/* SPU2-X, A plugin for Emulating the Sound Processing Unit of the Playstation 2 * Developed and maintained by the Pcsx2 Development Team. * * Original portions from SPU2ghz are (c) 2008 by David Quintana [gigaherz] * * This library is free software; you can redistribute it and/or modify it under * the terms of the GNU Lesser General Public License as published by the Free * Software Foundation; either version 2.1 of the the License, or (at your * option) any later version. * * This library is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License * for more details. * * You should have received a copy of the GNU Lesser General Public License along * with this library; if not, write to the Free Software Foundation, Inc., 59 * Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #ifndef DEFS_H_INCLUDED #define DEFS_H_INCLUDED struct V_VolumeLR { static V_VolumeLR Max; s32 Left; s32 Right; V_VolumeLR() {} V_VolumeLR( s32 both ) : Left( both ), Right( both ) { } void DebugDump( FILE* dump, const char* title ); }; struct V_VolumeSlide { // Holds the "original" value of the volume for this voice, prior to slides. // (ie, the volume as written to the register) s16 Reg_VOL; s32 Value; s8 Increment; s8 Mode; public: V_VolumeSlide() {} V_VolumeSlide( s16 regval, s32 fullvol ) : Reg_VOL( regval ), Value( fullvol ), Increment( 0 ), Mode( 0 ) { } void Update(); void RegSet( u16 src ); // used to set the volume from a register source (16 bit signed) void DebugDump( FILE* dump, const char* title, const char* nameLR ); }; struct V_VolumeSlideLR { static V_VolumeSlideLR Max; V_VolumeSlide Left; V_VolumeSlide Right; public: V_VolumeSlideLR() {} V_VolumeSlideLR( s16 regval, s32 bothval ) : Left( regval, bothval ), Right( regval, bothval ) { } void Update() { Left.Update(); Right.Update(); } void DebugDump( FILE* dump, const char* title ); }; struct V_ADSR { u16 Reg_ADSR1; u16 Reg_ADSR2; s32 Value; // Ranges from 0 to 0x7fffffff (signed values are clamped to 0) [Reg_ENVX] u8 Phase; u8 AttackRate; // Ar u8 AttackMode; // Am u8 DecayRate; // Dr u8 SustainLevel; // Sl u8 SustainRate; // Sr u8 SustainMode; // Sm u8 ReleaseRate; // Rr u8 ReleaseMode; // Rm bool Releasing; // Ready To Release, triggered by Voice.Stop(); public: bool Calculate(); }; struct V_Voice { u32 PlayCycle; // SPU2 cycle where the Playing started V_VolumeSlideLR Volume; // Envelope V_ADSR ADSR; // Pitch (also Reg_PITCH) s16 Pitch; // Pitch Modulated by previous voice s8 Modulated; // Source (Wave/Noise) s8 Noise; // Loop Start address (also Reg_LSAH/L) u32 LoopStartA; // Sound Start address (also Reg_SSAH/L) u32 StartA; // Next Read Data address (also Reg_NAXH/L) u32 NextA; // Voice Decoding State s32 Prev1; s32 Prev2; s8 LoopMode; s8 LoopFlags; // [Air] : Replaced loop flags read from the ADPCM header with // a single LoopFlags value (above) -- more cache-friendly. //s8 LoopStart; //s8 Loop; //s8 LoopEnd; // Sample pointer (19:12 bit fixed point) s32 SP; // Sample pointer for Cubic Interpolation // Cubic interpolation mixes a sample behind Linear, so that it // can have sample data to either side of the end points from which // to extrapolate. This SP represents that late sample position. s32 SPc; // Previous sample values - used for interpolation // Inverted order of these members to match the access order in the // code (might improve cache hits). s32 PV4; s32 PV3; s32 PV2; s32 PV1; // Last outputted audio value, used for voice modulation. s32 OutX; // SBuffer now points directly to an ADPCM cache entry. s16 *SBuffer; // sample position within the current decoded packet. s32 SCurrent; void Start(); void Stop(); }; // ** Begin Debug-only variables section ** // Separated from the V_Voice struct to improve cache performance of // the Public Release build. struct V_VoiceDebug { s8 FirstBlock; s32 SampleData; s32 PeakX; s32 displayPeak; s32 lastSetStartA; }; struct V_CoreDebug { V_VoiceDebug Voices[24]; // Last Transfer Size u32 lastsize; }; // Debug tracking information - 24 voices and 2 cores. extern V_CoreDebug DebugCores[2]; struct V_Reverb { s16 IN_COEF_L; s16 IN_COEF_R; u32 FB_SRC_A; u32 FB_SRC_B; s16 FB_ALPHA; s16 FB_X; u32 IIR_SRC_A0; u32 IIR_SRC_A1; u32 IIR_SRC_B1; u32 IIR_SRC_B0; u32 IIR_DEST_A0; u32 IIR_DEST_A1; u32 IIR_DEST_B0; u32 IIR_DEST_B1; s16 IIR_ALPHA; s16 IIR_COEF; u32 ACC_SRC_A0; u32 ACC_SRC_A1; u32 ACC_SRC_B0; u32 ACC_SRC_B1; u32 ACC_SRC_C0; u32 ACC_SRC_C1; u32 ACC_SRC_D0; u32 ACC_SRC_D1; s16 ACC_COEF_A; s16 ACC_COEF_B; s16 ACC_COEF_C; s16 ACC_COEF_D; u32 MIX_DEST_A0; u32 MIX_DEST_A1; u32 MIX_DEST_B0; u32 MIX_DEST_B1; }; struct V_ReverbBuffers { s32 FB_SRC_A0; s32 FB_SRC_B0; s32 FB_SRC_A1; s32 FB_SRC_B1; s32 IIR_SRC_A0; s32 IIR_SRC_A1; s32 IIR_SRC_B1; s32 IIR_SRC_B0; s32 IIR_DEST_A0; s32 IIR_DEST_A1; s32 IIR_DEST_B0; s32 IIR_DEST_B1; s32 ACC_SRC_A0; s32 ACC_SRC_A1; s32 ACC_SRC_B0; s32 ACC_SRC_B1; s32 ACC_SRC_C0; s32 ACC_SRC_C1; s32 ACC_SRC_D0; s32 ACC_SRC_D1; s32 MIX_DEST_A0; s32 MIX_DEST_A1; s32 MIX_DEST_B0; s32 MIX_DEST_B1; bool NeedsUpdated; }; struct V_SPDIF { u16 Out; u16 Info; u16 Unknown1; u16 Mode; u16 Media; u16 Unknown2; u16 Protection; }; struct V_CoreRegs { u32 PMON; u32 NON; u32 VMIXL; u32 VMIXR; u32 VMIXEL; u32 VMIXER; u16 MMIX; u32 ENDX; u16 STATX; u16 ATTR; u16 _1AC; }; struct V_VoiceGates { s16 DryL; // 'AND Gate' for Direct Output to Left Channel s16 DryR; // 'AND Gate' for Direct Output for Right Channel s16 WetL; // 'AND Gate' for Effect Output for Left Channel s16 WetR; // 'AND Gate' for Effect Output for Right Channel }; union V_CoreGates { struct { u64 lo; u64 hi; } v128; struct { s16 InpL; // Sound Data Input to Direct Output (Left) s16 InpR; // Sound Data Input to Direct Output (Right) s16 SndL; // Voice Data to Direct Output (Left) s16 SndR; // Voice Data to Direct Output (Right) s16 ExtL; // External Input to Direct Output (Left) s16 ExtR; // External Input to Direct Output (Right) }; }; struct V_Core { static const uint NumVoices = 24; // Core Voices V_Voice Voices[NumVoices]; V_VoiceGates VoiceGates[NumVoices]; V_VolumeSlideLR MasterVol;// Master Volume V_VolumeLR ExtVol; // Volume for External Data Input V_VolumeLR InpVol; // Volume for Sound Data Input V_VolumeLR FxVol; // Volume for Output from Effects V_CoreGates DryGate; V_CoreGates WetGate; // Interrupt Address u32 IRQA; // DMA Transfer Start Address u32 TSA; // DMA Transfer Data Address (Internal...) u32 TDA; // Interrupt Enable s8 IRQEnable; // DMA related? s8 DMABits; // Effect Enable s8 FxEnable; // Noise Clock s8 NoiseClk; // AutoDMA Status u16 AutoDMACtrl; // DMA Interrupt Counter s32 DMAICounter; // Mute s8 Mute; // Input Buffer u32 InputDataLeft; u32 InputPos; u32 InputDataProgress; u8 AdmaInProgress; // Reverb V_Reverb Revb; V_ReverbBuffers RevBuffers; // buffer pointers for reverb, pre-calculated and pre-clipped. u32 EffectsStartA; u32 EffectsEndA; u32 ReverbX; // Current size of the effects buffer. Pre-caculated when the effects start // or end position registers are written. CAN BE NEGATIVE OR ZERO, in which // case reverb should be disabled. s32 EffectsBufferSize; // Registers V_CoreRegs Regs; // Last samples to pass through the effects processor. // Used because the effects processor works at 24khz and just pulls // from this for the odd Ts. StereoOut32 LastEffect; u8 InitDelay; u8 CoreEnabled; u8 AttrBit0; u8 AttrBit4; u8 AttrBit5; u16*DMAPtr; u32 MADR; u32 TADR; s16 ADMATempBuffer[0x1000]; u32 ADMAPV; StereoOut32 ADMAP; void Reset(); void UpdateEffectsBufferSize(); V_Core(); // our badass constructor s32 EffectsBufferIndexer( s32 offset ) const; void UpdateFeedbackBuffersA(); void UpdateFeedbackBuffersB(); }; extern V_Core Cores[2]; extern V_SPDIF Spdif; // Output Buffer Writing Position (the same for all data); extern s16 OutPos; // Input Buffer Reading Position (the same for all data); extern s16 InputPos; // SPU Mixing Cycles ("Ticks mixed" counter) extern u32 Cycles; #ifdef __LINUX__ #include #include static __forceinline u32 timeGetTime() { struct timeb t; ftime(&t); return (u32)(t.time*1000+t.millitm); } #endif #endif // DEFS_H_INCLUDED //