cog/Frameworks/OpenMPT.old/OpenMPT/libopenmpt/libopenmpt_ext_impl.cpp

/*
 * libopenmpt_ext_impl.cpp
 * -----------------------
 * Purpose: libopenmpt extensions - implementation
 * Notes  :
 * Authors: OpenMPT Devs
 * The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
 */

#include "common/stdafx.h"

#include "libopenmpt_internal.h"
#include "libopenmpt_ext.hpp"

#include "libopenmpt_ext_impl.hpp"

#include <stdexcept>

#include "soundlib/Sndfile.h"

using namespace OpenMPT;

namespace openmpt {

	module_ext_impl::module_ext_impl( callback_stream_wrapper stream, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( stream, std::move(log), ctls ) {
		ctor();
	}
	module_ext_impl::module_ext_impl( std::istream & stream, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( stream, std::move(log), ctls ) {
		ctor();
	}
	module_ext_impl::module_ext_impl( const std::vector<std::byte> & data, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, std::move(log), ctls ) {
		ctor();
	}
	module_ext_impl::module_ext_impl( const std::vector<std::uint8_t> & data, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, std::move(log), ctls ) {
		ctor();
	}
	module_ext_impl::module_ext_impl( const std::vector<char> & data, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, std::move(log), ctls ) {
		ctor();
	}
	module_ext_impl::module_ext_impl( const std::byte * data, std::size_t size, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, size, std::move(log), ctls ) {
		ctor();
	}
	module_ext_impl::module_ext_impl( const std::uint8_t * data, std::size_t size, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, size, std::move(log), ctls ) {
		ctor();
	}
	module_ext_impl::module_ext_impl( const char * data, std::size_t size, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, size, std::move(log), ctls ) {
		ctor();
	}
	module_ext_impl::module_ext_impl( const void * data, std::size_t size, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, size, std::move(log), ctls ) {
		ctor();
	}


	void module_ext_impl::ctor() {


		/* add stuff here */


	}


	module_ext_impl::~module_ext_impl() {


		/* add stuff here */


	}


	void * module_ext_impl::get_interface( const std::string & interface_id ) {
		if ( interface_id.empty() ) {
			return 0;
		} else if ( interface_id == ext::pattern_vis_id ) {
			return dynamic_cast< ext::pattern_vis * >( this );
		} else if ( interface_id == ext::interactive_id ) {
			return dynamic_cast< ext::interactive * >( this );


			/* add stuff here */


		} else {
			return 0;
		}
	}

	// pattern_vis

	module_ext_impl::effect_type module_ext_impl::get_pattern_row_channel_volume_effect_type( std::int32_t pattern, std::int32_t row, std::int32_t channel ) const {
		std::uint8_t byte = get_pattern_row_channel_command( pattern, row, channel, module::command_volumeffect );
		switch ( ModCommand::GetVolumeEffectType( byte ) ) {
			case EFFECT_TYPE_NORMAL : return effect_general; break;
			case EFFECT_TYPE_GLOBAL : return effect_global ; break;
			case EFFECT_TYPE_VOLUME : return effect_volume ; break;
			case EFFECT_TYPE_PANNING: return effect_panning; break;
			case EFFECT_TYPE_PITCH  : return effect_pitch  ; break;
			default: return effect_unknown; break;
		}
	}

	module_ext_impl::effect_type module_ext_impl::get_pattern_row_channel_effect_type( std::int32_t pattern, std::int32_t row, std::int32_t channel ) const {
		std::uint8_t byte = get_pattern_row_channel_command( pattern, row, channel, module::command_effect );
		switch ( ModCommand::GetEffectType( byte ) ) {
			case EFFECT_TYPE_NORMAL : return effect_general; break;
			case EFFECT_TYPE_GLOBAL : return effect_global ; break;
			case EFFECT_TYPE_VOLUME : return effect_volume ; break;
			case EFFECT_TYPE_PANNING: return effect_panning; break;
			case EFFECT_TYPE_PITCH  : return effect_pitch  ; break;
			default: return effect_unknown; break;
		}
	}

	// interactive

	void module_ext_impl::set_current_speed( std::int32_t speed ) {
		if ( speed < 1 || speed > 65535 ) {
			throw openmpt::exception("invalid tick count");
		}
		m_sndFile->m_PlayState.m_nMusicSpeed = speed;
	}

	void module_ext_impl::set_current_tempo( std::int32_t tempo ) {
		if ( tempo < 32 || tempo > 512 ) {
			throw openmpt::exception("invalid tempo");
		}
		m_sndFile->m_PlayState.m_nMusicTempo.Set( tempo );
	}

	void module_ext_impl::set_tempo_factor( double factor ) {
		if ( factor <= 0.0 || factor > 4.0 ) {
			throw openmpt::exception("invalid tempo factor");
		}
		m_sndFile->m_nTempoFactor = mpt::saturate_round<uint32_t>( 65536.0 / factor );
		m_sndFile->RecalculateSamplesPerTick();
	}

	double module_ext_impl::get_tempo_factor( ) const {
		return 65536.0 / m_sndFile->m_nTempoFactor;
	}

	void module_ext_impl::set_pitch_factor( double factor ) {
		if ( factor <= 0.0 || factor > 4.0 ) {
			throw openmpt::exception("invalid pitch factor");
		}
		m_sndFile->m_nFreqFactor = mpt::saturate_round<uint32_t>( 65536.0 * factor );
		m_sndFile->RecalculateSamplesPerTick();
	}

	double module_ext_impl::get_pitch_factor( ) const {
		return m_sndFile->m_nFreqFactor / 65536.0;
	}

	void module_ext_impl::set_global_volume( double volume ) {
		if ( volume < 0.0 || volume > 1.0 ) {
			throw openmpt::exception("invalid global volume");
		}
		m_sndFile->m_PlayState.m_nGlobalVolume = mpt::saturate_round<uint32_t>( volume * MAX_GLOBAL_VOLUME );
	}

	double module_ext_impl::get_global_volume( ) const {
		return m_sndFile->m_PlayState.m_nGlobalVolume / static_cast<double>( MAX_GLOBAL_VOLUME );
	}
	
	void module_ext_impl::set_channel_volume( std::int32_t channel, double volume ) {
		if ( channel < 0 || channel >= get_num_channels() ) {
			throw openmpt::exception("invalid channel");
		}
		if ( volume < 0.0 || volume > 1.0 ) {
			throw openmpt::exception("invalid global volume");
		}
		m_sndFile->m_PlayState.Chn[channel].nGlobalVol = mpt::saturate_round<std::int32_t>(volume * 64.0);
	}

	double module_ext_impl::get_channel_volume( std::int32_t channel ) const {
		if ( channel < 0 || channel >= get_num_channels() ) {
			throw openmpt::exception("invalid channel");
		}
		return m_sndFile->m_PlayState.Chn[channel].nGlobalVol / 64.0;
	}

	void module_ext_impl::set_channel_mute_status( std::int32_t channel, bool mute ) {
		if ( channel < 0 || channel >= get_num_channels() ) {
			throw openmpt::exception("invalid channel");
		}
		m_sndFile->ChnSettings[channel].dwFlags.set( CHN_MUTE | CHN_SYNCMUTE , mute );
		m_sndFile->m_PlayState.Chn[channel].dwFlags.set( CHN_MUTE | CHN_SYNCMUTE , mute );

		// Also update NNA channels
		for ( CHANNELINDEX i = m_sndFile->GetNumChannels(); i < MAX_CHANNELS; i++)
		{
			if ( m_sndFile->m_PlayState.Chn[i].nMasterChn == channel + 1)
			{
				m_sndFile->m_PlayState.Chn[i].dwFlags.set( CHN_MUTE | CHN_SYNCMUTE, mute );
			}
		}
	}

	bool module_ext_impl::get_channel_mute_status( std::int32_t channel ) const {
		if ( channel < 0 || channel >= get_num_channels() ) {
			throw openmpt::exception("invalid channel");
		}
		return m_sndFile->m_PlayState.Chn[channel].dwFlags[CHN_MUTE];
	}
	
	void module_ext_impl::set_instrument_mute_status( std::int32_t instrument, bool mute ) {
		const bool instrument_mode = get_num_instruments() != 0;
		const std::int32_t max_instrument = instrument_mode ? get_num_instruments() : get_num_samples();
		if ( instrument < 0 || instrument >= max_instrument ) {
			throw openmpt::exception("invalid instrument");
		}
		if ( instrument_mode ) {
			if ( m_sndFile->Instruments[instrument + 1] != nullptr ) {
				m_sndFile->Instruments[instrument + 1]->dwFlags.set( INS_MUTE, mute );
			}
		} else {
			m_sndFile->GetSample( static_cast<OpenMPT::SAMPLEINDEX>( instrument + 1 ) ).uFlags.set( CHN_MUTE, mute ) ;
		}
	}

	bool module_ext_impl::get_instrument_mute_status( std::int32_t instrument ) const {
		const bool instrument_mode = get_num_instruments() != 0;
		const std::int32_t max_instrument = instrument_mode ? get_num_instruments() : get_num_samples();
		if ( instrument < 0 || instrument >= max_instrument ) {
			throw openmpt::exception("invalid instrument");
		}
		if ( instrument_mode ) {
			if ( m_sndFile->Instruments[instrument + 1] != nullptr ) {
				return m_sndFile->Instruments[instrument + 1]->dwFlags[INS_MUTE];
			}
			return true;
		} else {
			return m_sndFile->GetSample( static_cast<OpenMPT::SAMPLEINDEX>( instrument + 1 ) ).uFlags[CHN_MUTE];
		}
	}

	std::int32_t module_ext_impl::play_note( std::int32_t instrument, std::int32_t note, double volume, double panning ) {
		const bool instrument_mode = get_num_instruments() != 0;
		const std::int32_t max_instrument = instrument_mode ? get_num_instruments() : get_num_samples();
		if ( instrument < 0 || instrument >= max_instrument ) {
			throw openmpt::exception("invalid instrument");
		}
		note += NOTE_MIN;
		if ( note < NOTE_MIN || note > NOTE_MAX ) {
			throw openmpt::exception("invalid note");
		}

		// Find a free channel
		CHANNELINDEX free_channel = m_sndFile->GetNNAChannel( CHANNELINDEX_INVALID );
		if ( free_channel == CHANNELINDEX_INVALID )
			free_channel = MAX_CHANNELS - 1;

		ModChannel &chn = m_sndFile->m_PlayState.Chn[free_channel];
		chn.Reset(ModChannel::resetTotal, *m_sndFile, CHANNELINDEX_INVALID, CHN_MUTE);
		chn.nMasterChn = 0;	// remove NNA association
		chn.nNewNote = chn.nLastNote = static_cast<uint8>(note);
		chn.ResetEnvelopes();
		m_sndFile->InstrumentChange(chn, instrument + 1);
		chn.nFadeOutVol = 0x10000;
		m_sndFile->NoteChange(chn, note, false, true, true);
		chn.nPan = mpt::saturate_round<std::int32_t>( Clamp( panning * 128.0, -128.0, 128.0 ) + 128.0 );
		chn.nVolume = mpt::saturate_round<std::int32_t>( Clamp( volume * 256.0, 0.0, 256.0 ) );

		// Remove channel from list of mixed channels to fix https://bugs.openmpt.org/view.php?id=209
		// This is required because a previous note on the same channel might have just stopped playing,
		// but the channel is still in the mix list.
		// Since the channel volume / etc is only updated every tick in CSoundFile::ReadNote, and we
		// do not want to duplicate mixmode-dependant logic here, CSoundFile::CreateStereoMix may already
		// try to mix our newly set up channel at volume 0 if we don't remove it from the list.
		auto mix_begin = std::begin( m_sndFile->m_PlayState.ChnMix );
		auto mix_end = std::remove( mix_begin, mix_begin + m_sndFile->m_nMixChannels, free_channel );
		m_sndFile->m_nMixChannels = static_cast<CHANNELINDEX>( std::distance( mix_begin, mix_end ) );

		return free_channel;
	}

	void module_ext_impl::stop_note( std::int32_t channel ) {
		if ( channel < 0 || channel >= MAX_CHANNELS ) {
			throw openmpt::exception("invalid channel");
		}
		ModChannel &chn = m_sndFile->m_PlayState.Chn[channel];
		chn.nLength = 0;
		chn.pCurrentSample = nullptr;
	}


	/* add stuff here */


} // namespace openmpt
Updated libopenmpt to version 0.6.0, with major new changes. This new version requires macOS 10.15 to work, due to libc++ features required. A compatibility plugin has been duplicated from the existing plugin, which will now load libopenmpt 0.5.14, or whatever newer version may come out that still supports as old as macOS 10.12. 2021-12-26 11:29:43 +00:00			`/*`
			`* libopenmpt_ext_impl.cpp`
			`* -----------------------`
			`* Purpose: libopenmpt extensions - implementation`
			`* Notes :`
			`* Authors: OpenMPT Devs`
			`* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.`
			`*/`

			`#include "common/stdafx.h"`

			`#include "libopenmpt_internal.h"`
			`#include "libopenmpt_ext.hpp"`

			`#include "libopenmpt_ext_impl.hpp"`

			`#include <stdexcept>`

			`#include "soundlib/Sndfile.h"`

			`using namespace OpenMPT;`

			`namespace openmpt {`

			`module_ext_impl::module_ext_impl( callback_stream_wrapper stream, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( stream, std::move(log), ctls ) {`
			`ctor();`
			`}`
			`module_ext_impl::module_ext_impl( std::istream & stream, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( stream, std::move(log), ctls ) {`
			`ctor();`
			`}`
			`module_ext_impl::module_ext_impl( const std::vector<std::byte> & data, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, std::move(log), ctls ) {`
			`ctor();`
			`}`
			`module_ext_impl::module_ext_impl( const std::vector<std::uint8_t> & data, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, std::move(log), ctls ) {`
			`ctor();`
			`}`
			`module_ext_impl::module_ext_impl( const std::vector<char> & data, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, std::move(log), ctls ) {`
			`ctor();`
			`}`
			`module_ext_impl::module_ext_impl( const std::byte * data, std::size_t size, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, size, std::move(log), ctls ) {`
			`ctor();`
			`}`
			`module_ext_impl::module_ext_impl( const std::uint8_t * data, std::size_t size, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, size, std::move(log), ctls ) {`
			`ctor();`
			`}`
			`module_ext_impl::module_ext_impl( const char * data, std::size_t size, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, size, std::move(log), ctls ) {`
			`ctor();`
			`}`
			`module_ext_impl::module_ext_impl( const void * data, std::size_t size, std::unique_ptr<log_interface> log, const std::map< std::string, std::string > & ctls ) : module_impl( data, size, std::move(log), ctls ) {`
			`ctor();`
			`}`



			`void module_ext_impl::ctor() {`



			`/* add stuff here */`



			`}`



			`module_ext_impl::~module_ext_impl() {`



			`/* add stuff here */`



			`}`



			`void * module_ext_impl::get_interface( const std::string & interface_id ) {`
			`if ( interface_id.empty() ) {`
			`return 0;`
			`} else if ( interface_id == ext::pattern_vis_id ) {`
			`return dynamic_cast< ext::pattern_vis * >( this );`
			`} else if ( interface_id == ext::interactive_id ) {`
			`return dynamic_cast< ext::interactive * >( this );`



			`/* add stuff here */`



			`} else {`
			`return 0;`
			`}`
			`}`

			`// pattern_vis`

			`module_ext_impl::effect_type module_ext_impl::get_pattern_row_channel_volume_effect_type( std::int32_t pattern, std::int32_t row, std::int32_t channel ) const {`
			`std::uint8_t byte = get_pattern_row_channel_command( pattern, row, channel, module::command_volumeffect );`
			`switch ( ModCommand::GetVolumeEffectType( byte ) ) {`
			`case EFFECT_TYPE_NORMAL : return effect_general; break;`
			`case EFFECT_TYPE_GLOBAL : return effect_global ; break;`
			`case EFFECT_TYPE_VOLUME : return effect_volume ; break;`
			`case EFFECT_TYPE_PANNING: return effect_panning; break;`
			`case EFFECT_TYPE_PITCH : return effect_pitch ; break;`
			`default: return effect_unknown; break;`
			`}`
			`}`

			`module_ext_impl::effect_type module_ext_impl::get_pattern_row_channel_effect_type( std::int32_t pattern, std::int32_t row, std::int32_t channel ) const {`
			`std::uint8_t byte = get_pattern_row_channel_command( pattern, row, channel, module::command_effect );`
			`switch ( ModCommand::GetEffectType( byte ) ) {`
			`case EFFECT_TYPE_NORMAL : return effect_general; break;`
			`case EFFECT_TYPE_GLOBAL : return effect_global ; break;`
			`case EFFECT_TYPE_VOLUME : return effect_volume ; break;`
			`case EFFECT_TYPE_PANNING: return effect_panning; break;`
			`case EFFECT_TYPE_PITCH : return effect_pitch ; break;`
			`default: return effect_unknown; break;`
			`}`
			`}`

			`// interactive`

			`void module_ext_impl::set_current_speed( std::int32_t speed ) {`
			`if ( speed < 1 \|\| speed > 65535 ) {`
			`throw openmpt::exception("invalid tick count");`
			`}`
			`m_sndFile->m_PlayState.m_nMusicSpeed = speed;`
			`}`

			`void module_ext_impl::set_current_tempo( std::int32_t tempo ) {`
			`if ( tempo < 32 \|\| tempo > 512 ) {`
			`throw openmpt::exception("invalid tempo");`
			`}`
			`m_sndFile->m_PlayState.m_nMusicTempo.Set( tempo );`
			`}`

			`void module_ext_impl::set_tempo_factor( double factor ) {`
			`if ( factor <= 0.0 \|\| factor > 4.0 ) {`
			`throw openmpt::exception("invalid tempo factor");`
			`}`
			`m_sndFile->m_nTempoFactor = mpt::saturate_round<uint32_t>( 65536.0 / factor );`
			`m_sndFile->RecalculateSamplesPerTick();`
			`}`

			`double module_ext_impl::get_tempo_factor( ) const {`
			`return 65536.0 / m_sndFile->m_nTempoFactor;`
			`}`

			`void module_ext_impl::set_pitch_factor( double factor ) {`
			`if ( factor <= 0.0 \|\| factor > 4.0 ) {`
			`throw openmpt::exception("invalid pitch factor");`
			`}`
			`m_sndFile->m_nFreqFactor = mpt::saturate_round<uint32_t>( 65536.0 * factor );`
			`m_sndFile->RecalculateSamplesPerTick();`
			`}`

			`double module_ext_impl::get_pitch_factor( ) const {`
			`return m_sndFile->m_nFreqFactor / 65536.0;`
			`}`

			`void module_ext_impl::set_global_volume( double volume ) {`
			`if ( volume < 0.0 \|\| volume > 1.0 ) {`
			`throw openmpt::exception("invalid global volume");`
			`}`
			`m_sndFile->m_PlayState.m_nGlobalVolume = mpt::saturate_round<uint32_t>( volume * MAX_GLOBAL_VOLUME );`
			`}`

			`double module_ext_impl::get_global_volume( ) const {`
			`return m_sndFile->m_PlayState.m_nGlobalVolume / static_cast<double>( MAX_GLOBAL_VOLUME );`
			`}`

			`void module_ext_impl::set_channel_volume( std::int32_t channel, double volume ) {`
			`if ( channel < 0 \|\| channel >= get_num_channels() ) {`
			`throw openmpt::exception("invalid channel");`
			`}`
			`if ( volume < 0.0 \|\| volume > 1.0 ) {`
			`throw openmpt::exception("invalid global volume");`
			`}`
			`m_sndFile->m_PlayState.Chn[channel].nGlobalVol = mpt::saturate_round<std::int32_t>(volume * 64.0);`
			`}`

			`double module_ext_impl::get_channel_volume( std::int32_t channel ) const {`
			`if ( channel < 0 \|\| channel >= get_num_channels() ) {`
			`throw openmpt::exception("invalid channel");`
			`}`
			`return m_sndFile->m_PlayState.Chn[channel].nGlobalVol / 64.0;`
			`}`

			`void module_ext_impl::set_channel_mute_status( std::int32_t channel, bool mute ) {`
			`if ( channel < 0 \|\| channel >= get_num_channels() ) {`
			`throw openmpt::exception("invalid channel");`
			`}`
			`m_sndFile->ChnSettings[channel].dwFlags.set( CHN_MUTE \| CHN_SYNCMUTE , mute );`
			`m_sndFile->m_PlayState.Chn[channel].dwFlags.set( CHN_MUTE \| CHN_SYNCMUTE , mute );`

			`// Also update NNA channels`
			`for ( CHANNELINDEX i = m_sndFile->GetNumChannels(); i < MAX_CHANNELS; i++)`
			`{`
			`if ( m_sndFile->m_PlayState.Chn[i].nMasterChn == channel + 1)`
			`{`
			`m_sndFile->m_PlayState.Chn[i].dwFlags.set( CHN_MUTE \| CHN_SYNCMUTE, mute );`
			`}`
			`}`
			`}`

			`bool module_ext_impl::get_channel_mute_status( std::int32_t channel ) const {`
			`if ( channel < 0 \|\| channel >= get_num_channels() ) {`
			`throw openmpt::exception("invalid channel");`
			`}`
			`return m_sndFile->m_PlayState.Chn[channel].dwFlags[CHN_MUTE];`
			`}`

			`void module_ext_impl::set_instrument_mute_status( std::int32_t instrument, bool mute ) {`
			`const bool instrument_mode = get_num_instruments() != 0;`
			`const std::int32_t max_instrument = instrument_mode ? get_num_instruments() : get_num_samples();`
			`if ( instrument < 0 \|\| instrument >= max_instrument ) {`
			`throw openmpt::exception("invalid instrument");`
			`}`
			`if ( instrument_mode ) {`
			`if ( m_sndFile->Instruments[instrument + 1] != nullptr ) {`
			`m_sndFile->Instruments[instrument + 1]->dwFlags.set( INS_MUTE, mute );`
			`}`
			`} else {`
			`m_sndFile->GetSample( static_cast<OpenMPT::SAMPLEINDEX>( instrument + 1 ) ).uFlags.set( CHN_MUTE, mute ) ;`
			`}`
			`}`

			`bool module_ext_impl::get_instrument_mute_status( std::int32_t instrument ) const {`
			`const bool instrument_mode = get_num_instruments() != 0;`
			`const std::int32_t max_instrument = instrument_mode ? get_num_instruments() : get_num_samples();`
			`if ( instrument < 0 \|\| instrument >= max_instrument ) {`
			`throw openmpt::exception("invalid instrument");`
			`}`
			`if ( instrument_mode ) {`
			`if ( m_sndFile->Instruments[instrument + 1] != nullptr ) {`
			`return m_sndFile->Instruments[instrument + 1]->dwFlags[INS_MUTE];`
			`}`
			`return true;`
			`} else {`
			`return m_sndFile->GetSample( static_cast<OpenMPT::SAMPLEINDEX>( instrument + 1 ) ).uFlags[CHN_MUTE];`
			`}`
			`}`

			`std::int32_t module_ext_impl::play_note( std::int32_t instrument, std::int32_t note, double volume, double panning ) {`
			`const bool instrument_mode = get_num_instruments() != 0;`
			`const std::int32_t max_instrument = instrument_mode ? get_num_instruments() : get_num_samples();`
			`if ( instrument < 0 \|\| instrument >= max_instrument ) {`
			`throw openmpt::exception("invalid instrument");`
			`}`
			`note += NOTE_MIN;`
			`if ( note < NOTE_MIN \|\| note > NOTE_MAX ) {`
			`throw openmpt::exception("invalid note");`
			`}`

			`// Find a free channel`
			`CHANNELINDEX free_channel = m_sndFile->GetNNAChannel( CHANNELINDEX_INVALID );`
			`if ( free_channel == CHANNELINDEX_INVALID )`
			`free_channel = MAX_CHANNELS - 1;`

			`ModChannel &chn = m_sndFile->m_PlayState.Chn[free_channel];`
			`chn.Reset(ModChannel::resetTotal, *m_sndFile, CHANNELINDEX_INVALID, CHN_MUTE);`
			`chn.nMasterChn = 0; // remove NNA association`
			`chn.nNewNote = chn.nLastNote = static_cast<uint8>(note);`
			`chn.ResetEnvelopes();`
			`m_sndFile->InstrumentChange(chn, instrument + 1);`
			`chn.nFadeOutVol = 0x10000;`
			`m_sndFile->NoteChange(chn, note, false, true, true);`
			`chn.nPan = mpt::saturate_round<std::int32_t>( Clamp( panning * 128.0, -128.0, 128.0 ) + 128.0 );`
			`chn.nVolume = mpt::saturate_round<std::int32_t>( Clamp( volume * 256.0, 0.0, 256.0 ) );`

			`// Remove channel from list of mixed channels to fix https://bugs.openmpt.org/view.php?id=209`
			`// This is required because a previous note on the same channel might have just stopped playing,`
			`// but the channel is still in the mix list.`
			`// Since the channel volume / etc is only updated every tick in CSoundFile::ReadNote, and we`
			`// do not want to duplicate mixmode-dependant logic here, CSoundFile::CreateStereoMix may already`
			`// try to mix our newly set up channel at volume 0 if we don't remove it from the list.`
			`auto mix_begin = std::begin( m_sndFile->m_PlayState.ChnMix );`
			`auto mix_end = std::remove( mix_begin, mix_begin + m_sndFile->m_nMixChannels, free_channel );`
			`m_sndFile->m_nMixChannels = static_cast<CHANNELINDEX>( std::distance( mix_begin, mix_end ) );`

			`return free_channel;`
			`}`

			`void module_ext_impl::stop_note( std::int32_t channel ) {`
			`if ( channel < 0 \|\| channel >= MAX_CHANNELS ) {`
			`throw openmpt::exception("invalid channel");`
			`}`
			`ModChannel &chn = m_sndFile->m_PlayState.Chn[channel];`
			`chn.nLength = 0;`
			`chn.pCurrentSample = nullptr;`
			`}`


			`/* add stuff here */`



			`} // namespace openmpt`