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