shithub: hexen

--- a/mmus2mid.c

+++ /dev/null

@@ -1,852 +1,0 @@

-/* $Id: mmus2mid.c 543 2010-01-11 18:44:55Z sezero $

- *

- *  Ripped && Adapted from the PrBoom project:

- *  PrBoom: a Doom port merged with LxDoom and LSDLDoom

- *  based on BOOM, a modified and improved DOOM engine

- *  Copyright (C) 1999 by

- *  id Software, Chi Hoang, Lee Killough, Jim Flynn, Rand Phares, Ty Halderman

- *  Copyright (C) 1999-2000 by

- *  Jess Haas, Nicolas Kalkhof, Colin Phipps, Florian Schulze

- *  Copyright 2005, 2006 by

- *  Florian Schulze, Colin Phipps, Neil Stevens, Andrey Budko

- *

- *  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., 51 Franklin Street, Fifth Floor, Boston, MA

- *  02110-1301  USA.

- *

- * DESCRIPTION:

- *  This file supports conversion of MUS format music in memory

- *  to MIDI format 1 music in memory.

- *

- *  The primary routine, mmus2mid, converts a block of memory in MUS format

- *  to an Allegro MIDI structure. This supports playing MUS lumps in a wad

- *  file with BOOM.

- *

- *  Another routine, Midi2MIDI, converts a block of memory in MIDI format 1 to

- *  an Allegro MIDI structure. This supports playing MIDI lumps in a wad

- *  file with BOOM.

- *

- *  For testing purposes, and to make a utility if desired, if the symbol

- *  STANDALONE is defined by uncommenting the definition below, a main

- *  routine is compiled that will convert a possibly wildcarded set of MUS

- *  files to a similarly named set of MIDI files.

- *

- *  Much of the code here is thanks to S. Bacquet's source for QMUS2MID.C

- *

- */

-#include "h2stdinc.h"

-#include <sys/stat.h>

-#ifdef MSDOS

-#include <allegro.h>

-#endif /* !MSDOS */

-#include "h2def.h"

-#include "mmus2mid.h"

-//#define STANDALONE  /* uncomment this to make MMUS2MID.EXE */

-// some macros to decode mus event bit fields

-#define last(e)         ((uint8_t)((e) & 0x80))

-#define event_type(e)   ((uint8_t)(((e) & 0x7F) >> 4))

-#define channel(e)      ((uint8_t)((e) & 0x0F))

-// event types

-typedef enum

-{

-  RELEASE_NOTE,

-  PLAY_NOTE,

-  BEND_NOTE,

-  SYS_EVENT,

-  CNTL_CHANGE,

-  UNKNOWN_EVENT1,

-  SCORE_END,

-  UNKNOWN_EVENT2,

-} mus_event_t;

-// MUS format header structure

-typedef struct

-{

-  char        ID[4];            // identifier "MUS"0x1A

-  uint16_t       ScoreLength;      // length of music portion

-  uint16_t       ScoreStart;       // offset of music portion

-  uint16_t       channels;         // count of primary channels

-  uint16_t       SecChannels;      // count of secondary channels

-  uint16_t       InstrCnt;         // number of instruments

-} __attribute__((__packed__)) MUSheader;

-// to keep track of information in a MIDI track

-typedef struct Track

-{

-  char  velocity;

-  int32_t deltaT;

-  uint8_t   lastEvt;

-  uint32_t alloced;

-} TrackInfo;

-// array of info about tracks

-static TrackInfo track[MIDI_TRACKS];

-// initial track size allocation

-#define TRACKBUFFERSIZE 1024

-// lookup table MUS -> MID controls

-static uint8_t MUS2MIDcontrol[15] =

-{

-  0,         // Program change - not a MIDI control change

-  0x00,      // Bank select

-  0x01,      // Modulation pot

-  0x07,      // Volume

-  0x0A,      // Pan pot

-  0x0B,      // Expression pot

-  0x5B,      // Reverb depth

-  0x5D,      // Chorus depth

-  0x40,      // Sustain pedal

-  0x43,      // Soft pedal

-  0x78,      // All sounds off

-  0x7B,      // All notes off

-  0x7E,      // Mono

-  0x7F,      // Poly

-  0x79       // Reset all controllers

-};

-// some strings of uint8_ts used in the midi format

-static uint8_t midikey[]   =

-{0x00,0xff,0x59,0x02,0x00,0x00};        // C major

-static uint8_t miditempo[] =

-{0x00,0xff,0x51,0x03,0x09,0xa3,0x1a};   // uS/qnote

-static uint8_t midihdr[]   =

-{'M','T','h','d',0,0,0,6,0,1,0,0,0,0};  // header (length 6, format 1)

-static uint8_t trackhdr[]  =

-{'M','T','r','k'};                      // track header

-// static routine prototypes

-static int TWriteByte(MIDI *mididata, int MIDItrack, uint8_t value);

-static int TWriteVarLen(MIDI *mididata, int MIDItrack, uint32_t value);

-static uint32_t ReadTime(const uint8_t **musptrp);

-static int FirstChannelAvailable(int MUS2MIDchannel[]);

-static uint8_t MidiEvent(MIDI *mididata,uint8_t midicode,uint8_t MIDIchannel,

-               uint8_t MIDItrack,int nocomp);

-//

-// TWriteByte()

-//

-// write one byte to the selected MIDItrack, update current position

-// if track allocation exceeded, double it

-// if track not allocated, initially allocate TRACKBUFFERSIZE bytes

-//

-// Passed pointer to Allegro MIDI structure, number of the MIDI track being

-// written, and the byte to write.

-//

-// Returns 0 on success, MEMALLOC if a memory allocation error occurs

-//

-static int TWriteByte(MIDI *mididata, int MIDItrack, uint8_t value)

-{

-  uint32_t pos;

-  pos = mididata->track[MIDItrack].len;

-  if (pos >= track[MIDItrack].alloced)

-  {

-    track[MIDItrack].alloced =        // double allocation

-      track[MIDItrack].alloced?       // or set initial TRACKBUFFERSIZE

-        2*track[MIDItrack].alloced :

-        TRACKBUFFERSIZE;

-    if (!(mididata->track[MIDItrack].data =     // attempt to reallocate

-      realloc(mididata->track[MIDItrack].data,

-              track[MIDItrack].alloced)))

-      return MEMALLOC;

-  }

-  mididata->track[MIDItrack].data[pos] = value;

-  mididata->track[MIDItrack].len++;

-  return 0;

-}

-//

-// TWriteVarLen()

-//

-// write the ULONG value to tracknum-th track, in midi format, which is

-// big endian, 7 bits per byte, with all bytes but the last flagged by

-// bit 8 being set, allowing the length to vary.

-//

-// Passed the Allegro MIDI structure, the track number to write,

-// and the ULONG value to encode in midi format there

-//

-// Returns 0 if sucessful, MEMALLOC if a memory allocation error occurs

-//

-static int TWriteVarLen(MIDI *mididata, int tracknum, uint32_t value)

-{

-  uint32_t buffer;

-  buffer = value & 0x7f;

-  while ((value >>= 7))         // terminates because value unsigned

-  {

-    buffer <<= 8;               // note first value shifted in has bit 8 clear

-    buffer |= 0x80;             // all succeeding values do not

-    buffer += (value & 0x7f);

-  }

-  while (1)                     // write bytes out in opposite order

-  {

-    if (TWriteByte(mididata, tracknum, (uint8_t)(buffer&0xff))) // insure buffer masked

-      return MEMALLOC;

-    if (buffer & 0x80)

-      buffer >>= 8;

-    else                        // terminate on the byte with bit 8 clear

-      break;

-  }

-  return 0;

-}

-//

-// ReadTime()

-//

-// Read a time value from the MUS buffer, advancing the position in it

-//

-// A time value is a variable length sequence of 8 bit bytes, with all

-// but the last having bit 8 set.

-//

-// Passed a pointer to the pointer to the MUS buffer

-// Returns the integer unsigned long time value there and advances the pointer

-//

-static uint32_t ReadTime(const uint8_t **musptrp)

-{

-  uint32_t timeval = 0;

-  int _byte;

-  do    // shift each byte read up in the result until a byte with bit 8 clear

-  {

-    _byte = *(*musptrp)++;

-    timeval = (timeval << 7) + (_byte & 0x7F);

-  }

-  while(_byte & 0x80);

-  return timeval;

-}

-//

-// FirstChannelAvailable()

-//

-// Return the next unassigned MIDI channel number

-//

-// The assignment for MUS channel 15 is not counted in the caculation, that

-// being percussion and always assigned to MIDI channel 9 (base 0).

-//

-// Passed the array of MIDI channels assigned to MUS channels

-// Returns the maximum channel number unassigned unless that is 9 in which

-// case 10 is returned.

-//

-// killough 10/7/98: changed char parameter, return values to int

-static int FirstChannelAvailable(int MUS2MIDchannel[])

-{

-  int i ;

-  int max = -1 ;

-  // find the largest MIDI channel assigned so far

-  for (i = 0; i < 15; i++)

-    if (MUS2MIDchannel[i] > max)

-      max = MUS2MIDchannel[i];

-  return (max == 8 ? 10 : max+1); // skip MIDI channel 9 (percussion)

-}

-//

-// MidiEvent()

-//

-// Constructs a MIDI event code, and writes it to the current MIDI track

-// unless its the same as the last event code and compressio is enabled

-// in which case nothing is written.

-//

-// Passed the Allegro MIDI structure, the midi event code, the current

-// MIDI channel number, the current MIDI track number, and whether compression

-// (running status) is enabled.

-//

-// Returns the new event code if successful, 0 if a memory allocation error

-//

-static uint8_t MidiEvent(MIDI *mididata,uint8_t midicode,uint8_t MIDIchannel,

-        uint8_t MIDItrack,int nocomp)

-{

-  uint8_t newevent;

-  newevent = midicode | MIDIchannel;

-  if ((newevent != track[MIDItrack].lastEvt) || nocomp)

-  {

-    if (TWriteByte(mididata,MIDItrack, newevent))

-      return 0;                                    // indicates MEMALLOC error

-    track[MIDItrack].lastEvt = newevent;

-  }

-  return newevent;

-}

-//

-// mmus2mid()

-//

-// Convert a memory buffer contain MUS data to an Allegro MIDI structure

-// with specified time division and compression.

-//

-// Passed a pointer to the buffer containing MUS data, a pointer to the

-// Allegro MIDI structure, the divisions, and a flag whether to compress.

-//

-// Returns 0 if successful, otherwise an error code (see mmus2mid.h).

-//

-int mmus2mid(const uint8_t *mus, MIDI *mididata, uint16_t division, int nocomp)

-{

-  uint16_t TrackCnt = 0;

-  uint8_t evt, MUSchannel, MIDIchannel, MIDItrack=0, NewEvent;

-  int i, event, data;

-  const uint8_t *musptr;

-  size_t muslen;

-  static MUSheader MUSh;

-  uint8_t MIDIchan2track[MIDI_TRACKS];  // killough 10/7/98: fix too small array

-  int MUS2MIDchannel[MIDI_TRACKS];    // killough 10/7/98: fix too small array

-  // copy the MUS header from the MUS buffer to the MUSh header structure

-  memcpy(&MUSh,mus,sizeof(MUSheader));

-  MUSh.ScoreLength = SHORT(MUSh.ScoreLength);

-  MUSh.ScoreStart  = SHORT(MUSh.ScoreStart);

-  MUSh.channels    = SHORT(MUSh.channels);

-  MUSh.SecChannels = SHORT(MUSh.SecChannels);

-  MUSh.InstrCnt    = SHORT(MUSh.InstrCnt);

-  // check some things and set length of MUS buffer from internal data

-  if (!(muslen = MUSh.ScoreLength + MUSh.ScoreStart))

-    return MUSDATAMT;     // MUS file empty

-  if (MUSh.channels > 15)       // MUSchannels + drum channel > 16

-    return TOOMCHAN ;

-  musptr = mus+MUSh.ScoreStart; // init musptr to start of score

-  for (i = 0; i < MIDI_TRACKS; i++)   // init the track structure's tracks

-  {

-    MUS2MIDchannel[i] = -1;       // flag for channel not used yet

-    track[i].velocity = 64;

-    track[i].deltaT = 0;

-    track[i].lastEvt = 0;

-    //free(mididata->track[i].data);//jff 3/5/98 remove old allocations

-    mididata->track[i].data=NULL;

-    track[i].alloced = 0;

-    mididata->track[i].len = 0;

-  }

-  if (!division)

-    division = 70;

-  // allocate the first track which is a special tempo/key track

-  // note multiple tracks means midi format 1

-  // set the divisions (ticks per quarter note)

-  mididata->divisions = division;

-  // allocate for midi tempo/key track, allow for end of track

-  if (!(mididata->track[0].data =

-      realloc(mididata->track[0].data,sizeof(midikey)+sizeof(miditempo)+4)))

-    return MEMALLOC;

-  // key C major

-  memcpy(mididata->track[0].data,midikey,sizeof(midikey));

-  // tempo uS/qnote

-  memcpy(mididata->track[0].data+sizeof(midikey),miditempo,sizeof(miditempo));

-  mididata->track[0].len = sizeof(midikey)+sizeof(miditempo);

-  TrackCnt++;   // music tracks start at 1

-  // process the MUS events in the MUS buffer

-  do

-  {

-    // get a mus event, decode its type and channel fields

-    event = *musptr++;

-    if ((evt = event_type(event)) == SCORE_END) //jff 1/23/98 use symbol

-      break;  // if end of score event, leave

-    MUSchannel = channel(event);

-    // if this channel not initialized, do so

-    if (MUS2MIDchannel[MUSchannel] == -1)

-    {

-      // set MIDIchannel and MIDItrack

-      MIDIchannel = MUS2MIDchannel[MUSchannel] =

-        (MUSchannel == 15 ? 9 : FirstChannelAvailable(MUS2MIDchannel));

-      MIDItrack = MIDIchan2track[MIDIchannel] = (uint8_t)TrackCnt++;

-    }

-    else // channel already allocated as a track, use those values

-    {

-      MIDIchannel = MUS2MIDchannel[MUSchannel];

-      MIDItrack   = MIDIchan2track[MIDIchannel];

-    }

-    if (TWriteVarLen(mididata, MIDItrack, track[MIDItrack].deltaT))

-      return MEMALLOC;

-    track[MIDItrack].deltaT = 0;

-    switch(evt)

-    {

-      case RELEASE_NOTE:

-      // killough 10/7/98: Fix noise problems by not allowing compression

-      if (!(NewEvent=MidiEvent(mididata,0x90,MIDIchannel,MIDItrack,1)))

-        return MEMALLOC;

-          data = *musptr++;

-          if (TWriteByte(mididata, MIDItrack, (uint8_t)(data & 0x7F)))

-            return MEMALLOC;

-          if (TWriteByte(mididata, MIDItrack, 0))

-            return MEMALLOC;

-          break;

-      case PLAY_NOTE:

-      if (!(NewEvent=MidiEvent(mididata,0x90,MIDIchannel,MIDItrack,nocomp)))

-        return MEMALLOC;

-          data = *musptr++;

-          if (TWriteByte(mididata, MIDItrack, (uint8_t)(data & 0x7F)))

-            return MEMALLOC;

-          if( data & 0x80 )

-            track[MIDItrack].velocity = (*musptr++) & 0x7f;

-          if (TWriteByte(mididata, MIDItrack, track[MIDItrack].velocity))

-            return MEMALLOC;

-          break;

-      case BEND_NOTE:

-      if (!(NewEvent=MidiEvent(mididata,0xE0,MIDIchannel,MIDItrack,nocomp)))

-        return MEMALLOC;

-          data = *musptr++;

-          if (TWriteByte(mididata, MIDItrack, (uint8_t)((data & 1) << 6)))

-            return MEMALLOC;

-          if (TWriteByte(mididata, MIDItrack, (uint8_t)(data >> 1)))

-            return MEMALLOC;

-          break;

-      case SYS_EVENT:

-      if (!(NewEvent=MidiEvent(mididata,0xB0,MIDIchannel,MIDItrack,nocomp)))

-        return MEMALLOC;

-          data = *musptr++;

-      if (data<10 || data>14)

-        return BADSYSEVT;

-          if (TWriteByte(mididata, MIDItrack, MUS2MIDcontrol[data]))

-            return MEMALLOC;

-          if (data == 12)

-      {

-              if (TWriteByte(mididata, MIDItrack, (uint8_t)(MUSh.channels+1)))

-                return MEMALLOC;

-      }

-          else

-      if (TWriteByte(mididata, MIDItrack, 0))

-        return MEMALLOC;

-          break;

-      case CNTL_CHANGE:

-          data = *musptr++;

-      if (data>9)

-        return BADCTLCHG;

-          if (data)

-          {

-        if (!(NewEvent=MidiEvent(mididata,0xB0,MIDIchannel,MIDItrack,nocomp)))

-                return MEMALLOC;

-              if (TWriteByte(mididata, MIDItrack, MUS2MIDcontrol[data]))

-                return MEMALLOC;

-          }

-          else

-          {

-        if (!(NewEvent=MidiEvent(mididata,0xC0,MIDIchannel,MIDItrack,nocomp)))

-                return MEMALLOC;

-          }

-          data = *musptr++;

-          if (TWriteByte(mididata, MIDItrack, (uint8_t)(data & 0x7F)))

-            return MEMALLOC;

-          break;

-    case UNKNOWN_EVENT1:   // mus events 5 and 7

-    case UNKNOWN_EVENT2:   // meaning not known

-      return BADMUSCTL;

-    case SCORE_END:

-      break;

-      default:

-          return BADMUSCTL;   // exit with error

-    }

-    if (last(event))

-    {

-          uint32_t DeltaTime = ReadTime(&musptr); // killough 10/7/98: make local

-    for (i = 0;i < MIDI_TRACKS; i++) //jff 3/13/98 update all tracks

-      track[i].deltaT += DeltaTime;  //whether allocated yet or not

-    }

-    }

-  while ((evt != SCORE_END) && ((size_t)(musptr-mus) < muslen));

-  if (evt!=SCORE_END)

-    return MUSDATACOR;

-  // Now add an end of track to each mididata track, correct allocation

-  for (i = 0; i < MIDI_TRACKS; i++)

-    if (mididata->track[i].len)

-    {       // killough 10/7/98: simplify code

-      if (TWriteByte(mididata, i, 0x00) || // midi end of track code

-        TWriteByte(mididata, i, 0xFF) ||

-        TWriteByte(mididata, i, 0x2F) ||

-        TWriteByte(mididata, i, 0x00))

-       return MEMALLOC;

-      // jff 1/23/98 fix failure to set data NULL, len 0 for unused tracks

-      // shorten allocation to proper length (important for Allegro)

-      if (!(mididata->track[i].data =

-        realloc(mididata->track[i].data,mididata->track[i].len)))

-        return MEMALLOC;

-    }

-    else

-    {

-      free(mididata->track[i].data);

-      mididata->track[i].data = NULL;

-    }

-  return 0;

-}

-void free_mididata(MIDI *mid)

-{

-  int i;

-  for (i = 0; i < MIDI_TRACKS; i++)

-    if (mid->track[i].data)

-      free(mid->track[i].data);

-}

-//

-// ReadLength()

-//

-// Reads the length of a chunk in a midi buffer, advancing the pointer

-// 4 bytes, bigendian

-//

-// Passed a pointer to the pointer to a MIDI buffer

-// Returns the chunk length at the pointer position

-//

-static size_t ReadLength(uint8_t **mid)

-{

-  uint8_t *midptr = *mid;

-  size_t length = (*midptr++)<<24;

-  length += (*midptr++)<<16;

-  length += (*midptr++)<<8;

-  length += *midptr++;

-  *mid = midptr;

-  return length;

-}

-//

-// MidiToMIDI()

-//

-// Convert an in-memory copy of a MIDI format 0 or 1 file to

-// an Allegro MIDI structure, that is valid or has been zeroed

-//

-// Passed a pointer to a memory buffer with MIDI format music in it and a

-// pointer to an Allegro MIDI structure.

-//

-// Returns 0 if successful, BADMIDHDR if the buffer is not MIDI format

-//

-int MidiToMIDI(uint8_t *mid,MIDI *mididata)

-{

-  int i;

-  int ntracks;

-  // read the midi header

-  if (memcmp(mid,midihdr,4))

-    return BADMIDHDR;

-  mididata->divisions = (mid[12]<<8)+mid[13];

-  ntracks = (mid[10]<<8)+mid[11];

-  if (ntracks>=MIDI_TRACKS)

-    return BADMIDHDR;

-  mid += 4;

-  {  // killough 10/7/98: fix mid from being modified twice before sequence pt.

-    size_t t = ReadLength(&mid);            // seek past header

-    mid += t;

-  }

-  // now read each track

-  for (i=0;i<ntracks;i++)

-  {

-    while (memcmp(mid,trackhdr,4))    // simply skip non-track data

-    {

-      mid += 4;

-      {

-        size_t t = ReadLength(&mid);            // seek past header

-        mid += t;  // killough 10/7/98: prevent mid undefined behavior

-      }

-    }

-    mid += 4;

-    mididata->track[i].len = ReadLength(&mid);  // get length, move mid past it

-    // read a track

-    mididata->track[i].data = realloc(mididata->track[i].data,mididata->track[i].len);

-    memcpy(mididata->track[i].data,mid,mididata->track[i].len);

-    mid += mididata->track[i].len;

-  }

-  for (;i<MIDI_TRACKS;i++)

-    if (mididata->track[i].len)

-    {

-      free(mididata->track[i].data);

-      mididata->track[i].data = NULL;

-      mididata->track[i].len = 0;

-    }

-  return 0;

-}

-//#ifdef STANDALONE /* this code unused by BOOM provided for future portability */

-//                  /* it also provides a MUS to MID file converter*/

-// proff: I moved this down, because I need MIDItoMidi

-//

-// TWriteLength()

-//

-// Write the length of a MIDI chunk to a midi buffer. The length is four

-// uint8_ts and is written uint8_t-reversed for bigendian. The pointer to the

-// midi buffer is advanced.

-//

-// Passed a pointer to the pointer to a midi buffer, and the length to write

-// Returns nothing

-//

-static void TWriteLength(uint8_t **midiptr,uint32_t length)

-{

-// proff: Added typecast to avoid warning

-  *(*midiptr)++ = (unsigned char)((length>>24)&0xff);

-  *(*midiptr)++ = (unsigned char)((length>>16)&0xff);

-  *(*midiptr)++ = (unsigned char)((length>>8)&0xff);

-  *(*midiptr)++ = (unsigned char)((length)&0xff);

-}

-//

-// MIDIToMidi()

-//

-// This routine converts an Allegro MIDI structure to a midi 1 format file

-// in memory. It is used to support memory MUS -> MIDI conversion

-//

-// Passed a pointer to an Allegro MIDI structure, a pointer to a pointer to

-// a buffer containing midi data, and a pointer to a length return.

-// Returns 0 if successful, MEMALLOC if a memory allocation error occurs

-//

-int MIDIToMidi(MIDI *mididata,uint8_t **mid,int *midlen)

-{

-  size_t total;

-  int i,ntrks;

-  uint8_t *midiptr;

-  // calculate how long the mid buffer must be, and allocate

-  total = sizeof(midihdr);

-  for (i=0,ntrks=0;i<MIDI_TRACKS;i++)

-    if (mididata->track[i].len)

-    {

-      total += 8 + mididata->track[i].len; // Track hdr + track length

-      ntrks++;

-    }

-  if ((*mid = malloc(total))==NULL)

-    return MEMALLOC;

-  // fill in number of tracks and bigendian divisions (ticks/qnote)

-  midihdr[10] = 0;

-  midihdr[11] = (uint8_t)ntrks;   // set number of tracks in header

-  midihdr[12] = (mididata->divisions>>8) & 0x7f;

-  midihdr[13] = (mididata->divisions) & 0xff;

-  // write the midi header

-  midiptr = *mid;

-  memcpy(midiptr,midihdr,sizeof(midihdr));

-  midiptr += sizeof(midihdr);

-  // write the tracks

-  for (i=0;i<MIDI_TRACKS;i++)

-  {

-    if (mididata->track[i].len)

-    {

-      memcpy(midiptr,trackhdr,sizeof(trackhdr));    // header

-      midiptr += sizeof(trackhdr);

-      TWriteLength(&midiptr,mididata->track[i].len);  // track length

-      // data

-      memcpy(midiptr,mididata->track[i].data,mididata->track[i].len);

-      midiptr += mididata->track[i].len;

-    }

-  }

-  // return length information

-  *midlen = midiptr - *mid;

-  return 0;

-}

-#ifdef STANDALONE /* this code unused by BOOM provided for future portability */

-                  /* it also provides a MUS to MID file converter*/

-// proff: I moved this down, because I need MIDItoMidi

-//

-// FreeTracks()

-//

-// Free all track allocations in the MIDI structure

-//

-// Passed a pointer to an Allegro MIDI structure

-// Returns nothing

-//

-static void FreeTracks(MIDI *mididata)

-{

-  int i;

-  for (i=0; i<MIDI_TRACKS; i++)

-  {

-    free(mididata->track[i].data);

-    mididata->track[i].data = NULL;

-    mididata->track[i].len = 0;

-  }

-}

-//

-// main()

-//

-// Main routine that will convert a globbed set of MUS files to the

-// correspondingly named MID files using mmus2mid(). Only compiled

-// if the STANDALONE symbol is defined.

-//

-// Passed the command line arguments, returns 0 if successful

-//

-int main(int argc,char **argv)

-{

-  FILE *musst,*midst;

-  char musfile[FILENAME_MAX],midfile[FILENAME_MAX];

-  MUSheader MUSh;

-  uint8_t *mus,*mid;

-  static MIDI mididata;

-  int err,midlen;

-  char *p,*q;

-  int i;

-  if (argc<2)

-  {

-    //jff 8/3/98 use logical output routine

-    lprintf(LO_INFO,"Usage: MMUS2MID musfile[.MUS]\n");

-    lprintf(LO_INFO,"writes musfile.MID as output\n");

-    lprintf(LO_INFO,"musfile may contain wildcards\n");

-    exit(1);

-  }

-  for (i=1;i<argc;i++)

-  {

-    strcpy(musfile,argv[i]);

-    p = strrchr(musfile,'.');

-    q = strrchr(musfile,'\\');

-    if (p && (!q || q<p)) *p='\0';

-    strcpy(midfile,musfile);

-    strcat(musfile,".MUS");

-    strcat(midfile,".MID");

-    musst = fopen(musfile,"rb");

-    if (musst)

-    {

-      fread(&MUSh,sizeof(MUSheader),1,musst);

-      mus = malloc(MUSh.ScoreLength+MUSh.ScoreStart);

-      if (mus)

-      {

-        fseek(musst,0,SEEK_SET);

-        if (!fread(mus,MUSh.ScoreLength+MUSh.ScoreStart,1,musst))

-        {

-          //jff 8/3/98 use logical output routine

-          lprintf(LO_FATAL,"Error reading MUS file\n");

-          free(mus);

-          exit(1);

-        }

-        fclose(musst);

-      }

-      else

-      {

-        //jff 8/3/98 use logical output routine

-        lprintf(LO_FATAL,"Out of memory\n");

-        free(mus);

-        exit(1);

-      }

-      err = mmus2mid(mus,&mididata,89,1);

-      if (err)

-      {

-        //jff 8/3/98 use logical output routine

-        lprintf(LO_FATAL,"Error converting MUS file to MIDI: %d\n",err);

-        exit(1);

-      }

-      free(mus);

-      MIDIToMidi(&mididata,&mid,&midlen);

-      midst = fopen(midfile,"wb");

-      if (midst)

-      {

-        if (!fwrite(mid,midlen,1,midst))

-        {

-          //jff 8/3/98 use logical output routine

-          lprintf(LO_FATAL,"Error writing MIDI file\n");

-          FreeTracks(&mididata);

-          free(mid);

-          exit(1);

-        }

-        fclose(midst);

-      }

-      else

-      {

-        //jff 8/3/98 use logical output routine

-        lprintf(LO_FATAL,"Can't open MIDI file for output: %s\n", midfile);

-        FreeTracks(&mididata);

-        free(mid);

-        exit(1);

-      }

-    }

-    else

-    {

-      //jff 8/3/98 use logical output routine

-      lprintf(LO_FATAL,"Can't open MUS file for input: %s\n", midfile);

-      exit(1);

-    }

-    //jff 8/3/98 use logical output routine

-    lprintf(LO_CONFIRM,"MUS file %s converted to MIDI file %s\n",musfile,midfile);

-    FreeTracks(&mididata);

-    free(mid);

-  }

-  exit(0);

-}

-#endif

--- a/mmus2mid.h

+++ /dev/null

@@ -1,69 +1,0 @@

-/* $Id: mmus2mid.h 373 2009-05-19 18:14:28Z sezero $

- *

- *  Ripped && Adapted from the PrBoom project:

- *  PrBoom: a Doom port merged with LxDoom and LSDLDoom

- *  based on BOOM, a modified and improved DOOM engine

- *  Copyright (C) 1999 by

- *  id Software, Chi Hoang, Lee Killough, Jim Flynn, Rand Phares, Ty Halderman

- *  Copyright (C) 1999-2000 by

- *  Jess Haas, Nicolas Kalkhof, Colin Phipps, Florian Schulze

- *  Copyright 2005, 2006 by

- *  Florian Schulze, Colin Phipps, Neil Stevens, Andrey Budko

- *

- *  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., 51 Franklin Street, Fifth Floor, Boston, MA

- *  02110-1301  USA.

- *

- * DESCRIPTION:

- *  mmus2mid.c supports conversion of MUS format music in memory

- *  to MIDI format 1 music in memory.

- */

-#if !defined( MMUS2MID_H )

-#define MMUS2MID_H

-// error codes

-typedef enum

-{

-  MUSDATACOR,    // MUS data corrupt

-  TOOMCHAN,      // Too many channels

-  MEMALLOC,      // Memory allocation error

-  MUSDATAMT,     // MUS file empty

-  BADMUSCTL,     // MUS event 5 or 7 found

-  BADSYSEVT,     // MUS system event not in 10-14 range

-  BADCTLCHG,     // MUS control change larger than 9

-  TRACKOVF,      // MIDI track exceeds allocation

-  BADMIDHDR,     // bad midi header detected

-} error_code_t;

-#ifndef MSDOS /* proff: This is from allegro.h */

-#define MIDI_TRACKS           32

-typedef struct MIDI                    /* a midi file */

-{

-   int divisions;                      /* number of ticks per quarter note */

-   struct {

-      unsigned char *data;             /* MIDI message stream */

-      int len;                         /* length of the track data */

-   } track[MIDI_TRACKS];

-} MIDI;

-#endif /* !MSDOS */

-extern int mmus2mid(const uint8_t *mus,MIDI *mid, uint16_t division, int nocomp);

-extern void free_mididata(MIDI *mid);

-extern int MIDIToMidi(MIDI *mididata,uint8_t **mid,int *midlen);

-extern int MidiToMIDI(uint8_t *mid,MIDI *mididata);

-#endif