dolphin/Source/Plugins/Plugin_DSP_HLE/Src/UCodes/UCode_Zelda.h

232 lines
7.5 KiB
C++

// Copyright (C) 2003-2008 Dolphin Project.
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, version 2.0.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License 2.0 for more details.
// A copy of the GPL 2.0 should have been included with the program.
// If not, see http://www.gnu.org/licenses/
// Official SVN repository and contact information can be found at
// http://code.google.com/p/dolphin-emu/
#ifndef _UCODE_ZELDA_H
#define _UCODE_ZELDA_H
#include "Common.h"
#include "UCodes.h"
// Obviously missing things that must be in here, somewhere among the "unknown":
// * Volume
// * L/R Pan
// * (probably) choice of resampling algorithm (point, linear, cubic)
struct ZeldaVoicePB
{
// Read-Write part
u16 Status; // 0x00 | 1 = play, 0 = stop
u16 KeyOff; // 0x01 | writing 1 stops voice?
u16 RatioInt; // 0x02 | Position delta (playback speed)
u16 Unk03; // 0x03 | unknown
u16 NeedsReset; // 0x04 | indicates if some values in PB need to be reset
u16 ReachedEnd; // 0x05 | set to 1 when end reached
u16 IsBlank; // 0x06 | 0 = normal sound, 1 = samples are always the same
u16 Unk07; // 0x07 | unknown, in zelda always 0x0010
u16 SoundType; // 0x08 | Sound type: so far in zww: 0x0d00 for music, 0x4861 for sfx
u16 volumeLeft1; // 0x09 | Left Volume 1 // There's probably two of each because they should be ramped within each frame.
u16 volumeLeft2; // 0x0A | Left Volume 2
u16 Unk0B[2]; // 0x0B | unknown
u16 volumeRight1; // 0x0D | Right Volume 1
u16 volumeRight2; // 0x0E | Right Volume 2
u16 Unk0F[2]; // 0x0F | unknown // Buffer / something, see 036e/ZWW. there's a pattern here
u16 volumeUnknown1_1; // 0x11 | Unknown Volume 1
u16 volumeUnknown1_2; // 0x12 | Unknown Volume 1
u16 Unk13[2]; // 0x13 | unknown
u16 volumeUnknown2_1; // 0x15 | Unknown Volume 2
u16 volumeUnknown2_2; // 0x16 | Unknown Volume 2
u16 Unk17; // 0x17 | unknown
u16 Unk18[0x10]; // 0x18 | unknown
u16 Unk28; // 0x28 | unknown
u16 Unk29; // 0x29 | unknown // multiplied by 0x2a @ 0d21/ZWW
u16 Unk2a; // 0x2A | unknown // loaded at 0d2e/ZWW
u16 Unk2b; // 0x2B | unknown
u16 Unk2C; // 0x2C | unknown // See 0337/ZWW
u16 Unk2D; // 0x2D | unknown
u16 Unk2E; // 0x2E | unknown
u16 Unk2F; // 0x2F | unknown
u16 CurSampleFrac; // 0x30 | Fractional part of the current sample position
u16 Unk31; // 0x31 | unknown / unused
u16 CurBlock; // 0x32 | current block?
u16 FixedSample; // 0x33 | sample value for "blank" voices
u32 RestartPos; // 0x34 | restart pos
u16 Unk36[2]; // 0x36 | unknown // loaded at 0adc/ZWW in 0x21 decoder
u32 CurAddr; // 0x38 | current address
u32 RemLength; // 0x3A | remaining length
u16 Unk3C; // 0x3C | something to do with the resampler - a DRAM address?
u16 Unk3D; // 0x3D | unknown
u16 Unk3E; // 0x3E | unknown
u16 Unk3F; // 0x3F | unknown
u16 Unk40[0x10]; // 0x40 | Used as some sort of buffer by IIR
u16 Unk50[0x8]; // 0x50 | Used as some sort of buffer by 06ff/ZWW
u16 Unk58[0x8]; // 0x58 |
u16 Unk60[0x6]; // 0x60 |
u16 YN2; // 0x66 | YN2
u16 YN1; // 0x67 | YN1
u16 Unk68[0x8]; // 0x68 | unknown
u16 Unk70[0x8]; // 0x70 | unknown // 034b/ZWW - weird
u16 Unk78; // 0x78 | unknown // ZWW: ModifySample loads and stores. Ramped volume?
u16 Unk79; // 0x79 | unknown // ZWW: ModifySample loads and stores. Ramped volume?
u16 Unk7A; // 0x7A | unknown
u16 Unk7B; // 0x7B | unknown
u16 Unk7C; // 0x7C | unknown
u16 Unk7D; // 0x7D | unknown
u16 Unk7E; // 0x7E | unknown
u16 Unk7F; // 0x7F | unknown
// Read-only part
u16 Format; // 0x80 | audio format
u16 RepeatMode; // 0x81 | 0 = one-shot, non zero = loop
u16 Unk82; // 0x82 | unknown
u16 Unk83; // 0x83 | unknown
u16 Unk84; // 0x84 | IIR Filter # coefs?
u16 Unk85; // 0x85 | Decides the weird stuff at 035a/ZWW, alco 0cd3
u16 Unk86; // 0x86 | unknown
u16 Unk87; // 0x87 | unknown
u32 LoopStartPos; // 0x88 | loopstart pos
u32 Length; // 0x8A | sound length
u32 StartAddr; // 0x8C | sound start address
u32 UnkAddr; // 0x8E | ???
u16 Padding[0x10]; // 0x90 | padding
u16 Padding2[0x10]; // 0xa0 | FIR filter coefs of some sort
u16 Padding3[0x10]; // 0xb0 | padding
};
namespace {
// If this miscompiles, adjust the size of ZeldaVoicePB to 0x180 bytes (0xc0 shorts).
CompileTimeAssert<sizeof(ZeldaVoicePB) == 0x180> ensure_zpb_size_correct;
} // namespace
class CUCode_Zelda : public IUCode
{
public:
CUCode_Zelda(CMailHandler& _rMailHandler, u32 _CRC);
virtual ~CUCode_Zelda();
void HandleMail(u32 _uMail);
void Update(int cycles);
void MixAdd(short* buffer, int size);
void CopyPBsFromRAM();
void CopyPBsToRAM();
void DoState(PointerWrap &p);
int *templbuffer;
int *temprbuffer;
// simple dump ...
int DumpAFC(u8* pIn, const int size, const int srate);
u32 Read32()
{
u32 res = *(u32*)&m_Buffer[m_readOffset];
m_readOffset += 4;
return res;
}
private:
enum EDSP_Codes
{
DSP_INIT = 0xDCD10000,
DSP_RESUME = 0xDCD10001,
DSP_YIELD = 0xDCD10002,
DSP_DONE = 0xDCD10003,
DSP_SYNC = 0xDCD10004,
DSP_FRAME_END = 0xDCD10005,
};
u32 m_CRC;
// These are the only dynamically allocated things allowed in the ucode.
s32* m_TempBuffer;
s32* m_LeftBuffer;
s32* m_RightBuffer;
// If you add variables, remember to keep DoState() and the constructor up to date.
s16 m_AFCCoefTable[32];
bool m_bSyncInProgress;
u32 m_MaxVoice;
u32 m_SyncFlags[16];
u32 m_NumVoices;
bool m_bSyncCmdPending;
u32 m_CurVoice;
u32 m_CurBuffer;
u32 m_NumBuffers;
// Those are set by command 0x1 (DsetupTable)
u32 m_VoicePBsAddr;
u32 m_UnkTableAddr;
u32 m_AFCCoefTableAddr;
u32 m_ReverbPBsAddr;
u32 m_RightBuffersAddr;
u32 m_LeftBuffersAddr;
//u32 m_unkAddr;
u32 m_pos;
// Only in SMG ucode
// Set by command 0xE (DsetDMABaseAddr)
u32 m_DMABaseAddr;
// List, buffer management =====================
u32 m_numSteps;
bool m_bListInProgress;
u32 m_step;
u8 m_Buffer[1024];
u32 m_readOffset;
enum EMailState
{
WaitForMail,
ReadingFrameSync,
ReadingMessage,
ReadingSystemMsg
};
EMailState m_MailState;
u16 m_PBMask[0x10];
u32 m_NumPBs;
u32 m_PBAddress; // The main param block array
u32 m_PBAddress2; // 4 smaller param blocks
void ExecuteList();
void ReadVoicePB(u32 _Addr, ZeldaVoicePB& PB);
void WritebackVoicePB(u32 _Addr, ZeldaVoicePB& PB);
// Voice formats
void RenderSynth_Constant(ZeldaVoicePB &PB, s32* _Buffer, int _Size);
void RenderSynth_Waveform(ZeldaVoicePB &PB, s32* _Buffer, int _Size);
void RenderVoice_PCM16(ZeldaVoicePB& PB, s32* _Buffer, int _Size);
void RenderVoice_AFC(ZeldaVoicePB& PB, s32* _Buffer, int _Size);
void RenderVoice_Raw(ZeldaVoicePB& PB, s32* _Buffer, int _Size);
// Renders a voice and mixes it into LeftBuffer, RightBuffer
void RenderAddVoice(ZeldaVoicePB& PB, s32* _LeftBuffer, s32* _RightBuffer, int _Size);
};
#endif