)
{
WORD wheel = (WORD)iWheelPos;
/* bitshift 7 instead of eight because we're dealing with 7 bit numbers */
wheel += MIDI_WHEEL_CENTRE;
return midiTrackAddMsg(pMF, iTrack, msgSetPitchWheel, wheel&0x7f, (wheel>>7)&0x7f);
}
BOOL midiTrackAddMsg(MIDI_FILE *_pMF, int iTrack, tMIDI_MSG iMsg, int iParam1, int iParam2)
{
BYTE *ptr;
BYTE data[3];
int sz;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
if (!IsMessageValid(iMsg)) return FALSE;
ptr = _midiGetPtr(pMF, iTrack, DT_DEF);
if (!ptr)
return FALSE;
data[0] = (BYTE)(iMsg | pMF->Track[iTrack].iDefaultChannel);
data[1] = (BYTE)(iParam1 & 0x7f);
data[2] = (BYTE)(iParam2 & 0x7f);
/*
** Is this msg a single, or double BYTE, prm?
*/
switch(iMsg)
{
case msgSetProgram: /* only one byte required for these msgs */
case msgChangePressure:
sz = 2;
break;
default: /* double byte messages */
sz = 3;
break;
}
return midiTrackAddRaw(pMF, iTrack, sz, data, FALSE, 0);
}
BOOL midiTrackAddNote(MIDI_FILE *_pMF, int iTrack, int iNote, int iLength, int iVol, BOOL bAutoInc, BOOL bOverrideLength)
{
MIDI_FILE_TRACK *pTrk;
BYTE *ptr;
BOOL bSuccess = FALSE;
int i, chn;
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
if (!IsNoteValid(iNote)) return FALSE;
pTrk = &pMF->Track[iTrack];
ptr = _midiGetPtr(pMF, iTrack, DT_DEF);
if (!ptr)
return FALSE;
chn = pTrk->iDefaultChannel;
iLength = _midiGetLength(pMF->Header.PPQN, iLength, bOverrideLength);
for(i=0;i<sizeof(pTrk->LastNote)/sizeof(pTrk->LastNote[0]);++i)
if (pTrk->LastNote[i].valid == FALSE)
{
pTrk->LastNote[i].note = (BYTE)iNote;
pTrk->LastNote[i].chn = (BYTE)chn;
pTrk->LastNote[i].end_pos = pTrk->pos+pTrk->dt+iLength;
pTrk->LastNote[i].valid = TRUE;
bSuccess = TRUE;
ptr = _midiWriteVarLen(ptr, pTrk->dt); /* delta-time */
*ptr++ = (BYTE)(msgNoteOn | chn);
*ptr++ = (BYTE)iNote;
*ptr++ = (BYTE)iVol;
break;
}
if (!bSuccess)
return FALSE;
pTrk->ptr = ptr;
pTrk->pos += pTrk->dt;
pTrk->dt = 0;
if (bAutoInc)
return midiTrackIncTime(pMF, iTrack, iLength, bOverrideLength);
return TRUE;
}
BOOL midiTrackAddRest(MIDI_FILE *_pMF, int iTrack, int iLength, BOOL bOverridePPQN)
{
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
iLength = _midiGetLength(pMF->Header.PPQN, iLength, bOverridePPQN);
return midiTrackIncTime(pMF, iTrack, iLength, bOverridePPQN);
}
int midiTrackGetEndPos(MIDI_FILE *_pMF, int iTrack)
{
_VAR_CAST;
if (!IsFilePtrValid(pMF)) return FALSE;
if (!IsTrackValid(iTrack)) return FALSE;
return pMF->Track[iTrack].pos;
}
/*
** midiRead* Functions
*/
static BYTE *_midiReadVarLen(BYTE *ptr, DWORD *num)
{
register DWORD value;
register BYTE c;
if ((value = *ptr++) & 0x80)
{
value &= 0x7f;
do
{
value = (value << 7) + ((c = *ptr++) & 0x7f);
} while (c & 0x80);
}
*num = value;
return(ptr);
}
static BOOL _midiReadTrackCopyData(MIDI_MSG *pMsg, BYTE *ptr, DWORD sz, BOOL bCopyPtrData)
{
if (sz > pMsg->data_sz)
{
pMsg->data = (BYTE *)realloc(pMsg->data, sz);
pMsg->data_sz = sz;
}
if (!pMsg->data)
return FALSE;
if (bCopyPtrData && ptr)
memcpy(pMsg->data, ptr, sz);
return TRUE;
}
int midiReadGetNumTracks(const MIDI_FILE *_pMF)
{
_VAR_CAST;
return pMF->Header.iNumTracks;
}
BOOL midiReadGetNextMessage(const MIDI_FILE *_pMF, int iTrack, MIDI_MSG *pMsg)
{
MIDI_FILE_TRACK *pTrack;
BYTE *bptr, *pMsgDataPtr;
int sz;
_VAR_CAST;
if (!IsTrackValid(iTrack)) return FALSE;
pTrack = &pMF->Track[iTrack];
/* FIXME: Check if there is data on this track first!!! */
if (pTrack->ptr >= pTrack->pEnd)
return FALSE;
pTrack->ptr = _midiReadVarLen(pTrack->ptr, &pMsg->dt);
pTrack->pos += pMsg->dt;
pMsg->dwAbsPos = pTrack->pos;
if (*pTrack->ptr & 0x80) /* Is this is sys message */
{
pMsg->iType = (tMIDI_MSG)((*pTrack->ptr) & 0xf0);
pMsgDataPtr = pTrack->ptr+1;
/* SysEx & Meta events don't carry channel info, but something
** important in their lower bits that we must keep */
if (pMsg->iType == 0xf0)
pMsg->iType = (tMIDI_MSG)(*pTrack->ptr);
}
else /* just data - so use the last msg type */
{
pMsg->iType = pMsg->iLastMsgType;
pMsgDataPtr = pTrack->ptr;
}
pMsg->iLastMsgType = (tMIDI_MSG)pMsg->iType;
pMsg->iLastMsgChnl = (BYTE)((*pTrack->ptr) & 0x0f)+1;
switch(pMsg->iType)
{
case msgNoteOn:
pMsg->MsgData.NoteOn.iChannel = pMsg->iLastMsgChnl;
pMsg->MsgData.NoteOn.iNote = *(pMsgDataPtr);
pMsg->MsgData.NoteOn.iVolume = *(pMsgDataPtr+1);
pMsg->iMsgSize = 3;
break;
case msgNoteOff:
pMsg->MsgData.NoteOff.iChannel = pMsg->iLastMsgChnl;
pMsg->MsgData.NoteOff.iNote = *(pMsgDataPtr);
pMsg->iMsgSize = 3;
break;
case msgNoteKeyPressure:
pMsg->MsgData.NoteKeyPressure.iChannel = pMsg->iLastMsgChnl;
pMsg->MsgData.NoteKeyPressure.iNote = *(pMsgDataPtr);
pMsg->MsgData.NoteKeyPressure.iPressure = *(pMsgDataPtr+1);
pMsg->iMsgSize = 3;
break;
case msgSetParameter:
pMsg->MsgData.NoteParameter.iChannel = pMsg->iLastMsgChnl;
pMsg->MsgData.NoteParameter.iControl = (tMIDI_CC)*(pMsgDataPtr);
pMsg->MsgData.NoteParameter.iParam = *(pMsgDataPtr+1);
pMsg->iMsgSize = 3;
break;
case msgSetProgram:
pMsg->MsgData.ChangeProgram.iChannel = pMsg->iLastMsgChnl;
pMsg->MsgData.ChangeProgram.iProgram = *(pMsgDataPtr);
pMsg->iMsgSize = 2;
break;
case msgChangePressure:
pMsg->MsgData.ChangePressure.iChannel = pMsg->iLastMsgChnl;
pMsg->MsgData.ChangePressure.iPressure = *(pMsgDataPtr);
pMsg->iMsgSize = 2;
break;
case msgSetPitchWheel:
pMsg->MsgData.PitchWheel.iChannel = pMsg->iLastMsgChnl;
pMsg->MsgData.PitchWheel.iPitch = *(pMsgDataPtr) | (*(pMsgDataPtr+1) << 7);
pMsg->MsgData.PitchWheel.iPitch -= MIDI_WHEEL_CENTRE;
pMsg->iMsgSize = 3;
break;
case msgMetaEvent:
/* We can use 'pTrack->ptr' from now on, since meta events
** always have bit 7 set */
bptr = pTrack->ptr;
pMsg->MsgData.MetaEvent.iType = (tMIDI_META)*(pTrack->ptr+1);
pTrack->ptr = _midiReadVarLen(pTrack->ptr+2, &pMsg->iMsgSize);
sz = (pTrack->ptr-bptr)+pMsg->iMsgSize;
if (_midiReadTrackCopyData(pMsg, pTrack->ptr, sz, FALSE) == FALSE)
return FALSE;
/* Now copy the data...*/
memcpy(pMsg->data, bptr, sz);
/* Now place it in a neat structure */
switch(pMsg->MsgData.MetaEvent.iType)
{
case metaMIDIPort:
pMsg->MsgData.MetaEvent.Data.iMIDIPort = *(pTrack->ptr+0);
break;
case metaSequenceNumber:
pMsg->MsgData.MetaEvent.Data.iSequenceNumber = *(pTrack->ptr+0);
break;
case metaTextEvent:
case metaCopyright:
case metaTrackName:
case metaInstrument:
case metaLyric:
case metaMarker:
case metaCuePoint:
/* TODO - Add NULL terminator ??? */
pMsg->MsgData.MetaEvent.Data.Text.pData = pTrack->ptr;
break;
case metaEndSequence:
/* NO DATA */
break;
case metaSetTempo:
{
DWORD us = ((*(pTrack->ptr+0))<<16)|((*(pTrack->ptr+1))<<8)|(*(pTrack->ptr+2));
pMsg->MsgData.MetaEvent.Data.Tempo.iBPM = 60000000L/us;
}
break;
case metaSMPTEOffset:
pMsg->MsgData.MetaEvent.Data.SMPTE.iHours = *(pTrack->ptr+0);
pMsg->MsgData.MetaEvent.Data.SMPTE.iMins= *(pTrack->ptr+1);
pMsg->MsgData.MetaEvent.Data.SMPTE.iSecs = *(pTrack->ptr+2);
pMsg->MsgData.MetaEvent.Data.SMPTE.iFrames = *(pTrack->ptr+3);
pMsg->MsgData.MetaEvent.Data.SMPTE.iFF = *(pTrack->ptr+4);
break;
case metaTimeSig:
pMsg->MsgData.MetaEvent.Data.TimeSig.iNom = *(pTrack->ptr+0);
pMsg->MsgData.MetaEvent.Data.TimeSig.iDenom = *(pTrack->ptr+1) * MIDI_NOTE_MINIM;
/* TODO: Variations without 24 & 8 */
break;
case metaKeySig:
if (*pTrack->ptr & 0x80)
{
/* Do some trendy sign extending in reverse :) */
pMsg->MsgData.MetaEvent.Data.KeySig.iKey = ((256-*pTrack->ptr)&keyMaskKey);
pMsg->MsgData.MetaEvent.Data.KeySig.iKey |= keyMaskNeg;
}
else
{
pMsg->MsgData.MetaEvent.Data.KeySig.iKey = (tMIDI_KEYSIG)(*pTrack->ptr&keyMaskKey);
}
if (*(pTrack->ptr+1))
pMsg->MsgData.MetaEvent.Data.KeySig.iKey |= keyMaskMin;
break;
case metaSequencerSpecific:
pMsg->MsgData.MetaEvent.Data.Sequencer.iSize = pMsg->iMsgSize;
pMsg->MsgData.MetaEvent.Data.Sequencer.pData = pTrack->ptr;
break;
}
pTrack->ptr += pMsg->iMsgSize;
pMsg->iMsgSize = sz;
break;
case msgSysEx1:
case msgSysEx2:
bptr = pTrack->ptr;
pTrack->ptr = _midiReadVarLen(pTrack->ptr+1, &pMsg->iMsgSize);
sz = (pTrack->ptr-bptr)+pMsg->iMsgSize;
if (_midiReadTrackCopyData(pMsg, pTrack->ptr, sz, FALSE) == FALSE)
return FALSE;
/* Now copy the data... */
memcpy(pMsg->data, bptr, sz);
pTrack->ptr += pMsg->iMsgSize;
pMsg->iMsgSize = sz;
pMsg->MsgData.SysEx.pData = pMsg->data;
pMsg->MsgData.SysEx.iSize = sz;
break;
}
/*
** Standard MIDI messages use a common copy routine
*/
pMsg->bImpliedMsg = FALSE;
if ((pMsg->iType&0xf0) != 0xf0)
{
if (*pTrack->ptr & 0x80)
{
}
else
{
pMsg->bImpliedMsg = TRUE;
pMsg->iImpliedMsg = pMsg->iLastMsgType;
pMsg->iMsgSize--;
}
_midiReadTrackCopyData(pMsg, pTrack->ptr, pMsg->iMsgSize, TRUE);
pTrack->ptr+=pMsg->iMsgSize;
}
return TRUE;
}
void midiReadInitMessage(MIDI_MSG *pMsg)
{
pMsg->data = NULL;
pMsg->data_sz = 0;
pMsg->bImpliedMsg = FALSE;
}
void midiReadFreeMessage(MIDI_MSG *pMsg)
{
if (pMsg->data) free((void *)pMsg->data);
pMsg->data = NULL;
}
#ifdef _MSC_VER
# pragma warning(pop)
#endif
Reference in a new issue Copy permalink