gzdoom-gles/bin/windows/zmusic/include/zmusic.h
2020-02-09 08:56:49 +01:00

420 lines
No EOL
15 KiB
C

#ifndef __ZMUSIC_H_
#define __ZMUSIC_H_
#include <stdlib.h>
#include <stdint.h>
#include <stdarg.h>
struct SoundDecoder; // Anonymous to the client.
typedef unsigned char zmusic_bool;
// These constants must match the corresponding values of the Windows headers
// to avoid readjustment in the native Windows device's playback functions
// and should not be changed.
typedef enum EMidiDeviceClass_
{
MIDIDEV_MIDIPORT = 1,
MIDIDEV_SYNTH,
MIDIDEV_SQSYNTH,
MIDIDEV_FMSYNTH,
MIDIDEV_MAPPER,
MIDIDEV_WAVETABLE,
MIDIDEV_SWSYNTH
} EMidiDeviceClass;
typedef enum EMIDIType_
{
MIDI_NOTMIDI,
MIDI_MIDI,
MIDI_HMI,
MIDI_XMI,
MIDI_MUS
} EMIDIType;
typedef enum EMidiDevice_
{
MDEV_DEFAULT = -1,
MDEV_STANDARD = 0,
MDEV_OPL = 1,
MDEV_SNDSYS = 2,
MDEV_TIMIDITY = 3,
MDEV_FLUIDSYNTH = 4,
MDEV_GUS = 5,
MDEV_WILDMIDI = 6,
MDEV_ADL = 7,
MDEV_OPN = 8,
MDEV_COUNT
} EMidiDevice;
typedef enum ESoundFontTypes_
{
SF_SF2 = 1,
SF_GUS = 2,
SF_WOPL = 4,
SF_WOPN = 8
} ESoundFontTypes;
typedef struct SoundStreamInfo_
{
int mBufferSize; // If mBufferSize is 0, the song doesn't use streaming but plays through a different interface.
int mSampleRate;
int mNumChannels; // If mNumChannels is negative, 16 bit integer format is used instead of floating point.
} SoundStreamInfo;
typedef enum SampleType_
{
SampleType_UInt8,
SampleType_Int16
} SampleType;
typedef enum ChannelConfig_
{
ChannelConfig_Mono,
ChannelConfig_Stereo
} ChannelConfig;
typedef enum EIntConfigKey_
{
zmusic_adl_chips_count,
zmusic_adl_emulator_id,
zmusic_adl_run_at_pcm_rate,
zmusic_adl_fullpan,
zmusic_adl_bank,
zmusic_adl_use_custom_bank,
zmusic_adl_volume_model,
zmusic_fluid_reverb,
zmusic_fluid_chorus,
zmusic_fluid_voices,
zmusic_fluid_interp,
zmusic_fluid_samplerate,
zmusic_fluid_threads,
zmusic_fluid_chorus_voices,
zmusic_fluid_chorus_type,
zmusic_opl_numchips,
zmusic_opl_core,
zmusic_opl_fullpan,
zmusic_opn_chips_count,
zmusic_opn_emulator_id,
zmusic_opn_run_at_pcm_rate,
zmusic_opn_fullpan,
zmusic_opn_use_custom_bank,
zmusic_gus_dmxgus,
zmusic_gus_midi_voices,
zmusic_gus_memsize,
zmusic_timidity_modulation_wheel,
zmusic_timidity_portamento,
zmusic_timidity_reverb,
zmusic_timidity_reverb_level,
zmusic_timidity_chorus,
zmusic_timidity_surround_chorus,
zmusic_timidity_channel_pressure,
zmusic_timidity_lpf_def,
zmusic_timidity_temper_control,
zmusic_timidity_modulation_envelope,
zmusic_timidity_overlap_voice_allow,
zmusic_timidity_drum_effect,
zmusic_timidity_pan_delay,
zmusic_timidity_key_adjust,
zmusic_wildmidi_reverb,
zmusic_wildmidi_enhanced_resampling,
zmusic_snd_midiprecache,
zmusic_mod_samplerate,
zmusic_mod_volramp,
zmusic_mod_interp,
zmusic_mod_autochip,
zmusic_mod_autochip_size_force,
zmusic_mod_autochip_size_scan,
zmusic_mod_autochip_scan_threshold,
zmusic_snd_streambuffersize,
zmusic_snd_mididevice,
zmusic_snd_outputrate,
NUM_ZMUSIC_INT_CONFIGS
} EIntConfigKey;
typedef enum EFloatConfigKey_
{
zmusic_fluid_gain = 1000,
zmusic_fluid_reverb_roomsize,
zmusic_fluid_reverb_damping,
zmusic_fluid_reverb_width,
zmusic_fluid_reverb_level,
zmusic_fluid_chorus_level,
zmusic_fluid_chorus_speed,
zmusic_fluid_chorus_depth,
zmusic_timidity_drum_power,
zmusic_timidity_tempo_adjust,
zmusic_timidity_min_sustain_time,
zmusic_gme_stereodepth,
zmusic_mod_dumb_mastervolume,
zmusic_snd_musicvolume,
zmusic_relative_volume,
zmusic_snd_mastervolume,
NUM_FLOAT_CONFIGS
} EFloatConfigKey;
typedef enum EStringConfigKey_
{
zmusic_adl_custom_bank = 2000,
zmusic_fluid_lib,
zmusic_fluid_patchset,
zmusic_opn_custom_bank,
zmusic_gus_config,
zmusic_gus_patchdir,
zmusic_timidity_config,
zmusic_wildmidi_config,
NUM_STRING_CONFIGS
} EStringConfigKey;
typedef struct ZMusicCustomReader_
{
void* handle;
char* (*gets)(struct ZMusicCustomReader_* handle, char* buff, int n);
long (*read)(struct ZMusicCustomReader_* handle, void* buff, int32_t size);
long (*seek)(struct ZMusicCustomReader_* handle, long offset, int whence);
long (*tell)(struct ZMusicCustomReader_* handle);
void (*close)(struct ZMusicCustomReader_* handle);
} ZMusicCustomReader;
typedef struct ZMusicMidiOutDevice_
{
char *Name;
int ID;
int Technology;
} ZMusicMidiOutDevice;
typedef enum EZMusicMessageSeverity_
{
ZMUSIC_MSG_VERBOSE = 1,
ZMUSIC_MSG_DEBUG = 5,
ZMUSIC_MSG_NOTIFY = 10,
ZMUSIC_MSG_WARNING = 50,
ZMUSIC_MSG_ERROR = 100,
ZMUSIC_MSG_FATAL = 666,
} EZMusicMessageSeverity;
typedef struct ZMusicCallbacks_
{
// Callbacks the client can install to capture messages from the backends
// or to provide sound font data.
void (*MessageFunc)(int severity, const char* msg);
// The message callbacks are optional, without them the output goes to stdout.
// Retrieves the path to a soundfont identified by an identifier. Only needed if the client virtualizes the sound font names
const char *(*PathForSoundfont)(const char *name, int type);
// The sound font callbacks are for allowing the client to customize sound font management and they are optional.
// They only need to be defined if the client virtualizes the sound font management and doesn't pass real paths to the music code.
// Without them only paths to real files can be used. If one of these gets set, all must be set.
// This opens a sound font. Must return a handle with which the sound font's content can be read.
void *(*OpenSoundFont)(const char* name, int type);
// Opens a file in the sound font. For GUS patch sets this will try to open each patch with this function.
// For other formats only the sound font's actual name can be requested.
// When passed NULL this must open the Timidity config file, if this is requested for an SF2 sound font it should be synthesized.
ZMusicCustomReader* (*SF_OpenFile)(void* handle, const char* fn);
//Adds a path to the list of directories in which files must be looked for.
void (*SF_AddToSearchPath)(void* handle, const char* path);
// Closes the sound font reader.
void (*SF_Close)(void* handle);
// Used to handle client-specific path macros. If not set, the path may not contain any special tokens that may need expansion.
const char *(*NicePath)(const char* path);
} ZMusicCallbacks;
typedef enum ZMusicVariableType_
{
ZMUSIC_VAR_INT,
ZMUSIC_VAR_BOOL,
ZMUSIC_VAR_FLOAT,
ZMUSIC_VAR_STRING,
} ZMusicVariableType;
typedef struct ZMusicConfigurationSetting_
{
const char* name;
int identifier;
ZMusicVariableType type;
float defaultVal;
const char* defaultString;
} ZMusicConfigurationSetting;
#ifndef ZMUSIC_INTERNAL
#ifdef _MSC_VER
#define DLL_IMPORT _declspec(dllimport)
#else // !_MSC_VER
#define DLL_IMPORT
#endif // _MSC_VER
// Note that the internal 'class' definitions are not C compatible!
typedef struct { int zm1; } *ZMusic_MidiSource;
typedef struct { int zm2; } *ZMusic_MusicStream;
struct SoundDecoder;
#endif
#ifndef ZMUSIC_NO_PROTOTYPES
#ifdef __cplusplus
extern "C"
{
#endif
DLL_IMPORT const char* ZMusic_GetLastError();
// Sets callbacks for functionality that the client needs to provide.
DLL_IMPORT void ZMusic_SetCallbacks(const ZMusicCallbacks* callbacks);
// Sets GenMidi data for OPL playback. If this isn't provided the OPL synth will not work.
DLL_IMPORT void ZMusic_SetGenMidi(const uint8_t* data);
// Set default bank for OPN. Without this OPN only works with custom banks.
DLL_IMPORT void ZMusic_SetWgOpn(const void* data, unsigned len);
// Set DMXGUS data for running the GUS synth in actual GUS mode.
DLL_IMPORT void ZMusic_SetDmxGus(const void* data, unsigned len);
// Returns an array with all available configuration options - terminated with an empty entry where all elements are 0.
DLL_IMPORT const ZMusicConfigurationSetting* ZMusic_GetConfiguration();
// These exports are needed by the MIDI dumpers which need to remain on the client side because the need access to the client's file system.
DLL_IMPORT EMIDIType ZMusic_IdentifyMIDIType(uint32_t* id, int size);
DLL_IMPORT ZMusic_MidiSource ZMusic_CreateMIDISource(const uint8_t* data, size_t length, EMIDIType miditype);
DLL_IMPORT zmusic_bool ZMusic_MIDIDumpWave(ZMusic_MidiSource source, EMidiDevice devtype, const char* devarg, const char* outname, int subsong, int samplerate);
DLL_IMPORT ZMusic_MusicStream ZMusic_OpenSong(ZMusicCustomReader* reader, EMidiDevice device, const char* Args);
DLL_IMPORT ZMusic_MusicStream ZMusic_OpenSongFile(const char *filename, EMidiDevice device, const char* Args);
DLL_IMPORT ZMusic_MusicStream ZMusic_OpenSongMem(const void *mem, size_t size, EMidiDevice device, const char* Args);
DLL_IMPORT ZMusic_MusicStream ZMusic_OpenCDSong(int track, int cdid);
DLL_IMPORT zmusic_bool ZMusic_FillStream(ZMusic_MusicStream stream, void* buff, int len);
DLL_IMPORT zmusic_bool ZMusic_Start(ZMusic_MusicStream song, int subsong, zmusic_bool loop);
DLL_IMPORT void ZMusic_Pause(ZMusic_MusicStream song);
DLL_IMPORT void ZMusic_Resume(ZMusic_MusicStream song);
DLL_IMPORT void ZMusic_Update(ZMusic_MusicStream song);
DLL_IMPORT zmusic_bool ZMusic_IsPlaying(ZMusic_MusicStream song);
DLL_IMPORT void ZMusic_Stop(ZMusic_MusicStream song);
DLL_IMPORT void ZMusic_Close(ZMusic_MusicStream song);
DLL_IMPORT zmusic_bool ZMusic_SetSubsong(ZMusic_MusicStream song, int subsong);
DLL_IMPORT zmusic_bool ZMusic_IsLooping(ZMusic_MusicStream song);
DLL_IMPORT zmusic_bool ZMusic_IsMIDI(ZMusic_MusicStream song);
DLL_IMPORT void ZMusic_VolumeChanged(ZMusic_MusicStream song);
DLL_IMPORT zmusic_bool ZMusic_WriteSMF(ZMusic_MidiSource source, const char* fn, int looplimit);
DLL_IMPORT void ZMusic_GetStreamInfo(ZMusic_MusicStream song, SoundStreamInfo *info);
// Configuration interface. The return value specifies if a music restart is needed.
// RealValue should be written back to the CVAR or whatever other method the client uses to store configuration state.
DLL_IMPORT zmusic_bool ChangeMusicSettingInt(EIntConfigKey key, ZMusic_MusicStream song, int value, int* pRealValue);
DLL_IMPORT zmusic_bool ChangeMusicSettingFloat(EFloatConfigKey key, ZMusic_MusicStream song, float value, float* pRealValue);
DLL_IMPORT zmusic_bool ChangeMusicSettingString(EStringConfigKey key, ZMusic_MusicStream song, const char* value);
DLL_IMPORT const char *ZMusic_GetStats(ZMusic_MusicStream song);
DLL_IMPORT struct SoundDecoder* CreateDecoder(const uint8_t* data, size_t size, zmusic_bool isstatic);
DLL_IMPORT void SoundDecoder_GetInfo(struct SoundDecoder* decoder, int* samplerate, ChannelConfig* chans, SampleType* type);
DLL_IMPORT size_t SoundDecoder_Read(struct SoundDecoder* decoder, void* buffer, size_t length);
DLL_IMPORT void SoundDecoder_Close(struct SoundDecoder* decoder);
DLL_IMPORT void FindLoopTags(const uint8_t* data, size_t size, uint32_t* start, zmusic_bool* startass, uint32_t* end, zmusic_bool* endass);
// The rest of the decoder interface is only useful for streaming music.
DLL_IMPORT const ZMusicMidiOutDevice *ZMusic_GetMidiDevices(int *pAmount);
DLL_IMPORT int ZMusic_GetADLBanks(const char* const** pNames);
// Direct access to the CD drive.
// Stops playing the CD
DLL_IMPORT void CD_Stop();
// Pauses CD playing
DLL_IMPORT void CD_Pause();
// Resumes CD playback after pausing
DLL_IMPORT zmusic_bool CD_Resume();
// Eject the CD tray
DLL_IMPORT void CD_Eject();
// Close the CD tray
DLL_IMPORT zmusic_bool CD_UnEject();
// Closes a CD device previously opened with CD_Init
DLL_IMPORT void CD_Close();
DLL_IMPORT zmusic_bool CD_Enable(const char* drive);
#ifdef __cplusplus
}
inline bool ChangeMusicSetting(EIntConfigKey key, ZMusic_MusicStream song, int value, int* pRealValue = NULL)
{
return ChangeMusicSettingInt(key, song, value, pRealValue);
}
inline bool ChangeMusicSetting(EFloatConfigKey key, ZMusic_MusicStream song, float value, float* pRealValue = NULL)
{
return ChangeMusicSettingFloat(key, song, value, pRealValue);
}
inline bool ChangeMusicSetting(EStringConfigKey key, ZMusic_MusicStream song, const char* value)
{
return ChangeMusicSettingString(key, song, value);
}
#endif
#endif
// Function typedefs for run-time linking
typedef const char* (*pfn_ZMusic_GetLastError)();
typedef void (*pfn_ZMusic_SetCallbacks)(const ZMusicCallbacks* callbacks);
typedef void (*pfn_ZMusic_SetGenMidi)(const uint8_t* data);
typedef void (*pfn_ZMusic_SetWgOpn)(const void* data, unsigned len);
typedef void (*pfn_ZMusic_SetDmxGus)(const void* data, unsigned len);
typedef const ZMusicConfigurationSetting* (*pfn_ZMusic_GetConfiguration)();
typedef EMIDIType (*pfn_ZMusic_IdentifyMIDIType)(uint32_t* id, int size);
typedef ZMusic_MidiSource (*pfn_ZMusic_CreateMIDISource)(const uint8_t* data, size_t length, EMIDIType miditype);
typedef zmusic_bool (*pfn_ZMusic_MIDIDumpWave)(ZMusic_MidiSource source, EMidiDevice devtype, const char* devarg, const char* outname, int subsong, int samplerate);
typedef ZMusic_MusicStream (*pfn_ZMusic_OpenSong)(ZMusicCustomReader* reader, EMidiDevice device, const char* Args);
typedef ZMusic_MusicStream (*pfn_ZMusic_OpenSongFile)(const char *filename, EMidiDevice device, const char* Args);
typedef ZMusic_MusicStream (*pfn_ZMusic_OpenSongMem)(const void *mem, size_t size, EMidiDevice device, const char* Args);
typedef ZMusic_MusicStream (*pfn_ZMusic_OpenCDSong)(int track, int cdid);
typedef zmusic_bool (*pfn_ZMusic_FillStream)(ZMusic_MusicStream stream, void* buff, int len);
typedef zmusic_bool (*pfn_ZMusic_Start)(ZMusic_MusicStream song, int subsong, zmusic_bool loop);
typedef void (*pfn_ZMusic_Pause)(ZMusic_MusicStream song);
typedef void (*pfn_ZMusic_Resume)(ZMusic_MusicStream song);
typedef void (*pfn_ZMusic_Update)(ZMusic_MusicStream song);
typedef zmusic_bool (*pfn_ZMusic_IsPlaying)(ZMusic_MusicStream song);
typedef void (*pfn_ZMusic_Stop)(ZMusic_MusicStream song);
typedef void (*pfn_ZMusic_Close)(ZMusic_MusicStream song);
typedef zmusic_bool (*pfn_ZMusic_SetSubsong)(ZMusic_MusicStream song, int subsong);
typedef zmusic_bool (*pfn_ZMusic_IsLooping)(ZMusic_MusicStream song);
typedef zmusic_bool (*pfn_ZMusic_IsMIDI)(ZMusic_MusicStream song);
typedef void (*pfn_ZMusic_VolumeChanged)(ZMusic_MusicStream song);
typedef zmusic_bool (*pfn_ZMusic_WriteSMF)(ZMusic_MidiSource source, const char* fn, int looplimit);
typedef void (*pfn_ZMusic_GetStreamInfo)(ZMusic_MusicStream song, SoundStreamInfo *info);
typedef zmusic_bool (*pfn_ChangeMusicSettingInt)(EIntConfigKey key, ZMusic_MusicStream song, int value, int* pRealValue);
typedef zmusic_bool (*pfn_ChangeMusicSettingFloat)(EFloatConfigKey key, ZMusic_MusicStream song, float value, float* pRealValue);
typedef zmusic_bool (*pfn_ChangeMusicSettingString)(EStringConfigKey key, ZMusic_MusicStream song, const char* value);
typedef const char *(*pfn_ZMusic_GetStats)(ZMusic_MusicStream song);
typedef struct SoundDecoder* (*pfn_CreateDecoder)(const uint8_t* data, size_t size, zmusic_bool isstatic);
typedef void (*pfn_SoundDecoder_GetInfo)(struct SoundDecoder* decoder, int* samplerate, ChannelConfig* chans, SampleType* type);
typedef size_t (*pfn_SoundDecoder_Read)(struct SoundDecoder* decoder, void* buffer, size_t length);
typedef void (*pfn_SoundDecoder_Close)(struct SoundDecoder* decoder);
typedef void (*pfn_FindLoopTags)(const uint8_t* data, size_t size, uint32_t* start, zmusic_bool* startass, uint32_t* end, zmusic_bool* endass);
typedef const ZMusicMidiOutDevice *(*pfn_ZMusic_GetMidiDevices)(int *pAmount);
#endif