gzdoom-gles/libraries/zmusic/mididevices/mididevice.h
Christoph Oelckers 5743a56ef4 - created a new zmusic library which will eventually contain all the music playback code.
Currently all it contains are the MIDI sources and the MIDI devices, the rest needs to be reworked first.

# Conflicts:
#	libraries/zmusic/i_module.cpp
#	libraries/zmusic/i_module.h
#	src/CMakeLists.txt
#	src/i_module.cpp
#	src/i_module.h
#	src/sound/music/midi_cvars.cpp
#	src/utility/i_module.cpp
#	src/utility/i_module.h

# Conflicts:
#	src/CMakeLists.txt
#	src/sound/musicformats/music_opl.cpp
2020-01-05 11:46:20 +01:00

168 lines
5.2 KiB
C++

#pragma once
#include <mutex>
#include "zmusic/midiconfig.h"
#include "zmusic/mididefs.h"
#include "mididevices/mididevice.h"
void TimidityPP_Shutdown();
typedef void(*MidiCallback)(void *);
// A device that provides a WinMM-like MIDI streaming interface -------------
struct MidiHeader
{
uint8_t *lpData;
uint32_t dwBufferLength;
uint32_t dwBytesRecorded;
MidiHeader *lpNext;
};
struct SoundStreamInfo
{
// Format is always 32 bit float. If mBufferSize is 0, the song doesn't use streaming but plays through a different interface.
int mBufferSize;
int mSampleRate;
int mNumChannels;
};
class MIDIDevice
{
public:
MIDIDevice() = default;
virtual ~MIDIDevice();
void SetCallback(MidiCallback callback, void* userdata)
{
Callback = callback;
CallbackData = userdata;
}
virtual int Open() = 0;
virtual void Close() = 0;
virtual bool IsOpen() const = 0;
virtual int GetTechnology() const = 0;
virtual int SetTempo(int tempo) = 0;
virtual int SetTimeDiv(int timediv) = 0;
virtual int StreamOut(MidiHeader *data) = 0;
virtual int StreamOutSync(MidiHeader *data) = 0;
virtual int Resume() = 0;
virtual void Stop() = 0;
virtual int PrepareHeader(MidiHeader *data);
virtual int UnprepareHeader(MidiHeader *data);
virtual bool FakeVolume();
virtual bool Pause(bool paused) = 0;
virtual void InitPlayback();
virtual bool Update();
virtual void PrecacheInstruments(const uint16_t *instruments, int count);
virtual void ChangeSettingInt(const char *setting, int value);
virtual void ChangeSettingNum(const char *setting, double value);
virtual void ChangeSettingString(const char *setting, const char *value);
virtual std::string GetStats();
virtual int GetDeviceType() const { return MDEV_DEFAULT; }
virtual bool CanHandleSysex() const { return true; }
virtual SoundStreamInfo GetStreamInfo() const;
protected:
MidiCallback Callback;
void* CallbackData;
};
// Base class for software synthesizer MIDI output devices ------------------
class SoftSynthMIDIDevice : public MIDIDevice
{
friend class MIDIWaveWriter;
public:
SoftSynthMIDIDevice(int samplerate, int minrate = 1, int maxrate = 1000000 /* something higher than any valid value */);
~SoftSynthMIDIDevice();
void Close();
bool IsOpen() const;
int GetTechnology() const;
int SetTempo(int tempo);
int SetTimeDiv(int timediv);
int StreamOut(MidiHeader *data);
int StreamOutSync(MidiHeader *data);
int Resume();
void Stop();
bool Pause(bool paused);
virtual int Open();
virtual bool ServiceStream(void* buff, int numbytes);
int GetSampleRate() const { return SampleRate; }
SoundStreamInfo GetStreamInfo() const override;
protected:
std::mutex CritSec;
double Tempo;
double Division;
double SamplesPerTick;
double NextTickIn;
MidiHeader *Events;
bool Started;
bool isMono = false; // only relevant for OPL.
bool isOpen = false;
uint32_t Position;
int SampleRate;
int StreamBlockSize = 2;
virtual void CalcTickRate();
int PlayTick();
virtual int OpenRenderer() = 0;
virtual void HandleEvent(int status, int parm1, int parm2) = 0;
virtual void HandleLongEvent(const uint8_t *data, int len) = 0;
virtual void ComputeOutput(float *buffer, int len) = 0;
};
// Internal disk writing version of a MIDI device ------------------
class MIDIWaveWriter : public SoftSynthMIDIDevice
{
public:
MIDIWaveWriter(const char *filename, SoftSynthMIDIDevice *devtouse);
//~MIDIWaveWriter();
bool CloseFile();
int Resume() override;
int Open() override
{
return playDevice->Open();
}
int OpenRenderer() override { return playDevice->OpenRenderer(); }
void Stop() override;
void HandleEvent(int status, int parm1, int parm2) override { playDevice->HandleEvent(status, parm1, parm2); }
void HandleLongEvent(const uint8_t *data, int len) override { playDevice->HandleLongEvent(data, len); }
void ComputeOutput(float *buffer, int len) override { playDevice->ComputeOutput(buffer, len); }
int StreamOutSync(MidiHeader *data) override { return playDevice->StreamOutSync(data); }
int StreamOut(MidiHeader *data) override { return playDevice->StreamOut(data); }
int GetDeviceType() const override { return playDevice->GetDeviceType(); }
bool ServiceStream (void *buff, int numbytes) override { return playDevice->ServiceStream(buff, numbytes); }
int GetTechnology() const override { return playDevice->GetTechnology(); }
int SetTempo(int tempo) override { return playDevice->SetTempo(tempo); }
int SetTimeDiv(int timediv) override { return playDevice->SetTimeDiv(timediv); }
bool IsOpen() const override { return playDevice->IsOpen(); }
void CalcTickRate() override { playDevice->CalcTickRate(); }
protected:
FILE *File;
SoftSynthMIDIDevice *playDevice;
};
// MIDI devices
MIDIDevice *CreateFluidSynthMIDIDevice(int samplerate, const FluidConfig* config, int (*printfunc)(const char*, ...));
MIDIDevice *CreateADLMIDIDevice(const ADLConfig* config);
MIDIDevice *CreateOPNMIDIDevice(const OpnConfig *args);
MIDIDevice *CreateOplMIDIDevice(const OPLMidiConfig* config);
MIDIDevice *CreateTimidityMIDIDevice(GUSConfig *config, int samplerate);
MIDIDevice *CreateTimidityPPMIDIDevice(TimidityConfig *config, int samplerate);
MIDIDevice *CreateWildMIDIDevice(WildMidiConfig *config, int samplerate);
#ifdef _WIN32
MIDIDevice* CreateWinMIDIDevice(int mididevice, bool precache);
#endif