scummvm/audio/mods/tfmx.cpp
2011-05-12 01:16:22 +02:00

1191 lines
36 KiB
C++

/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* 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.
*
*/
#include "common/scummsys.h"
#include "common/endian.h"
#include "common/stream.h"
#include "common/debug.h"
#include "common/textconsole.h"
#include "audio/mods/tfmx.h"
// test for engines using this class.
#if defined(SOUND_MODS_TFMX_H)
// couple debug-functions
namespace {
#if 0
void displayPatternstep(const void * const vptr);
void displayMacroStep(const void * const vptr);
#endif
static const uint16 noteIntervalls[64] = {
1710, 1614, 1524, 1438, 1357, 1281, 1209, 1141, 1077, 1017, 960, 908,
856, 810, 764, 720, 680, 642, 606, 571, 539, 509, 480, 454,
428, 404, 381, 360, 340, 320, 303, 286, 270, 254, 240, 227,
214, 202, 191, 180, 170, 160, 151, 143, 135, 127, 120, 113,
214, 202, 191, 180, 170, 160, 151, 143, 135, 127, 120, 113,
214, 202, 191, 180
};
} // End of anonymous namespace
namespace Audio {
Tfmx::Tfmx(int rate, bool stereo)
: Paula(stereo, rate),
_resource(),
_resourceSample(),
_playerCtx(),
_deleteResource(false) {
_playerCtx.stopWithLastPattern = false;
for (int i = 0; i < kNumVoices; ++i)
_channelCtx[i].paulaChannel = (byte)i;
_playerCtx.volume = 0x40;
_playerCtx.patternSkip = 6;
stopSongImpl();
setTimerBaseValue(kPalCiaClock);
setInterruptFreqUnscaled(kPalDefaultCiaVal);
}
Tfmx::~Tfmx() {
freeResourceDataImpl();
}
void Tfmx::interrupt() {
assert(!_end);
++_playerCtx.tickCount;
for (int i = 0; i < kNumVoices; ++i) {
if (_channelCtx[i].dmaIntCount) {
// wait for DMA Interupts to happen
int doneDma = getChannelDmaCount(i);
if (doneDma >= _channelCtx[i].dmaIntCount) {
_channelCtx[i].dmaIntCount = 0;
_channelCtx[i].macroRun = true;
}
}
}
for (int i = 0; i < kNumVoices; ++i) {
ChannelContext &channel = _channelCtx[i];
if (channel.sfxLockTime >= 0)
--channel.sfxLockTime;
else {
channel.sfxLocked = false;
channel.customMacroPrio = 0;
}
// externally queued macros
if (channel.customMacro) {
const byte * const noteCmd = (const byte *)&channel.customMacro;
channel.sfxLocked = false;
noteCommand(noteCmd[0], noteCmd[1], (noteCmd[2] & 0xF0) | (uint8)i, noteCmd[3]);
channel.customMacro = 0;
channel.sfxLocked = (channel.customMacroPrio != 0);
}
// apply timebased effects on Parameters
if (channel.macroSfxRun > 0)
effects(channel);
// see if we have to run the macro-program
if (channel.macroRun) {
if (!channel.macroWait)
macroRun(channel);
else
--channel.macroWait;
}
Paula::setChannelPeriod(i, channel.period);
if (channel.macroSfxRun >= 0)
channel.macroSfxRun = 1;
// TODO: handling pending DMAOff?
}
// Patterns are only processed each _playerCtx.timerCount + 1 tick
if (_playerCtx.song >= 0 && !_playerCtx.patternCount--) {
_playerCtx.patternCount = _playerCtx.patternSkip;
advancePatterns();
}
}
void Tfmx::effects(ChannelContext &channel) {
// addBegin
if (channel.addBeginLength) {
channel.sampleStart += channel.addBeginDelta;
Paula::setChannelSampleStart(channel.paulaChannel, getSamplePtr(channel.sampleStart));
if (!(--channel.addBeginCount)) {
channel.addBeginCount = channel.addBeginLength;
channel.addBeginDelta = -channel.addBeginDelta;
}
}
// vibrato
if (channel.vibLength) {
channel.vibValue += channel.vibDelta;
if (--channel.vibCount == 0) {
channel.vibCount = channel.vibLength;
channel.vibDelta = -channel.vibDelta;
}
if (!channel.portaDelta) {
// 16x16 bit multiplication, casts needed for the right results
channel.period = (uint16)(((uint32)channel.refPeriod * (uint16)((1 << 11) + channel.vibValue)) >> 11);
}
}
// portamento
if (channel.portaDelta && !(--channel.portaCount)) {
channel.portaCount = channel.portaSkip;
bool resetPorta = true;
const uint16 period = channel.refPeriod;
uint16 portaVal = channel.portaValue;
if (period > portaVal) {
portaVal = ((uint32)portaVal * (uint16)((1 << 8) + channel.portaDelta)) >> 8;
resetPorta = (period <= portaVal);
} else if (period < portaVal) {
portaVal = ((uint32)portaVal * (uint16)((1 << 8) - channel.portaDelta)) >> 8;
resetPorta = (period >= portaVal);
}
if (resetPorta) {
channel.portaDelta = 0;
channel.portaValue = period & 0x7FF;
} else
channel.period = channel.portaValue = portaVal & 0x7FF;
}
// envelope
if (channel.envSkip && !channel.envCount--) {
channel.envCount = channel.envSkip;
const int8 endVol = channel.envEndVolume;
int8 volume = channel.volume;
bool resetEnv = true;
if (endVol > volume) {
volume += channel.envDelta;
resetEnv = endVol <= volume;
} else {
volume -= channel.envDelta;
resetEnv = volume <= 0 || endVol >= volume;
}
if (resetEnv) {
channel.envSkip = 0;
volume = endVol;
}
channel.volume = volume;
}
// Fade
if (_playerCtx.fadeDelta && !(--_playerCtx.fadeCount)) {
_playerCtx.fadeCount = _playerCtx.fadeSkip;
_playerCtx.volume += _playerCtx.fadeDelta;
if (_playerCtx.volume == _playerCtx.fadeEndVolume)
_playerCtx.fadeDelta = 0;
}
// Volume
const uint8 finVol = _playerCtx.volume * channel.volume >> 6;
Paula::setChannelVolume(channel.paulaChannel, finVol);
}
void Tfmx::macroRun(ChannelContext &channel) {
bool deferWait = channel.deferWait;
for (;;) {
const byte *const macroPtr = (const byte *)(getMacroPtr(channel.macroOffset) + channel.macroStep);
++channel.macroStep;
switch (macroPtr[0]) {
case 0x00: // Reset + DMA Off. Parameters: deferWait, addset, vol
clearEffects(channel);
// FT
case 0x13: // DMA Off. Parameters: deferWait, addset, vol
// TODO: implement PArameters
Paula::disableChannel(channel.paulaChannel);
channel.deferWait = deferWait = (macroPtr[1] != 0);
if (deferWait) {
// if set, then we expect a DMA On in the same tick.
channel.period = 4;
//Paula::setChannelPeriod(channel.paulaChannel, channel.period);
Paula::setChannelSampleLen(channel.paulaChannel, 1);
// in this state we then need to allow some commands that normally
// would halt the macroprogamm to continue instead.
// those commands are: Wait, WaitDMA, AddPrevNote, AddNote, SetNote, <unknown Cmd>
// DMA On is affected aswell
// TODO remember time disabled, remember pending dmaoff?.
}
if (macroPtr[2] || macroPtr[3]) {
channel.volume = (macroPtr[2] ? 0 : channel.relVol * 3) + macroPtr[3];
Paula::setChannelVolume(channel.paulaChannel, channel.volume);
}
continue;
case 0x01: // DMA On
// TODO: Parameter macroPtr[1] - en-/disable effects
channel.dmaIntCount = 0;
if (deferWait) {
// TODO
// there is actually a small delay in the player, but I think that
// only allows to clear DMA-State on real Hardware
}
Paula::setChannelPeriod(channel.paulaChannel, channel.period);
Paula::enableChannel(channel.paulaChannel);
channel.deferWait = deferWait = false;
continue;
case 0x02: // Set Beginn. Parameters: SampleOffset(L)
channel.addBeginLength = 0;
channel.sampleStart = READ_BE_UINT32(macroPtr) & 0xFFFFFF;
Paula::setChannelSampleStart(channel.paulaChannel, getSamplePtr(channel.sampleStart));
continue;
case 0x03: // SetLength. Parameters: SampleLength(W)
channel.sampleLen = READ_BE_UINT16(&macroPtr[2]);
Paula::setChannelSampleLen(channel.paulaChannel, channel.sampleLen);
continue;
case 0x04: // Wait. Parameters: Ticks to wait(W).
// TODO: some unknown Parameter? (macroPtr[1] & 1)
channel.macroWait = READ_BE_UINT16(&macroPtr[2]);
break;
case 0x10: // Loop Key Up. Parameters: Loopcount, MacroStep(W)
if (channel.keyUp)
continue;
// FT
case 0x05: // Loop. Parameters: Loopcount, MacroStep(W)
if (channel.macroLoopCount != 0) {
if (channel.macroLoopCount == 0xFF)
channel.macroLoopCount = macroPtr[1];
channel.macroStep = READ_BE_UINT16(&macroPtr[2]);
}
--channel.macroLoopCount;
continue;
case 0x06: // Jump. Parameters: MacroIndex, MacroStep(W)
// channel.macroIndex = macroPtr[1] & (kMaxMacroOffsets - 1);
channel.macroOffset = _resource->macroOffset[macroPtr[1] & (kMaxMacroOffsets - 1)];
channel.macroStep = READ_BE_UINT16(&macroPtr[2]);
channel.macroLoopCount = 0xFF;
continue;
case 0x07: // Stop Macro
channel.macroRun = false;
--channel.macroStep;
return;
case 0x08: // AddNote. Parameters: Note, Finetune(W)
setNoteMacro(channel, channel.note + macroPtr[1], READ_BE_UINT16(&macroPtr[2]));
break;
case 0x09: // SetNote. Parameters: Note, Finetune(W)
setNoteMacro(channel, macroPtr[1], READ_BE_UINT16(&macroPtr[2]));
break;
case 0x0A: // Clear Effects
clearEffects(channel);
continue;
case 0x0B: // Portamento. Parameters: count, speed
channel.portaSkip = macroPtr[1];
channel.portaCount = 1;
// if porta is already running, then keep using old value
if (!channel.portaDelta)
channel.portaValue = channel.refPeriod;
channel.portaDelta = READ_BE_UINT16(&macroPtr[2]);
continue;
case 0x0C: // Vibrato. Parameters: Speed, intensity
channel.vibLength = macroPtr[1];
channel.vibCount = macroPtr[1] / 2;
channel.vibDelta = macroPtr[3];
// TODO: Perhaps a bug, vibValue could be left uninitialised
if (!channel.portaDelta) {
channel.period = channel.refPeriod;
channel.vibValue = 0;
}
continue;
case 0x0D: // Add Volume. Parameters: note, addNoteFlag, volume
if (macroPtr[2] == 0xFE)
setNoteMacro(channel, channel.note + macroPtr[1], 0);
channel.volume = channel.relVol * 3 + macroPtr[3];
continue;
case 0x0E: // Set Volume. Parameters: note, addNoteFlag, volume
if (macroPtr[2] == 0xFE)
setNoteMacro(channel, channel.note + macroPtr[1], 0);
channel.volume = macroPtr[3];
continue;
case 0x0F: // Envelope. Parameters: speed, count, endvol
channel.envDelta = macroPtr[1];
channel.envCount = channel.envSkip = macroPtr[2];
channel.envEndVolume = macroPtr[3];
continue;
case 0x11: // Add Beginn. Parameters: times, Offset(W)
channel.addBeginLength = channel.addBeginCount = macroPtr[1];
channel.addBeginDelta = (int16)READ_BE_UINT16(&macroPtr[2]);
channel.sampleStart += channel.addBeginDelta;
Paula::setChannelSampleStart(channel.paulaChannel, getSamplePtr(channel.sampleStart));
continue;
case 0x12: // Add Length. Parameters: added Length(W)
channel.sampleLen += (int16)READ_BE_UINT16(&macroPtr[2]);
Paula::setChannelSampleLen(channel.paulaChannel, channel.sampleLen);
continue;
case 0x14: // Wait key up. Parameters: wait cycles
if (channel.keyUp || channel.macroLoopCount == 0) {
channel.macroLoopCount = 0xFF;
continue;
} else if (channel.macroLoopCount == 0xFF)
channel.macroLoopCount = macroPtr[3];
--channel.macroLoopCount;
--channel.macroStep;
return;
case 0x15: // Subroutine. Parameters: MacroIndex, Macrostep(W)
channel.macroReturnOffset = channel.macroOffset;
channel.macroReturnStep = channel.macroStep;
channel.macroOffset = _resource->macroOffset[macroPtr[1] & (kMaxMacroOffsets - 1)];
channel.macroStep = READ_BE_UINT16(&macroPtr[2]);
// TODO: MI does some weird stuff there. Figure out which varioables need to be set
continue;
case 0x16: // Return from Sub.
channel.macroOffset = channel.macroReturnOffset;
channel.macroStep = channel.macroReturnStep;
continue;
case 0x17: // Set Period. Parameters: Period(W)
channel.refPeriod = READ_BE_UINT16(&macroPtr[2]);
if (!channel.portaDelta) {
channel.period = channel.refPeriod;
//Paula::setChannelPeriod(channel.paulaChannel, channel.period);
}
continue;
case 0x18: { // Sampleloop. Parameters: Offset from Samplestart(W)
// TODO: MI loads 24 bit, but thats useless?
const uint16 temp = /* ((int8)macroPtr[1] << 16) | */ READ_BE_UINT16(&macroPtr[2]);
if (macroPtr[1] || (temp & 1))
warning("Tfmx: Problematic value for sampleloop: %06X", (macroPtr[1] << 16) | temp);
channel.sampleStart += temp & 0xFFFE;
channel.sampleLen -= (temp / 2) /* & 0x7FFF */;
Paula::setChannelSampleStart(channel.paulaChannel, getSamplePtr(channel.sampleStart));
Paula::setChannelSampleLen(channel.paulaChannel, channel.sampleLen);
continue;
}
case 0x19: // Set One-Shot Sample
channel.addBeginLength = 0;
channel.sampleStart = 0;
channel.sampleLen = 1;
Paula::setChannelSampleStart(channel.paulaChannel, getSamplePtr(0));
Paula::setChannelSampleLen(channel.paulaChannel, 1);
continue;
case 0x1A: // Wait on DMA. Parameters: Cycles-1(W) to wait
channel.dmaIntCount = READ_BE_UINT16(&macroPtr[2]) + 1;
channel.macroRun = false;
Paula::setChannelDmaCount(channel.paulaChannel);
break;
/* case 0x1B: // Random play. Parameters: macro/speed/mode
warnMacroUnimplemented(macroPtr, 0);
continue;*/
case 0x1C: // Branch on Note. Parameters: note/macrostep(W)
if (channel.note > macroPtr[1])
channel.macroStep = READ_BE_UINT16(&macroPtr[2]);
continue;
case 0x1D: // Branch on Volume. Parameters: volume/macrostep(W)
if (channel.volume > macroPtr[1])
channel.macroStep = READ_BE_UINT16(&macroPtr[2]);
continue;
/* case 0x1E: // Addvol+note. Parameters: note/CONST./volume
warnMacroUnimplemented(macroPtr, 0);
continue;*/
case 0x1F: // AddPrevNote. Parameters: Note, Finetune(W)
setNoteMacro(channel, channel.prevNote + macroPtr[1], READ_BE_UINT16(&macroPtr[2]));
break;
case 0x20: // Signal. Parameters: signalnumber, value(W)
if (_playerCtx.numSignals > macroPtr[1])
_playerCtx.signal[macroPtr[1]] = READ_BE_UINT16(&macroPtr[2]);
continue;
case 0x21: // Play macro. Parameters: macro, chan, detune
noteCommand(channel.note, macroPtr[1], (channel.relVol << 4) | macroPtr[2], macroPtr[3]);
continue;
// 0x22 - 0x29 are used by Gem`X
// 0x30 - 0x34 are used by Carribean Disaster
default:
debug(3, "Tfmx: Macro %02X not supported", macroPtr[0]);
}
if (!deferWait)
return;
}
}
void Tfmx::advancePatterns() {
startPatterns:
int runningPatterns = 0;
for (int i = 0; i < kNumChannels; ++i) {
PatternContext &pattern = _patternCtx[i];
const uint8 pattCmd = pattern.command;
if (pattCmd < 0x90) { // execute Patternstep
++runningPatterns;
if (!pattern.wait) {
// issue all Steps for this tick
if (patternRun(pattern)) {
// we load the next Trackstep Command and then process all Channels again
if (trackRun(true))
goto startPatterns;
else
break;
}
} else
--pattern.wait;
} else if (pattCmd == 0xFE) { // Stop voice in pattern.expose
pattern.command = 0xFF;
ChannelContext &channel = _channelCtx[pattern.expose & (kNumVoices - 1)];
if (!channel.sfxLocked) {
haltMacroProgramm(channel);
Paula::disableChannel(channel.paulaChannel);
}
} // else this pattern-Channel is stopped
}
if (_playerCtx.stopWithLastPattern && !runningPatterns) {
stopPaula();
}
}
bool Tfmx::patternRun(PatternContext &pattern) {
for (;;) {
const byte *const patternPtr = (const byte *)(getPatternPtr(pattern.offset) + pattern.step);
++pattern.step;
const byte pattCmd = patternPtr[0];
if (pattCmd < 0xF0) { // Playnote
bool doWait = false;
byte noteCmd = pattCmd + pattern.expose;
byte param3 = patternPtr[3];
if (pattCmd < 0xC0) { // Note
if (pattCmd >= 0x80) { // Wait
pattern.wait = param3;
param3 = 0;
doWait = true;
}
noteCmd &= 0x3F;
} // else Portamento
noteCommand(noteCmd, patternPtr[1], patternPtr[2], param3);
if (doWait)
return false;
} else { // Patterncommand
switch (pattCmd & 0xF) {
case 0: // End Pattern + Next Trackstep
pattern.command = 0xFF;
--pattern.step;
return true;
case 1: // Loop Pattern. Parameters: Loopcount, PatternStep(W)
if (pattern.loopCount != 0) {
if (pattern.loopCount == 0xFF)
pattern.loopCount = patternPtr[1];
pattern.step = READ_BE_UINT16(&patternPtr[2]);
}
--pattern.loopCount;
continue;
case 2: // Jump. Parameters: PatternIndex, PatternStep(W)
pattern.offset = _resource->patternOffset[patternPtr[1] & (kMaxPatternOffsets - 1)];
pattern.step = READ_BE_UINT16(&patternPtr[2]);
continue;
case 3: // Wait. Paramters: ticks to wait
pattern.wait = patternPtr[1];
return false;
case 14: // Stop custompattern
// TODO apparently toggles on/off pattern channel 7
debug(3, "Tfmx: Encountered 'Stop custompattern' command");
// FT
case 4: // Stop this pattern
pattern.command = 0xFF;
--pattern.step;
// TODO: try figuring out if this was the last Channel?
return false;
case 5: // Key Up Signal. Paramters: channel
if (!_channelCtx[patternPtr[2] & (kNumVoices - 1)].sfxLocked)
_channelCtx[patternPtr[2] & (kNumVoices - 1)].keyUp = true;
continue;
case 6: // Vibrato. Parameters: length, channel, rate
case 7: // Envelope. Parameters: rate, tempo | channel, endVol
noteCommand(pattCmd, patternPtr[1], patternPtr[2], patternPtr[3]);
continue;
case 8: // Subroutine. Parameters: pattern, patternstep(W)
pattern.savedOffset = pattern.offset;
pattern.savedStep = pattern.step;
pattern.offset = _resource->patternOffset[patternPtr[1] & (kMaxPatternOffsets - 1)];
pattern.step = READ_BE_UINT16(&patternPtr[2]);
continue;
case 9: // Return from Subroutine
pattern.offset = pattern.savedOffset;
pattern.step = pattern.savedStep;
continue;
case 10: // fade. Parameters: tempo, endVol
initFadeCommand((uint8)patternPtr[1], (int8)patternPtr[3]);
continue;
case 11: // play pattern. Parameters: patternCmd, channel, expose
initPattern(_patternCtx[patternPtr[2] & (kNumChannels - 1)], patternPtr[1], patternPtr[3], _resource->patternOffset[patternPtr[1] & (kMaxPatternOffsets - 1)]);
continue;
case 12: // Lock. Parameters: lockFlag, channel, lockTime
_channelCtx[patternPtr[2] & (kNumVoices - 1)].sfxLocked = (patternPtr[1] != 0);
_channelCtx[patternPtr[2] & (kNumVoices - 1)].sfxLockTime = patternPtr[3];
continue;
case 13: // Cue. Parameters: signalnumber, value(W)
if (_playerCtx.numSignals > patternPtr[1])
_playerCtx.signal[patternPtr[1]] = READ_BE_UINT16(&patternPtr[2]);
continue;
case 15: // NOP
continue;
}
}
}
}
bool Tfmx::trackRun(const bool incStep) {
assert(_playerCtx.song >= 0);
if (incStep) {
// TODO Optionally disable looping
if (_trackCtx.posInd == _trackCtx.stopInd)
_trackCtx.posInd = _trackCtx.startInd;
else
++_trackCtx.posInd;
}
for (;;) {
const uint16 *const trackData = getTrackPtr(_trackCtx.posInd);
if (trackData[0] != FROM_BE_16(0xEFFE)) {
// 8 commands for Patterns
for (int i = 0; i < 8; ++i) {
const uint8 *patCmd = (const uint8 *)&trackData[i];
// First byte is pattern number
const uint8 patNum = patCmd[0];
// if highest bit is set then keep previous pattern
if (patNum < 0x80) {
initPattern(_patternCtx[i], patNum, patCmd[1], _resource->patternOffset[patNum]);
} else {
_patternCtx[i].command = patNum;
_patternCtx[i].expose = (int8)patCmd[1];
}
}
return true;
} else {
// 16 byte Trackstep Command
switch (READ_BE_UINT16(&trackData[1])) {
case 0: // Stop Player. No Parameters
stopPaula();
return false;
case 1: // Branch/Loop section of tracksteps. Parameters: branch target, loopcount
if (_trackCtx.loopCount != 0) {
if (_trackCtx.loopCount < 0)
_trackCtx.loopCount = READ_BE_UINT16(&trackData[3]);
_trackCtx.posInd = READ_BE_UINT16(&trackData[2]);
continue;
}
--_trackCtx.loopCount;
break;
case 2: { // Set Tempo. Parameters: tempo, divisor
_playerCtx.patternCount = _playerCtx.patternSkip = READ_BE_UINT16(&trackData[2]); // tempo
const uint16 temp = READ_BE_UINT16(&trackData[3]); // divisor
if (!(temp & 0x8000) && (temp & 0x1FF))
setInterruptFreqUnscaled(temp & 0x1FF);
break;
}
case 4: // Fade. Parameters: tempo, endVol
// load the LSB of the 16bit words
initFadeCommand(((const uint8 *)&trackData[2])[1], ((const int8 *)&trackData[3])[1]);
break;
case 3: // Unknown, stops player aswell
default:
debug(3, "Tfmx: Unknown Trackstep Command: %02X", READ_BE_UINT16(&trackData[1]));
// MI-Player handles this by stopping the player, we just continue
}
}
if (_trackCtx.posInd == _trackCtx.stopInd) {
warning("Tfmx: Reached invalid Song-Position");
return false;
}
++_trackCtx.posInd;
}
}
void Tfmx::noteCommand(const uint8 note, const uint8 param1, const uint8 param2, const uint8 param3) {
ChannelContext &channel = _channelCtx[param2 & (kNumVoices - 1)];
if (note == 0xFC) { // Lock command
channel.sfxLocked = (param1 != 0);
channel.sfxLockTime = param3; // only 1 byte read!
} else if (channel.sfxLocked) { // Channel still locked, do nothing
} else if (note < 0xC0) { // Play Note - Parameters: note, macro, relVol | channel, finetune
channel.prevNote = channel.note;
channel.note = note;
// channel.macroIndex = param1 & (kMaxMacroOffsets - 1);
channel.macroOffset = _resource->macroOffset[param1 & (kMaxMacroOffsets - 1)];
channel.relVol = param2 >> 4;
channel.fineTune = (int8)param3;
// TODO: the point where the channel gets initialised varies with the games, needs more research.
initMacroProgramm(channel);
channel.keyUp = false; // key down = playing a Note
} else if (note < 0xF0) { // Portamento - Parameters: note, tempo, channel, rate
channel.portaSkip = param1;
channel.portaCount = 1;
if (!channel.portaDelta)
channel.portaValue = channel.refPeriod;
channel.portaDelta = param3;
channel.note = note & 0x3F;
channel.refPeriod = noteIntervalls[channel.note];
} else switch (note) { // Command
case 0xF5: // Key Up Signal
channel.keyUp = true;
break;
case 0xF6: // Vibratio - Parameters: length, channel, rate
channel.vibLength = param1 & 0xFE;
channel.vibCount = param1 / 2;
channel.vibDelta = param3;
channel.vibValue = 0;
break;
case 0xF7: // Envelope - Parameters: rate, tempo | channel, endVol
channel.envDelta = param1;
channel.envCount = channel.envSkip = (param2 >> 4) + 1;
channel.envEndVolume = param3;
break;
}
}
void Tfmx::initMacroProgramm(ChannelContext &channel) {
channel.macroStep = 0;
channel.macroWait = 0;
channel.macroRun = true;
channel.macroSfxRun = 0;
channel.macroLoopCount = 0xFF;
channel.dmaIntCount = 0;
channel.deferWait = false;
channel.macroReturnOffset = 0;
channel.macroReturnStep = 0;
}
void Tfmx::clearEffects(ChannelContext &channel) {
channel.addBeginLength = 0;
channel.envSkip = 0;
channel.vibLength = 0;
channel.portaDelta = 0;
}
void Tfmx::haltMacroProgramm(ChannelContext &channel) {
channel.macroRun = false;
channel.dmaIntCount = 0;
}
void Tfmx::unlockMacroChannel(ChannelContext &channel) {
channel.customMacro = 0;
channel.customMacroIndex = 0;
channel.customMacroPrio = 0;
channel.sfxLocked = false;
channel.sfxLockTime = -1;
}
void Tfmx::initPattern(PatternContext &pattern, uint8 cmd, int8 expose, uint32 offset) {
pattern.command = cmd;
pattern.offset = offset;
pattern.expose = expose;
pattern.step = 0;
pattern.wait = 0;
pattern.loopCount = 0xFF;
pattern.savedOffset = 0;
pattern.savedStep = 0;
}
void Tfmx::stopSongImpl(bool stopAudio) {
_playerCtx.song = -1;
for (int i = 0; i < kNumChannels; ++i) {
_patternCtx[i].command = 0xFF;
_patternCtx[i].expose = 0;
}
if (stopAudio) {
stopPaula();
for (int i = 0; i < kNumVoices; ++i) {
clearEffects(_channelCtx[i]);
unlockMacroChannel(_channelCtx[i]);
haltMacroProgramm(_channelCtx[i]);
_channelCtx[i].note = 0;
_channelCtx[i].volume = 0;
_channelCtx[i].macroSfxRun = -1;
_channelCtx[i].vibValue = 0;
_channelCtx[i].sampleStart = 0;
_channelCtx[i].sampleLen = 2;
_channelCtx[i].refPeriod = 4;
_channelCtx[i].period = 4;
Paula::disableChannel(i);
}
}
}
void Tfmx::setNoteMacro(ChannelContext &channel, uint note, int fineTune) {
const uint16 noteInt = noteIntervalls[note & 0x3F];
const uint16 finetune = (uint16)(fineTune + channel.fineTune + (1 << 8));
channel.refPeriod = ((uint32)noteInt * finetune >> 8);
if (!channel.portaDelta)
channel.period = channel.refPeriod;
}
void Tfmx::initFadeCommand(const uint8 fadeTempo, const int8 endVol) {
_playerCtx.fadeCount = _playerCtx.fadeSkip = fadeTempo;
_playerCtx.fadeEndVolume = endVol;
if (fadeTempo) {
const int diff = _playerCtx.fadeEndVolume - _playerCtx.volume;
_playerCtx.fadeDelta = (diff != 0) ? ((diff > 0) ? 1 : -1) : 0;
} else {
_playerCtx.volume = endVol;
_playerCtx.fadeDelta = 0;
}
}
void Tfmx::setModuleData(Tfmx &otherPlayer) {
setModuleData(otherPlayer._resource, otherPlayer._resourceSample.sampleData, otherPlayer._resourceSample.sampleLen, false);
}
bool Tfmx::load(Common::SeekableReadStream &musicData, Common::SeekableReadStream &sampleData, bool autoDelete) {
const MdatResource *mdat = loadMdatFile(musicData);
if (mdat) {
uint32 sampleLen = 0;
const int8 *sampleDat = loadSampleFile(sampleLen, sampleData);
if (sampleDat) {
setModuleData(mdat, sampleDat, sampleLen, autoDelete);
return true;
}
delete[] mdat->mdatAlloc;
delete mdat;
}
return false;
}
void Tfmx::freeResourceDataImpl() {
if (_deleteResource) {
if (_resource) {
delete[] _resource->mdatAlloc;
delete _resource;
}
delete[] _resourceSample.sampleData;
}
_resource = 0;
_resourceSample.sampleData = 0;
_resourceSample.sampleLen = 0;
_deleteResource = false;
}
void Tfmx::setModuleData(const MdatResource *resource, const int8 *sampleData, uint32 sampleLen, bool autoDelete) {
Common::StackLock lock(_mutex);
stopSongImpl(true);
freeResourceDataImpl();
_resource = resource;
_resourceSample.sampleData = sampleData;
_resourceSample.sampleLen = sampleData ? sampleLen : 0;
_deleteResource = autoDelete;
}
const int8 *Tfmx::loadSampleFile(uint32 &sampleLen, Common::SeekableReadStream &sampleStream) {
sampleLen = 0;
const int32 sampleSize = sampleStream.size();
if (sampleSize < 4) {
warning("Tfmx: Cant load Samplefile");
return false;
}
int8 *sampleAlloc = new int8[sampleSize];
if (!sampleAlloc) {
warning("Tfmx: Could not allocate Memory: %dKB", sampleSize / 1024);
return 0;
}
if (sampleStream.read(sampleAlloc, sampleSize) == (uint32)sampleSize) {
sampleAlloc[0] = sampleAlloc[1] = sampleAlloc[2] = sampleAlloc[3] = 0;
sampleLen = sampleSize;
} else {
delete[] sampleAlloc;
warning("Tfmx: Encountered IO-Error");
return 0;
}
return sampleAlloc;
}
const Tfmx::MdatResource *Tfmx::loadMdatFile(Common::SeekableReadStream &musicData) {
bool hasHeader = false;
const int32 mdatSize = musicData.size();
if (mdatSize >= 0x200) {
byte buf[16] = { 0 };
// 0x0000: 10 Bytes Header "TFMX-SONG "
musicData.read(buf, 10);
hasHeader = memcmp(buf, "TFMX-SONG ", 10) == 0;
}
if (!hasHeader) {
warning("Tfmx: File is not a Tfmx Module");
return 0;
}
MdatResource *resource = new MdatResource;
resource->mdatAlloc = 0;
resource->mdatData = 0;
resource->mdatLen = 0;
// 0x000A: int16 flags
resource->headerFlags = musicData.readUint16BE();
// 0x000C: int32 ?
// 0x0010: 6*40 Textfield
musicData.skip(4 + 6 * 40);
/* 0x0100: Songstart x 32*/
for (int i = 0; i < kNumSubsongs; ++i)
resource->subsong[i].songstart = musicData.readUint16BE();
/* 0x0140: Songend x 32*/
for (int i = 0; i < kNumSubsongs; ++i)
resource->subsong[i].songend = musicData.readUint16BE();
/* 0x0180: Tempo x 32*/
for (int i = 0; i < kNumSubsongs; ++i)
resource->subsong[i].tempo = musicData.readUint16BE();
/* 0x01c0: unused ? */
musicData.skip(16);
/* 0x01d0: trackstep, pattern data p, macro data p */
const uint32 offTrackstep = musicData.readUint32BE();
uint32 offPatternP, offMacroP;
// This is how MI`s TFMX-Player tests for unpacked Modules.
if (offTrackstep == 0) { // unpacked File
resource->trackstepOffset = 0x600 + 0x200;
offPatternP = 0x200 + 0x200;
offMacroP = 0x400 + 0x200;
} else { // packed File
resource->trackstepOffset = offTrackstep;
offPatternP = musicData.readUint32BE();
offMacroP = musicData.readUint32BE();
}
// End of basic header, check if everything worked ok
if (musicData.err()) {
warning("Tfmx: Encountered IO-Error");
delete resource;
return 0;
}
// TODO: if a File is packed it could have for Ex only 2 Patterns/Macros
// the following loops could then read beyond EOF.
// To correctly handle this it would be necessary to sort the pointers and
// figure out the number of Macros/Patterns
// We could also analyze pointers if they are correct offsets,
// so that accesses can be unchecked later
// Read in pattern starting offsets
musicData.seek(offPatternP);
for (int i = 0; i < kMaxPatternOffsets; ++i)
resource->patternOffset[i] = musicData.readUint32BE();
// use last PatternOffset (stored at 0x5FC in mdat) if unpacked File
// or fixed offset 0x200 if packed
resource->sfxTableOffset = offTrackstep ? 0x200 : resource->patternOffset[127];
// Read in macro starting offsets
musicData.seek(offMacroP);
for (int i = 0; i < kMaxMacroOffsets; ++i)
resource->macroOffset[i] = musicData.readUint32BE();
// Read in mdat-file
// TODO: we can skip everything thats already stored in the resource-structure.
const int32 mdatOffset = offTrackstep ? 0x200 : 0x600; // 0x200 is very conservative
const uint32 allocSize = (uint32)mdatSize - mdatOffset;
byte *mdatAlloc = new byte[allocSize];
if (!mdatAlloc) {
warning("Tfmx: Could not allocate Memory: %dKB", allocSize / 1024);
delete resource;
return 0;
}
musicData.seek(mdatOffset);
if (musicData.read(mdatAlloc, allocSize) == allocSize) {
resource->mdatAlloc = mdatAlloc;
resource->mdatData = mdatAlloc - mdatOffset;
resource->mdatLen = mdatSize;
} else {
delete[] mdatAlloc;
warning("Tfmx: Encountered IO-Error");
delete resource;
return 0;
}
return resource;
}
void Tfmx::doMacro(int note, int macro, int relVol, int finetune, int channelNo) {
assert(0 <= macro && macro < kMaxMacroOffsets);
assert(0 <= note && note < 0xC0);
Common::StackLock lock(_mutex);
if (!hasResources())
return;
channelNo &= (kNumVoices - 1);
ChannelContext &channel = _channelCtx[channelNo];
unlockMacroChannel(channel);
noteCommand((uint8)note, (uint8)macro, (uint8)((relVol << 4) | channelNo), (uint8)finetune);
startPaula();
}
void Tfmx::stopMacroEffect(int channel) {
assert(0 <= channel && channel < kNumVoices);
Common::StackLock lock(_mutex);
unlockMacroChannel(_channelCtx[channel]);
haltMacroProgramm(_channelCtx[channel]);
Paula::disableChannel(_channelCtx[channel].paulaChannel);
}
void Tfmx::doSong(int songPos, bool stopAudio) {
assert(0 <= songPos && songPos < kNumSubsongs);
Common::StackLock lock(_mutex);
stopSongImpl(stopAudio);
if (!hasResources())
return;
_trackCtx.loopCount = -1;
_trackCtx.startInd = _trackCtx.posInd = _resource->subsong[songPos].songstart;
_trackCtx.stopInd = _resource->subsong[songPos].songend;
_playerCtx.song = (int8)songPos;
const bool palFlag = (_resource->headerFlags & 2) != 0;
const uint16 tempo = _resource->subsong[songPos].tempo;
uint16 ciaIntervall;
if (tempo >= 0x10) {
ciaIntervall = (uint16)(kCiaBaseInterval / tempo);
_playerCtx.patternSkip = 0;
} else {
ciaIntervall = palFlag ? (uint16)kPalDefaultCiaVal : (uint16)kNtscDefaultCiaVal;
_playerCtx.patternSkip = tempo;
}
setInterruptFreqUnscaled(ciaIntervall);
Paula::setAudioFilter(true);
_playerCtx.patternCount = 0;
if (trackRun())
startPaula();
}
int Tfmx::doSfx(uint16 sfxIndex, bool unlockChannel) {
assert(sfxIndex < 128);
Common::StackLock lock(_mutex);
if (!hasResources())
return -1;
const byte *sfxEntry = getSfxPtr(sfxIndex);
if (sfxEntry[0] == 0xFB) {
warning("Tfmx: custom patterns are not supported");
// custompattern
/* const uint8 patCmd = sfxEntry[2];
const int8 patExp = (int8)sfxEntry[3]; */
} else {
// custommacro
const byte channelNo = ((_playerCtx.song >= 0) ? sfxEntry[2] : sfxEntry[4]) & (kNumVoices - 1);
const byte priority = sfxEntry[5] & 0x7F;
ChannelContext &channel = _channelCtx[channelNo];
if (unlockChannel)
unlockMacroChannel(channel);
const int16 sfxLocktime = channel.sfxLockTime;
if (priority >= channel.customMacroPrio || sfxLocktime < 0) {
if (sfxIndex != channel.customMacroIndex || sfxLocktime < 0 || (sfxEntry[5] < 0x80)) {
channel.customMacro = READ_UINT32(sfxEntry); // intentionally not "endian-correct"
channel.customMacroPrio = priority;
channel.customMacroIndex = (uint8)sfxIndex;
debug(3, "Tfmx: running Macro %08X on channel %i - priority: %02X", TO_BE_32(channel.customMacro), channelNo, priority);
return channelNo;
}
}
}
return -1;
}
} // End of namespace Audio
// some debugging functions
#if 0
namespace {
void displayMacroStep(const void * const vptr) {
static const char *tableMacros[] = {
"DMAoff+Resetxx/xx/xx flag/addset/vol ",
"DMAon (start sample at selected begin) ",
"SetBegin xxxxxx sample-startadress",
"SetLen ..xxxx sample-length ",
"Wait ..xxxx count (VBI''s) ",
"Loop xx/xxxx count/step ",
"Cont xx/xxxx macro-number/step ",
"-------------STOP----------------------",
"AddNote xx/xxxx note/detune ",
"SetNote xx/xxxx note/detune ",
"Reset Vibrato-Portamento-Envelope ",
"Portamento xx/../xx count/speed ",
"Vibrato xx/../xx speed/intensity ",
"AddVolume ....xx volume 00-3F ",
"SetVolume ....xx volume 00-3F ",
"Envelope xx/xx/xx speed/count/endvol",
"Loop key up xx/xxxx count/step ",
"AddBegin xx/xxxx count/add to start",
"AddLen ..xxxx add to sample-len ",
"DMAoff stop sample but no clear ",
"Wait key up ....xx count (VBI''s) ",
"Go submacro xx/xxxx macro-number/step ",
"--------Return to old macro------------",
"Setperiod ..xxxx DMA period ",
"Sampleloop ..xxxx relative adress ",
"-------Set one shot sample-------------",
"Wait on DMA ..xxxx count (Wavecycles)",
"Random play xx/xx/xx macro/speed/mode ",
"Splitkey xx/xxxx key/macrostep ",
"Splitvolume xx/xxxx volume/macrostep ",
"Addvol+note xx/fe/xx note/CONST./volume",
"SetPrevNote xx/xxxx note/detune ",
"Signal xx/xxxx signalnumber/value",
"Play macro xx/.x/xx macro/chan/detune ",
"SID setbeg xxxxxx sample-startadress",
"SID setlen xx/xxxx buflen/sourcelen ",
"SID op3 ofs xxxxxx offset ",
"SID op3 frq xx/xxxx speed/amplitude ",
"SID op2 ofs xxxxxx offset ",
"SID op2 frq xx/xxxx speed/amplitude ",
"SID op1 xx/xx/xx speed/amplitude/TC",
"SID stop xx.... flag (1=clear all)"
};
const byte *const macroData = (const byte * const)vptr;
if (macroData[0] < ARRAYSIZE(tableMacros))
debug("%s %02X%02X%02X", tableMacros[macroData[0]], macroData[1], macroData[2], macroData[3]);
else
debug("Unknown Macro #%02X %02X%02X%02X", macroData[0], macroData[1], macroData[2], macroData[3]);
}
void displayPatternstep(const void * const vptr) {
static const char *tablePatterns[] = {
"End --Next track step--",
"Loop[count / step.w]",
"Cont[patternno./ step.w]",
"Wait[count 00-FF--------",
"Stop--Stop this pattern-",
"Kup^-Set key up/channel]",
"Vibr[speed / rate.b]",
"Enve[speed /endvolume.b]",
"GsPt[patternno./ step.w]",
"RoPt-Return old pattern-",
"Fade[speed /endvolume.b]",
"PPat[patt./track+transp]",
"Lock---------ch./time.b]",
"Cue [number.b/ value.w]",
"Stop-Stop custompattern-",
"NOP!-no operation-------"
};
const byte * const patData = (const byte * const)vptr;
const byte command = patData[0];
if (command < 0xF0) { // Playnote
const byte flags = command >> 6; // 0-1 means note+detune, 2 means wait, 3 means portamento?
const char *flagsSt[] = { "Note ", "Note ", "Wait ", "Porta" };
debug("%s %02X%02X%02X%02X", flagsSt[flags], patData[0], patData[1], patData[2], patData[3]);
} else
debug("%s %02X%02X%02X",tablePatterns[command & 0xF], patData[1], patData[2], patData[3]);
}
} // End of anonymous namespace
#endif
#endif // #if defined(SOUND_MODS_TFMX_H)