mirror of
https://github.com/libretro/scummvm.git
synced 2024-12-28 04:34:50 +00:00
2249db2c6d
svn-id: r27759
522 lines
14 KiB
C++
522 lines
14 KiB
C++
/* ScummVM - Graphic Adventure Engine
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*
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* ScummVM is the legal property of its developers, whose names
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* are too numerous to list here. Please refer to the COPYRIGHT
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* file distributed with this source distribution.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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* $URL$
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* $Id$
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*
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*/
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#include "common/stdafx.h"
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#include "common/endian.h"
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#include "sound/mods/paula.h"
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#include "sound/mods/rjp1.h"
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#include "sound/audiostream.h"
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namespace Audio {
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struct Rjp1Channel {
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const int8 *waveData;
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const int8 *modulatePeriodData;
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const int8 *modulateVolumeData;
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const int8 *envelopeData;
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uint16 volumeScale;
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int16 volume;
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uint16 modulatePeriodBase;
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uint32 modulatePeriodLimit;
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uint32 modulatePeriodIndex;
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uint16 modulateVolumeBase;
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uint32 modulateVolumeLimit;
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uint32 modulateVolumeIndex;
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uint8 freqStep;
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uint32 freqInc;
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uint32 freqInit;
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const uint8 *noteData;
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const uint8 *sequenceOffsets;
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const uint8 *sequenceData;
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uint8 loopSeqCount;
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uint8 loopSeqCur;
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uint8 loopSeq2Count;
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uint8 loopSeq2Cur;
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bool active;
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int16 modulatePeriodInit;
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int16 modulatePeriodNext;
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bool setupNewNote;
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int8 envelopeMode;
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int8 envelopeScale;
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int8 envelopeEnd1;
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int8 envelopeEnd2;
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int8 envelopeStart;
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int8 envelopeVolume;
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uint8 currentInstrument;
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const int8 *data;
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uint16 pos;
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uint16 len;
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uint16 repeatPos;
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uint16 repeatLen;
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};
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class Rjp1 : public Paula {
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public:
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struct Vars {
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int8 *instData;
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uint8 *songData[7];
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uint8 activeChannelsMask;
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uint8 currentChannel;
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int subsongsCount;
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int instrumentsCount;
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};
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Rjp1(int rate, bool stereo);
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virtual ~Rjp1();
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bool load(Common::SeekableReadStream *songData, Common::SeekableReadStream *instrumentsData);
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void unload();
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void startSong(int song);
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protected:
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void startSequence(uint8 channelNum, uint8 seqNum);
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void turnOffChannel(Rjp1Channel *channel);
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void playChannel(Rjp1Channel *channel);
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void turnOnChannel(Rjp1Channel *channel);
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void playSongSequence(Rjp1Channel *channel);
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void modulateVolume(Rjp1Channel *channel);
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void modulatePeriod(Rjp1Channel *channel);
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void setupNote(Rjp1Channel *channel, int16 freq);
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void setupInstrument(Rjp1Channel *channel, uint8 num);
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void setRelease(Rjp1Channel *channel);
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void modulateVolumeEnvelope(Rjp1Channel *channel);
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void setSustain(Rjp1Channel *channel);
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void setDecay(Rjp1Channel *channel);
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void modulateVolumeWaveform(Rjp1Channel *channel);
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void setVolume(Rjp1Channel *channel);
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void stopPaulaChannel(uint8 channel);
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void setupPaulaChannel(uint8 channel, const int8 *waveData, uint16 offset, uint16 len, uint16 repeatPos, uint16 repeatLen);
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virtual void interrupt();
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Vars _vars;
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Rjp1Channel _channelsTable[4];
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static const int16 _periodsTable[];
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static const int _periodsCount;
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};
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Rjp1::Rjp1(int rate, bool stereo)
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: Paula(stereo, rate, rate / 50) {
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memset(&_vars, 0, sizeof(_vars));
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memset(_channelsTable, 0, sizeof(_channelsTable));
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}
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Rjp1::~Rjp1() {
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unload();
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}
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bool Rjp1::load(Common::SeekableReadStream *songData, Common::SeekableReadStream *instrumentsData) {
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if (songData->readUint32BE() == MKID_BE('RJP1') && songData->readUint32BE() == MKID_BE('SMOD')) {
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for (int i = 0; i < 7; ++i) {
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uint32 size = songData->readUint32BE();
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_vars.songData[i] = (uint8 *)malloc(size);
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if (!_vars.songData[i])
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return false;
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songData->read(_vars.songData[i], size);
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switch (i) {
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case 0:
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_vars.instrumentsCount = size / 32;
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break;
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case 1:
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break;
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case 2:
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// sequence index to offsets, 1 per channel
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_vars.subsongsCount = size / 4;
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break;
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case 3:
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case 4:
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// sequence offsets
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break;
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case 5:
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case 6:
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// sequence data
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break;
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}
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}
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if (instrumentsData->readUint32BE() == MKID_BE('RJP1')) {
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uint32 size = instrumentsData->size() - 4;
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_vars.instData = (int8 *)malloc(size);
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if (!_vars.instData)
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return false;
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instrumentsData->read(_vars.instData, size);
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}
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}
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debug(5, "Rjp1::load() _instrumentsCount = %d _subsongsCount = %d", _vars.instrumentsCount, _vars.subsongsCount);
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return true;
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}
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void Rjp1::unload() {
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for (int i = 0; i < 7; ++i) {
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free(_vars.songData[i]);
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}
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free(_vars.instData);
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memset(&_vars, 0, sizeof(_vars));
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memset(_channelsTable, 0, sizeof(_channelsTable));
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}
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void Rjp1::startSong(int song) {
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if (song == 0 || song >= _vars.subsongsCount) {
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warning("Invalid subsong number %d, defaulting to 1", song);
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song = 1;
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}
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const uint8 *p = _vars.songData[2] + (song & 0x3F) * 4;
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for (int i = 0; i < 4; ++i) {
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uint8 seq = *p++;
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if (seq) {
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startSequence(i, seq);
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}
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}
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// "start" Paula audiostream
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startPaula();
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}
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void Rjp1::startSequence(uint8 channelNum, uint8 seqNum) {
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Rjp1Channel *channel = &_channelsTable[channelNum];
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_vars.activeChannelsMask |= 1 << channelNum;
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if (seqNum != 0) {
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const uint8 *p = READ_BE_UINT32(_vars.songData[3] + seqNum * 4) + _vars.songData[5];
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uint8 seq = *p++;
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channel->sequenceOffsets = p;
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channel->sequenceData = READ_BE_UINT32(_vars.songData[4] + seq * 4) + _vars.songData[6];
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channel->loopSeqCount = 6;
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channel->loopSeqCur = channel->loopSeq2Cur = 1;
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channel->active = true;
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} else {
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channel->active = false;
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turnOffChannel(channel);
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}
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}
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void Rjp1::turnOffChannel(Rjp1Channel *channel) {
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stopPaulaChannel(channel - _channelsTable);
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}
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void Rjp1::playChannel(Rjp1Channel *channel) {
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if (channel->active) {
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turnOnChannel(channel);
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if (channel->sequenceData) {
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playSongSequence(channel);
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}
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modulateVolume(channel);
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modulatePeriod(channel);
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}
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}
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void Rjp1::turnOnChannel(Rjp1Channel *channel) {
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if (channel->setupNewNote) {
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channel->setupNewNote = false;
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setupPaulaChannel(channel - _channelsTable, channel->data, channel->pos, channel->len, channel->repeatPos, channel->repeatLen);
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}
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}
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void Rjp1::playSongSequence(Rjp1Channel *channel) {
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const uint8 *p = channel->sequenceData;
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--channel->loopSeqCur;
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if (channel->loopSeqCur == 0) {
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--channel->loopSeq2Cur;
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if (channel->loopSeq2Cur == 0) {
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bool loop = true;
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do {
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uint8 code = *p++;
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if (code & 0x80) {
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const uint8 *offs;
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switch (code & 7) {
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case 0:
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offs = channel->sequenceOffsets;
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channel->loopSeq2Count = 1;
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while (1) {
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code = *offs++;
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if (code != 0) {
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channel->sequenceOffsets = offs;
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p = READ_BE_UINT32(_vars.songData[4] + code * 4) + _vars.songData[6];
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break;
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} else {
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code = offs[0];
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if (code == 0) {
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p = 0;
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channel->active = false;
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_vars.activeChannelsMask &= ~(1 << _vars.currentChannel);
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loop = false;
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break;
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} else if (code & 0x80) {
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code = offs[1];
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offs = READ_BE_UINT32(_vars.songData[3] + code * 4) + _vars.songData[5];
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} else {
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offs -= code;
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}
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}
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}
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break;
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case 1:
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setRelease(channel);
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loop = false;
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break;
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case 2:
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channel->loopSeqCount = *p++;
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break;
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case 3:
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channel->loopSeq2Count = *p++;
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break;
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case 4:
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code = *p++;
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if (code != 0) {
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setupInstrument(channel, code);
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}
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break;
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case 5:
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channel->volumeScale = *p++;
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break;
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case 6:
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channel->freqStep = *p++;
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channel->freqInc = READ_BE_UINT32(p); p += 4;
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channel->freqInit = 0;
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break;
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case 7:
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loop = false;
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break;
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}
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} else {
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code >>= 1;
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if (code < _periodsCount) {
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setupNote(channel, _periodsTable[code]);
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}
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loop = false;
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}
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} while (loop);
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channel->sequenceData = p;
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channel->loopSeq2Cur = channel->loopSeq2Count;
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}
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channel->loopSeqCur = channel->loopSeqCount;
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}
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}
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void Rjp1::modulateVolume(Rjp1Channel *channel) {
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modulateVolumeEnvelope(channel);
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modulateVolumeWaveform(channel);
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setVolume(channel);
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}
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void Rjp1::modulatePeriod(Rjp1Channel *channel) {
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if (channel->modulatePeriodData) {
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uint32 per = channel->modulatePeriodIndex;
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int period = (channel->modulatePeriodData[per] * channel->modulatePeriodInit) / 128;
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period = -period;
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if (period < 0) {
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period /= 2;
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}
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channel->modulatePeriodNext = period + channel->modulatePeriodInit;
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++per;
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if (per == channel->modulatePeriodLimit) {
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per = channel->modulatePeriodBase * 2;
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}
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channel->modulatePeriodIndex = per;
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}
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if (channel->freqStep != 0) {
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channel->freqInit += channel->freqInc;
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--channel->freqStep;
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}
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setChannelPeriod(channel - _channelsTable, channel->freqInit + channel->modulatePeriodNext);
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}
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void Rjp1::setupNote(Rjp1Channel *channel, int16 period) {
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const uint8 *note = channel->noteData;
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if (note) {
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channel->modulatePeriodInit = channel->modulatePeriodNext = period;
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channel->freqInit = 0;
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const int8 *e = (const int8 *)_vars.songData[1] + READ_BE_UINT16(note + 12);
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channel->envelopeData = e;
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channel->envelopeStart = e[1];
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channel->envelopeScale = e[1] - e[0];
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channel->envelopeEnd2 = e[2];
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channel->envelopeEnd1 = e[2];
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channel->envelopeMode = 4;
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channel->data = channel->waveData;
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channel->pos = READ_BE_UINT16(note + 16);
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channel->len = READ_BE_UINT16(note + 18);
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channel->setupNewNote = true;
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}
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}
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void Rjp1::setupInstrument(Rjp1Channel *channel, uint8 num) {
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if (channel->currentInstrument != num) {
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channel->currentInstrument = num;
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const uint8 *p = _vars.songData[0] + num * 32;
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channel->noteData = p;
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channel->repeatPos = READ_BE_UINT16(p + 20);
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channel->repeatLen = READ_BE_UINT16(p + 22);
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channel->volumeScale = READ_BE_UINT16(p + 14);
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channel->modulatePeriodBase = READ_BE_UINT16(p + 24);
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channel->modulatePeriodIndex = 0;
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channel->modulatePeriodLimit = READ_BE_UINT16(p + 26) * 2;
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channel->modulateVolumeBase = READ_BE_UINT16(p + 28);
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channel->modulateVolumeIndex = 0;
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channel->modulateVolumeLimit = READ_BE_UINT16(p + 30) * 2;
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channel->waveData = _vars.instData + READ_BE_UINT32(p);
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uint32 off = READ_BE_UINT32(p + 4);
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if (off) {
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channel->modulatePeriodData = _vars.instData + off;
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}
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off = READ_BE_UINT32(p + 8);
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if (off) {
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channel->modulateVolumeData = _vars.instData + off;
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}
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}
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}
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void Rjp1::setRelease(Rjp1Channel *channel) {
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const int8 *e = channel->envelopeData;
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if (e) {
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channel->envelopeStart = 0;
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channel->envelopeScale = -channel->envelopeVolume;
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channel->envelopeEnd2 = e[5];
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channel->envelopeEnd1 = e[5];
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channel->envelopeMode = -1;
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}
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}
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void Rjp1::modulateVolumeEnvelope(Rjp1Channel *channel) {
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if (channel->envelopeMode) {
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int16 es = channel->envelopeScale;
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if (es) {
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int8 m = channel->envelopeEnd1;
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if (m == 0) {
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es = 0;
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} else {
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es *= m;
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m = channel->envelopeEnd2;
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if (m == 0) {
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es = 0;
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} else {
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es /= m;
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}
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}
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}
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channel->envelopeVolume = channel->envelopeStart - es;
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--channel->envelopeEnd1;
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if (channel->envelopeEnd1 == -1) {
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switch (channel->envelopeMode) {
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case 0:
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break;
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case 2:
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setSustain(channel);
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break;
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case 4:
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setDecay(channel);
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break;
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case -1:
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setSustain(channel);
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break;
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default:
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error("Unhandled envelope mode %d", channel->envelopeMode);
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break;
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}
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return;
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}
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}
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channel->volume = channel->envelopeVolume;
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}
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void Rjp1::setSustain(Rjp1Channel *channel) {
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channel->envelopeMode = 0;
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}
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void Rjp1::setDecay(Rjp1Channel *channel) {
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const int8 *e = channel->envelopeData;
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if (e) {
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channel->envelopeStart = e[3];
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channel->envelopeScale = e[3] - e[1];
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channel->envelopeEnd2 = e[4];
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channel->envelopeEnd1 = e[4];
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channel->envelopeMode = 2;
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}
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}
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void Rjp1::modulateVolumeWaveform(Rjp1Channel *channel) {
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if (channel->modulateVolumeData) {
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uint32 i = channel->modulateVolumeIndex;
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channel->volume += channel->modulateVolumeData[i] * channel->volume / 128;
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++i;
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if (i == channel->modulateVolumeLimit) {
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i = channel->modulateVolumeBase * 2;
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}
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channel->modulateVolumeIndex = i;
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}
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}
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void Rjp1::setVolume(Rjp1Channel *channel) {
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channel->volume = (channel->volume * channel->volumeScale) / 64;
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channel->volume = CLIP<int16>(channel->volume, 0, 64);
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setChannelVolume(channel - _channelsTable, channel->volume);
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}
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void Rjp1::stopPaulaChannel(uint8 channel) {
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clearVoice(channel);
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}
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void Rjp1::setupPaulaChannel(uint8 channel, const int8 *waveData, uint16 offset, uint16 len, uint16 repeatPos, uint16 repeatLen) {
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if (waveData) {
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setChannelData(channel, waveData, waveData + repeatPos * 2, len * 2, repeatLen * 2, offset * 2);
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}
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}
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void Rjp1::interrupt() {
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for (int i = 0; i < 4; ++i) {
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_vars.currentChannel = i;
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playChannel(&_channelsTable[i]);
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}
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}
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const int16 Rjp1::_periodsTable[] = {
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0x01C5, 0x01E0, 0x01FC, 0x021A, 0x023A, 0x025C, 0x0280, 0x02A6, 0x02D0,
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0x02FA, 0x0328, 0x0358, 0x00E2, 0x00F0, 0x00FE, 0x010D, 0x011D, 0x012E,
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0x0140, 0x0153, 0x0168, 0x017D, 0x0194, 0x01AC, 0x0071, 0x0078, 0x007F,
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0x0087, 0x008F, 0x0097, 0x00A0, 0x00AA, 0x00B4, 0x00BE, 0x00CA, 0x00D6
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};
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const int Rjp1::_periodsCount = ARRAYSIZE(_periodsTable);
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AudioStream *makeRjp1Stream(Common::SeekableReadStream *songData, Common::SeekableReadStream *instrumentsData, int song, int rate, bool stereo) {
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Rjp1 *stream = new Rjp1(rate, stereo);
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if (stream->load(songData, instrumentsData)) {
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stream->startSong(song);
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return stream;
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}
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delete stream;
|
|
return 0;
|
|
}
|
|
|
|
} // End of namespace Audio
|