// Copyright (C) 2003-2009 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/ #include "Common.h" #include "../../../Core/VideoCommon/Src/DataReader.h" #include "main.h" #include "OpcodeDecoder.h" #include "BPMemLoader.h" #include "CPMemLoader.h" #include "XFMemLoader.h" #include "VertexLoader.h" #include "Statistics.h" #include "DebugUtil.h" #include "CommandProcessor.h" #include "SWVideoConfig.h" typedef void (*DecodingFunction)(u32); DecodingFunction currentFunction = NULL; u32 minCommandSize; u16 streamSize; u16 streamAddress; bool readOpcode; VertexLoader vertexLoader; bool inObjectStream; u8 lastPrimCmd; namespace OpcodeDecoder { void DecodePrimitiveStream(u32 iBufferSize) { u32 vertexSize = vertexLoader.GetVertexSize(); bool skipPrimitives = g_bSkipCurrentFrame || stats.thisFrame.numDrawnObjects < g_SWVideoConfig.drawStart || stats.thisFrame.numDrawnObjects >= g_SWVideoConfig.drawEnd; if (skipPrimitives) { while (streamSize > 0 && iBufferSize >= vertexSize) { g_pVideoData += vertexSize; iBufferSize -= vertexSize; streamSize--; } } else { while (streamSize > 0 && iBufferSize >= vertexSize) { vertexLoader.LoadVertex(); iBufferSize -= vertexSize; streamSize--; } } if (streamSize == 0) { // return to normal command processing ResetDecoding(); } } void ReadXFData(u32 iBufferSize) { _assert_msg_(VIDEO, iBufferSize >= (u32)(streamSize * 4), "Underflow during standard opcode decoding"); u32 pData[16]; for (int i = 0; i < streamSize; i++) pData[i] = DataReadU32(); LoadXFReg(streamSize, streamAddress, pData); // return to normal command processing ResetDecoding(); } void ExecuteDisplayList(u32 addr, u32 count) { u8 *videoDataSave = g_pVideoData; u8 *dlStart = g_VideoInitialize.pGetMemoryPointer(addr); g_pVideoData = dlStart; while (OpcodeDecoder::CommandRunnable(count)) { OpcodeDecoder::Run(count); // if data was read by the opcode decoder then the video data pointer changed u32 readCount = g_pVideoData - dlStart; dlStart = g_pVideoData; _assert_msg_(VIDEO, count >= readCount, "Display list underrun"); count -= readCount; } g_pVideoData = videoDataSave; } void DecodeStandard(u32 bufferSize) { _assert_msg_(VIDEO, CommandRunnable(bufferSize), "Underflow during standard opcode decoding"); int Cmd = DataReadU8(); if (Cmd == GX_NOP) return; // check if switching in or out of an object // only used for debuggging if (inObjectStream && (Cmd & 0x87) != lastPrimCmd) { inObjectStream = false; DebugUtil::OnObjectEnd(); } if (Cmd & 0x80 && !inObjectStream) { inObjectStream = true; lastPrimCmd = Cmd & 0x87; DebugUtil::OnObjectBegin(); } switch(Cmd) { case GX_NOP: break; case GX_LOAD_CP_REG: //0x08 { u32 SubCmd = DataReadU8(); u32 Value = DataReadU32(); LoadCPReg(SubCmd, Value); } break; case GX_LOAD_XF_REG: { u32 Cmd2 = DataReadU32(); streamSize = ((Cmd2 >> 16) & 15) + 1; streamAddress = Cmd2 & 0xFFFF; currentFunction = ReadXFData; minCommandSize = streamSize * 4; readOpcode = false; } break; case GX_LOAD_INDX_A: //used for position matrices LoadIndexedXF(DataReadU32(), 0xC); break; case GX_LOAD_INDX_B: //used for normal matrices LoadIndexedXF(DataReadU32(), 0xD); break; case GX_LOAD_INDX_C: //used for postmatrices LoadIndexedXF(DataReadU32(), 0xE); break; case GX_LOAD_INDX_D: //used for lights LoadIndexedXF(DataReadU32(), 0xF); break; case GX_CMD_CALL_DL: { u32 dwAddr = DataReadU32(); u32 dwCount = DataReadU32(); ExecuteDisplayList(dwAddr, dwCount); } break; case 0x44: // zelda 4 swords calls it and checks the metrics registers after that break; case GX_CMD_INVL_VC:// Invalidate (vertex cache?) DEBUG_LOG(VIDEO, "Invalidate (vertex cache?)"); break; case GX_LOAD_BP_REG: //0x61 { u32 cmd = DataReadU32(); LoadBPReg(cmd); } break; // draw primitives default: if (Cmd & 0x80) { u8 vatIndex = Cmd & GX_VAT_MASK; u8 primitiveType = (Cmd & GX_PRIMITIVE_MASK) >> GX_PRIMITIVE_SHIFT; vertexLoader.SetFormat(vatIndex, primitiveType); // switch to primitive processing streamSize = DataReadU16(); currentFunction = DecodePrimitiveStream; minCommandSize = vertexLoader.GetVertexSize(); readOpcode = false; INCSTAT(stats.thisFrame.numPrimatives); DEBUG_LOG(VIDEO, "Draw begin"); } else { PanicAlert("GFX: Unknown Opcode (0x%x).\n", Cmd); break; } break; } } void Init() { inObjectStream = false; lastPrimCmd = 0; ResetDecoding(); } void ResetDecoding() { currentFunction = DecodeStandard; minCommandSize = 1; readOpcode = true; } bool CommandRunnable(u32 iBufferSize) { if (iBufferSize < minCommandSize) return false; if (readOpcode) { u8 Cmd = DataPeek8(0); u32 minSize = 1; switch(Cmd) { case GX_LOAD_CP_REG: //0x08 minSize = 6; break; case GX_LOAD_XF_REG: minSize = 5; break; case GX_LOAD_INDX_A: //used for position matrices minSize = 5; break; case GX_LOAD_INDX_B: //used for normal matrices minSize = 5; break; case GX_LOAD_INDX_C: //used for postmatrices minSize = 5; break; case GX_LOAD_INDX_D: //used for lights minSize = 5; break; case GX_CMD_CALL_DL: minSize = 9; break; case GX_LOAD_BP_REG: //0x61 minSize = 5; break; // draw primitives default: if (Cmd & 0x80) minSize = 3; break; } return (iBufferSize >= minSize); } return true; } void Run(u32 iBufferSize) { currentFunction(iBufferSize); } }