gzdoom-gles/libraries/adlmidi/adlmidi.h
Christoph Oelckers a4f05f5741 - made libadl its own library subproject.
This is to improve compile times because the MSVC compiler tends to become slow with large lists of source files in a single project.
This new project is still our stripped down copy of libadl, not the original, because that project contains a large amount of baggage we do not need.

# Conflicts:
#	src/CMakeLists.txt

# Conflicts:
#	src/sound/mididevices/music_adlmidi_mididevice.cpp
2020-01-04 22:56:56 +01:00

1246 lines
43 KiB
C

/*
* libADLMIDI is a free MIDI to WAV conversion library with OPL3 emulation
*
* Original ADLMIDI code: Copyright (c) 2010-2014 Joel Yliluoma <bisqwit@iki.fi>
* ADLMIDI Library API: Copyright (c) 2015-2018 Vitaly Novichkov <admin@wohlnet.ru>
*
* Library is based on the ADLMIDI, a MIDI player for Linux and Windows with OPL3 emulation:
* http://iki.fi/bisqwit/source/adlmidi.html
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef ADLMIDI_H
#define ADLMIDI_H
#ifdef __cplusplus
extern "C" {
#endif
#define ADLMIDI_VERSION_MAJOR 1
#define ADLMIDI_VERSION_MINOR 4
#define ADLMIDI_VERSION_PATCHLEVEL 0
#define ADLMIDI_TOSTR_I(s) #s
#define ADLMIDI_TOSTR(s) ADLMIDI_TOSTR_I(s)
#define ADLMIDI_VERSION \
ADLMIDI_TOSTR(ADLMIDI_VERSION_MAJOR) "." \
ADLMIDI_TOSTR(ADLMIDI_VERSION_MINOR) "." \
ADLMIDI_TOSTR(ADLMIDI_VERSION_PATCHLEVEL)
#include <stddef.h>
#if defined(__STDC_VERSION__) && (__STDC_VERSION__ >= 199901L)
#include <stdint.h>
typedef uint8_t ADL_UInt8;
typedef uint16_t ADL_UInt16;
typedef int8_t ADL_SInt8;
typedef int16_t ADL_SInt16;
#else
typedef unsigned char ADL_UInt8;
typedef unsigned short ADL_UInt16;
typedef char ADL_SInt8;
typedef short ADL_SInt16;
#endif
/* == Deprecated function markers == */
#if defined(_MSC_VER) /* MSVC */
# if _MSC_VER >= 1500 /* MSVC 2008 */
/*! Indicates that the following function is deprecated. */
# define ADLMIDI_DEPRECATED(message) __declspec(deprecated(message))
# endif
#endif /* defined(_MSC_VER) */
#ifdef __clang__
# if __has_extension(attribute_deprecated_with_message)
# define ADLMIDI_DEPRECATED(message) __attribute__((deprecated(message)))
# endif
#elif defined __GNUC__ /* not clang (gcc comes later since clang emulates gcc) */
# if (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 5))
# define ADLMIDI_DEPRECATED(message) __attribute__((deprecated(message)))
# elif (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 1))
# define ADLMIDI_DEPRECATED(message) __attribute__((__deprecated__))
# endif /* GNUC version */
#endif /* __clang__ || __GNUC__ */
#if !defined(ADLMIDI_DEPRECATED)
# define ADLMIDI_DEPRECATED(message)
#endif /* if !defined(ADLMIDI_DEPRECATED) */
#ifdef ADLMIDI_BUILD
# ifndef ADLMIDI_DECLSPEC
# if defined (_WIN32) && defined(ADLMIDI_BUILD_DLL)
# define ADLMIDI_DECLSPEC __declspec(dllexport)
# else
# define ADLMIDI_DECLSPEC
# endif
# endif
#else
# define ADLMIDI_DECLSPEC
#endif
/**
* @brief Volume scaling models
*/
enum ADLMIDI_VolumeModels
{
/*! Automatical choice by the specific bank */
ADLMIDI_VolumeModel_AUTO = 0,
/*! Linearized scaling model, most standard */
ADLMIDI_VolumeModel_Generic = 1,
/*! Native OPL3's logarithmic volume scale */
ADLMIDI_VolumeModel_NativeOPL3 = 2,
/*! Native OPL3's logarithmic volume scale. Alias. */
ADLMIDI_VolumeModel_CMF = ADLMIDI_VolumeModel_NativeOPL3,
/*! Logarithmic volume scale, using volume map table. Used in DMX. */
ADLMIDI_VolumeModel_DMX = 3,
/*! Logarithmic volume scale, used in Apogee Sound System. */
ADLMIDI_VolumeModel_APOGEE = 4,
/*! Aproximated and shorted volume map table. Similar to general, but has less granularity. */
ADLMIDI_VolumeModel_9X = 5
};
/**
* @brief Sound output format
*/
enum ADLMIDI_SampleType
{
/*! signed PCM 16-bit */
ADLMIDI_SampleType_S16 = 0,
/*! signed PCM 8-bit */
ADLMIDI_SampleType_S8,
/*! float 32-bit */
ADLMIDI_SampleType_F32,
/*! float 64-bit */
ADLMIDI_SampleType_F64,
/*! signed PCM 24-bit */
ADLMIDI_SampleType_S24,
/*! signed PCM 32-bit */
ADLMIDI_SampleType_S32,
/*! unsigned PCM 8-bit */
ADLMIDI_SampleType_U8,
/*! unsigned PCM 16-bit */
ADLMIDI_SampleType_U16,
/*! unsigned PCM 24-bit */
ADLMIDI_SampleType_U24,
/*! unsigned PCM 32-bit */
ADLMIDI_SampleType_U32,
/*! Count of available sample format types */
ADLMIDI_SampleType_Count
};
/**
* @brief Sound output format context
*/
struct ADLMIDI_AudioFormat
{
/*! type of sample */
enum ADLMIDI_SampleType type;
/*! size in bytes of the storage type */
unsigned containerSize;
/*! distance in bytes between consecutive samples */
unsigned sampleOffset;
};
/**
* @brief Instance of the library
*/
struct ADL_MIDIPlayer
{
/*! Private context descriptor */
void *adl_midiPlayer;
};
/* DEPRECATED */
#define adl_setNumCards adl_setNumChips
/**
* @brief Sets number of emulated chips (from 1 to 100). Emulation of multiple chips extends polyphony limits
* @param device Instance of the library
* @param numChips Count of virtual chips to emulate
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_setNumChips(struct ADL_MIDIPlayer *device, int numChips);
/**
* @brief Get current number of emulated chips
* @param device Instance of the library
* @return Count of working chip emulators
*/
extern ADLMIDI_DECLSPEC int adl_getNumChips(struct ADL_MIDIPlayer *device);
/**
* @brief Get obtained number of emulated chips
* @param device Instance of the library
* @return Count of working chip emulators
*/
extern ADLMIDI_DECLSPEC int adl_getNumChipsObtained(struct ADL_MIDIPlayer *device);
/**
* @brief Sets a number of the patches bank from 0 to N banks.
*
* Is recommended to call adl_reset() to apply changes to already-loaded file player or real-time.
*
* @param device Instance of the library
* @param bank Number of embedded bank
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_setBank(struct ADL_MIDIPlayer *device, int bank);
/**
* @brief Returns total number of available banks
* @return Total number of available embedded banks
*/
extern ADLMIDI_DECLSPEC int adl_getBanksCount();
/**
* @brief Returns pointer to array of names of every bank
* @return Array of strings containing the name of every embedded bank
*/
extern ADLMIDI_DECLSPEC const char *const *adl_getBankNames();
/**
* @brief Reference to dynamic bank
*/
typedef struct ADL_Bank
{
void *pointer[3];
} ADL_Bank;
/**
* @brief Identifier of dynamic bank
*/
typedef struct ADL_BankId
{
/*! 0 if bank is melodic set, or 1 if bank is a percussion set */
ADL_UInt8 percussive;
/*! Assign to MSB bank number */
ADL_UInt8 msb;
/*! Assign to LSB bank number */
ADL_UInt8 lsb;
} ADL_BankId;
/**
* @brief Flags for dynamic bank access
*/
enum ADL_BankAccessFlags
{
/*! create bank, allocating memory as needed */
ADLMIDI_Bank_Create = 1,
/*! create bank, never allocating memory */
ADLMIDI_Bank_CreateRt = 1|2
};
typedef struct ADL_Instrument ADL_Instrument;
/* ======== Setup ======== */
/**
* @brief Preallocates a minimum number of bank slots. Returns the actual capacity
* @param device Instance of the library
* @param banks Count of bank slots to pre-allocate.
* @return actual capacity of reserved bank slots.
*/
extern ADLMIDI_DECLSPEC int adl_reserveBanks(struct ADL_MIDIPlayer *device, unsigned banks);
/**
* @brief Gets the bank designated by the identifier, optionally creating if it does not exist
* @param device Instance of the library
* @param id Identifier of dynamic bank
* @param flags Flags for dynamic bank access (ADL_BankAccessFlags)
* @param bank Reference to dynamic bank
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_getBank(struct ADL_MIDIPlayer *device, const ADL_BankId *id, int flags, ADL_Bank *bank);
/**
* @brief Gets the identifier of a bank
* @param device Instance of the library
* @param bank Reference to dynamic bank.
* @param id Identifier of dynamic bank
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_getBankId(struct ADL_MIDIPlayer *device, const ADL_Bank *bank, ADL_BankId *id);
/**
* @brief Removes a bank
* @param device Instance of the library
* @param bank Reference to dynamic bank
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_removeBank(struct ADL_MIDIPlayer *device, ADL_Bank *bank);
/**
* @brief Gets the first bank
* @param device Instance of the library
* @param bank Reference to dynamic bank
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_getFirstBank(struct ADL_MIDIPlayer *device, ADL_Bank *bank);
/**
* @brief Iterates to the next bank
* @param device Instance of the library
* @param bank Reference to dynamic bank
* @return 0 on success, <0 when any error has occurred or end has been reached.
*/
extern ADLMIDI_DECLSPEC int adl_getNextBank(struct ADL_MIDIPlayer *device, ADL_Bank *bank);
/**
* @brief Gets the nth intrument in the bank [0..127]
* @param device Instance of the library
* @param bank Reference to dynamic bank
* @param index Index of the instrument
* @param ins Instrument entry
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_getInstrument(struct ADL_MIDIPlayer *device, const ADL_Bank *bank, unsigned index, ADL_Instrument *ins);
/**
* @brief Sets the nth intrument in the bank [0..127]
* @param device Instance of the library
* @param bank Reference to dynamic bank
* @param index Index of the instrument
* @param ins Instrument structure pointer
* @return 0 on success, <0 when any error has occurred
*
* This function allows to override an instrument on the fly
*/
extern ADLMIDI_DECLSPEC int adl_setInstrument(struct ADL_MIDIPlayer *device, ADL_Bank *bank, unsigned index, const ADL_Instrument *ins);
/**
* @brief Loads the melodic or percussive part of the nth embedded bank
* @param device Instance of the library
* @param bank Reference to dynamic bank
* @param num Number of embedded bank to load into the current bank array
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_loadEmbeddedBank(struct ADL_MIDIPlayer *device, ADL_Bank *bank, int num);
/**
* @brief Sets number of 4-operator channels between all chips
*
* By default, it is automatically re-calculating every bank change.
* If you want to specify custom number of four operator channels,
* please call this function after bank change (adl_setBank() or adl_openBank()),
* otherwise, value will be overwritten by auto-calculated.
* If the count is specified as -1, an auto-calculated amount is used instead.
*
* @param device Instance of the library
* @param ops4 Count of four-op channels to allocate between all emulating chips
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_setNumFourOpsChn(struct ADL_MIDIPlayer *device, int ops4);
/**
* @brief Get current total count of 4-operator channels between all chips
* @param device Instance of the library
* @return 0 on success, <-1 when any error has occurred, but, -1 - "auto"
*/
extern ADLMIDI_DECLSPEC int adl_getNumFourOpsChn(struct ADL_MIDIPlayer *device);
/**
* @brief Get obtained total count of 4-operator channels between all chips
* @param device Instance of the library
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_getNumFourOpsChnObtained(struct ADL_MIDIPlayer *device);
/**
* @brief Override Enable(1) or Disable(0) AdLib percussion mode. -1 - use bank default AdLib percussion mode
*
* This function forces rhythm-mode on any bank. The result will work glitchy.
*
* @param device Instance of the library
* @param percmod 0 - disabled, 1 - enabled
*/
extern ADLMIDI_DECLSPEC void adl_setPercMode(struct ADL_MIDIPlayer *device, int percmod);
/**
* @brief Override Enable(1) or Disable(0) deep vibrato state. -1 - use bank default vibrato state
* @param device Instance of the library
* @param hvibro 0 - disabled, 1 - enabled
*/
extern ADLMIDI_DECLSPEC void adl_setHVibrato(struct ADL_MIDIPlayer *device, int hvibro);
/**
* @brief Get the deep vibrato state.
* @param device Instance of the library
* @return deep vibrato state on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_getHVibrato(struct ADL_MIDIPlayer *device);
/**
* @brief Override Enable(1) or Disable(0) deep tremolo state. -1 - use bank default tremolo state
* @param device Instance of the library
* @param htremo 0 - disabled, 1 - enabled
*/
extern ADLMIDI_DECLSPEC void adl_setHTremolo(struct ADL_MIDIPlayer *device, int htremo);
/**
* @brief Get the deep tremolo state.
* @param device Instance of the library
* @return deep tremolo state on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_getHTremolo(struct ADL_MIDIPlayer *device);
/**
* @brief Override Enable(1) or Disable(0) scaling of modulator volumes. -1 - use bank default scaling of modulator volumes
* @param device Instance of the library
* @param smod 0 - disabled, 1 - enabled
*/
extern ADLMIDI_DECLSPEC void adl_setScaleModulators(struct ADL_MIDIPlayer *device, int smod);
/**
* @brief Enable(1) or Disable(0) full-range brightness (MIDI CC74 used in XG music to filter result sounding) scaling
*
* By default, brightness affects sound between 0 and 64.
* When this option is enabled, the brightness will use full range from 0 up to 127.
*
* @param device Instance of the library
* @param fr_brightness 0 - disabled, 1 - enabled
*/
extern ADLMIDI_DECLSPEC void adl_setFullRangeBrightness(struct ADL_MIDIPlayer *device, int fr_brightness);
/**
* @brief Enable or disable built-in loop (built-in loop supports 'loopStart' and 'loopEnd' tags to loop specific part)
* @param device Instance of the library
* @param loopEn 0 - disabled, 1 - enabled
*/
extern ADLMIDI_DECLSPEC void adl_setLoopEnabled(struct ADL_MIDIPlayer *device, int loopEn);
/**
* @brief Enable or disable soft panning with chip emulators
* @param device Instance of the library
* @param softPanEn 0 - disabled, 1 - enabled
*/
extern ADLMIDI_DECLSPEC void adl_setSoftPanEnabled(struct ADL_MIDIPlayer *device, int softPanEn);
/**
* @brief [DEPRECATED] Enable or disable Logarithmic volume changer
*
* This function is deprecated. Suggested replacement: `adl_setVolumeRangeModel` with `ADLMIDI_VolumeModel_NativeOPL3` volume model value;
*/
ADLMIDI_DEPRECATED("Use `adl_setVolumeRangeModel(device, ADLMIDI_VolumeModel_NativeOPL3)` instead")
extern ADLMIDI_DECLSPEC void adl_setLogarithmicVolumes(struct ADL_MIDIPlayer *device, int logvol);
/**
* @brief Set different volume range model
* @param device Instance of the library
* @param volumeModel Volume model type (#ADLMIDI_VolumeModels)
*/
extern ADLMIDI_DECLSPEC void adl_setVolumeRangeModel(struct ADL_MIDIPlayer *device, int volumeModel);
/**
* @brief Get the volume range model
* @param device Instance of the library
* @return volume model on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_getVolumeRangeModel(struct ADL_MIDIPlayer *device);
/**
* @brief Load WOPL bank file from File System
*
* Is recommended to call adl_reset() to apply changes to already-loaded file player or real-time.
*
* @param device Instance of the library
* @param filePath Absolute or relative path to the WOPL bank file. UTF8 encoding is required, even on Windows.
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_openBankFile(struct ADL_MIDIPlayer *device, const char *filePath);
/**
* @brief Load WOPL bank file from memory data
*
* Is recommended to call adl_reset() to apply changes to already-loaded file player or real-time.
*
* @param device Instance of the library
* @param mem Pointer to memory block where is raw data of WOPL bank file is stored
* @param size Size of given memory block
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_openBankData(struct ADL_MIDIPlayer *device, const void *mem, unsigned long size);
/**
* @brief [DEPRECATED] Dummy function
*
* This function is deprecated. Suggested replacement: `adl_chipEmulatorName`
*
* @return A string that contains a notice to use `adl_chipEmulatorName` instead of this function.
*/
ADLMIDI_DEPRECATED("Use `adl_chipEmulatorName(device)` instead")
extern ADLMIDI_DECLSPEC const char *adl_emulatorName();
/**
* @brief Returns chip emulator name string
* @param device Instance of the library
* @return Understandable name of current OPL3 emulator
*/
extern ADLMIDI_DECLSPEC const char *adl_chipEmulatorName(struct ADL_MIDIPlayer *device);
/**
* @brief List of available OPL3 emulators
*/
enum ADL_Emulator
{
/*! Nuked OPL3 v. 1.8 */
ADLMIDI_EMU_NUKED = 0,
/*! Nuked OPL3 v. 1.7.4 */
ADLMIDI_EMU_NUKED_174,
/*! DosBox */
ADLMIDI_EMU_DOSBOX,
/*! Count instrument on the level */
ADLMIDI_EMU_end
};
/**
* @brief Switch the emulation core
* @param device Instance of the library
* @param emulator Type of emulator (#ADL_Emulator)
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_switchEmulator(struct ADL_MIDIPlayer *device, int emulator);
/**
* @brief Library version context
*/
typedef struct {
ADL_UInt16 major;
ADL_UInt16 minor;
ADL_UInt16 patch;
} ADL_Version;
/**
* @brief Run emulator with PCM rate to reduce CPU usage on slow devices.
*
* May decrease sounding accuracy on some chip emulators.
*
* @param device Instance of the library
* @param enabled 0 - disabled, 1 - enabled
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_setRunAtPcmRate(struct ADL_MIDIPlayer *device, int enabled);
/**
* @brief Set 4-bit device identifier. Used by the SysEx processor.
* @param device Instance of the library
* @param id 4-bit device identifier
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_setDeviceIdentifier(struct ADL_MIDIPlayer *device, unsigned id);
/**
* @section Information
*/
/**
* @brief Returns string which contains a version number
* @return String which contains a version of the library
*/
extern ADLMIDI_DECLSPEC const char *adl_linkedLibraryVersion();
/**
* @brief Returns structure which contains a version number of library
* @return Library version context structure which contains version number of the library
*/
extern ADLMIDI_DECLSPEC const ADL_Version *adl_linkedVersion();
/* ======== Error Info ======== */
/**
* @brief Returns string which contains last error message of initialization
*
* Don't use this function to get info on any function except of `adl_init`!
* Use `adl_errorInfo()` to get error information while workflow
*
* @return String with error message related to library initialization
*/
extern ADLMIDI_DECLSPEC const char *adl_errorString();
/**
* @brief Returns string which contains last error message on specific device
* @param device Instance of the library
* @return String with error message related to last function call returned non-zero value.
*/
extern ADLMIDI_DECLSPEC const char *adl_errorInfo(struct ADL_MIDIPlayer *device);
/* ======== Initialization ======== */
/**
* @brief Initialize ADLMIDI Player device
*
* Tip 1: You can initialize multiple instances and run them in parallel
* Tip 2: Library is NOT thread-safe, therefore don't use same instance in different threads or use mutexes
* Tip 3: Changing of sample rate on the fly is not supported. Re-create the instance again.
*
* @param sample_rate Output sample rate
* @return Instance of the library. If NULL was returned, check the `adl_errorString` message for more info.
*/
extern ADLMIDI_DECLSPEC struct ADL_MIDIPlayer *adl_init(long sample_rate);
/**
* @brief Close and delete ADLMIDI device
* @param device Instance of the library
*/
extern ADLMIDI_DECLSPEC void adl_close(struct ADL_MIDIPlayer *device);
/* ======== MIDI Sequencer ======== */
/**
* @brief Load MIDI (or any other supported format) file from File System
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @param filePath Absolute or relative path to the music file. UTF8 encoding is required, even on Windows.
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_openFile(struct ADL_MIDIPlayer *device, const char *filePath);
/**
* @brief Load MIDI (or any other supported format) file from memory data
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @param mem Pointer to memory block where is raw data of music file is stored
* @param size Size of given memory block
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_openData(struct ADL_MIDIPlayer *device, const void *mem, unsigned long size);
/**
* @brief Resets MIDI player (per-channel setup) into initial state
* @param device Instance of the library
*/
extern ADLMIDI_DECLSPEC void adl_reset(struct ADL_MIDIPlayer *device);
/**
* @brief Get total time length of current song
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @return Total song length in seconds
*/
extern ADLMIDI_DECLSPEC double adl_totalTimeLength(struct ADL_MIDIPlayer *device);
/**
* @brief Get loop start time if presented.
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @return Time position in seconds of loop start point, or -1 when file has no loop points
*/
extern ADLMIDI_DECLSPEC double adl_loopStartTime(struct ADL_MIDIPlayer *device);
/**
* @brief Get loop endtime if presented.
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @return Time position in seconds of loop end point, or -1 when file has no loop points
*/
extern ADLMIDI_DECLSPEC double adl_loopEndTime(struct ADL_MIDIPlayer *device);
/**
* @brief Get current time position in seconds
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @return Current time position in seconds
*/
extern ADLMIDI_DECLSPEC double adl_positionTell(struct ADL_MIDIPlayer *device);
/**
* @brief Jump to absolute time position in seconds
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @param seconds Destination time position in seconds to seek
*/
extern ADLMIDI_DECLSPEC void adl_positionSeek(struct ADL_MIDIPlayer *device, double seconds);
/**
* @brief Reset MIDI track position to begin
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
*/
extern ADLMIDI_DECLSPEC void adl_positionRewind(struct ADL_MIDIPlayer *device);
/**
* @brief Set tempo multiplier
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @param tempo Tempo multiplier value: 1.0 - original tempo, >1 - play faster, <1 - play slower
*/
extern ADLMIDI_DECLSPEC void adl_setTempo(struct ADL_MIDIPlayer *device, double tempo);
/**
* @brief Returns 1 if music position has reached end
* @param device Instance of the library
* @return 1 when end of sing has been reached, otherwise, 0 will be returned. <0 is returned on any error
*/
extern ADLMIDI_DECLSPEC int adl_atEnd(struct ADL_MIDIPlayer *device);
/**
* @brief Returns the number of tracks of the current sequence
* @param device Instance of the library
* @return Count of tracks in the current sequence
*/
extern ADLMIDI_DECLSPEC size_t adl_trackCount(struct ADL_MIDIPlayer *device);
/**
* @brief Track options
*/
enum ADLMIDI_TrackOptions
{
/*! Enabled track */
ADLMIDI_TrackOption_On = 1,
/*! Disabled track */
ADLMIDI_TrackOption_Off = 2,
/*! Solo track */
ADLMIDI_TrackOption_Solo = 3
};
/**
* @brief Sets options on a track of the current sequence
* @param device Instance of the library
* @param trackNumber Identifier of the designated track.
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_setTrackOptions(struct ADL_MIDIPlayer *device, size_t trackNumber, unsigned trackOptions);
/**
* @brief Handler of callback trigger events
* @param userData Pointer to user data (usually, context of something)
* @param trigger Value of the event which triggered this callback.
* @param track Identifier of the track which triggered this callback.
*/
typedef void (*ADL_TriggerHandler)(void *userData, unsigned trigger, size_t track);
/**
* @brief Defines a handler for callback trigger events
* @param device Instance of the library
* @param handler Handler to invoke from the sequencer when triggered, or NULL.
* @param userData Instance of the library
* @return 0 on success, <0 when any error has occurred
*/
extern ADLMIDI_DECLSPEC int adl_setTriggerHandler(struct ADL_MIDIPlayer *device, ADL_TriggerHandler handler, void *userData);
/* ======== Meta-Tags ======== */
/**
* @brief Returns string which contains a music title
* @param device Instance of the library
* @return A string that contains music title
*/
extern ADLMIDI_DECLSPEC const char *adl_metaMusicTitle(struct ADL_MIDIPlayer *device);
/**
* @brief Returns string which contains a copyright string*
* @param device Instance of the library
* @return A string that contains copyright notice, otherwise NULL
*/
extern ADLMIDI_DECLSPEC const char *adl_metaMusicCopyright(struct ADL_MIDIPlayer *device);
/**
* @brief Returns count of available track titles
*
* NOTE: There are CAN'T be associated with channel in any of event or note hooks
*
* @param device Instance of the library
* @return Count of available MIDI tracks, otherwise NULL
*/
extern ADLMIDI_DECLSPEC size_t adl_metaTrackTitleCount(struct ADL_MIDIPlayer *device);
/**
* @brief Get track title by index
* @param device Instance of the library
* @param index Index of the track to retreive the title
* @return A string that contains track title, otherwise NULL.
*/
extern ADLMIDI_DECLSPEC const char *adl_metaTrackTitle(struct ADL_MIDIPlayer *device, size_t index);
/**
* @brief MIDI Marker structure
*/
struct Adl_MarkerEntry
{
/*! MIDI Marker title */
const char *label;
/*! Absolute time position of the marker in seconds */
double pos_time;
/*! Absolute time position of the marker in MIDI ticks */
unsigned long pos_ticks;
};
/**
* @brief Returns count of available markers
* @param device Instance of the library
* @return Count of available MIDI markers
*/
extern ADLMIDI_DECLSPEC size_t adl_metaMarkerCount(struct ADL_MIDIPlayer *device);
/**
* @brief Returns the marker entry
* @param device Instance of the library
* @param index Index of the marker to retreive it.
* @return MIDI Marker description structure.
*/
extern ADLMIDI_DECLSPEC struct Adl_MarkerEntry adl_metaMarker(struct ADL_MIDIPlayer *device, size_t index);
/* ======== Audio output Generation ======== */
/**
* @brief Generate PCM signed 16-bit stereo audio output and iterate MIDI timers
*
* Use this function when you are playing MIDI file loaded by `adl_openFile` or by `adl_openData`
* with using of built-in MIDI sequencer.
*
* Don't use count of frames, use instead count of samples. One frame is two samples.
* So, for example, if you want to take 10 frames, you must to request amount of 20 samples!
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @param sampleCount Count of samples (not frames!)
* @param out Pointer to output with 16-bit stereo PCM output
* @return Count of given samples, otherwise, 0 or when catching an error while playing
*/
extern ADLMIDI_DECLSPEC int adl_play(struct ADL_MIDIPlayer *device, int sampleCount, short *out);
/**
* @brief Generate PCM stereo audio output in sample format declared by given context and iterate MIDI timers
*
* Use this function when you are playing MIDI file loaded by `adl_openFile` or by `adl_openData`
* with using of built-in MIDI sequencer.
*
* Don't use count of frames, use instead count of samples. One frame is two samples.
* So, for example, if you want to take 10 frames, you must to request amount of 20 samples!
*
* Available when library is built with built-in MIDI Sequencer support.
*
* @param device Instance of the library
* @param sampleCount Count of samples (not frames!)
* @param left Left channel buffer output (Must be casted into bytes array)
* @param right Right channel buffer output (Must be casted into bytes array)
* @param format Destination PCM format format context
* @return Count of given samples, otherwise, 0 or when catching an error while playing
*/
extern ADLMIDI_DECLSPEC int adl_playFormat(struct ADL_MIDIPlayer *device, int sampleCount, ADL_UInt8 *left, ADL_UInt8 *right, const struct ADLMIDI_AudioFormat *format);
/**
* @brief Generate PCM signed 16-bit stereo audio output without iteration of MIDI timers
*
* Use this function when you are using library as Real-Time MIDI synthesizer or with
* an external MIDI sequencer. You must to request the amount of samples which is equal
* to the delta between of MIDI event rows. One MIDI row is a group of MIDI events
* are having zero delta/delay between each other. When you are receiving events in
* real time, request the minimal possible delay value.
*
* Don't use count of frames, use instead count of samples. One frame is two samples.
* So, for example, if you want to take 10 frames, you must to request amount of 20 samples!
*
* @param device Instance of the library
* @param sampleCount
* @param out Pointer to output with 16-bit stereo PCM output
* @return Count of given samples, otherwise, 0 or when catching an error while playing
*/
extern ADLMIDI_DECLSPEC int adl_generate(struct ADL_MIDIPlayer *device, int sampleCount, short *out);
/**
* @brief Generate PCM stereo audio output in sample format declared by given context without iteration of MIDI timers
*
* Use this function when you are using library as Real-Time MIDI synthesizer or with
* an external MIDI sequencer. You must to request the amount of samples which is equal
* to the delta between of MIDI event rows. One MIDI row is a group of MIDI events
* are having zero delta/delay between each other. When you are receiving events in
* real time, request the minimal possible delay value.
*
* Don't use count of frames, use instead count of samples. One frame is two samples.
* So, for example, if you want to take 10 frames, you must to request amount of 20 samples!
*
* @param device Instance of the library
* @param sampleCount
* @param left Left channel buffer output (Must be casted into bytes array)
* @param right Right channel buffer output (Must be casted into bytes array)
* @param format Destination PCM format format context
* @return Count of given samples, otherwise, 0 or when catching an error while playing
*/
extern ADLMIDI_DECLSPEC int adl_generateFormat(struct ADL_MIDIPlayer *device, int sampleCount, ADL_UInt8 *left, ADL_UInt8 *right, const struct ADLMIDI_AudioFormat *format);
/**
* @brief Periodic tick handler.
*
* Notice: The function is provided to use it with Hardware OPL3 mode or for the purpose to iterate
* MIDI playback without of sound generation.
*
* DON'T USE IT TOGETHER WITH adl_play() and adl_playFormat() calls
* as there are all using this function internally!!!
*
* @param device Instance of the library
* @param seconds Previous delay. On a first moment, pass the `0.0`
* @param granulality Minimal size of one MIDI tick in seconds.
* @return desired number of seconds until next call. Pass this value into `seconds` field in next time
*/
extern ADLMIDI_DECLSPEC double adl_tickEvents(struct ADL_MIDIPlayer *device, double seconds, double granulality);
/* ======== Real-Time MIDI ======== */
/**
* @brief Force Off all notes on all channels
* @param device Instance of the library
*/
extern ADLMIDI_DECLSPEC void adl_panic(struct ADL_MIDIPlayer *device);
/**
* @brief Reset states of all controllers on all MIDI channels
* @param device Instance of the library
*/
extern ADLMIDI_DECLSPEC void adl_rt_resetState(struct ADL_MIDIPlayer *device);
/**
* @brief Turn specific MIDI note ON
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param note Note number to on [Between 0 and 127]
* @param velocity Velocity level [Between 0 and 127]
* @return 1 when note was successfully started, 0 when note was rejected by any reason.
*/
extern ADLMIDI_DECLSPEC int adl_rt_noteOn(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 note, ADL_UInt8 velocity);
/**
* @brief Turn specific MIDI note OFF
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param note Note number to off [Between 0 and 127]
*/
extern ADLMIDI_DECLSPEC void adl_rt_noteOff(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 note);
/**
* @brief Set note after-touch
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param note Note number to affect by aftertouch event [Between 0 and 127]
* @param atVal After-Touch value [Between 0 and 127]
*/
extern ADLMIDI_DECLSPEC void adl_rt_noteAfterTouch(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 note, ADL_UInt8 atVal);
/**
* @brief Set channel after-touch
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param atVal After-Touch level [Between 0 and 127]
*/
extern ADLMIDI_DECLSPEC void adl_rt_channelAfterTouch(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 atVal);
/**
* @brief Apply controller change
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param type Type of the controller [Between 0 and 255]
* @param value Value of the controller event [Between 0 and 127]
*/
extern ADLMIDI_DECLSPEC void adl_rt_controllerChange(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 type, ADL_UInt8 value);
/**
* @brief Apply patch change
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param patch Patch number [Between 0 and 127]
*/
extern ADLMIDI_DECLSPEC void adl_rt_patchChange(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 patch);
/**
* @brief Apply pitch bend change
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param pitch 24-bit pitch bend value
*/
extern ADLMIDI_DECLSPEC void adl_rt_pitchBend(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt16 pitch);
/**
* @brief Apply pitch bend change
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param msb MSB part of 24-bit pitch bend value
* @param lsb LSB part of 24-bit pitch bend value
*/
extern ADLMIDI_DECLSPEC void adl_rt_pitchBendML(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 msb, ADL_UInt8 lsb);
/**
* @brief Change LSB of the bank number (Alias to CC-32 event)
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param lsb LSB value of the MIDI bank number
*/
extern ADLMIDI_DECLSPEC void adl_rt_bankChangeLSB(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 lsb);
/**
* @brief Change MSB of the bank (Alias to CC-0 event)
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param msb MSB value of the MIDI bank number
*/
extern ADLMIDI_DECLSPEC void adl_rt_bankChangeMSB(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_UInt8 msb);
/**
* @brief Change bank by absolute signed value
* @param device Instance of the library
* @param channel Target MIDI channel [Between 0 and 16]
* @param bank Bank number as concoctated signed 16-bit value of MSB and LSB parts.
*/
extern ADLMIDI_DECLSPEC void adl_rt_bankChange(struct ADL_MIDIPlayer *device, ADL_UInt8 channel, ADL_SInt16 bank);
/**
* @brief Perform a system exclusive message
* @param device Instance of the library
* @param msg Raw SysEx message buffer (must begin with 0xF0 and end with 0xF7)
* @param size Size of given SysEx message buffer
* @return 1 when SysEx message was successfully processed, 0 when SysEx message was rejected by any reason
*/
extern ADLMIDI_DECLSPEC int adl_rt_systemExclusive(struct ADL_MIDIPlayer *device, const ADL_UInt8 *msg, size_t size);
/* ======== Hooks and debugging ======== */
/**
* @brief Raw event callback
* @param userdata Pointer to user data (usually, context of someting)
* @param type MIDI event type
* @param subtype MIDI event sub-type (special events only)
* @param channel MIDI channel
* @param data Raw event data
* @param len Length of event data
*/
typedef void (*ADL_RawEventHook)(void *userdata, ADL_UInt8 type, ADL_UInt8 subtype, ADL_UInt8 channel, const ADL_UInt8 *data, size_t len);
/**
* @brief Note on/off callback
* @param userdata Pointer to user data (usually, context of someting)
* @param adlchn Chip channel where note was played
* @param note Note number [between 0 and 127]
* @param pressure Velocity level, or -1 when it's note off event
* @param bend Pitch bend offset value
*/
typedef void (*ADL_NoteHook)(void *userdata, int adlchn, int note, int ins, int pressure, double bend);
/**
* @brief Debug messages callback
* @param userdata Pointer to user data (usually, context of someting)
* @param fmt Format strign output (in context of `printf()` standard function)
*/
typedef void (*ADL_DebugMessageHook)(void *userdata, const char *fmt, ...);
/**
* @brief Set raw MIDI event hook
* @param device Instance of the library
* @param rawEventHook Pointer to the callback function which will be called on every MIDI event
* @param userData Pointer to user data which will be passed through the callback.
*/
extern ADLMIDI_DECLSPEC void adl_setRawEventHook(struct ADL_MIDIPlayer *device, ADL_RawEventHook rawEventHook, void *userData);
/**
* @brief Set note hook
* @param device Instance of the library
* @param noteHook Pointer to the callback function which will be called on every noteOn MIDI event
* @param userData Pointer to user data which will be passed through the callback.
*/
extern ADLMIDI_DECLSPEC void adl_setNoteHook(struct ADL_MIDIPlayer *device, ADL_NoteHook noteHook, void *userData);
/**
* @brief Set debug message hook
* @param device Instance of the library
* @param debugMessageHook Pointer to the callback function which will be called on every debug message
* @param userData Pointer to user data which will be passed through the callback.
*/
extern ADLMIDI_DECLSPEC void adl_setDebugMessageHook(struct ADL_MIDIPlayer *device, ADL_DebugMessageHook debugMessageHook, void *userData);
/**
* @brief Get a textual description of the channel state. For display only.
* @param device Instance of the library
* @param text Destination char buffer for channel usage state. Every entry is assigned to the chip channel.
* @param attr Destination char buffer for additional attributes like MIDI channel number that uses this chip channel.
* @param size Size of given buffers (both text and attr are must have same size!)
* @return 0 on success, <0 when any error has occurred
*
* Every character in the `text` buffer means the type of usage:
* ```
* `-` - channel is unused (free)
* `+` - channel is used by two-operator voice
* `#` - channel is used by four-operator voice
* `@` - channel is used to play automatic arpeggio on chip channels overflow
* `r` - rhythm-mode channel note
* ```
*
* The `attr` field receives the MIDI channel from which the chip channel is used.
* To get the valid MIDI channel you will need to apply the & 0x0F mask to every value.
*/
extern ADLMIDI_DECLSPEC int adl_describeChannels(struct ADL_MIDIPlayer *device, char *text, char *attr, size_t size);
/* ======== Instrument structures ======== */
/**
* @brief Version of the instrument data format
*/
enum
{
ADLMIDI_InstrumentVersion = 0
};
/**
* @brief Instrument flags
*/
typedef enum ADL_InstrumentFlags
{
/*! Is two-operator single-voice instrument (no flags) */
ADLMIDI_Ins_2op = 0x00,
/*! Is true four-operator instrument */
ADLMIDI_Ins_4op = 0x01,
/*! Is pseudo four-operator (two 2-operator voices) instrument */
ADLMIDI_Ins_Pseudo4op = 0x02,
/*! Is a blank instrument entry */
ADLMIDI_Ins_IsBlank = 0x04,
/*! RythmMode flags mask */
ADLMIDI_Ins_RhythmModeMask = 0x38,
/*! Mask of the flags range */
ADLMIDI_Ins_ALL_MASK = 0x07
} ADL_InstrumentFlags;
/**
* @brief Rhythm-mode drum type
*/
typedef enum ADL_RhythmMode
{
/*! RythmMode: BassDrum */
ADLMIDI_RM_BassDrum = 0x08,
/*! RythmMode: Snare */
ADLMIDI_RM_Snare = 0x10,
/*! RythmMode: TomTom */
ADLMIDI_RM_TomTom = 0x18,
/*! RythmMode: Cymbal */
ADLMIDI_RM_Cymbal = 0x20,
/*! RythmMode: HiHat */
ADLMIDI_RM_HiHat = 0x28
} ADL_RhythmMode;
/**
* @brief Operator structure, part of Instrument structure
*/
typedef struct ADL_Operator
{
/*! AM/Vib/Env/Ksr/FMult characteristics */
ADL_UInt8 avekf_20;
/*! Key Scale Level / Total level register data */
ADL_UInt8 ksl_l_40;
/*! Attack / Decay */
ADL_UInt8 atdec_60;
/*! Systain and Release register data */
ADL_UInt8 susrel_80;
/*! Wave form */
ADL_UInt8 waveform_E0;
} ADL_Operator;
/**
* @brief Instrument structure
*/
typedef struct ADL_Instrument
{
/*! Version of the instrument object */
int version;
/*! MIDI note key (half-tone) offset for an instrument (or a first voice in pseudo-4-op mode) */
ADL_SInt16 note_offset1;
/*! MIDI note key (half-tone) offset for a second voice in pseudo-4-op mode */
ADL_SInt16 note_offset2;
/*! MIDI note velocity offset (taken from Apogee TMB format) */
ADL_SInt8 midi_velocity_offset;
/*! Second voice detune level (taken from DMX OP2) */
ADL_SInt8 second_voice_detune;
/*! Percussion MIDI base tone number at which this drum will be played */
ADL_UInt8 percussion_key_number;
/**
* @var inst_flags
* @brief Instrument flags
*
* Enums: #ADL_InstrumentFlags and #ADL_RhythmMode
*
* Bitwise flags bit map:
* ```
* [0EEEDCBA]
* A) 0x00 - 2-operator mode
* B) 0x01 - 4-operator mode
* C) 0x02 - pseudo-4-operator (two 2-operator voices) mode
* D) 0x04 - is 'blank' instrument (instrument which has no sound)
* E) 0x38 - Reserved for rhythm-mode percussion type number (three bits number)
* -> 0x00 - Melodic or Generic drum (rhythm-mode is disabled)
* -> 0x08 - is Bass drum
* -> 0x10 - is Snare
* -> 0x18 - is Tom-tom
* -> 0x20 - is Cymbal
* -> 0x28 - is Hi-hat
* 0) Reserved / Unused
* ```
*/
ADL_UInt8 inst_flags;
/*! Feedback&Connection register for first and second operators */
ADL_UInt8 fb_conn1_C0;
/*! Feedback&Connection register for third and fourth operators */
ADL_UInt8 fb_conn2_C0;
/*! Operators register data */
ADL_Operator operators[4];
/*! Millisecond delay of sounding while key is on */
ADL_UInt16 delay_on_ms;
/*! Millisecond delay of sounding after key off */
ADL_UInt16 delay_off_ms;
} ADL_Instrument;
#ifdef __cplusplus
}
#endif
#endif /* ADLMIDI_H */