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- So, apparently the XMIDI library uses a fixed 120 Hz clock for MIDI events. As a result, we
should ignore any tempo events in XMIDI songs that were left over from the original MIDI files, since the converter didn't remove them. SVN r3384 (trunk)
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c3dba9ca9a
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2 changed files with 15 additions and 69 deletions
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@ -637,7 +637,6 @@ protected:
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int FindXMIDforms(const BYTE *chunk, int len, TrackInfo *songs) const;
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void FoundXMID(const BYTE *chunk, int len, TrackInfo *song) const;
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void ScanForTempo(const TrackInfo *song);
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bool SetMIDISubsong(int subsong);
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void DoInitialSetup();
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void DoRestart();
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@ -134,16 +134,22 @@ XMISong::XMISong (FILE *file, BYTE *musiccache, int len, EMidiDevice type)
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{
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return;
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}
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// The division is the number of pulses per quarter note (PPQN).
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// It is set by a specific MIDI event, but just in case these aren't used,
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// set a default value. Specs indicate it should be 120.
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Division = 120;
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// XMIDI files are played with a constant 120 Hz clock rate. While the
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// song may contain tempo events, these are vestigial remnants from the
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// original MIDI file that were not removed by the converter and should
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// be ignored.
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//
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// We can use any combination of Division and Tempo values that work out
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// to be 120 Hz.
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Division = 60;
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InitialTempo = 500000;
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Songs = new TrackInfo[NumSongs];
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memset(Songs, 0, sizeof(*Songs) * NumSongs);
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FindXMIDforms(MusHeader, len, Songs);
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CurrSong = Songs;
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DPrintf("XMI song count: %d\n", NumSongs);
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DPrintf("Divisions: %d\n", Division);
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}
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//==========================================================================
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@ -237,37 +243,6 @@ void XMISong::FoundXMID(const BYTE *chunk, int len, TrackInfo *song) const
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}
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}
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//==========================================================================
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//
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// XMISong :: ScanForTempo
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//
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// Look through events chunk to find one that sets the tempo.
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//
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//==========================================================================
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void XMISong::ScanForTempo(const TrackInfo *song)
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{
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const BYTE *chunk = song->EventChunk;
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for (size_t q = 0; q < song->EventLen - 3; )
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{
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int r = q;
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int evmark = chunk[r];
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int evtype = chunk[r + 1];
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int evlen = chunk[r + 2];
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// Is it a tempo event? If so, length should be 3.
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if (evmark == MIDI_META && evtype == MIDI_META_TEMPO && evlen == 3)
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{
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// Tempo is given in microseconds per quarter notes, so for a base of
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// 120 per second, we have to divide by a million a multiply by 120 to
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// get the PPQN. This is simplified by 40 to manipulate smaller values.
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Tempo = (chunk[r + 3] << 16) | (chunk[r + 4] << 8) | chunk[r + 5];
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Division = Tempo * 3 / 25000;
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}
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q += 3 + evlen;
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}
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}
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//==========================================================================
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//
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// XMISong :: SetMIDISubsong
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@ -562,23 +537,9 @@ DWORD *XMISong::SendCommand (DWORD *events, EventSource due, DWORD delay)
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if (track->EventP + len <= track->EventLen)
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{
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switch (event)
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if (event == MIDI_META_EOT)
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{
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case MIDI_META_EOT:
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track->Finished = true;
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break;
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case MIDI_META_TEMPO:
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Tempo =
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(track->EventChunk[track->EventP+0]<<16) |
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(track->EventChunk[track->EventP+1]<<8) |
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(track->EventChunk[track->EventP+2]);
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events[0] = delay;
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events[1] = 0;
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events[2] = (MEVT_TEMPO << 24) | Tempo;
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events += 3;
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Division = Tempo * 3 / 25000;
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break;
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}
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track->EventP += len;
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if (track->EventP == track->EventLen)
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@ -615,28 +576,14 @@ void XMISong::ProcessInitialMetaEvents ()
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while (!track->Finished &&
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track->EventP < track->EventLen - 3 &&
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track->EventChunk[track->EventP] == 0xFF)
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track->EventChunk[track->EventP] == MIDI_META)
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{
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event = track->EventChunk[track->EventP+1];
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track->EventP += 2;
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len = track->ReadVarLen();
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if (track->EventP + len <= track->EventLen)
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if (track->EventP + len <= track->EventLen && event == MIDI_META_EOT)
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{
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switch (event)
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{
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case MIDI_META_EOT:
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track->Finished = true;
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break;
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case MIDI_META_TEMPO:
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SetTempo(
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(track->EventChunk[track->EventP+0]<<16) |
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(track->EventChunk[track->EventP+1]<<8) |
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(track->EventChunk[track->EventP+2])
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);
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Division = Tempo * 3 / 25000;
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break;
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}
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track->Finished = true;
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}
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track->EventP += len;
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}
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