#ifdef _WIN32 #define WIN32_LEAN_AND_MEAN #define USE_WINDOWS_DWORD #if defined(_WIN32_WINNT) && _WIN32_WINNT < 0x0400 #undef _WIN32_WINNT #endif #ifndef _WIN32_WINNT #define _WIN32_WINNT 0x0400 #endif #ifndef USE_WINDOWS_DWORD #define USE_WINDOWS_DWORD #endif #include #include #else #include #define FALSE 0 #define TRUE 1 #endif #include "tempfiles.h" #include "oplsynth/opl_mus_player.h" #include "c_cvars.h" #include "mus2midi.h" #include "i_sound.h" #include "i_music.h" void I_InitMusicWin32 (); void I_ShutdownMusicWin32 (); extern float relative_volume; EXTERN_CVAR (Float, timidity_mastervolume) // A device that provides a WinMM-like MIDI streaming interface ------------- #ifndef _WIN32 struct MIDIHDR { BYTE *lpData; DWORD dwBufferLength; DWORD dwBytesRecorded; MIDIHDR *lpNext; }; enum { MOD_MIDIPORT = 1, MOD_SYNTH, MOD_SQSYNTH, MOD_FMSYNTH, MOD_MAPPER, MOD_WAVETABLE, MOD_SWSYNTH }; typedef BYTE *LPSTR; #define MEVT_TEMPO ((BYTE)1) #define MEVT_NOP ((BYTE)2) #define MEVT_LONGMSG ((BYTE)128) #define MEVT_EVENTTYPE(x) ((BYTE)((x) >> 24)) #define MEVT_EVENTPARM(x) ((x) & 0xffffff) #define MOM_DONE 969 #else // w32api does not define these #ifndef MOD_WAVETABLE #define MOD_WAVETABLE 6 #define MOD_SWSYNTH 7 #endif #endif class MIDIDevice { public: MIDIDevice(); virtual ~MIDIDevice(); virtual int Open(void (*callback)(unsigned int, void *, DWORD, DWORD), void *userdata) = 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(MIDIHDR *data) = 0; virtual int StreamOutSync(MIDIHDR *data) = 0; virtual int Resume() = 0; virtual void Stop() = 0; virtual int PrepareHeader(MIDIHDR *data) = 0; virtual int UnprepareHeader(MIDIHDR *data) = 0; virtual bool FakeVolume() = 0; virtual bool Pause(bool paused) = 0; virtual bool NeedThreadedCallback() = 0; virtual void PrecacheInstruments(const WORD *instruments, int count); virtual void TimidityVolumeChanged(); virtual void FluidSettingInt(const char *setting, int value); virtual void FluidSettingNum(const char *setting, double value); virtual void FluidSettingStr(const char *setting, const char *value); virtual FString GetStats(); }; // WinMM implementation of a MIDI output device ----------------------------- #ifdef _WIN32 class WinMIDIDevice : public MIDIDevice { public: WinMIDIDevice(int dev_id); ~WinMIDIDevice(); int Open(void (*callback)(unsigned int, void *, DWORD, DWORD), void *userdata); void Close(); bool IsOpen() const; int GetTechnology() const; int SetTempo(int tempo); int SetTimeDiv(int timediv); int StreamOut(MIDIHDR *data); int StreamOutSync(MIDIHDR *data); int Resume(); void Stop(); int PrepareHeader(MIDIHDR *data); int UnprepareHeader(MIDIHDR *data); bool FakeVolume(); bool NeedThreadedCallback(); bool Pause(bool paused); void PrecacheInstruments(const WORD *instruments, int count); protected: static void CALLBACK CallbackFunc(HMIDIOUT, UINT, DWORD_PTR, DWORD, DWORD); HMIDISTRM MidiOut; UINT DeviceID; DWORD SavedVolume; bool VolumeWorks; void (*Callback)(unsigned int, void *, DWORD, DWORD); void *CallbackData; }; #endif // OPL implementation of a MIDI output device ------------------------------- class OPLMIDIDevice : public MIDIDevice, protected OPLmusicBlock { public: OPLMIDIDevice(); ~OPLMIDIDevice(); int Open(void (*callback)(unsigned int, void *, DWORD, DWORD), void *userdata); void Close(); bool IsOpen() const; int GetTechnology() const; int SetTempo(int tempo); int SetTimeDiv(int timediv); int StreamOut(MIDIHDR *data); int StreamOutSync(MIDIHDR *data); int Resume(); void Stop(); int PrepareHeader(MIDIHDR *data); int UnprepareHeader(MIDIHDR *data); bool FakeVolume(); bool NeedThreadedCallback(); bool Pause(bool paused); FString GetStats(); protected: static bool FillStream(SoundStream *stream, void *buff, int len, void *userdata); void (*Callback)(unsigned int, void *, DWORD, DWORD); void *CallbackData; void CalcTickRate(); void HandleEvent(int status, int parm1, int parm2); int PlayTick(); SoundStream *Stream; double Tempo; double Division; MIDIHDR *Events; bool Started; DWORD Position; }; // OPL dumper implementation of a MIDI output device ------------------------ class OPLDumperMIDIDevice : public OPLMIDIDevice { public: OPLDumperMIDIDevice(const char *filename); ~OPLDumperMIDIDevice(); int Resume(); void Stop(); }; // Internal TiMidity MIDI device -------------------------------------------- namespace Timidity { struct Renderer; } class TimidityMIDIDevice : public MIDIDevice { public: TimidityMIDIDevice(); TimidityMIDIDevice(int rate); ~TimidityMIDIDevice(); int Open(void (*callback)(unsigned int, void *, DWORD, DWORD), void *userdata); void Close(); bool IsOpen() const; int GetTechnology() const; int SetTempo(int tempo); int SetTimeDiv(int timediv); int StreamOut(MIDIHDR *data); int StreamOutSync(MIDIHDR *data); int Resume(); void Stop(); int PrepareHeader(MIDIHDR *data); int UnprepareHeader(MIDIHDR *data); bool FakeVolume(); bool Pause(bool paused); bool NeedThreadedCallback(); void PrecacheInstruments(const WORD *instruments, int count); void TimidityVolumeChanged(); FString GetStats(); protected: static bool FillStream(SoundStream *stream, void *buff, int len, void *userdata); bool ServiceStream (void *buff, int numbytes); void (*Callback)(unsigned int, void *, DWORD, DWORD); void *CallbackData; void CalcTickRate(); int PlayTick(); FCriticalSection CritSec; SoundStream *Stream; Timidity::Renderer *Renderer; double Tempo; double Division; double SamplesPerTick; double NextTickIn; MIDIHDR *Events; bool Started; DWORD Position; }; // Internal TiMidity disk writing version of a MIDI device ------------------ class TimidityWaveWriterMIDIDevice : public TimidityMIDIDevice { public: TimidityWaveWriterMIDIDevice(const char *filename, int rate); ~TimidityWaveWriterMIDIDevice(); int Resume(); void Stop(); protected: FILE *File; }; // FluidSynth implementation of a MIDI device ------------------------------- #ifdef HAVE_FLUIDSYNTH #ifndef DYN_FLUIDSYNTH #include #else struct fluid_settings_t; struct fluid_synth_t; #endif class FluidSynthMIDIDevice : public MIDIDevice { public: FluidSynthMIDIDevice(); ~FluidSynthMIDIDevice(); int Open(void (*callback)(unsigned int, void *, DWORD, DWORD), void *userdata); void Close(); bool IsOpen() const; int GetTechnology() const; int SetTempo(int tempo); int SetTimeDiv(int timediv); int StreamOut(MIDIHDR *data); int StreamOutSync(MIDIHDR *data); int Resume(); void Stop(); int PrepareHeader(MIDIHDR *data); int UnprepareHeader(MIDIHDR *data); bool FakeVolume(); bool Pause(bool paused); bool NeedThreadedCallback(); void PrecacheInstruments(const WORD *instruments, int count); FString GetStats(); void FluidSettingInt(const char *setting, int value); void FluidSettingNum(const char *setting, double value); void FluidSettingStr(const char *setting, const char *value); protected: static bool FillStream(SoundStream *stream, void *buff, int len, void *userdata); bool ServiceStream(void *buff, int numbytes); void HandleEvent(int status, int parm1, int parm2); int LoadPatchSets(const char *patches); void (*Callback)(unsigned int, void *, DWORD, DWORD); void *CallbackData; void CalcTickRate(); int PlayTick(); FCriticalSection CritSec; SoundStream *Stream; fluid_settings_t *FluidSettings; fluid_synth_t *FluidSynth; double Tempo; double Division; double SamplesPerTick; double NextTickIn; MIDIHDR *Events; bool Started; DWORD Position; #ifdef DYN_FLUIDSYNTH enum { FLUID_FAILED = 1, FLUID_OK = 0 }; fluid_settings_t *(STACK_ARGS *new_fluid_settings)(); fluid_synth_t *(STACK_ARGS *new_fluid_synth)(fluid_settings_t *); int (STACK_ARGS *delete_fluid_synth)(fluid_synth_t *); void (STACK_ARGS *delete_fluid_settings)(fluid_settings_t *); int (STACK_ARGS *fluid_settings_setnum)(fluid_settings_t *, const char *, double); int (STACK_ARGS *fluid_settings_setstr)(fluid_settings_t *, const char *, const char *); int (STACK_ARGS *fluid_settings_setint)(fluid_settings_t *, const char *, int); int (STACK_ARGS *fluid_settings_getstr)(fluid_settings_t *, const char *, char **); int (STACK_ARGS *fluid_settings_getint)(fluid_settings_t *, const char *, int *); int (STACK_ARGS *fluid_synth_set_interp_method)(fluid_synth_t *, int, int); int (STACK_ARGS *fluid_synth_set_polyphony)(fluid_synth_t *, int); int (STACK_ARGS *fluid_synth_get_polyphony)(fluid_synth_t *); int (STACK_ARGS *fluid_synth_get_active_voice_count)(fluid_synth_t *); double (STACK_ARGS *fluid_synth_get_cpu_load)(fluid_synth_t *); int (STACK_ARGS *fluid_synth_system_reset)(fluid_synth_t *); int (STACK_ARGS *fluid_synth_noteon)(fluid_synth_t *, int, int, int); int (STACK_ARGS *fluid_synth_noteoff)(fluid_synth_t *, int, int); int (STACK_ARGS *fluid_synth_cc)(fluid_synth_t *, int, int, int); int (STACK_ARGS *fluid_synth_program_change)(fluid_synth_t *, int, int); int (STACK_ARGS *fluid_synth_channel_pressure)(fluid_synth_t *, int, int); int (STACK_ARGS *fluid_synth_pitch_bend)(fluid_synth_t *, int, int); int (STACK_ARGS *fluid_synth_write_float)(fluid_synth_t *, int, void *, int, int, void *, int, int); int (STACK_ARGS *fluid_synth_sfload)(fluid_synth_t *, const char *, int); #ifdef _WIN32 HMODULE FluidSynthDLL; #endif bool LoadFluidSynth(); void UnloadFluidSynth(); #endif }; #endif // Base class for streaming MUS and MIDI files ------------------------------ // MIDI device selection. enum EMIDIDevice { MIDI_Win, MIDI_OPL, MIDI_Timidity, MIDI_Fluid }; class MIDIStreamer : public MusInfo { public: MIDIStreamer(EMIDIDevice type); ~MIDIStreamer(); void MusicVolumeChanged(); void TimidityVolumeChanged(); void Play(bool looping, int subsong); void Pause(); void Resume(); void Stop(); bool IsPlaying(); bool IsMIDI() const; bool IsValid() const; void Update(); FString GetStats(); void FluidSettingInt(const char *setting, int value); void FluidSettingNum(const char *setting, double value); void FluidSettingStr(const char *setting, const char *value); protected: MIDIStreamer(const char *dumpname, EMIDIDevice type); void OutputVolume (DWORD volume); int FillBuffer(int buffer_num, int max_events, DWORD max_time); int ServiceEvent(); int VolumeControllerChange(int channel, int volume); static void Callback(unsigned int uMsg, void *userdata, DWORD dwParam1, DWORD dwParam2); // Virtuals for subclasses to override virtual void CheckCaps(); virtual void DoInitialSetup() = 0; virtual void DoRestart() = 0; virtual bool CheckDone() = 0; virtual void Precache() = 0; virtual DWORD *MakeEvents(DWORD *events, DWORD *max_event_p, DWORD max_time) = 0; enum { MAX_EVENTS = 128 }; enum { SONG_MORE, SONG_DONE, SONG_ERROR }; #ifdef _WIN32 static DWORD WINAPI PlayerProc (LPVOID lpParameter); DWORD PlayerLoop(); HANDLE PlayerThread; HANDLE ExitEvent; HANDLE BufferDoneEvent; #endif MIDIDevice *MIDI; DWORD Events[2][MAX_EVENTS*3]; MIDIHDR Buffer[2]; int BufferNum; int EndQueued; bool VolumeChanged; bool Restarting; bool InitialPlayback; DWORD NewVolume; int Division; int Tempo; int InitialTempo; BYTE ChannelVolumes[16]; DWORD Volume; EMIDIDevice DeviceType; bool CallbackIsThreaded; FString DumpFilename; }; // MUS file played with a MIDI stream --------------------------------------- class MUSSong2 : public MIDIStreamer { public: MUSSong2(FILE *file, BYTE *musiccache, int length, EMIDIDevice type); ~MUSSong2(); MusInfo *GetOPLDumper(const char *filename); MusInfo *GetWaveDumper(const char *filename, int rate); protected: MUSSong2(const MUSSong2 *original, const char *filename, EMIDIDevice type); // file dump constructor void DoInitialSetup(); void DoRestart(); bool CheckDone(); void Precache(); DWORD *MakeEvents(DWORD *events, DWORD *max_events_p, DWORD max_time); MUSHeader *MusHeader; BYTE *MusBuffer; BYTE LastVelocity[16]; size_t MusP, MaxMusP; }; // MIDI file played with a MIDI stream -------------------------------------- class MIDISong2 : public MIDIStreamer { public: MIDISong2(FILE *file, BYTE *musiccache, int length, EMIDIDevice type); ~MIDISong2(); MusInfo *GetOPLDumper(const char *filename); MusInfo *GetWaveDumper(const char *filename, int rate); protected: MIDISong2(const MIDISong2 *original, const char *filename, EMIDIDevice type); // file dump constructor void CheckCaps(); void DoInitialSetup(); void DoRestart(); bool CheckDone(); void Precache(); DWORD *MakeEvents(DWORD *events, DWORD *max_events_p, DWORD max_time); void AdvanceTracks(DWORD time); struct TrackInfo; void ProcessInitialMetaEvents (); DWORD *SendCommand (DWORD *event, TrackInfo *track, DWORD delay); TrackInfo *FindNextDue (); void SetTempo(int new_tempo); BYTE *MusHeader; int SongLen; TrackInfo *Tracks; TrackInfo *TrackDue; int NumTracks; int Format; WORD DesignationMask; }; // Anything supported by FMOD out of the box -------------------------------- class StreamSong : public MusInfo { public: StreamSong (const char *file, int offset, int length); ~StreamSong (); void Play (bool looping, int subsong); void Pause (); void Resume (); void Stop (); bool IsPlaying (); bool IsMIDI () const { return false; } bool IsValid () const { return m_Stream != NULL; } bool SetPosition (unsigned int pos); bool SetSubsong (int subsong); FString GetStats(); protected: StreamSong () : m_Stream(NULL) {} SoundStream *m_Stream; }; // MIDI file played with Timidity and possibly streamed through FMOD -------- class TimiditySong : public StreamSong { public: TimiditySong (FILE *file, BYTE *musiccache, int length); ~TimiditySong (); void Play (bool looping, int subsong); void Stop (); bool IsPlaying (); bool IsValid () const { return CommandLine.Len() > 0; } void TimidityVolumeChanged(); protected: void PrepTimidity (); bool LaunchTimidity (); FTempFileName DiskName; #ifdef _WIN32 HANDLE ReadWavePipe; HANDLE WriteWavePipe; HANDLE KillerEvent; HANDLE ChildProcess; bool Validated; bool ValidateTimidity (); #else // _WIN32 int WavePipe[2]; pid_t ChildProcess; #endif FString CommandLine; size_t LoopPos; static bool FillStream (SoundStream *stream, void *buff, int len, void *userdata); #ifdef _WIN32 static const char EventName[]; #endif }; // MUS file played by a software OPL2 synth and streamed through FMOD ------- class OPLMUSSong : public StreamSong { public: OPLMUSSong (FILE *file, BYTE *musiccache, int length); ~OPLMUSSong (); void Play (bool looping, int subsong); bool IsPlaying (); bool IsValid () const; void ResetChips (); MusInfo *GetOPLDumper(const char *filename); protected: OPLMUSSong(const OPLMUSSong *original, const char *filename); // OPL dump constructor static bool FillStream (SoundStream *stream, void *buff, int len, void *userdata); OPLmusicFile *Music; }; class OPLMUSDumper : public OPLMUSSong { public: OPLMUSDumper(const OPLMUSSong *original, const char *filename); void Play(bool looping); }; // CD track/disk played through the multimedia system ----------------------- class CDSong : public MusInfo { public: CDSong (int track, int id); ~CDSong (); void Play (bool looping, int subsong); void Pause (); void Resume (); void Stop (); bool IsPlaying (); bool IsMIDI () const { return false; } bool IsValid () const { return m_Inited; } protected: CDSong () : m_Inited(false) {} int m_Track; bool m_Inited; }; // CD track on a specific disk played through the multimedia system --------- class CDDAFile : public CDSong { public: CDDAFile (FILE *file, int length); }; // Module played via foo_dumb ----------------------------------------------- MusInfo *MOD_OpenSong(FILE *file, BYTE *musiccache, int len); // Music played via Game Music Emu ------------------------------------------ const char *GME_CheckFormat(uint32 header); MusInfo *GME_OpenSong(FILE *file, BYTE *musiccache, int len, const char *fmt); // -------------------------------------------------------------------------- extern MusInfo *currSong; extern int nomusic; EXTERN_CVAR (Float, snd_musicvolume)