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432 lines
12 KiB
C++
432 lines
12 KiB
C++
/*
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* XMTools.cpp
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* -----------
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* Purpose: Definition of XM file structures and helper functions
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* Notes : (currently none)
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* Authors: OpenMPT Devs
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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 "Loaders.h"
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#include "XMTools.h"
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#include "Sndfile.h"
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#include "../common/version.h"
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#include <algorithm>
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OPENMPT_NAMESPACE_BEGIN
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// Convert OpenMPT's internal envelope representation to XM envelope data.
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void XMInstrument::ConvertEnvelopeToXM(const InstrumentEnvelope &mptEnv, uint8le &numPoints, uint8le &flags, uint8le &sustain, uint8le &loopStart, uint8le &loopEnd, EnvType env)
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{
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numPoints = static_cast<uint8>(std::min(std::size_t(12), static_cast<std::size_t>(mptEnv.size())));
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// Envelope Data
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for(uint8 i = 0; i < numPoints; i++)
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{
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switch(env)
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{
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case EnvTypeVol:
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volEnv[i * 2] = std::min(mptEnv[i].tick, uint16_max);
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volEnv[i * 2 + 1] = std::min(mptEnv[i].value, uint8(64));
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break;
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case EnvTypePan:
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panEnv[i * 2] = std::min(mptEnv[i].tick, uint16_max);
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panEnv[i * 2 + 1] = std::min(mptEnv[i].value, uint8(63));
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break;
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}
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}
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// Envelope Flags
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if(mptEnv.dwFlags[ENV_ENABLED]) flags |= XMInstrument::envEnabled;
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if(mptEnv.dwFlags[ENV_SUSTAIN]) flags |= XMInstrument::envSustain;
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if(mptEnv.dwFlags[ENV_LOOP]) flags |= XMInstrument::envLoop;
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// Envelope Loops
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sustain = std::min(uint8(12), mptEnv.nSustainStart);
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loopStart = std::min(uint8(12), mptEnv.nLoopStart);
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loopEnd = std::min(uint8(12), mptEnv.nLoopEnd);
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}
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// Convert OpenMPT's internal sample representation to an XMInstrument.
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uint16 XMInstrument::ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport)
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{
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MemsetZero(*this);
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// FFF is maximum in the FT2 GUI, but it can also accept other values. MilkyTracker just allows 0...4095 and 32767 ("cut")
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volFade = static_cast<uint16>(std::min(mptIns.nFadeOut, uint32(32767)));
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// Convert envelopes
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ConvertEnvelopeToXM(mptIns.VolEnv, volPoints, volFlags, volSustain, volLoopStart, volLoopEnd, EnvTypeVol);
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ConvertEnvelopeToXM(mptIns.PanEnv, panPoints, panFlags, panSustain, panLoopStart, panLoopEnd, EnvTypePan);
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// Create sample assignment table
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auto sampleList = GetSampleList(mptIns, compatibilityExport);
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for(std::size_t i = 0; i < std::size(sampleMap); i++)
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{
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if(mptIns.Keyboard[i + 12] > 0)
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{
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auto sample = std::find(sampleList.begin(), sampleList.end(), mptIns.Keyboard[i + 12]);
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if(sample != sampleList.end())
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{
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// Yep, we want to export this sample.
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sampleMap[i] = static_cast<uint8>(sample - sampleList.begin());
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}
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}
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}
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if(mptIns.nMidiChannel != MidiNoChannel)
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{
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midiEnabled = 1;
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midiChannel = (mptIns.nMidiChannel != MidiMappedChannel ? (mptIns.nMidiChannel - MidiFirstChannel) : 0);
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}
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midiProgram = (mptIns.nMidiProgram != 0 ? mptIns.nMidiProgram - 1 : 0);
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pitchWheelRange = std::min(mptIns.midiPWD, int8(36));
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return static_cast<uint16>(sampleList.size());
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}
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// Get a list of samples that should be written to the file.
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std::vector<SAMPLEINDEX> XMInstrument::GetSampleList(const ModInstrument &mptIns, bool compatibilityExport) const
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{
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std::vector<SAMPLEINDEX> sampleList; // List of samples associated with this instrument
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std::vector<bool> addedToList; // Which samples did we already add to the sample list?
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uint8 numSamples = 0;
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for(std::size_t i = 0; i < std::size(sampleMap); i++)
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{
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const SAMPLEINDEX smp = mptIns.Keyboard[i + 12];
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if(smp > 0)
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{
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if(smp > addedToList.size())
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{
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addedToList.resize(smp, false);
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}
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if(!addedToList[smp - 1] && numSamples < (compatibilityExport ? 16 : 32))
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{
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// We haven't considered this sample yet.
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addedToList[smp - 1] = true;
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numSamples++;
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sampleList.push_back(smp);
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}
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}
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}
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return sampleList;
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}
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// Convert XM envelope data to an OpenMPT's internal envelope representation.
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void XMInstrument::ConvertEnvelopeToMPT(InstrumentEnvelope &mptEnv, uint8 numPoints, uint8 flags, uint8 sustain, uint8 loopStart, uint8 loopEnd, EnvType env) const
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{
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mptEnv.resize(std::min(numPoints, uint8(12)));
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// Envelope Data
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for(uint32 i = 0; i < mptEnv.size(); i++)
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{
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switch(env)
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{
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case EnvTypeVol:
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mptEnv[i].tick = volEnv[i * 2];
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mptEnv[i].value = static_cast<EnvelopeNode::value_t>(volEnv[i * 2 + 1]);
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break;
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case EnvTypePan:
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mptEnv[i].tick = panEnv[i * 2];
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mptEnv[i].value = static_cast<EnvelopeNode::value_t>(panEnv[i * 2 + 1]);
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break;
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}
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if(i > 0 && mptEnv[i].tick < mptEnv[i - 1].tick && !(mptEnv[i].tick & 0xFF00))
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{
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// libmikmod code says: "Some broken XM editing program will only save the low byte of the position
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// value. Try to compensate by adding the missing high byte."
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// Note: MPT 1.07's XI instrument saver omitted the high byte of envelope nodes.
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// This might be the source for some broken envelopes in IT and XM files.
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mptEnv[i].tick |= mptEnv[i - 1].tick & 0xFF00;
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if(mptEnv[i].tick < mptEnv[i - 1].tick)
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mptEnv[i].tick += 0x100;
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}
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}
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// Envelope Flags
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mptEnv.dwFlags.reset();
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if((flags & XMInstrument::envEnabled) != 0 && !mptEnv.empty()) mptEnv.dwFlags.set(ENV_ENABLED);
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// Envelope Loops
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if(sustain < 12)
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{
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if((flags & XMInstrument::envSustain) != 0) mptEnv.dwFlags.set(ENV_SUSTAIN);
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mptEnv.nSustainStart = mptEnv.nSustainEnd = sustain;
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}
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if(loopEnd < 12 && loopEnd >= loopStart)
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{
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if((flags & XMInstrument::envLoop) != 0) mptEnv.dwFlags.set(ENV_LOOP);
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mptEnv.nLoopStart = loopStart;
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mptEnv.nLoopEnd = loopEnd;
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}
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}
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// Convert an XMInstrument to OpenMPT's internal instrument representation.
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void XMInstrument::ConvertToMPT(ModInstrument &mptIns) const
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{
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mptIns.nFadeOut = volFade;
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// Convert envelopes
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ConvertEnvelopeToMPT(mptIns.VolEnv, volPoints, volFlags, volSustain, volLoopStart, volLoopEnd, EnvTypeVol);
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ConvertEnvelopeToMPT(mptIns.PanEnv, panPoints, panFlags, panSustain, panLoopStart, panLoopEnd, EnvTypePan);
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// Create sample assignment table
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for(std::size_t i = 0; i < std::size(sampleMap); i++)
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{
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mptIns.Keyboard[i + 12] = sampleMap[i];
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}
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if(midiEnabled)
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{
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mptIns.nMidiChannel = midiChannel + MidiFirstChannel;
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Limit(mptIns.nMidiChannel, uint8(MidiFirstChannel), uint8(MidiLastChannel));
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mptIns.nMidiProgram = static_cast<uint8>(std::min(static_cast<uint16>(midiProgram), uint16(127)) + 1);
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}
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mptIns.midiPWD = static_cast<int8>(pitchWheelRange);
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}
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// Apply auto-vibrato settings from sample to file.
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void XMInstrument::ApplyAutoVibratoToXM(const ModSample &mptSmp, MODTYPE fromType)
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{
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vibType = mptSmp.nVibType;
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vibSweep = mptSmp.nVibSweep;
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vibDepth = mptSmp.nVibDepth;
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vibRate = mptSmp.nVibRate;
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if((vibDepth | vibRate) != 0 && !(fromType & MOD_TYPE_XM))
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{
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if(mptSmp.nVibSweep != 0)
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vibSweep = mpt::saturate_cast<decltype(vibSweep)::base_type>(Util::muldivr_unsigned(mptSmp.nVibDepth, 256, mptSmp.nVibSweep));
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else
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vibSweep = 255;
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}
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}
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// Apply auto-vibrato settings from file to a sample.
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void XMInstrument::ApplyAutoVibratoToMPT(ModSample &mptSmp) const
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{
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mptSmp.nVibType = static_cast<VibratoType>(vibType.get());
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mptSmp.nVibSweep = vibSweep;
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mptSmp.nVibDepth = vibDepth;
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mptSmp.nVibRate = vibRate;
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}
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// Write stuff to the header that's always necessary (also for empty instruments)
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void XMInstrumentHeader::Finalise()
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{
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size = sizeof(XMInstrumentHeader);
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if(numSamples > 0)
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{
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sampleHeaderSize = sizeof(XMSample);
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} else
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{
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// TODO: FT2 completely ignores MIDI settings (and also the less important stuff) if not at least one (empty) sample is assigned to this instrument!
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size -= sizeof(XMInstrument);
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sampleHeaderSize = 0;
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}
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}
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// Convert OpenMPT's internal sample representation to an XMInstrumentHeader.
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void XMInstrumentHeader::ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport)
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{
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numSamples = instrument.ConvertToXM(mptIns, compatibilityExport);
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mpt::String::WriteBuf(mpt::String::spacePadded, name) = mptIns.name;
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type = mptIns.nMidiProgram; // If FT2 writes crap here, we can do so, too! (we probably shouldn't, though. This is just for backwards compatibility with old MPT versions.)
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}
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// Convert an XMInstrumentHeader to OpenMPT's internal instrument representation.
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void XMInstrumentHeader::ConvertToMPT(ModInstrument &mptIns) const
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{
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instrument.ConvertToMPT(mptIns);
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// Create sample assignment table
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for(std::size_t i = 0; i < std::size(instrument.sampleMap); i++)
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{
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if(instrument.sampleMap[i] < numSamples)
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{
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mptIns.Keyboard[i + 12] = instrument.sampleMap[i];
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} else
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{
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mptIns.Keyboard[i + 12] = 0;
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}
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}
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mptIns.name = mpt::String::ReadBuf(mpt::String::spacePadded, name);
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// Old MPT backwards compatibility
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if(!instrument.midiEnabled)
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{
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mptIns.nMidiProgram = type;
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}
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}
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// Convert OpenMPT's internal sample representation to an XIInstrumentHeader.
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void XIInstrumentHeader::ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport)
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{
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numSamples = instrument.ConvertToXM(mptIns, compatibilityExport);
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memcpy(signature, "Extended Instrument: ", 21);
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mpt::String::WriteBuf(mpt::String::spacePadded, name) = mptIns.name;
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eof = 0x1A;
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const std::string openMptTrackerName = mpt::ToCharset(mpt::Charset::CP437, Version::Current().GetOpenMPTVersionString());
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mpt::String::WriteBuf(mpt::String::spacePadded, trackerName) = openMptTrackerName;
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version = 0x102;
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}
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// Convert an XIInstrumentHeader to OpenMPT's internal instrument representation.
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void XIInstrumentHeader::ConvertToMPT(ModInstrument &mptIns) const
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{
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instrument.ConvertToMPT(mptIns);
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// Fix sample assignment table
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for(std::size_t i = 12; i < std::size(instrument.sampleMap) + 12; i++)
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{
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if(mptIns.Keyboard[i] >= numSamples)
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{
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mptIns.Keyboard[i] = 0;
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}
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}
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mptIns.name = mpt::String::ReadBuf(mpt::String::spacePadded, name);
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}
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// Convert OpenMPT's internal sample representation to an XMSample.
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void XMSample::ConvertToXM(const ModSample &mptSmp, MODTYPE fromType, bool compatibilityExport)
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{
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MemsetZero(*this);
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// Volume / Panning
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vol = static_cast<uint8>(std::min(mptSmp.nVolume / 4u, 64u));
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pan = static_cast<uint8>(std::min(mptSmp.nPan, uint16(255)));
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// Sample Frequency
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if((fromType & (MOD_TYPE_MOD | MOD_TYPE_XM)))
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{
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finetune = mptSmp.nFineTune;
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relnote = mptSmp.RelativeTone;
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} else
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{
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std::tie(relnote, finetune) = ModSample::FrequencyToTranspose(mptSmp.nC5Speed);
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}
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flags = 0;
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if(mptSmp.uFlags[CHN_PINGPONGLOOP])
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flags |= XMSample::sampleBidiLoop;
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else if(mptSmp.uFlags[CHN_LOOP])
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flags |= XMSample::sampleLoop;
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// Sample Length and Loops
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length = mpt::saturate_cast<uint32>(mptSmp.nLength);
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loopStart = mpt::saturate_cast<uint32>(mptSmp.nLoopStart);
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loopLength = mpt::saturate_cast<uint32>(mptSmp.nLoopEnd - mptSmp.nLoopStart);
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if(mptSmp.uFlags[CHN_16BIT])
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{
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flags |= XMSample::sample16Bit;
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length *= 2;
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loopStart *= 2;
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loopLength *= 2;
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}
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if(mptSmp.uFlags[CHN_STEREO] && !compatibilityExport)
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{
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flags |= XMSample::sampleStereo;
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length *= 2;
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loopStart *= 2;
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loopLength *= 2;
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}
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}
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// Convert an XMSample to OpenMPT's internal sample representation.
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void XMSample::ConvertToMPT(ModSample &mptSmp) const
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{
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mptSmp.Initialize(MOD_TYPE_XM);
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// Volume
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mptSmp.nVolume = vol * 4;
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LimitMax(mptSmp.nVolume, uint16(256));
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// Panning
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mptSmp.nPan = pan;
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mptSmp.uFlags = CHN_PANNING;
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// Sample Frequency
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mptSmp.nFineTune = finetune;
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mptSmp.RelativeTone = relnote;
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// Sample Length and Loops
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mptSmp.nLength = length;
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mptSmp.nLoopStart = loopStart;
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mptSmp.nLoopEnd = mptSmp.nLoopStart + loopLength;
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if((flags & XMSample::sample16Bit))
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{
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mptSmp.nLength /= 2;
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mptSmp.nLoopStart /= 2;
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mptSmp.nLoopEnd /= 2;
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}
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if((flags & XMSample::sampleStereo))
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{
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mptSmp.nLength /= 2;
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mptSmp.nLoopStart /= 2;
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mptSmp.nLoopEnd /= 2;
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}
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if((flags & (XMSample::sampleLoop | XMSample::sampleBidiLoop)) && mptSmp.nLoopEnd > mptSmp.nLoopStart)
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{
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mptSmp.uFlags.set(CHN_LOOP);
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if((flags & XMSample::sampleBidiLoop))
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{
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mptSmp.uFlags.set(CHN_PINGPONGLOOP);
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}
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}
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mptSmp.filename = "";
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}
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// Retrieve the internal sample format flags for this instrument.
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SampleIO XMSample::GetSampleFormat() const
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{
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if(reserved == sampleADPCM && !(flags & (XMSample::sample16Bit | XMSample::sampleStereo)))
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{
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// MODPlugin :(
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return SampleIO(SampleIO::_8bit, SampleIO::mono, SampleIO::littleEndian, SampleIO::ADPCM);
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}
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return SampleIO(
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(flags & XMSample::sample16Bit) ? SampleIO::_16bit : SampleIO::_8bit,
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(flags & XMSample::sampleStereo) ? SampleIO::stereoSplit : SampleIO::mono,
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SampleIO::littleEndian,
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SampleIO::deltaPCM);
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}
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OPENMPT_NAMESPACE_END
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