346 lines
8.7 KiB
C++
346 lines
8.7 KiB
C++
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/*
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* OPL.cpp
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* -------
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* Purpose: Translate data coming from OpenMPT's mixer into OPL commands to be sent to the Opal emulator.
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* Notes : (currently none)
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* Authors: OpenMPT Devs
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* Schism Tracker contributors (bisqwit, JosepMa, Malvineous, code relicensed from GPL to BSD with permission)
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* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
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*/
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#include "stdafx.h"
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#include "../common/misc_util.h"
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#include "OPL.h"
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#include "opal.h"
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OPENMPT_NAMESPACE_BEGIN
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OPL::OPL(uint32 samplerate)
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{
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Initialize(samplerate);
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}
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OPL::OPL(IRegisterLogger &logger)
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: m_logger{&logger}
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{
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Initialize(OPL_BASERATE);
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}
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OPL::~OPL()
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{
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// This destructor is put here so that we can forward-declare the Opal emulator class.
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}
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void OPL::Initialize(uint32 samplerate)
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{
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if(m_opl == nullptr)
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m_opl = std::make_unique<Opal>(samplerate);
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else
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m_opl->SetSampleRate(samplerate);
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Reset();
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}
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void OPL::Mix(int32 *target, size_t count, uint32 volumeFactorQ16)
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{
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if(!m_isActive)
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return;
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// This factor causes a sample voice to be more or less as loud as an OPL voice
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const int32 factor = Util::muldiv_unsigned(volumeFactorQ16, 6169, (1 << 16));
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while(count--)
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{
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int16 l, r;
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m_opl->Sample(&l, &r);
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target[0] += l * factor;
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target[1] += r * factor;
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target += 2;
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}
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}
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uint16 OPL::ChannelToRegister(uint8 oplCh)
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{
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if(oplCh < 9)
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return oplCh;
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else
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return (oplCh - 9) | 0x100;
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}
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// Translate a channel's first operator address into a register
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uint16 OPL::OperatorToRegister(uint8 oplCh)
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{
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static constexpr uint8 OPLChannelToOperator[] = { 0, 1, 2, 8, 9, 10, 16, 17, 18 };
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if(oplCh < 9)
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return OPLChannelToOperator[oplCh];
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else
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return OPLChannelToOperator[oplCh - 9] | 0x100;
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}
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uint8 OPL::GetVoice(CHANNELINDEX c) const
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{
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if((m_ChanToOPL[c] & OPL_CHANNEL_CUT) || m_ChanToOPL[c] == OPL_CHANNEL_INVALID)
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return OPL_CHANNEL_INVALID;
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return m_ChanToOPL[c] & OPL_CHANNEL_MASK;
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}
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uint8 OPL::AllocateVoice(CHANNELINDEX c)
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{
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// Can we re-use a previous channel?
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if(auto oplCh = m_ChanToOPL[c]; oplCh != OPL_CHANNEL_INVALID)
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{
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if(!(m_ChanToOPL[c] & OPL_CHANNEL_CUT))
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return oplCh;
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// Check re-use hint
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oplCh &= OPL_CHANNEL_MASK;
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if(m_OPLtoChan[oplCh] == CHANNELINDEX_INVALID || m_OPLtoChan[oplCh] == c)
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{
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m_OPLtoChan[oplCh] = c;
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m_ChanToOPL[c] = oplCh;
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return oplCh;
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}
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}
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// Search for unused channel or channel with released note
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uint8 releasedChn = OPL_CHANNEL_INVALID, releasedCutChn = OPL_CHANNEL_INVALID;
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for(uint8 oplCh = 0; oplCh < OPL_CHANNELS; oplCh++)
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{
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if(m_OPLtoChan[oplCh] == CHANNELINDEX_INVALID)
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{
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m_OPLtoChan[oplCh] = c;
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m_ChanToOPL[c] = oplCh;
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return oplCh;
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} else if(!(m_KeyOnBlock[oplCh] & KEYON_BIT))
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{
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releasedChn = oplCh;
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if(m_ChanToOPL[m_OPLtoChan[oplCh]] & OPL_CHANNEL_CUT)
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releasedCutChn = oplCh;
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}
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}
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if(releasedChn != OPL_CHANNEL_INVALID)
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{
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// Prefer channel that has been marked as cut over channel that has just been released
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if(releasedCutChn != OPL_CHANNEL_INVALID)
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releasedChn = releasedCutChn;
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m_ChanToOPL[m_OPLtoChan[releasedChn]] = OPL_CHANNEL_INVALID;
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m_OPLtoChan[releasedChn] = c;
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m_ChanToOPL[c] = releasedChn;
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}
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return GetVoice(c);
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}
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void OPL::MoveChannel(CHANNELINDEX from, CHANNELINDEX to)
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{
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uint8 oplCh = GetVoice(from);
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if(oplCh == OPL_CHANNEL_INVALID)
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return;
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m_OPLtoChan[oplCh] = to;
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m_ChanToOPL[from] = OPL_CHANNEL_INVALID;
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m_ChanToOPL[to] = oplCh;
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}
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void OPL::NoteOff(CHANNELINDEX c)
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{
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uint8 oplCh = GetVoice(c);
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if(oplCh == OPL_CHANNEL_INVALID || m_opl == nullptr)
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return;
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m_KeyOnBlock[oplCh] &= ~KEYON_BIT;
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Port(c, KEYON_BLOCK | ChannelToRegister(oplCh), m_KeyOnBlock[oplCh]);
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}
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void OPL::NoteCut(CHANNELINDEX c, bool unassign)
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{
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uint8 oplCh = GetVoice(c);
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if(oplCh == OPL_CHANNEL_INVALID)
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return;
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NoteOff(c);
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Volume(c, 0, false); // Note that a volume of 0 is not complete silence; the release portion of the sound will still be heard at -48dB
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if(unassign)
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{
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m_OPLtoChan[oplCh] = CHANNELINDEX_INVALID;
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m_ChanToOPL[c] |= OPL_CHANNEL_CUT;
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}
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}
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void OPL::Frequency(CHANNELINDEX c, uint32 milliHertz, bool keyOff, bool beatingOscillators)
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{
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uint8 oplCh = GetVoice(c);
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if(oplCh == OPL_CHANNEL_INVALID || m_opl == nullptr)
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return;
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uint16 fnum = 1023;
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uint8 block = 7;
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if(milliHertz <= 6208431)
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{
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if(milliHertz > 3104215) block = 7;
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else if(milliHertz > 1552107) block = 6;
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else if(milliHertz > 776053) block = 5;
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else if(milliHertz > 388026) block = 4;
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else if(milliHertz > 194013) block = 3;
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else if(milliHertz > 97006) block = 2;
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else if(milliHertz > 48503) block = 1;
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else block = 0;
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fnum = static_cast<uint16>(Util::muldivr_unsigned(milliHertz, 1 << (20 - block), OPL_BASERATE * 1000));
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MPT_ASSERT(fnum < 1024);
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}
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// Evil CDFM hack! Composer 670 slightly detunes each note based on the OPL channel number modulo 4.
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// We allocate our OPL channels dynamically, which would result in slightly different beating characteristics,
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// but we can just take the pattern channel number instead, as the pattern channel layout is always identical.
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if(beatingOscillators)
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fnum = std::min(static_cast<uint16>(fnum + (c & 3)), uint16(1023));
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fnum |= (block << 10);
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uint16 channel = ChannelToRegister(oplCh);
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m_KeyOnBlock[oplCh] = (keyOff ? 0 : KEYON_BIT) | (fnum >> 8); // Key on bit + Octave (block) + F-number high 2 bits
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Port(c, FNUM_LOW | channel, fnum & 0xFF); // F-Number low 8 bits
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Port(c, KEYON_BLOCK | channel, m_KeyOnBlock[oplCh]);
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m_isActive = true;
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}
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uint8 OPL::CalcVolume(uint8 trackerVol, uint8 kslVolume)
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{
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if(trackerVol >= 63u)
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return kslVolume;
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if(trackerVol > 0)
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trackerVol++;
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return (kslVolume & KSL_MASK) | (63u - ((63u - (kslVolume & TOTAL_LEVEL_MASK)) * trackerVol) / 64u);
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}
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void OPL::Volume(CHANNELINDEX c, uint8 vol, bool applyToModulator)
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{
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uint8 oplCh = GetVoice(c);
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if(oplCh == OPL_CHANNEL_INVALID || m_opl == nullptr)
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return;
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const auto &patch = m_Patches[oplCh];
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const uint16 modulator = OperatorToRegister(oplCh), carrier = modulator + 3;
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if((patch[10] & CONNECTION_BIT) || applyToModulator)
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{
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// Set volume of both operators in additive mode
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Port(c, KSL_LEVEL + modulator, CalcVolume(vol, patch[2]));
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}
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if(!applyToModulator)
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{
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Port(c, KSL_LEVEL + carrier, CalcVolume(vol, patch[3]));
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}
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}
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int8 OPL::Pan(CHANNELINDEX c, int32 pan)
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{
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uint8 oplCh = GetVoice(c);
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if(oplCh == OPL_CHANNEL_INVALID || m_opl == nullptr)
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return 0;
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const auto &patch = m_Patches[oplCh];
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uint8 fbConn = patch[10] & ~STEREO_BITS;
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// OPL3 only knows hard left, center and right, so we need to translate our
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// continuous panning range into one of those three states.
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// 0...84 = left, 85...170 = center, 171...256 = right
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if(pan <= 170)
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fbConn |= VOICE_TO_LEFT;
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if(pan >= 85)
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fbConn |= VOICE_TO_RIGHT;
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Port(c, FEEDBACK_CONNECTION | ChannelToRegister(oplCh), fbConn);
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return ((fbConn & VOICE_TO_LEFT) ? -1 : 0) + ((fbConn & VOICE_TO_RIGHT) ? 1 : 0);
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}
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void OPL::Patch(CHANNELINDEX c, const OPLPatch &patch)
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{
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uint8 oplCh = AllocateVoice(c);
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if(oplCh == OPL_CHANNEL_INVALID || m_opl == nullptr)
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return;
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m_Patches[oplCh] = patch;
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const uint16 modulator = OperatorToRegister(oplCh), carrier = modulator + 3;
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for(uint8 op = 0; op < 2; op++)
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{
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const auto opReg = op ? carrier : modulator;
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Port(c, AM_VIB | opReg, patch[0 + op]);
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Port(c, KSL_LEVEL | opReg, patch[2 + op]);
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Port(c, ATTACK_DECAY | opReg, patch[4 + op]);
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Port(c, SUSTAIN_RELEASE | opReg, patch[6 + op]);
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Port(c, WAVE_SELECT | opReg, patch[8 + op]);
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}
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Port(c, FEEDBACK_CONNECTION | ChannelToRegister(oplCh), patch[10]);
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}
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void OPL::Reset()
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{
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if(m_isActive)
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{
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for(CHANNELINDEX chn = 0; chn < MAX_CHANNELS; chn++)
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{
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NoteCut(chn);
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}
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m_isActive = false;
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}
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m_KeyOnBlock.fill(0);
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m_OPLtoChan.fill(CHANNELINDEX_INVALID);
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m_ChanToOPL.fill(OPL_CHANNEL_INVALID);
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Port(CHANNELINDEX_INVALID, 0x105, 1); // Enable OPL3
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Port(CHANNELINDEX_INVALID, 0x104, 0); // No 4-op voices
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}
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void OPL::Port(CHANNELINDEX c, uint16 reg, uint8 value)
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{
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if(!m_logger)
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m_opl->Port(reg, value);
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else
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m_logger->Port(c, reg, value);
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}
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std::vector<uint16> OPL::AllVoiceRegisters()
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{
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static constexpr uint8 opRegisters[] = {OPL::AM_VIB, OPL::KSL_LEVEL, OPL::ATTACK_DECAY, OPL::SUSTAIN_RELEASE, OPL::WAVE_SELECT};
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static constexpr uint8 chnRegisters[] = {OPL::FNUM_LOW, OPL::KEYON_BLOCK, OPL::FEEDBACK_CONNECTION};
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std::vector<uint16> result;
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result.reserve(234);
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for(uint16 chip = 0; chip < 2; chip++)
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{
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for(uint8 opReg : opRegisters)
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{
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for(uint8 op = 0; op < 22; op++)
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{
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if((op & 7) < 6)
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result.push_back((chip << 8) | opReg | op);
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}
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}
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for(uint8 chnReg : chnRegisters)
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{
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for(uint8 chn = 0; chn < 9; chn++)
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{
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result.push_back((chip << 8) | chnReg | chn);
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}
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}
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}
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return result;
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}
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OPENMPT_NAMESPACE_END
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