mirror of
https://github.com/dolphin-emu/dolphin.git
synced 2024-11-15 05:47:56 -07:00
53663c00b9
This is a remake of https://github.com/dolphin-emu/dolphin/pull/3749 Full credit goes to phire. Old message: "If none of the texture registers have changed and TMEM hasn't been invalidated or changed in other ways, we can blindly reuse the old texture cache entries without rehashing. Not only does this fix the bloom effect in Spyro: A Hero's Tail (The game abused texture cache) but it will also provide speedups for other games which use the same texture over multiple draw calls, especially when safe texture cache is in use." Changed the pr per phire's instructions to only return the current texture(s) if none of the texture registers were changed. If any texture register was changed, fall back to the default hashing and rebuilding textures from memory.
386 lines
13 KiB
C++
386 lines
13 KiB
C++
// Copyright 2010 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 "VideoCommon/VertexManagerBase.h"
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#include <cmath>
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#include <memory>
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#include "Common/BitSet.h"
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#include "Common/ChunkFile.h"
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#include "Common/CommonTypes.h"
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#include "Common/Logging/Log.h"
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#include "Core/ConfigManager.h"
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#include "VideoCommon/BPMemory.h"
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#include "VideoCommon/DataReader.h"
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#include "VideoCommon/Debugger.h"
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#include "VideoCommon/GeometryShaderManager.h"
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#include "VideoCommon/IndexGenerator.h"
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#include "VideoCommon/NativeVertexFormat.h"
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#include "VideoCommon/OpcodeDecoding.h"
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#include "VideoCommon/PerfQueryBase.h"
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#include "VideoCommon/PixelShaderManager.h"
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#include "VideoCommon/RenderBase.h"
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#include "VideoCommon/TextureCacheBase.h"
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#include "VideoCommon/VertexLoaderManager.h"
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#include "VideoCommon/VertexShaderManager.h"
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#include "VideoCommon/VideoBackendBase.h"
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#include "VideoCommon/VideoConfig.h"
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#include "VideoCommon/XFMemory.h"
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std::unique_ptr<VertexManagerBase> g_vertex_manager;
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static const PrimitiveType primitive_from_gx[8] = {
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PRIMITIVE_TRIANGLES, // GX_DRAW_QUADS
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PRIMITIVE_TRIANGLES, // GX_DRAW_QUADS_2
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PRIMITIVE_TRIANGLES, // GX_DRAW_TRIANGLES
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PRIMITIVE_TRIANGLES, // GX_DRAW_TRIANGLE_STRIP
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PRIMITIVE_TRIANGLES, // GX_DRAW_TRIANGLE_FAN
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PRIMITIVE_LINES, // GX_DRAW_LINES
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PRIMITIVE_LINES, // GX_DRAW_LINE_STRIP
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PRIMITIVE_POINTS, // GX_DRAW_POINTS
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};
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// Due to the BT.601 standard which the GameCube is based on being a compromise
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// between PAL and NTSC, neither standard gets square pixels. They are each off
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// by ~9% in opposite directions.
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// Just in case any game decides to take this into account, we do both these
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// tests with a large amount of slop.
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static bool AspectIs4_3(float width, float height)
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{
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float aspect = fabsf(width / height);
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return fabsf(aspect - 4.0f / 3.0f) < 4.0f / 3.0f * 0.11; // within 11% of 4:3
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}
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static bool AspectIs16_9(float width, float height)
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{
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float aspect = fabsf(width / height);
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return fabsf(aspect - 16.0f / 9.0f) < 16.0f / 9.0f * 0.11; // within 11% of 16:9
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}
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VertexManagerBase::VertexManagerBase()
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{
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}
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VertexManagerBase::~VertexManagerBase()
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{
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}
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u32 VertexManagerBase::GetRemainingSize() const
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{
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return static_cast<u32>(m_end_buffer_pointer - m_cur_buffer_pointer);
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}
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DataReader VertexManagerBase::PrepareForAdditionalData(int primitive, u32 count, u32 stride,
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bool cullall)
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{
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// The SSE vertex loader can write up to 4 bytes past the end
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u32 const needed_vertex_bytes = count * stride + 4;
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// We can't merge different kinds of primitives, so we have to flush here
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if (m_current_primitive_type != primitive_from_gx[primitive])
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Flush();
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m_current_primitive_type = primitive_from_gx[primitive];
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// Check for size in buffer, if the buffer gets full, call Flush()
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if (!m_is_flushed &&
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(count > IndexGenerator::GetRemainingIndices() || count > GetRemainingIndices(primitive) ||
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needed_vertex_bytes > GetRemainingSize()))
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{
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Flush();
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if (count > IndexGenerator::GetRemainingIndices())
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ERROR_LOG(VIDEO, "Too little remaining index values. Use 32-bit or reset them on flush.");
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if (count > GetRemainingIndices(primitive))
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ERROR_LOG(VIDEO, "VertexManager: Buffer not large enough for all indices! "
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"Increase MAXIBUFFERSIZE or we need primitive breaking after all.");
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if (needed_vertex_bytes > GetRemainingSize())
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ERROR_LOG(VIDEO, "VertexManager: Buffer not large enough for all vertices! "
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"Increase MAXVBUFFERSIZE or we need primitive breaking after all.");
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}
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m_cull_all = cullall;
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// need to alloc new buffer
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if (m_is_flushed)
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{
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g_vertex_manager->ResetBuffer(stride);
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m_is_flushed = false;
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}
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return DataReader(m_cur_buffer_pointer, m_end_buffer_pointer);
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}
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void VertexManagerBase::FlushData(u32 count, u32 stride)
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{
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m_cur_buffer_pointer += count * stride;
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}
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u32 VertexManagerBase::GetRemainingIndices(int primitive)
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{
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u32 index_len = MAXIBUFFERSIZE - IndexGenerator::GetIndexLen();
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if (g_Config.backend_info.bSupportsPrimitiveRestart)
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{
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switch (primitive)
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{
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case OpcodeDecoder::GX_DRAW_QUADS:
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case OpcodeDecoder::GX_DRAW_QUADS_2:
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return index_len / 5 * 4;
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case OpcodeDecoder::GX_DRAW_TRIANGLES:
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return index_len / 4 * 3;
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case OpcodeDecoder::GX_DRAW_TRIANGLE_STRIP:
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return index_len / 1 - 1;
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case OpcodeDecoder::GX_DRAW_TRIANGLE_FAN:
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return index_len / 6 * 4 + 1;
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case OpcodeDecoder::GX_DRAW_LINES:
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return index_len;
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case OpcodeDecoder::GX_DRAW_LINE_STRIP:
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return index_len / 2 + 1;
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case OpcodeDecoder::GX_DRAW_POINTS:
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return index_len;
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default:
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return 0;
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}
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}
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else
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{
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switch (primitive)
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{
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case OpcodeDecoder::GX_DRAW_QUADS:
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case OpcodeDecoder::GX_DRAW_QUADS_2:
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return index_len / 6 * 4;
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case OpcodeDecoder::GX_DRAW_TRIANGLES:
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return index_len;
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case OpcodeDecoder::GX_DRAW_TRIANGLE_STRIP:
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return index_len / 3 + 2;
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case OpcodeDecoder::GX_DRAW_TRIANGLE_FAN:
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return index_len / 3 + 2;
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case OpcodeDecoder::GX_DRAW_LINES:
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return index_len;
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case OpcodeDecoder::GX_DRAW_LINE_STRIP:
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return index_len / 2 + 1;
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case OpcodeDecoder::GX_DRAW_POINTS:
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return index_len;
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default:
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return 0;
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}
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}
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}
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std::pair<size_t, size_t> VertexManagerBase::ResetFlushAspectRatioCount()
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{
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std::pair<size_t, size_t> val = std::make_pair(m_flush_count_4_3, m_flush_count_anamorphic);
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m_flush_count_4_3 = 0;
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m_flush_count_anamorphic = 0;
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return val;
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}
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void VertexManagerBase::Flush()
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{
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if (m_is_flushed)
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return;
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// loading a state will invalidate BP, so check for it
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g_video_backend->CheckInvalidState();
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#if defined(_DEBUG) || defined(DEBUGFAST)
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PRIM_LOG("frame%d:\n texgen=%d, numchan=%d, dualtex=%d, ztex=%d, cole=%d, alpe=%d, ze=%d",
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g_ActiveConfig.iSaveTargetId, xfmem.numTexGen.numTexGens, xfmem.numChan.numColorChans,
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xfmem.dualTexTrans.enabled, bpmem.ztex2.op, (int)bpmem.blendmode.colorupdate,
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(int)bpmem.blendmode.alphaupdate, (int)bpmem.zmode.updateenable);
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for (unsigned int i = 0; i < xfmem.numChan.numColorChans; ++i)
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{
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LitChannel* ch = &xfmem.color[i];
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PRIM_LOG("colchan%d: matsrc=%d, light=0x%x, ambsrc=%d, diffunc=%d, attfunc=%d", i,
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ch->matsource, ch->GetFullLightMask(), ch->ambsource, ch->diffusefunc, ch->attnfunc);
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ch = &xfmem.alpha[i];
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PRIM_LOG("alpchan%d: matsrc=%d, light=0x%x, ambsrc=%d, diffunc=%d, attfunc=%d", i,
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ch->matsource, ch->GetFullLightMask(), ch->ambsource, ch->diffusefunc, ch->attnfunc);
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}
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for (unsigned int i = 0; i < xfmem.numTexGen.numTexGens; ++i)
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{
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TexMtxInfo tinfo = xfmem.texMtxInfo[i];
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if (tinfo.texgentype != XF_TEXGEN_EMBOSS_MAP)
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tinfo.hex &= 0x7ff;
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if (tinfo.texgentype != XF_TEXGEN_REGULAR)
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tinfo.projection = 0;
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PRIM_LOG("txgen%d: proj=%d, input=%d, gentype=%d, srcrow=%d, embsrc=%d, emblght=%d, "
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"postmtx=%d, postnorm=%d",
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i, tinfo.projection, tinfo.inputform, tinfo.texgentype, tinfo.sourcerow,
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tinfo.embosssourceshift, tinfo.embosslightshift, xfmem.postMtxInfo[i].index,
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xfmem.postMtxInfo[i].normalize);
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}
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PRIM_LOG("pixel: tev=%d, ind=%d, texgen=%d, dstalpha=%d, alphatest=0x%x",
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(int)bpmem.genMode.numtevstages + 1, (int)bpmem.genMode.numindstages,
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(int)bpmem.genMode.numtexgens, (u32)bpmem.dstalpha.enable,
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(bpmem.alpha_test.hex >> 16) & 0xff);
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#endif
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// If the primitave is marked CullAll. All we need to do is update the vertex constants and
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// calculate the zfreeze refrence slope
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if (!m_cull_all)
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{
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BitSet32 usedtextures;
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for (u32 i = 0; i < bpmem.genMode.numtevstages + 1u; ++i)
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if (bpmem.tevorders[i / 2].getEnable(i & 1))
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usedtextures[bpmem.tevorders[i / 2].getTexMap(i & 1)] = true;
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if (bpmem.genMode.numindstages > 0)
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for (unsigned int i = 0; i < bpmem.genMode.numtevstages + 1u; ++i)
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if (bpmem.tevind[i].IsActive() && bpmem.tevind[i].bt < bpmem.genMode.numindstages)
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usedtextures[bpmem.tevindref.getTexMap(bpmem.tevind[i].bt)] = true;
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for (unsigned int i : usedtextures)
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{
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const auto* tentry = g_texture_cache->Load(i);
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if (tentry)
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{
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g_renderer->SetSamplerState(i & 3, i >> 2, tentry->is_custom_tex);
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PixelShaderManager::SetTexDims(i, tentry->native_width, tentry->native_height);
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}
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else
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{
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ERROR_LOG(VIDEO, "error loading texture");
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}
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}
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g_texture_cache->BindTextures();
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}
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// set global vertex constants
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VertexShaderManager::SetConstants();
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// Track some stats used elsewhere by the anamorphic widescreen heuristic.
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if (!SConfig::GetInstance().bWii)
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{
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float* rawProjection = xfmem.projection.rawProjection;
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bool viewport_is_4_3 = AspectIs4_3(xfmem.viewport.wd, xfmem.viewport.ht);
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if (AspectIs16_9(rawProjection[2], rawProjection[0]) && viewport_is_4_3)
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{
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// Projection is 16:9 and viewport is 4:3, we are rendering an anamorphic
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// widescreen picture.
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m_flush_count_anamorphic++;
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}
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else if (AspectIs4_3(rawProjection[2], rawProjection[0]) && viewport_is_4_3)
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{
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// Projection and viewports are both 4:3, we are rendering a normal image.
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m_flush_count_4_3++;
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}
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}
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// Calculate ZSlope for zfreeze
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if (!bpmem.genMode.zfreeze)
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{
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// Must be done after VertexShaderManager::SetConstants()
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CalculateZSlope(VertexLoaderManager::GetCurrentVertexFormat());
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}
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else if (m_zslope.dirty && !m_cull_all) // or apply any dirty ZSlopes
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{
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PixelShaderManager::SetZSlope(m_zslope.dfdx, m_zslope.dfdy, m_zslope.f0);
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m_zslope.dirty = false;
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}
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if (!m_cull_all)
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{
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// set the rest of the global constants
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GeometryShaderManager::SetConstants();
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PixelShaderManager::SetConstants();
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if (PerfQueryBase::ShouldEmulate())
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g_perf_query->EnableQuery(bpmem.zcontrol.early_ztest ? PQG_ZCOMP_ZCOMPLOC : PQG_ZCOMP);
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g_vertex_manager->vFlush();
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if (PerfQueryBase::ShouldEmulate())
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g_perf_query->DisableQuery(bpmem.zcontrol.early_ztest ? PQG_ZCOMP_ZCOMPLOC : PQG_ZCOMP);
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}
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GFX_DEBUGGER_PAUSE_AT(NEXT_FLUSH, true);
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if (xfmem.numTexGen.numTexGens != bpmem.genMode.numtexgens)
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ERROR_LOG(VIDEO,
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"xf.numtexgens (%d) does not match bp.numtexgens (%d). Error in command stream.",
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xfmem.numTexGen.numTexGens, bpmem.genMode.numtexgens.Value());
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m_is_flushed = true;
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m_cull_all = false;
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}
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void VertexManagerBase::DoState(PointerWrap& p)
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{
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p.Do(m_zslope);
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g_vertex_manager->vDoState(p);
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}
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void VertexManagerBase::CalculateZSlope(NativeVertexFormat* format)
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{
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float out[12];
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float viewOffset[2] = {xfmem.viewport.xOrig - bpmem.scissorOffset.x * 2,
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xfmem.viewport.yOrig - bpmem.scissorOffset.y * 2};
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if (m_current_primitive_type != PRIMITIVE_TRIANGLES)
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return;
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// Global matrix ID.
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u32 mtxIdx = g_main_cp_state.matrix_index_a.PosNormalMtxIdx;
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const PortableVertexDeclaration vert_decl = format->GetVertexDeclaration();
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// Make sure the buffer contains at least 3 vertices.
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if ((m_cur_buffer_pointer - m_base_buffer_pointer) < (vert_decl.stride * 3))
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return;
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// Lookup vertices of the last rendered triangle and software-transform them
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// This allows us to determine the depth slope, which will be used if z-freeze
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// is enabled in the following flush.
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for (unsigned int i = 0; i < 3; ++i)
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{
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// If this vertex format has per-vertex position matrix IDs, look it up.
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if (vert_decl.posmtx.enable)
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mtxIdx = VertexLoaderManager::position_matrix_index[3 - i];
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if (vert_decl.position.components == 2)
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VertexLoaderManager::position_cache[2 - i][2] = 0;
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VertexShaderManager::TransformToClipSpace(&VertexLoaderManager::position_cache[2 - i][0],
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&out[i * 4], mtxIdx);
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// Transform to Screenspace
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float inv_w = 1.0f / out[3 + i * 4];
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out[0 + i * 4] = out[0 + i * 4] * inv_w * xfmem.viewport.wd + viewOffset[0];
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out[1 + i * 4] = out[1 + i * 4] * inv_w * xfmem.viewport.ht + viewOffset[1];
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out[2 + i * 4] = out[2 + i * 4] * inv_w * xfmem.viewport.zRange + xfmem.viewport.farZ;
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}
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float dx31 = out[8] - out[0];
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float dx12 = out[0] - out[4];
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float dy12 = out[1] - out[5];
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float dy31 = out[9] - out[1];
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float DF31 = out[10] - out[2];
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float DF21 = out[6] - out[2];
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float a = DF31 * -dy12 - DF21 * dy31;
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float b = dx31 * DF21 + dx12 * DF31;
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float c = -dx12 * dy31 - dx31 * -dy12;
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// Sometimes we process de-generate triangles. Stop any divide by zeros
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if (c == 0)
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return;
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m_zslope.dfdx = -a / c;
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m_zslope.dfdy = -b / c;
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m_zslope.f0 = out[2] - (out[0] * m_zslope.dfdx + out[1] * m_zslope.dfdy);
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m_zslope.dirty = true;
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}
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