raze/libraries/zmusic/mididevices/mididevice.h

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2019-11-10 22:58:51 +00:00
#pragma once
#include <mutex>
#include "zmusic/midiconfig.h"
#include "zmusic/mididefs.h"
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;
};
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() override;
bool IsOpen() const override;
int GetTechnology() const override;
int SetTempo(int tempo) override;
int SetTimeDiv(int timediv) override;
int StreamOut(MidiHeader *data) override;
int StreamOutSync(MidiHeader *data) override;
int Resume() override;
void Stop() override;
bool Pause(bool paused) override;
virtual int Open() override;
virtual bool ServiceStream(void* buff, int numbytes);
int GetSampleRate() const { return SampleRate; }
SoundStreamInfo GetStreamInfo() const override;
protected:
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 char *Args);
MIDIDevice *CreateADLMIDIDevice(const char* args);
MIDIDevice *CreateOPNMIDIDevice(const char *args);
MIDIDevice *CreateOplMIDIDevice(const char* Args);
MIDIDevice *CreateTimidityMIDIDevice(const char* Args, int samplerate);
MIDIDevice *CreateTimidityPPMIDIDevice(const char *Args, int samplerate);
MIDIDevice *CreateWildMIDIDevice(const char *Args, int samplerate);
#ifdef _WIN32
MIDIDevice* CreateWinMIDIDevice(int mididevice);
#endif