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331 lines
11 KiB
C++
331 lines
11 KiB
C++
// Copyright 2013 Dolphin Emulator Project
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// Licensed under GPLv2
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// Refer to the license.txt file included.
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#include "Common/CommonTypes.h"
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#include "Common/MemoryUtil.h"
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#include "Core/Host.h"
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#include "VideoCommon/DataReader.h"
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#include "VideoCommon/PixelEngine.h"
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#include "VideoCommon/VertexLoader.h"
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#include "VideoCommon/VertexLoader_Color.h"
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#include "VideoCommon/VertexLoader_Normal.h"
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#include "VideoCommon/VertexLoader_Position.h"
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#include "VideoCommon/VertexLoader_TextCoord.h"
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#include "VideoCommon/VideoCommon.h"
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#include "VideoCommon/VideoConfig.h"
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// This pointer is used as the source/dst for all fixed function loader calls
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u8* g_video_buffer_read_ptr;
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u8* g_vertex_manager_write_ptr;
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static void LOADERDECL PosMtx_ReadDirect_UByte(VertexLoader* loader)
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{
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u32 posmtx = DataReadU8() & 0x3f;
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DataWrite<u32>(posmtx);
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PRIM_LOG("posmtx: %d, ", posmtx);
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}
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static void LOADERDECL TexMtx_ReadDirect_UByte(VertexLoader* loader)
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{
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loader->m_curtexmtx[loader->m_texmtxread] = DataReadU8() & 0x3f;
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PRIM_LOG("texmtx%d: %d, ", loader->m_texmtxread, loader->m_curtexmtx[loader->m_texmtxread]);
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loader->m_texmtxread++;
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}
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static void LOADERDECL TexMtx_Write_Float(VertexLoader* loader)
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{
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DataWrite(float(loader->m_curtexmtx[loader->m_texmtxwrite++]));
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}
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static void LOADERDECL TexMtx_Write_Float2(VertexLoader* loader)
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{
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DataWrite(0.f);
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DataWrite(float(loader->m_curtexmtx[loader->m_texmtxwrite++]));
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}
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static void LOADERDECL TexMtx_Write_Float3(VertexLoader* loader)
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{
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DataWrite(0.f);
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DataWrite(0.f);
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DataWrite(float(loader->m_curtexmtx[loader->m_texmtxwrite++]));
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}
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static void LOADERDECL SkipVertex(VertexLoader* loader)
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{
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if (loader->m_vertexSkip)
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{
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// reset the output buffer
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g_vertex_manager_write_ptr -= loader->m_native_vtx_decl.stride;
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loader->m_skippedVertices++;
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}
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}
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VertexLoader::VertexLoader(const TVtxDesc &vtx_desc, const VAT &vtx_attr)
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: VertexLoaderBase(vtx_desc, vtx_attr)
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{
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VertexLoader_Normal::Init();
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CompileVertexTranslator();
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// generate frac factors
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m_posScale = 1.0f / (1U << m_VtxAttr.PosFrac);
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for (int i = 0; i < 8; i++)
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m_tcScale[i] = 1.0f / (1U << m_VtxAttr.texCoord[i].Frac);
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}
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void VertexLoader::CompileVertexTranslator()
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{
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m_VertexSize = 0;
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const TVtxAttr &vtx_attr = m_VtxAttr;
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// Reset pipeline
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m_numPipelineStages = 0;
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// Colors
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const u64 col[2] = { m_VtxDesc.Color0, m_VtxDesc.Color1 };
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// TextureCoord
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const u64 tc[8] = {
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m_VtxDesc.Tex0Coord, m_VtxDesc.Tex1Coord, m_VtxDesc.Tex2Coord, m_VtxDesc.Tex3Coord,
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m_VtxDesc.Tex4Coord, m_VtxDesc.Tex5Coord, m_VtxDesc.Tex6Coord, m_VtxDesc.Tex7Coord
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};
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u32 components = 0;
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// Position in pc vertex format.
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int nat_offset = 0;
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// Position Matrix Index
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if (m_VtxDesc.PosMatIdx)
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{
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WriteCall(PosMtx_ReadDirect_UByte);
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components |= VB_HAS_POSMTXIDX;
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m_native_vtx_decl.posmtx.components = 4;
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m_native_vtx_decl.posmtx.enable = true;
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m_native_vtx_decl.posmtx.offset = nat_offset;
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m_native_vtx_decl.posmtx.type = VAR_UNSIGNED_BYTE;
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m_native_vtx_decl.posmtx.integer = true;
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nat_offset += 4;
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m_VertexSize += 1;
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}
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if (m_VtxDesc.Tex0MatIdx) { m_VertexSize += 1; components |= VB_HAS_TEXMTXIDX0; WriteCall(TexMtx_ReadDirect_UByte); }
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if (m_VtxDesc.Tex1MatIdx) { m_VertexSize += 1; components |= VB_HAS_TEXMTXIDX1; WriteCall(TexMtx_ReadDirect_UByte); }
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if (m_VtxDesc.Tex2MatIdx) { m_VertexSize += 1; components |= VB_HAS_TEXMTXIDX2; WriteCall(TexMtx_ReadDirect_UByte); }
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if (m_VtxDesc.Tex3MatIdx) { m_VertexSize += 1; components |= VB_HAS_TEXMTXIDX3; WriteCall(TexMtx_ReadDirect_UByte); }
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if (m_VtxDesc.Tex4MatIdx) { m_VertexSize += 1; components |= VB_HAS_TEXMTXIDX4; WriteCall(TexMtx_ReadDirect_UByte); }
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if (m_VtxDesc.Tex5MatIdx) { m_VertexSize += 1; components |= VB_HAS_TEXMTXIDX5; WriteCall(TexMtx_ReadDirect_UByte); }
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if (m_VtxDesc.Tex6MatIdx) { m_VertexSize += 1; components |= VB_HAS_TEXMTXIDX6; WriteCall(TexMtx_ReadDirect_UByte); }
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if (m_VtxDesc.Tex7MatIdx) { m_VertexSize += 1; components |= VB_HAS_TEXMTXIDX7; WriteCall(TexMtx_ReadDirect_UByte); }
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// Write vertex position loader
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WriteCall(VertexLoader_Position::GetFunction(m_VtxDesc.Position, m_VtxAttr.PosFormat, m_VtxAttr.PosElements));
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m_VertexSize += VertexLoader_Position::GetSize(m_VtxDesc.Position, m_VtxAttr.PosFormat, m_VtxAttr.PosElements);
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int pos_elements = m_VtxAttr.PosElements + 2;
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m_native_vtx_decl.position.components = pos_elements;
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m_native_vtx_decl.position.enable = true;
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m_native_vtx_decl.position.offset = nat_offset;
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m_native_vtx_decl.position.type = VAR_FLOAT;
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m_native_vtx_decl.position.integer = false;
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nat_offset += pos_elements * sizeof(float);
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// Normals
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if (m_VtxDesc.Normal != NOT_PRESENT)
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{
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m_VertexSize += VertexLoader_Normal::GetSize(m_VtxDesc.Normal,
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m_VtxAttr.NormalFormat, m_VtxAttr.NormalElements, m_VtxAttr.NormalIndex3);
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TPipelineFunction pFunc = VertexLoader_Normal::GetFunction(m_VtxDesc.Normal,
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m_VtxAttr.NormalFormat, m_VtxAttr.NormalElements, m_VtxAttr.NormalIndex3);
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if (pFunc == nullptr)
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{
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PanicAlert("VertexLoader_Normal::GetFunction(%i %i %i %i) returned zero!",
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(u32)m_VtxDesc.Normal, m_VtxAttr.NormalFormat,
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m_VtxAttr.NormalElements, m_VtxAttr.NormalIndex3);
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}
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WriteCall(pFunc);
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for (int i = 0; i < (vtx_attr.NormalElements ? 3 : 1); i++)
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{
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m_native_vtx_decl.normals[i].components = 3;
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m_native_vtx_decl.normals[i].enable = true;
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m_native_vtx_decl.normals[i].offset = nat_offset;
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m_native_vtx_decl.normals[i].type = VAR_FLOAT;
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m_native_vtx_decl.normals[i].integer = false;
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nat_offset += 12;
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}
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components |= VB_HAS_NRM0;
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if (m_VtxAttr.NormalElements == 1)
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components |= VB_HAS_NRM1 | VB_HAS_NRM2;
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}
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for (int i = 0; i < 2; i++)
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{
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m_native_vtx_decl.colors[i].components = 4;
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m_native_vtx_decl.colors[i].type = VAR_UNSIGNED_BYTE;
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m_native_vtx_decl.colors[i].integer = false;
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switch (col[i])
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{
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case NOT_PRESENT:
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break;
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case DIRECT:
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switch (m_VtxAttr.color[i].Comp)
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{
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case FORMAT_16B_565: m_VertexSize += 2; WriteCall(Color_ReadDirect_16b_565); break;
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case FORMAT_24B_888: m_VertexSize += 3; WriteCall(Color_ReadDirect_24b_888); break;
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case FORMAT_32B_888x: m_VertexSize += 4; WriteCall(Color_ReadDirect_32b_888x); break;
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case FORMAT_16B_4444: m_VertexSize += 2; WriteCall(Color_ReadDirect_16b_4444); break;
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case FORMAT_24B_6666: m_VertexSize += 3; WriteCall(Color_ReadDirect_24b_6666); break;
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case FORMAT_32B_8888: m_VertexSize += 4; WriteCall(Color_ReadDirect_32b_8888); break;
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default: _assert_(0); break;
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}
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break;
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case INDEX8:
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m_VertexSize += 1;
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switch (m_VtxAttr.color[i].Comp)
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{
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case FORMAT_16B_565: WriteCall(Color_ReadIndex8_16b_565); break;
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case FORMAT_24B_888: WriteCall(Color_ReadIndex8_24b_888); break;
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case FORMAT_32B_888x: WriteCall(Color_ReadIndex8_32b_888x); break;
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case FORMAT_16B_4444: WriteCall(Color_ReadIndex8_16b_4444); break;
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case FORMAT_24B_6666: WriteCall(Color_ReadIndex8_24b_6666); break;
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case FORMAT_32B_8888: WriteCall(Color_ReadIndex8_32b_8888); break;
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default: _assert_(0); break;
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}
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break;
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case INDEX16:
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m_VertexSize += 2;
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switch (m_VtxAttr.color[i].Comp)
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{
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case FORMAT_16B_565: WriteCall(Color_ReadIndex16_16b_565); break;
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case FORMAT_24B_888: WriteCall(Color_ReadIndex16_24b_888); break;
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case FORMAT_32B_888x: WriteCall(Color_ReadIndex16_32b_888x); break;
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case FORMAT_16B_4444: WriteCall(Color_ReadIndex16_16b_4444); break;
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case FORMAT_24B_6666: WriteCall(Color_ReadIndex16_24b_6666); break;
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case FORMAT_32B_8888: WriteCall(Color_ReadIndex16_32b_8888); break;
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default: _assert_(0); break;
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}
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break;
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}
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// Common for the three bottom cases
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if (col[i] != NOT_PRESENT)
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{
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components |= VB_HAS_COL0 << i;
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m_native_vtx_decl.colors[i].offset = nat_offset;
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m_native_vtx_decl.colors[i].enable = true;
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nat_offset += 4;
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}
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}
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// Texture matrix indices (remove if corresponding texture coordinate isn't enabled)
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for (int i = 0; i < 8; i++)
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{
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m_native_vtx_decl.texcoords[i].offset = nat_offset;
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m_native_vtx_decl.texcoords[i].type = VAR_FLOAT;
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m_native_vtx_decl.texcoords[i].integer = false;
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const int format = m_VtxAttr.texCoord[i].Format;
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const int elements = m_VtxAttr.texCoord[i].Elements;
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if (tc[i] != NOT_PRESENT)
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{
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_assert_msg_(VIDEO, DIRECT <= tc[i] && tc[i] <= INDEX16, "Invalid texture coordinates!\n(tc[i] = %d)", (u32)tc[i]);
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_assert_msg_(VIDEO, FORMAT_UBYTE <= format && format <= FORMAT_FLOAT, "Invalid texture coordinates format!\n(format = %d)", format);
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_assert_msg_(VIDEO, 0 <= elements && elements <= 1, "Invalid number of texture coordinates elements!\n(elements = %d)", elements);
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components |= VB_HAS_UV0 << i;
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WriteCall(VertexLoader_TextCoord::GetFunction(tc[i], format, elements));
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m_VertexSize += VertexLoader_TextCoord::GetSize(tc[i], format, elements);
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}
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if (components & (VB_HAS_TEXMTXIDX0 << i))
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{
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m_native_vtx_decl.texcoords[i].enable = true;
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if (tc[i] != NOT_PRESENT)
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{
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// if texmtx is included, texcoord will always be 3 floats, z will be the texmtx index
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m_native_vtx_decl.texcoords[i].components = 3;
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nat_offset += 12;
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WriteCall(m_VtxAttr.texCoord[i].Elements ? TexMtx_Write_Float : TexMtx_Write_Float2);
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}
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else
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{
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m_native_vtx_decl.texcoords[i].components = 3;
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nat_offset += 12;
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WriteCall(TexMtx_Write_Float3);
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}
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}
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else
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{
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if (tc[i] != NOT_PRESENT)
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{
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m_native_vtx_decl.texcoords[i].enable = true;
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m_native_vtx_decl.texcoords[i].components = vtx_attr.texCoord[i].Elements ? 2 : 1;
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nat_offset += 4 * (vtx_attr.texCoord[i].Elements ? 2 : 1);
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}
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}
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if (tc[i] == NOT_PRESENT)
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{
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// if there's more tex coords later, have to write a dummy call
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int j = i + 1;
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for (; j < 8; ++j)
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{
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if (tc[j] != NOT_PRESENT)
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{
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WriteCall(VertexLoader_TextCoord::GetDummyFunction()); // important to get indices right!
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break;
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}
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}
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// tricky!
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if (j == 8 && !((components & VB_HAS_TEXMTXIDXALL) & (VB_HAS_TEXMTXIDXALL << (i + 1))))
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{
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// no more tex coords and tex matrices, so exit loop
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break;
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}
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}
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}
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// indexed position formats may skip a the vertex
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if (m_VtxDesc.Position & 2)
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{
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WriteCall(SkipVertex);
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}
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m_native_components = components;
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m_native_vtx_decl.stride = nat_offset;
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}
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void VertexLoader::WriteCall(TPipelineFunction func)
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{
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m_PipelineStages[m_numPipelineStages++] = func;
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}
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int VertexLoader::RunVertices(DataReader src, DataReader dst, int count)
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{
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g_vertex_manager_write_ptr = dst.GetPointer();
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g_video_buffer_read_ptr = src.GetPointer();
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m_numLoadedVertices += count;
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m_skippedVertices = 0;
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for (int s = 0; s < count; s++)
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{
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m_tcIndex = 0;
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m_colIndex = 0;
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m_texmtxwrite = m_texmtxread = 0;
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for (int i = 0; i < m_numPipelineStages; i++)
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m_PipelineStages[i](this);
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PRIM_LOG("\n");
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}
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return count - m_skippedVertices;
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}
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