// Copyright (C) 2003 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 "VideoCommon.h" #include "XFMemory.h" #include "CPMemory.h" #include "NativeVertexWriter.h" #include "VertexShaderManager.h" #include "PixelShaderManager.h" // LoadXFReg 0x10 void LoadXFReg(u32 transferSize, u32 baseAddress, u32 *pData) { u32 address = baseAddress; for (int i = 0; i < (int)transferSize; i++) { address = baseAddress + i; // Setup a Matrix if (address < XFMEM_ERROR) { VertexManager::Flush(); VertexShaderManager::InvalidateXFRange(address, address + transferSize); //PRIM_LOG("xfmem write: 0x%x-0x%x\n", address, address+transferSize); memcpy_gc((u32*)&xfmem[address], &pData[i], transferSize*4); i += transferSize; } else if (address >= XFMEM_SETTEXMTXINFO && address <= XFMEM_SETTEXMTXINFO+7) { xfregs.texcoords[address - XFMEM_SETTEXMTXINFO].texmtxinfo.hex = pData[i]; } else if (address >= XFMEM_SETPOSMTXINFO && address <= XFMEM_SETPOSMTXINFO+7) { xfregs.texcoords[address - XFMEM_SETPOSMTXINFO].postmtxinfo.hex = pData[i]; } else if (address < 0x2000) { u32 data = pData[i]; switch (address) { case XFMEM_ERROR: case XFMEM_DIAG: case XFMEM_STATE0: // internal state 0 case XFMEM_STATE1: // internal state 1 case XFMEM_CLOCK: case XFMEM_SETGPMETRIC: break; case XFMEM_CLIPDISABLE: //if (data & 1) {} // disable clipping detection //if (data & 2) {} // disable trivial rejection //if (data & 4) {} // disable cpoly clipping acceleration break; case XFMEM_VTXSPECS: //__GXXfVtxSpecs, wrote 0004 xfregs.hostinfo = *(INVTXSPEC*)&data; break; case XFMEM_SETNUMCHAN: if ((u32)xfregs.nNumChans != (data & 3)) { VertexManager::Flush(); xfregs.nNumChans = data & 3; } break; case XFMEM_SETCHAN0_AMBCOLOR: // Channel Ambient Color case XFMEM_SETCHAN1_AMBCOLOR: { u8 chan = address - XFMEM_SETCHAN0_AMBCOLOR; if (xfregs.colChans[chan].ambColor != data) { VertexManager::Flush(); xfregs.colChans[chan].ambColor = data; VertexShaderManager::SetMaterialColor(chan, data); } break; } case XFMEM_SETCHAN0_MATCOLOR: // Channel Material Color case XFMEM_SETCHAN1_MATCOLOR: { u8 chan = address - XFMEM_SETCHAN0_MATCOLOR; if (xfregs.colChans[chan].matColor != data) { VertexManager::Flush(); xfregs.colChans[chan].matColor = data; VertexShaderManager::SetMaterialColor(address - XFMEM_SETCHAN0_AMBCOLOR, data); } break; } case XFMEM_SETCHAN0_COLOR: // Channel Color case XFMEM_SETCHAN1_COLOR: { u8 chan = address - XFMEM_SETCHAN0_COLOR; if (xfregs.colChans[chan].color.hex != (data & 0x7fff)) { VertexManager::Flush(); xfregs.colChans[chan].color.hex = data; } break; } case XFMEM_SETCHAN0_ALPHA: // Channel Alpha case XFMEM_SETCHAN1_ALPHA: { u8 chan = address - XFMEM_SETCHAN0_ALPHA; if (xfregs.colChans[chan].alpha.hex != (data & 0x7fff)) { VertexManager::Flush(); xfregs.colChans[chan].alpha.hex = data; } break; } case XFMEM_DUALTEX: if (xfregs.bEnableDualTexTransform != (data & 1)) { VertexManager::Flush(); xfregs.bEnableDualTexTransform = data & 1; } break; case XFMEM_SETMATRIXINDA: //_assert_msg_(GX_XF, 0, "XF matrixindex0"); VertexShaderManager::SetTexMatrixChangedA(data); // ? break; case XFMEM_SETMATRIXINDB: //_assert_msg_(GX_XF, 0, "XF matrixindex1"); VertexShaderManager::SetTexMatrixChangedB(data); // ? break; case XFMEM_SETVIEWPORT: VertexManager::Flush(); VertexShaderManager::SetViewport((float*)&pData[i]); PixelShaderManager::SetViewport((float*)&pData[i]); i += 6; break; case XFMEM_SETPROJECTION: VertexManager::Flush(); VertexShaderManager::SetProjection((float*)&pData[i]); i += 7; break; case XFMEM_SETNUMTEXGENS: // GXSetNumTexGens if ((u32)xfregs.numTexGens != data) { VertexManager::Flush(); xfregs.numTexGens = data; } break; // GXSetZScaleOffset ? // Actually everything i tried didn't seem to change anything x) // paper mario writes 16777216.0f, 1677721.75 // Killer 7 writes 16777216.0f here case XFMEM_SETZSCALE: WARN_LOG(VIDEO, "Set ZScale : %x=%x\n", address, data); break; // paper mario writes 16777216.0f, 5033165.0f // Killer 7 alterns this between 16777216.0f and 16710107.0f case XFMEM_SETZOFFSET: WARN_LOG(VIDEO, "Set ZOffset : %x=%x\n", address, data); break; // -------------- // Unknown Regs // -------------- // Maybe these are for Normals? case 0x1048: //xfregs.texcoords[0].nrmmtxinfo.hex = data; break; ?? case 0x1049: case 0x104a: case 0x104b: case 0x104c: case 0x104d: case 0x104e: case 0x104f: DEBUG_LOG(VIDEO, "Possible Normal Mtx XF reg?: %x=%x\n", address, data); break; case 0x1013: case 0x1014: case 0x1015: case 0x1016: case 0x1017: default: WARN_LOG(VIDEO, "Unknown XF Reg: %x=%x\n", address, data); break; } } } } // TODO - verify that it is correct. Seems to work, though. void LoadIndexedXF(u32 val, int array) { int index = val >> 16; int address = val & 0xFFF; // check mask int size = ((val >> 12) & 0xF) + 1; //load stuff from array to address in xf mem VertexManager::Flush(); VertexShaderManager::InvalidateXFRange(address, address+size); //PRIM_LOG("xfmem iwrite: 0x%x-0x%x\n", address, address+size); for (int i = 0; i < size; i++) xfmem[address + i] = Memory_Read_U32(arraybases[array] + arraystrides[array] * index + i * 4); }