cog/Frameworks/OpenMPT.old/OpenMPT/soundlib/XMTools.h

/*
 * XMTools.h
 * ---------
 * Purpose: Definition of XM file structures and helper functions
 * Notes  : (currently none)
 * Authors: OpenMPT Devs
 * The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
 */


#pragma once

#include "BuildSettings.h"


OPENMPT_NAMESPACE_BEGIN


// XM File Header
struct XMFileHeader
{
	enum XMHeaderFlags
	{
		linearSlides			= 0x01,
		extendedFilterRange		= 0x1000,
	};

	char     signature[17];		// "Extended Module: "
	char     songName[20];		// Song Name, not null-terminated (any nulls are treated as spaces)
	uint8le  eof;				// DOS EOF Character (0x1A)
	char     trackerName[20];	// Software that was used to create the XM file
	uint16le version;			// File version (1.02 - 1.04 are supported)
	uint32le size;				// Header Size
	uint16le orders;			// Number of Orders
	uint16le restartPos;		// Restart Position
	uint16le channels;			// Number of Channels
	uint16le patterns;			// Number of Patterns
	uint16le instruments;		// Number of Unstruments
	uint16le flags;				// Song Flags
	uint16le speed;				// Default Speed
	uint16le tempo;				// Default Tempo
};

MPT_BINARY_STRUCT(XMFileHeader, 80)


// XM Instrument Data
struct XMInstrument
{
	// Envelope Flags
	enum XMEnvelopeFlags
	{
		envEnabled	= 0x01,
		envSustain	= 0x02,
		envLoop		= 0x04,
	};

	uint8le  sampleMap[96];		// Note -> Sample assignment
	uint16le volEnv[24];		// Volume envelope nodes / values (0...64)
	uint16le panEnv[24];		// Panning envelope nodes / values (0...63)
	uint8le  volPoints;			// Volume envelope length
	uint8le  panPoints;			// Panning envelope length
	uint8le  volSustain;		// Volume envelope sustain point
	uint8le  volLoopStart;		// Volume envelope loop start point
	uint8le  volLoopEnd;		// Volume envelope loop end point
	uint8le  panSustain;		// Panning envelope sustain point
	uint8le  panLoopStart;		// Panning envelope loop start point
	uint8le  panLoopEnd;		// Panning envelope loop end point
	uint8le  volFlags;			// Volume envelope flags
	uint8le  panFlags;			// Panning envelope flags
	uint8le  vibType;			// Sample Auto-Vibrato Type
	uint8le  vibSweep;			// Sample Auto-Vibrato Sweep
	uint8le  vibDepth;			// Sample Auto-Vibrato Depth
	uint8le  vibRate;			// Sample Auto-Vibrato Rate
	uint16le volFade;			// Volume Fade-Out
	uint8le  midiEnabled;		// MIDI Out Enabled (0 / 1)
	uint8le  midiChannel;		// MIDI Channel (0...15)
	uint16le midiProgram;		// MIDI Program (0...127)
	uint16le pitchWheelRange;	// MIDI Pitch Wheel Range (0...36 halftones)
	uint8le  muteComputer;		// Mute instrument if MIDI is enabled (0 / 1)
	uint8le  reserved[15];		// Reserved

	enum EnvType
	{
		EnvTypeVol,
		EnvTypePan,
	};
	// Convert OpenMPT's internal envelope representation to XM envelope data.
	void ConvertEnvelopeToXM(const InstrumentEnvelope &mptEnv, uint8le &numPoints, uint8le &flags, uint8le &sustain, uint8le &loopStart, uint8le &loopEnd, EnvType env);
	// Convert XM envelope data to an OpenMPT's internal envelope representation.
	void ConvertEnvelopeToMPT(InstrumentEnvelope &mptEnv, uint8 numPoints, uint8 flags, uint8 sustain, uint8 loopStart, uint8 loopEnd, EnvType env) const;

	// Convert OpenMPT's internal sample representation to an XMInstrument.
	uint16 ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport);
	// Convert an XMInstrument to OpenMPT's internal instrument representation.
	void ConvertToMPT(ModInstrument &mptIns) const;
	// Apply auto-vibrato settings from sample to file.
	void ApplyAutoVibratoToXM(const ModSample &mptSmp, MODTYPE fromType);
	// Apply auto-vibrato settings from file to a sample.
	void ApplyAutoVibratoToMPT(ModSample &mptSmp) const;

	// Get a list of samples that should be written to the file.
	std::vector<SAMPLEINDEX> GetSampleList(const ModInstrument &mptIns, bool compatibilityExport) const;
};

MPT_BINARY_STRUCT(XMInstrument, 230)


// XM Instrument Header
struct XMInstrumentHeader
{
	uint32le size;				// Size of XMInstrumentHeader + XMInstrument
	char     name[22];			// Instrument Name, not null-terminated (any nulls are treated as spaces)
	uint8le  type;				// Instrument Type (Apparently FT2 writes some crap here, but it's the same crap for all instruments of the same module!)
	uint16le numSamples;		// Number of Samples associated with instrument
	uint32le sampleHeaderSize;	// Size of XMSample
	XMInstrument instrument;

	// Write stuff to the header that's always necessary (also for empty instruments)
	void Finalise();

	// Convert OpenMPT's internal sample representation to an XMInstrument.
	void ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport);
	// Convert an XMInstrument to OpenMPT's internal instrument representation.
	void ConvertToMPT(ModInstrument &mptIns) const;
};

MPT_BINARY_STRUCT(XMInstrumentHeader, 263)


// XI Instrument Header
struct XIInstrumentHeader
{
	enum
	{
		fileVersion	= 0x102,
	};

	char     signature[21];		// "Extended Instrument: "
	char     name[22];			// Instrument Name, not null-terminated (any nulls are treated as spaces)
	uint8le  eof;				// DOS EOF Character (0x1A)
	char     trackerName[20];	// Software that was used to create the XI file
	uint16le version;			// File Version (1.02)
	XMInstrument instrument;
	uint16le numSamples;		// Number of embedded sample headers + samples

	// Convert OpenMPT's internal sample representation to an XIInstrumentHeader.
	void ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport);
	// Convert an XIInstrumentHeader to OpenMPT's internal instrument representation.
	void ConvertToMPT(ModInstrument &mptIns) const;
};

MPT_BINARY_STRUCT(XIInstrumentHeader, 298)


// XM Sample Header
struct XMSample
{
	enum XMSampleFlags
	{
		sampleLoop			= 0x01,
		sampleBidiLoop		= 0x02,
		sample16Bit			= 0x10,
		sampleStereo		= 0x20,

		sampleADPCM			= 0xAD,		// MODPlugin :(
	};

	uint32le length;		// Sample Length (in bytes)
	uint32le loopStart;		// Loop Start (in bytes)
	uint32le loopLength;	// Loop Length (in bytes)
	uint8le  vol;			// Default Volume
	int8le   finetune;		// Sample Finetune
	uint8le  flags;			// Sample Flags
	uint8le  pan;			// Sample Panning
	int8le   relnote;		// Sample Transpose
	uint8le  reserved;		// Reserved (abused for ModPlug's ADPCM compression)
	char     name[22];		// Sample Name, not null-terminated (any nulls are treated as spaces)

	// Convert OpenMPT's internal sample representation to an XMSample.
	void ConvertToXM(const ModSample &mptSmp, MODTYPE fromType, bool compatibilityExport);
	// Convert an XMSample to OpenMPT's internal sample representation.
	void ConvertToMPT(ModSample &mptSmp) const;
	// Retrieve the internal sample format flags for this instrument.
	SampleIO GetSampleFormat() const;
};

MPT_BINARY_STRUCT(XMSample, 40)


OPENMPT_NAMESPACE_END
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			`/*`
			`* XMTools.h`
			`* ---------`
			`* Purpose: Definition of XM file structures and helper functions`
			`* Notes : (currently none)`
			`* Authors: OpenMPT Devs`
			`* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.`
			`*/`


			`#pragma once`

			`#include "BuildSettings.h"`


			`OPENMPT_NAMESPACE_BEGIN`


			`// XM File Header`
			`struct XMFileHeader`
			`{`
			`enum XMHeaderFlags`
			`{`
			`linearSlides = 0x01,`
			`extendedFilterRange = 0x1000,`
			`};`

			`char signature[17]; // "Extended Module: "`
			`char songName[20]; // Song Name, not null-terminated (any nulls are treated as spaces)`
			`uint8le eof; // DOS EOF Character (0x1A)`
			`char trackerName[20]; // Software that was used to create the XM file`
			`uint16le version; // File version (1.02 - 1.04 are supported)`
			`uint32le size; // Header Size`
			`uint16le orders; // Number of Orders`
			`uint16le restartPos; // Restart Position`
			`uint16le channels; // Number of Channels`
			`uint16le patterns; // Number of Patterns`
			`uint16le instruments; // Number of Unstruments`
			`uint16le flags; // Song Flags`
			`uint16le speed; // Default Speed`
			`uint16le tempo; // Default Tempo`
			`};`

			`MPT_BINARY_STRUCT(XMFileHeader, 80)`


			`// XM Instrument Data`
			`struct XMInstrument`
			`{`
			`// Envelope Flags`
			`enum XMEnvelopeFlags`
			`{`
			`envEnabled = 0x01,`
			`envSustain = 0x02,`
			`envLoop = 0x04,`
			`};`

			`uint8le sampleMap[96]; // Note -> Sample assignment`
			`uint16le volEnv[24]; // Volume envelope nodes / values (0...64)`
			`uint16le panEnv[24]; // Panning envelope nodes / values (0...63)`
			`uint8le volPoints; // Volume envelope length`
			`uint8le panPoints; // Panning envelope length`
			`uint8le volSustain; // Volume envelope sustain point`
			`uint8le volLoopStart; // Volume envelope loop start point`
			`uint8le volLoopEnd; // Volume envelope loop end point`
			`uint8le panSustain; // Panning envelope sustain point`
			`uint8le panLoopStart; // Panning envelope loop start point`
			`uint8le panLoopEnd; // Panning envelope loop end point`
			`uint8le volFlags; // Volume envelope flags`
			`uint8le panFlags; // Panning envelope flags`
			`uint8le vibType; // Sample Auto-Vibrato Type`
			`uint8le vibSweep; // Sample Auto-Vibrato Sweep`
			`uint8le vibDepth; // Sample Auto-Vibrato Depth`
			`uint8le vibRate; // Sample Auto-Vibrato Rate`
			`uint16le volFade; // Volume Fade-Out`
			`uint8le midiEnabled; // MIDI Out Enabled (0 / 1)`
			`uint8le midiChannel; // MIDI Channel (0...15)`
			`uint16le midiProgram; // MIDI Program (0...127)`
			`uint16le pitchWheelRange; // MIDI Pitch Wheel Range (0...36 halftones)`
			`uint8le muteComputer; // Mute instrument if MIDI is enabled (0 / 1)`
			`uint8le reserved[15]; // Reserved`

			`enum EnvType`
			`{`
			`EnvTypeVol,`
			`EnvTypePan,`
			`};`
			`// Convert OpenMPT's internal envelope representation to XM envelope data.`
			`void ConvertEnvelopeToXM(const InstrumentEnvelope &mptEnv, uint8le &numPoints, uint8le &flags, uint8le &sustain, uint8le &loopStart, uint8le &loopEnd, EnvType env);`
			`// Convert XM envelope data to an OpenMPT's internal envelope representation.`
			`void ConvertEnvelopeToMPT(InstrumentEnvelope &mptEnv, uint8 numPoints, uint8 flags, uint8 sustain, uint8 loopStart, uint8 loopEnd, EnvType env) const;`

			`// Convert OpenMPT's internal sample representation to an XMInstrument.`
			`uint16 ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport);`
			`// Convert an XMInstrument to OpenMPT's internal instrument representation.`
			`void ConvertToMPT(ModInstrument &mptIns) const;`
			`// Apply auto-vibrato settings from sample to file.`
			`void ApplyAutoVibratoToXM(const ModSample &mptSmp, MODTYPE fromType);`
			`// Apply auto-vibrato settings from file to a sample.`
			`void ApplyAutoVibratoToMPT(ModSample &mptSmp) const;`

			`// Get a list of samples that should be written to the file.`
			`std::vector<SAMPLEINDEX> GetSampleList(const ModInstrument &mptIns, bool compatibilityExport) const;`
			`};`

			`MPT_BINARY_STRUCT(XMInstrument, 230)`


			`// XM Instrument Header`
			`struct XMInstrumentHeader`
			`{`
			`uint32le size; // Size of XMInstrumentHeader + XMInstrument`
			`char name[22]; // Instrument Name, not null-terminated (any nulls are treated as spaces)`
			`uint8le type; // Instrument Type (Apparently FT2 writes some crap here, but it's the same crap for all instruments of the same module!)`
			`uint16le numSamples; // Number of Samples associated with instrument`
			`uint32le sampleHeaderSize; // Size of XMSample`
			`XMInstrument instrument;`

			`// Write stuff to the header that's always necessary (also for empty instruments)`
			`void Finalise();`

			`// Convert OpenMPT's internal sample representation to an XMInstrument.`
			`void ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport);`
			`// Convert an XMInstrument to OpenMPT's internal instrument representation.`
			`void ConvertToMPT(ModInstrument &mptIns) const;`
			`};`

			`MPT_BINARY_STRUCT(XMInstrumentHeader, 263)`


			`// XI Instrument Header`
			`struct XIInstrumentHeader`
			`{`
			`enum`
			`{`
			`fileVersion = 0x102,`
			`};`

			`char signature[21]; // "Extended Instrument: "`
			`char name[22]; // Instrument Name, not null-terminated (any nulls are treated as spaces)`
			`uint8le eof; // DOS EOF Character (0x1A)`
			`char trackerName[20]; // Software that was used to create the XI file`
			`uint16le version; // File Version (1.02)`
			`XMInstrument instrument;`
			`uint16le numSamples; // Number of embedded sample headers + samples`

			`// Convert OpenMPT's internal sample representation to an XIInstrumentHeader.`
			`void ConvertToXM(const ModInstrument &mptIns, bool compatibilityExport);`
			`// Convert an XIInstrumentHeader to OpenMPT's internal instrument representation.`
			`void ConvertToMPT(ModInstrument &mptIns) const;`
			`};`

			`MPT_BINARY_STRUCT(XIInstrumentHeader, 298)`


			`// XM Sample Header`
			`struct XMSample`
			`{`
			`enum XMSampleFlags`
			`{`
			`sampleLoop = 0x01,`
			`sampleBidiLoop = 0x02,`
			`sample16Bit = 0x10,`
			`sampleStereo = 0x20,`

			`sampleADPCM = 0xAD, // MODPlugin :(`
			`};`

			`uint32le length; // Sample Length (in bytes)`
			`uint32le loopStart; // Loop Start (in bytes)`
			`uint32le loopLength; // Loop Length (in bytes)`
			`uint8le vol; // Default Volume`
			`int8le finetune; // Sample Finetune`
			`uint8le flags; // Sample Flags`
			`uint8le pan; // Sample Panning`
			`int8le relnote; // Sample Transpose`
			`uint8le reserved; // Reserved (abused for ModPlug's ADPCM compression)`
			`char name[22]; // Sample Name, not null-terminated (any nulls are treated as spaces)`

			`// Convert OpenMPT's internal sample representation to an XMSample.`
			`void ConvertToXM(const ModSample &mptSmp, MODTYPE fromType, bool compatibilityExport);`
			`// Convert an XMSample to OpenMPT's internal sample representation.`
			`void ConvertToMPT(ModSample &mptSmp) const;`
			`// Retrieve the internal sample format flags for this instrument.`
			`SampleIO GetSampleFormat() const;`
			`};`

			`MPT_BINARY_STRUCT(XMSample, 40)`


			`OPENMPT_NAMESPACE_END`