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https://github.com/WinampDesktop/winamp.git
synced 2024-12-18 19:05:52 +01:00
398 lines
11 KiB
C++
398 lines
11 KiB
C++
/*
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* MIDIMacros.cpp
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* --------------
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* Purpose: Helper functions / classes for MIDI Macro functionality.
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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 "MIDIMacros.h"
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#include "../soundlib/MIDIEvents.h"
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#ifdef MODPLUG_TRACKER
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#include "Sndfile.h"
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#include "plugins/PlugInterface.h"
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#endif // MODPLUG_TRACKER
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OPENMPT_NAMESPACE_BEGIN
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ParameteredMacro MIDIMacroConfig::GetParameteredMacroType(uint32 macroIndex) const
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{
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const std::string macro = SFx[macroIndex].NormalizedString();
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for(uint32 i = 0; i < kSFxMax; i++)
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{
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ParameteredMacro sfx = static_cast<ParameteredMacro>(i);
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if(sfx != kSFxCustom)
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{
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if(macro == CreateParameteredMacro(sfx))
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return sfx;
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}
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}
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// Special macros with additional "parameter":
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if(macro.size() == 5 && macro.compare(CreateParameteredMacro(kSFxCC, MIDIEvents::MIDICC_start)) >= 0 && macro.compare(CreateParameteredMacro(kSFxCC, MIDIEvents::MIDICC_end)) <= 0)
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return kSFxCC;
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if(macro.size() == 7 && macro.compare(CreateParameteredMacro(kSFxPlugParam, 0)) >= 0 && macro.compare(CreateParameteredMacro(kSFxPlugParam, 0x17F)) <= 0)
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return kSFxPlugParam;
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return kSFxCustom; // custom / unknown
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}
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// Retrieve Zxx (Z80-ZFF) type from current macro configuration
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FixedMacro MIDIMacroConfig::GetFixedMacroType() const
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{
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// Compare with all possible preset patterns
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for(uint32 i = 0; i < kZxxMax; i++)
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{
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FixedMacro zxx = static_cast<FixedMacro>(i);
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if(zxx != kZxxCustom)
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{
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// Prepare macro pattern to compare
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decltype(Zxx) fixedMacros{};
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CreateFixedMacro(fixedMacros, zxx);
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if(fixedMacros == Zxx)
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return zxx;
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}
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}
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return kZxxCustom; // Custom setup
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}
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void MIDIMacroConfig::CreateParameteredMacro(Macro ¶meteredMacro, ParameteredMacro macroType, int subType) const
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{
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switch(macroType)
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{
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case kSFxUnused: parameteredMacro = ""; break;
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case kSFxCutoff: parameteredMacro = "F0F000z"; break;
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case kSFxReso: parameteredMacro = "F0F001z"; break;
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case kSFxFltMode: parameteredMacro = "F0F002z"; break;
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case kSFxDryWet: parameteredMacro = "F0F003z"; break;
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case kSFxCC: parameteredMacro = MPT_AFORMAT("Bc{}z")(mpt::afmt::HEX0<2>(subType & 0x7F)); break;
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case kSFxPlugParam: parameteredMacro = MPT_AFORMAT("F0F{}z")(mpt::afmt::HEX0<3>(std::min(subType, 0x17F) + 0x80)); break;
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case kSFxChannelAT: parameteredMacro = "Dcz"; break;
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case kSFxPolyAT: parameteredMacro = "Acnz"; break;
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case kSFxPitch: parameteredMacro = "Ec00z"; break;
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case kSFxProgChange: parameteredMacro = "Ccz"; break;
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case kSFxCustom:
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default:
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MPT_ASSERT_NOTREACHED();
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break;
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}
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}
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std::string MIDIMacroConfig::CreateParameteredMacro(ParameteredMacro macroType, int subType) const
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{
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Macro parameteredMacro{};
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CreateParameteredMacro(parameteredMacro, macroType, subType);
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return parameteredMacro;
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}
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// Create Zxx (Z80 - ZFF) from preset
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void MIDIMacroConfig::CreateFixedMacro(std::array<Macro, kZxxMacros> &fixedMacros, FixedMacro macroType) const
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{
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for(uint32 i = 0; i < kZxxMacros; i++)
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{
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uint32 param = i;
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switch(macroType)
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{
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case kZxxUnused:
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fixedMacros[i] = "";
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break;
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case kZxxReso4Bit:
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param = i * 8;
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if(i < 16)
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fixedMacros[i] = MPT_AFORMAT("F0F001{}")(mpt::afmt::HEX0<2>(param));
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else
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fixedMacros[i] = "";
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break;
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case kZxxReso7Bit:
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fixedMacros[i] = MPT_AFORMAT("F0F001{}")(mpt::afmt::HEX0<2>(param));
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break;
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case kZxxCutoff:
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fixedMacros[i] = MPT_AFORMAT("F0F000{}")(mpt::afmt::HEX0<2>(param));
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break;
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case kZxxFltMode:
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fixedMacros[i] = MPT_AFORMAT("F0F002{}")(mpt::afmt::HEX0<2>(param));
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break;
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case kZxxResoFltMode:
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param = (i & 0x0F) * 8;
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if(i < 16)
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fixedMacros[i] = MPT_AFORMAT("F0F001{}")(mpt::afmt::HEX0<2>(param));
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else if(i < 32)
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fixedMacros[i] = MPT_AFORMAT("F0F002{}")(mpt::afmt::HEX0<2>(param));
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else
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fixedMacros[i] = "";
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break;
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case kZxxChannelAT:
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fixedMacros[i] = MPT_AFORMAT("Dc{}")(mpt::afmt::HEX0<2>(param));
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break;
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case kZxxPolyAT:
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fixedMacros[i] = MPT_AFORMAT("Acn{}")(mpt::afmt::HEX0<2>(param));
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break;
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case kZxxPitch:
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fixedMacros[i] = MPT_AFORMAT("Ec00{}")(mpt::afmt::HEX0<2>(param));
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break;
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case kZxxProgChange:
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fixedMacros[i] = MPT_AFORMAT("Cc{}")(mpt::afmt::HEX0<2>(param));
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break;
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case kZxxCustom:
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default:
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MPT_ASSERT_NOTREACHED();
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continue;
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}
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}
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}
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bool MIDIMacroConfig::operator== (const MIDIMacroConfig &other) const
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{
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return std::equal(begin(), end(), other.begin());
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}
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#ifdef MODPLUG_TRACKER
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// Returns macro description including plugin parameter / MIDI CC information
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CString MIDIMacroConfig::GetParameteredMacroName(uint32 macroIndex, IMixPlugin *plugin) const
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{
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const ParameteredMacro macroType = GetParameteredMacroType(macroIndex);
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switch(macroType)
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{
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case kSFxPlugParam:
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{
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const int param = MacroToPlugParam(macroIndex);
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CString formattedName;
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formattedName.Format(_T("Param %d"), param);
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#ifndef NO_PLUGINS
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if(plugin != nullptr)
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{
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CString paramName = plugin->GetParamName(param);
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if(!paramName.IsEmpty())
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{
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formattedName += _T(" (") + paramName + _T(")");
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}
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} else
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#else
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MPT_UNREFERENCED_PARAMETER(plugin);
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#endif // NO_PLUGINS
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{
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formattedName += _T(" (N/A)");
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}
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return formattedName;
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}
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case kSFxCC:
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{
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CString formattedCC;
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formattedCC.Format(_T("MIDI CC %d"), MacroToMidiCC(macroIndex));
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return formattedCC;
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}
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default:
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return GetParameteredMacroName(macroType);
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}
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}
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// Returns generic macro description.
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CString MIDIMacroConfig::GetParameteredMacroName(ParameteredMacro macroType) const
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{
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switch(macroType)
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{
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case kSFxUnused: return _T("Unused");
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case kSFxCutoff: return _T("Set Filter Cutoff");
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case kSFxReso: return _T("Set Filter Resonance");
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case kSFxFltMode: return _T("Set Filter Mode");
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case kSFxDryWet: return _T("Set Plugin Dry/Wet Ratio");
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case kSFxPlugParam: return _T("Control Plugin Parameter...");
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case kSFxCC: return _T("MIDI CC...");
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case kSFxChannelAT: return _T("Channel Aftertouch");
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case kSFxPolyAT: return _T("Polyphonic Aftertouch");
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case kSFxPitch: return _T("Pitch Bend");
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case kSFxProgChange: return _T("MIDI Program Change");
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case kSFxCustom:
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default: return _T("Custom");
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}
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}
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// Returns generic macro description.
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CString MIDIMacroConfig::GetFixedMacroName(FixedMacro macroType) const
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{
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switch(macroType)
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{
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case kZxxUnused: return _T("Unused");
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case kZxxReso4Bit: return _T("Z80 - Z8F controls Resonant Filter Resonance");
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case kZxxReso7Bit: return _T("Z80 - ZFF controls Resonant Filter Resonance");
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case kZxxCutoff: return _T("Z80 - ZFF controls Resonant Filter Cutoff");
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case kZxxFltMode: return _T("Z80 - ZFF controls Resonant Filter Mode");
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case kZxxResoFltMode: return _T("Z80 - Z9F controls Resonance + Filter Mode");
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case kZxxChannelAT: return _T("Z80 - ZFF controls Channel Aftertouch");
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case kZxxPolyAT: return _T("Z80 - ZFF controls Polyphonic Aftertouch");
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case kZxxPitch: return _T("Z80 - ZFF controls Pitch Bend");
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case kZxxProgChange: return _T("Z80 - ZFF controls MIDI Program Change");
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case kZxxCustom:
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default: return _T("Custom");
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}
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}
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PlugParamIndex MIDIMacroConfig::MacroToPlugParam(uint32 macroIndex) const
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{
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const std::string macro = SFx[macroIndex].NormalizedString();
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PlugParamIndex code = 0;
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const char *param = macro.c_str();
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param += 4;
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if ((param[0] >= '0') && (param[0] <= '9')) code = (param[0] - '0') << 4; else
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if ((param[0] >= 'A') && (param[0] <= 'F')) code = (param[0] - 'A' + 0x0A) << 4;
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if ((param[1] >= '0') && (param[1] <= '9')) code += (param[1] - '0'); else
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if ((param[1] >= 'A') && (param[1] <= 'F')) code += (param[1] - 'A' + 0x0A);
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if (macro.size() >= 4 && macro[3] == '0')
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return (code - 128);
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else
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return (code + 128);
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}
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int MIDIMacroConfig::MacroToMidiCC(uint32 macroIndex) const
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{
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const std::string macro = SFx[macroIndex].NormalizedString();
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int code = 0;
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const char *param = macro.c_str();
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param += 2;
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if ((param[0] >= '0') && (param[0] <= '9')) code = (param[0] - '0') << 4; else
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if ((param[0] >= 'A') && (param[0] <= 'F')) code = (param[0] - 'A' + 0x0A) << 4;
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if ((param[1] >= '0') && (param[1] <= '9')) code += (param[1] - '0'); else
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if ((param[1] >= 'A') && (param[1] <= 'F')) code += (param[1] - 'A' + 0x0A);
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return code;
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}
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int MIDIMacroConfig::FindMacroForParam(PlugParamIndex param) const
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{
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for(int macroIndex = 0; macroIndex < kSFxMacros; macroIndex++)
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{
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if(GetParameteredMacroType(macroIndex) == kSFxPlugParam && MacroToPlugParam(macroIndex) == param)
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{
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return macroIndex;
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}
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}
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return -1;
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}
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#endif // MODPLUG_TRACKER
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// Check if the MIDI Macro configuration used is the default one,
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// i.e. the configuration that is assumed when loading a file that has no macros embedded.
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bool MIDIMacroConfig::IsMacroDefaultSetupUsed() const
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{
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return *this == MIDIMacroConfig{};
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}
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// Reset MIDI macro config to default values.
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void MIDIMacroConfig::Reset()
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{
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std::fill(begin(), end(), Macro{});
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Global[MIDIOUT_START] = "FF";
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Global[MIDIOUT_STOP] = "FC";
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Global[MIDIOUT_NOTEON] = "9c n v";
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Global[MIDIOUT_NOTEOFF] = "9c n 0";
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Global[MIDIOUT_PROGRAM] = "Cc p";
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// SF0: Z00-Z7F controls cutoff
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CreateParameteredMacro(0, kSFxCutoff);
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// Z80-Z8F controls resonance
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CreateFixedMacro(kZxxReso4Bit);
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}
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// Clear all Zxx macros so that they do nothing.
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void MIDIMacroConfig::ClearZxxMacros()
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{
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std::fill(SFx.begin(), SFx.end(), Macro{});
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std::fill(Zxx.begin(), Zxx.end(), Macro{});
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}
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// Sanitize all macro config strings.
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void MIDIMacroConfig::Sanitize()
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{
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for(auto ¯o : *this)
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{
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macro.Sanitize();
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}
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}
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// Fix old-format (not conforming to IT's MIDI macro definitions) MIDI config strings.
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void MIDIMacroConfig::UpgradeMacros()
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{
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for(auto ¯o : *this)
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{
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macro.UpgradeLegacyMacro();
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}
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}
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// Normalize by removing blanks and other unwanted characters from macro strings for internal usage.
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std::string MIDIMacroConfig::Macro::NormalizedString() const
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{
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std::string sanitizedMacro = *this;
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std::string::size_type pos;
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while((pos = sanitizedMacro.find_first_not_of("0123456789ABCDEFabchmnopsuvxyz")) != std::string::npos)
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{
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sanitizedMacro.erase(pos, 1);
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}
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return sanitizedMacro;
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}
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void MIDIMacroConfig::Macro::Sanitize() noexcept
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{
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m_data.back() = '\0';
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const auto length = Length();
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std::fill(m_data.begin() + length, m_data.end(), '\0');
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for(size_t i = 0; i < length; i++)
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{
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if(m_data[i] < 32 || m_data[i] >= 127)
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m_data[i] = ' ';
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}
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}
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void MIDIMacroConfig::Macro::UpgradeLegacyMacro() noexcept
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{
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for(auto &c : m_data)
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{
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if(c >= 'a' && c <= 'f') // Both A-F and a-f were treated as hex constants
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{
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c = c - 'a' + 'A';
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} else if(c == 'K' || c == 'k') // Channel was K or k
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{
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c = 'c';
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} else if(c == 'X' || c == 'x' || c == 'Y' || c == 'y') // Those were pointless
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{
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c = 'z';
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}
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}
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}
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OPENMPT_NAMESPACE_END
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