mirror of
https://github.com/hrydgard/ppsspp.git
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458 lines
18 KiB
C++
458 lines
18 KiB
C++
#include <string>
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#include <sstream>
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#include <vector>
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#include "Common/GPU/thin3d.h"
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#include "Common/StringUtils.h"
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#include "Common/Data/Text/StringWriter.h"
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#include "Common/BitSet.h"
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#include "Core/Config.h"
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#include "GPU/ge_constants.h"
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#include "GPU/GPU.h"
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#include "GPU/GPUState.h"
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#include "GPU/Common/GPUStateUtils.h"
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#include "GPU/Common/ShaderId.h"
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#include "GPU/Common/VertexDecoderCommon.h"
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#include "GPU/Common/DrawEngineCommon.h" // Just for ClipInfoFlags
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std::string ShaderID::ToDebugString() const {
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return StringFromFormat("%08x:%08x", d >> 32, d & 0xFFFFFFFF);
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}
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std::string VertexShaderDesc(const VShaderID &id) {
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char buffer[512];
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StringWriter desc(buffer, sizeof(buffer));
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desc.W(id.ToDebugString()).C(" ");
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if (id.Bit(VS_BIT_IS_THROUGH)) desc.C("THR ");
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if (id.Bit(VS_BIT_USE_HW_TRANSFORM)) desc.C("HWX "); else desc.C("SWX ");
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if (id.Bit(VS_BIT_HAS_NORMAL)) desc.C("N ");
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if (id.Bit(VS_BIT_HAS_TEXCOORD)) desc.C("T ");
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if (id.Bit(VS_BIT_HAS_COLOR)) desc.C("C ");
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if (id.Bit(VS_BIT_LMODE)) desc.C("LM ");
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if (id.Bit(VS_BIT_NORM_REVERSE)) desc.C("RevN ");
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if (id.Bit(VS_BIT_FLATSHADE)) desc.C("Flat ");
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if (id.Bits(VS_BIT_MATERIAL_UPDATE, 3)) desc.C("MatUp:").F("%d", id.Bits(VS_BIT_MATERIAL_UPDATE, 3)).C(" ");
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int uvgMode = id.Bits(VS_BIT_UVGEN_MODE, 2);
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static constexpr std::string_view uvgModes[4] = {"UV ", "UVMtx ", "UVEnv ", "UVUnk "};
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if (uvgMode) desc.W(uvgModes[uvgMode]);
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if (uvgMode == GE_TEXMAP_TEXTURE_MATRIX) {
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int uvprojMode = id.Bits(VS_BIT_UVPROJ_MODE, 2);
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static constexpr std::string_view uvprojModes[4] = { "TexProjPos ", "TexProjUV ", "TexProjNNrm ", "TexProjNrm " };
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desc.W(uvprojModes[uvprojMode]);
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}
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if (id.Bit(VS_BIT_ENABLE_BONES)) desc.F("Bones:%d ", id.Bits(VS_BIT_BONES, 3) + 1);
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if (id.Bits(VS_BIT_WEIGHT_FMTSCALE, 2)) desc.F("WScale:%d ", id.Bits(VS_BIT_WEIGHT_FMTSCALE, 2));
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int ls0 = id.Bits(VS_BIT_LS0, 2);
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int ls1 = id.Bits(VS_BIT_LS1, 2);
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if (id.Bit(VS_BIT_FS_MINMAX_DISCARD)) desc.C("FSMinMax ");
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if (id.Bit(VS_BIT_FS_DEPTH_CLAMP)) desc.C("FSDepthClamp ");
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// Lights
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if (id.Bit(VS_BIT_LIGHTING_ENABLE)) {
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desc.C("Light: ");
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}
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if (id.Bit(VS_BIT_LIGHT_UBERSHADER)) {
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desc.C("LightUberShader ");
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}
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for (int i = 0; i < 4; i++) {
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bool enabled = id.Bit(VS_BIT_LIGHT0_ENABLE + i) && id.Bit(VS_BIT_LIGHTING_ENABLE);
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if (enabled || (uvgMode == GE_TEXMAP_ENVIRONMENT_MAP && (ls0 == i || ls1 == i))) {
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desc.F("%d: ", i);
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desc.F("c:%d t:%d ", id.Bits(VS_BIT_LIGHT0_COMP + 4 * i, 2), id.Bits(VS_BIT_LIGHT0_TYPE + 4 * i, 2));
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}
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}
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if (id.Bit(VS_BIT_SIMPLE_STEREO)) desc.C("SimpleStereo ");
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if (id.Bit(VS_BIT_VERTEX_RANGE_CULLING)) desc.C("RangeCull ");
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return desc.as_string();
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}
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void ComputeVertexShaderID(VShaderID *id_out, u32 vertType, bool useHWTransform, bool weightsAsFloat, bool useSkinInDecode, ClipInfoFlags clipInfoFlags) {
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const bool isModeThrough = (vertType & GE_VTYPE_THROUGH) != 0;
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const bool isSoftwareFallback = !isModeThrough && !useHWTransform && g_Config.bHardwareTransform;
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bool doTexture = gstate.isTextureMapEnabled() && !gstate.isModeClear();
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bool doShadeMapping = doTexture && (gstate.getUVGenMode() == GE_TEXMAP_ENVIRONMENT_MAP);
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bool doFlatShading = gstate.getShadeMode() == GE_SHADE_FLAT && !gstate.isModeClear();
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bool vtypeHasColor = (vertType & GE_VTYPE_COL_MASK) != 0;
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bool vtypeHasNormal = (vertType & GE_VTYPE_NRM_MASK) != 0;
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bool vtypeHasTexcoord = (vertType & GE_VTYPE_TC_MASK) != 0;
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bool lmode = gstate.isUsingSecondaryColor() && gstate.isLightingEnabled() && !isModeThrough && !gstate.isModeClear();
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bool vertexRangeCulling = gstate_c.Use(GPU_USE_VS_RANGE_CULLING) &&
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!isModeThrough && gstate_c.submitType == SubmitType::DRAW; // neither hw nor sw spline/bezier. See #11692
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VShaderID id;
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id.SetBit(VS_BIT_LMODE, lmode);
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id.SetBit(VS_BIT_IS_THROUGH, isModeThrough);
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id.SetBit(VS_BIT_HAS_COLOR, vtypeHasColor);
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id.SetBit(VS_BIT_VERTEX_RANGE_CULLING, vertexRangeCulling);
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if (!isModeThrough && gstate_c.Use(GPU_USE_SINGLE_PASS_STEREO)) {
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id.SetBit(VS_BIT_SIMPLE_STEREO);
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}
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if (doTexture) {
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// UV generation mode. doShadeMapping is implicitly stored here.
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id.SetBits(VS_BIT_UVGEN_MODE, 2, gstate.getUVGenMode());
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}
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if (useHWTransform) {
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_dbg_assert_(!isModeThrough);
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id.SetBit(VS_BIT_USE_HW_TRANSFORM);
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id.SetBit(VS_BIT_HAS_NORMAL, vtypeHasNormal);
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// The next bits are used differently depending on UVgen mode
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if (gstate.getUVGenMode() == GE_TEXMAP_TEXTURE_MATRIX) {
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id.SetBits(VS_BIT_UVPROJ_MODE, 2, gstate.getUVProjMode());
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} else if (doShadeMapping) {
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id.SetBits(VS_BIT_LS0, 2, gstate.getUVLS0());
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id.SetBits(VS_BIT_LS1, 2, gstate.getUVLS1());
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}
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// Bones.
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bool enableBones = !useSkinInDecode && vertTypeIsSkinningEnabled(vertType);
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id.SetBit(VS_BIT_ENABLE_BONES, enableBones);
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if (enableBones) {
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id.SetBits(VS_BIT_BONES, 3, TranslateNumBones(vertTypeGetNumBoneWeights(vertType)) - 1);
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// 2 bits. We should probably send in the weight scalefactor as a uniform instead,
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// or simply preconvert all weights to floats.
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id.SetBits(VS_BIT_WEIGHT_FMTSCALE, 2, weightsAsFloat ? 0 : (vertType & GE_VTYPE_WEIGHT_MASK) >> GE_VTYPE_WEIGHT_SHIFT);
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}
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if (gstate.isLightingEnabled()) {
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// doShadeMapping is stored as UVGenMode, and light type doesn't matter for shade mapping.
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id.SetBit(VS_BIT_LIGHTING_ENABLE);
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if (gstate_c.Use(GPU_USE_LIGHT_UBERSHADER)) {
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id.SetBit(VS_BIT_LIGHT_UBERSHADER);
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} else {
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id.SetBits(VS_BIT_MATERIAL_UPDATE, 3, gstate.getMaterialUpdate());
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// Light bits
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for (int i = 0; i < 4; i++) {
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bool chanEnabled = gstate.isLightChanEnabled(i) != 0;
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id.SetBit(VS_BIT_LIGHT0_ENABLE + i, chanEnabled);
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if (chanEnabled) {
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id.SetBits(VS_BIT_LIGHT0_COMP + 4 * i, 2, gstate.getLightComputation(i));
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id.SetBits(VS_BIT_LIGHT0_TYPE + 4 * i, 2, gstate.getLightType(i));
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}
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}
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}
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}
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id.SetBit(VS_BIT_NORM_REVERSE, gstate.areNormalsReversed());
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id.SetBit(VS_BIT_HAS_TEXCOORD, vtypeHasTexcoord);
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}
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if (clipInfoFlags & ClipInfoFlags::DepthClampFragment) {
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id.SetBit(VS_BIT_FS_DEPTH_CLAMP);
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}
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if (clipInfoFlags & ClipInfoFlags::MinMaxZDiscard) {
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id.SetBit(VS_BIT_FS_MINMAX_DISCARD);
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}
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id.SetBit(VS_BIT_FLATSHADE, doFlatShading);
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// These two bits cannot be combined, otherwise havoc occurs. We get reports that indicate this happened somehow... "ERROR: 0:14: 'u_proj' : undeclared identifier"
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_dbg_assert_msg_(!id.Bit(VS_BIT_USE_HW_TRANSFORM) || !id.Bit(VS_BIT_IS_THROUGH), "Can't have both THROUGH and USE_HW_TRANSFORM together!");
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*id_out = id;
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}
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static const char * const alphaTestFuncs[] = { "NEVER", "ALWAYS", "==", "!=", "<", "<=", ">", ">=" };
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static const char * const logicFuncs[] = {
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"CLEAR", "AND", "AND_REV", "COPY", "AND_INV", "NOOP", "XOR", "OR",
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"NOR", "EQUIV", "INVERTED", "OR_REV", "COPY_INV", "OR_INV", "NAND", "SET",
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};
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static bool MatrixNeedsProjection(const float m[12], GETexProjMapMode mode) {
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// For GE_PROJMAP_UV, we can ignore m[8] since it multiplies to zero.
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return m[2] != 0.0f || m[5] != 0.0f || (m[8] != 0.0f && mode != GE_PROJMAP_UV) || m[11] != 1.0f;
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}
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std::string FragmentShaderDesc(const FShaderID &id) {
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std::stringstream desc;
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desc << id.ToDebugString() << " ";
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if (id.Bit(FS_BIT_CLEARMODE)) desc << "Clear ";
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if (id.Bit(FS_BIT_DO_TEXTURE)) {
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desc << (id.Bit(FS_BIT_3D_TEXTURE) ? "Tex3D" : "Tex");
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switch (id.Bits(FS_BIT_TEXFUNC, 3)) {
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case GE_TEXFUNC_ADD: desc << "(TFuncAdd) "; break;
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case GE_TEXFUNC_BLEND: desc << "(TFuncBlend) "; break;
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case GE_TEXFUNC_DECAL: desc << "(TFuncDecal) "; break;
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case GE_TEXFUNC_MODULATE: desc << "(TFuncMod) "; break;
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case GE_TEXFUNC_REPLACE: desc << "(TFuncRepl) "; break;
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default: desc << "(TFuncUnk) "; break;
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}
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}
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if (id.Bit(FS_BIT_LMODE)) desc << "LM ";
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if (id.Bit(FS_BIT_FLATSHADE)) desc << "Flat ";
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if (id.Bit(FS_BIT_DEPTH_TEST_NEVER)) desc << "DepthNever ";
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if (id.Bit(FS_BIT_COLOR_WRITEMASK)) desc << "WriteMask ";
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if (id.Bit(FS_BIT_SHADER_TEX_CLAMP)) {
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desc << "TClamp";
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if (id.Bit(FS_BIT_CLAMP_S)) desc << "S";
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if (id.Bit(FS_BIT_CLAMP_T)) desc << "T";
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desc << " ";
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}
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int blendBits = id.Bits(FS_BIT_REPLACE_BLEND, 3);
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if (blendBits) {
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switch (blendBits) {
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case ReplaceBlendType::REPLACE_BLEND_BLUE_TO_ALPHA:
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desc << "BlueToAlpha_" << "A:" << id.Bits(FS_BIT_BLENDFUNC_A, 4);
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break;
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default:
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desc << "ReplaceBlend_" << id.Bits(FS_BIT_REPLACE_BLEND, 3)
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<< "A:" << id.Bits(FS_BIT_BLENDFUNC_A, 4)
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<< "_B:" << id.Bits(FS_BIT_BLENDFUNC_B, 4)
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<< "_Eq:" << id.Bits(FS_BIT_BLENDEQ, 3) << " ";
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break;
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}
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}
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switch (id.Bits(FS_BIT_STENCIL_TO_ALPHA, 2)) {
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case REPLACE_ALPHA_NO: break;
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case REPLACE_ALPHA_YES: desc << "StenToAlpha "; break;
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case REPLACE_ALPHA_DUALSOURCE: desc << "StenToAlphaDual "; break;
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}
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if (id.Bits(FS_BIT_STENCIL_TO_ALPHA, 2) != REPLACE_ALPHA_NO) {
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switch (id.Bits(FS_BIT_REPLACE_ALPHA_WITH_STENCIL_TYPE, 4)) {
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case STENCIL_VALUE_UNIFORM: desc << "StenUniform "; break;
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case STENCIL_VALUE_ZERO: desc << "Sten0 "; break;
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case STENCIL_VALUE_ONE: desc << "Sten1 "; break;
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case STENCIL_VALUE_KEEP: desc << "StenKeep "; break;
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case STENCIL_VALUE_INVERT: desc << "StenInv "; break;
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case STENCIL_VALUE_INCR_4BIT: desc << "StenIncr4 "; break;
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case STENCIL_VALUE_INCR_8BIT: desc << "StenIncr8 "; break;
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case STENCIL_VALUE_DECR_4BIT: desc << "StenDecr4 "; break;
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case STENCIL_VALUE_DECR_8BIT: desc << "StenDecr8 "; break;
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default: desc << "StenUnknown "; break;
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}
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} else if (id.Bit(FS_BIT_REPLACE_ALPHA_WITH_STENCIL_TYPE)) {
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desc << "StenOff ";
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}
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if (id.Bit(FS_BIT_ALPHA_AGAINST_ZERO)) desc << "AlphaTest0 " << alphaTestFuncs[id.Bits(FS_BIT_ALPHA_TEST_FUNC, 3)] << " ";
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else if (id.Bit(FS_BIT_ALPHA_TEST)) desc << "AlphaTest " << alphaTestFuncs[id.Bits(FS_BIT_ALPHA_TEST_FUNC, 3)] << " ";
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if (id.Bit(FS_BIT_COLOR_AGAINST_ZERO)) desc << "ColorTest0 " << alphaTestFuncs[id.Bits(FS_BIT_COLOR_TEST_FUNC, 2)] << " "; // first 4 match;
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else if (id.Bit(FS_BIT_COLOR_TEST)) desc << "ColorTest " << alphaTestFuncs[id.Bits(FS_BIT_COLOR_TEST_FUNC, 2)] << " "; // first 4 match
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if (id.Bit(FS_BIT_TEST_DISCARD_TO_ZERO)) desc << "TestDiscardToZero ";
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if (id.Bit(FS_BIT_NO_DEPTH_CANNOT_DISCARD_STENCIL)) desc << "StencilDiscardWorkaround ";
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int logicMode = id.Bits(FS_BIT_REPLACE_LOGIC_OP, 4);
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if ((logicMode != GE_LOGIC_COPY) && !id.Bit(FS_BIT_CLEARMODE)) desc << "RLogic(" << logicFuncs[logicMode] << ")";
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if (id.Bit(FS_BIT_SAMPLE_ARRAY_TEXTURE)) desc << "TexArray ";
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if (id.Bit(FS_BIT_STEREO)) desc << "Stereo ";
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if (id.Bit(FS_BIT_USE_FRAMEBUFFER_FETCH)) desc << "(fetch)";
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if (id.Bit(FS_BIT_MINMAX_DISCARD)) desc << "FragMinMaxDiscard ";
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if (id.Bit(FS_BIT_DEPTH_CLAMP)) desc << "FragDepthClamp ";
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const ShaderDepalMode depalMode = (ShaderDepalMode)id.Bits(FS_BIT_SHADER_DEPAL_MODE, 2);
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switch (depalMode) {
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case ShaderDepalMode::OFF: break;
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case ShaderDepalMode::NORMAL: desc << "Depal(";
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{
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const GEBufferFormat shaderDepalFormat = (GEBufferFormat)id.Bits(FS_BIT_SHADER_DEPAL_FORMAT, 3);
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desc << GeBufferFormatToString(shaderDepalFormat) << ") ";
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break;
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}
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case ShaderDepalMode::SMOOTHED: desc << "SmoothDepal "; break;
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case ShaderDepalMode::CLUT8_8888: desc << "CLUT8From8888Depal"; break;
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}
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return desc.str();
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}
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bool FragmentIdNeedsFramebufferRead(const FShaderID &id) {
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return id.Bit(FS_BIT_COLOR_WRITEMASK) ||
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id.Bits(FS_BIT_REPLACE_LOGIC_OP, 4) != GE_LOGIC_COPY ||
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(ReplaceBlendType)id.Bits(FS_BIT_REPLACE_BLEND, 3) == REPLACE_BLEND_READ_FRAMEBUFFER;
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}
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inline u32 SanitizeBlendMode(GEBlendMode mode) {
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if (mode > GE_BLENDMODE_ABSDIFF)
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return GE_BLENDMODE_MUL_AND_ADD; // Not sure what the undefined modes are.
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else
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return mode;
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}
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// Here we must take all the bits of the gstate that determine what the fragment shader will
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// look like, and concatenate them together into an ID.
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void ComputeFragmentShaderID(FShaderID *id_out, const ComputedPipelineState &pipelineState, const Draw::Bugs &bugs, ClipInfoFlags clipInfoFlags) {
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FShaderID id;
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bool isModeThrough = gstate.isModeThrough();
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// NOTE: This check MUST be identical to the one in ComputeVertexShaderID, otherwise we might get mismatches between VS and FS and end up with no shader at all.
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if (!isModeThrough) {
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if (clipInfoFlags & ClipInfoFlags::DepthClampFragment) {
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id.SetBit(FS_BIT_DEPTH_CLAMP);
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}
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if (clipInfoFlags & ClipInfoFlags::MinMaxZDiscard) {
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id.SetBit(FS_BIT_MINMAX_DISCARD);
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}
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} else {
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_dbg_assert_(0 == (clipInfoFlags & (ClipInfoFlags::DepthClampFragment | ClipInfoFlags::MinMaxZDiscard)));
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}
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if (gstate.isModeClear()) {
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// We only need one clear shader, so let's ignore the rest of the bits.
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id.SetBit(FS_BIT_CLEARMODE);
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} else {
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bool lmode = gstate.isUsingSecondaryColor() && gstate.isLightingEnabled() && !isModeThrough;
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bool enableFog = gstate.isFogEnabled() && !isModeThrough;
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bool enableAlphaTest = gstate.isAlphaTestEnabled() && !IsAlphaTestTriviallyTrue();
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bool enableColorTest = gstate.isColorTestEnabled() && !IsColorTestTriviallyTrue();
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bool enableColorDouble = gstate.isColorDoublingEnabled();
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bool doTextureProjection = (gstate.getUVGenMode() == GE_TEXMAP_TEXTURE_MATRIX && MatrixNeedsProjection(gstate.tgenMatrix, gstate.getUVProjMode()));
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bool doFlatShading = gstate.getShadeMode() == GE_SHADE_FLAT;
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bool enableTexAlpha = gstate.isTextureAlphaUsed();
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ShaderDepalMode shaderDepalMode = gstate_c.shaderDepalMode;
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GEBufferFormat shaderDepalFormat = {};
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if (shaderDepalMode == ShaderDepalMode::NORMAL) {
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shaderDepalFormat = gstate_c.depalTextureFormat;
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}
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bool colorWriteMask = pipelineState.maskState.applyFramebufferRead;
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ReplaceBlendType replaceBlend = pipelineState.blendState.replaceBlend;
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GELogicOp replaceLogicOpType = pipelineState.logicState.applyFramebufferRead ? pipelineState.logicState.logicOp : GE_LOGIC_COPY;
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SimulateLogicOpType simulateLogicOpType = pipelineState.blendState.simulateLogicOpType;
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ReplaceAlphaType stencilToAlpha = pipelineState.blendState.replaceAlphaWithStencil;
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if (gstate.isTextureMapEnabled()) {
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id.SetBit(FS_BIT_DO_TEXTURE);
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id.SetBits(FS_BIT_TEXFUNC, 3, gstate.getTextureFunction());
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if (gstate_c.needShaderTexClamp) {
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// 4 bits total.
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id.SetBit(FS_BIT_SHADER_TEX_CLAMP);
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id.SetBit(FS_BIT_CLAMP_S, gstate.isTexCoordClampedS());
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id.SetBit(FS_BIT_CLAMP_T, gstate.isTexCoordClampedT());
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}
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id.SetBits(FS_BIT_SHADER_DEPAL_MODE, 2, (int)shaderDepalMode);
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id.SetBits(FS_BIT_SHADER_DEPAL_FORMAT, 3, (int)shaderDepalFormat);
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id.SetBit(FS_BIT_3D_TEXTURE, gstate_c.curTextureIs3D);
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}
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id.SetBit(FS_BIT_LMODE, lmode);
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if (enableAlphaTest) {
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// 5 bits total.
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id.SetBit(FS_BIT_ALPHA_TEST);
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id.SetBits(FS_BIT_ALPHA_TEST_FUNC, 3, gstate.getAlphaTestFunction());
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id.SetBit(FS_BIT_ALPHA_AGAINST_ZERO, IsAlphaTestAgainstZero());
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id.SetBit(FS_BIT_TEST_DISCARD_TO_ZERO, !NeedsTestDiscard());
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}
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if (enableColorTest) {
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|
// 4 bits total.
|
|
id.SetBit(FS_BIT_COLOR_TEST);
|
|
id.SetBits(FS_BIT_COLOR_TEST_FUNC, 2, gstate.getColorTestFunction());
|
|
id.SetBit(FS_BIT_COLOR_AGAINST_ZERO, IsColorTestAgainstZero());
|
|
// This is also set in enableAlphaTest - color test is uncommon, but we can skip discard the same way.
|
|
id.SetBit(FS_BIT_TEST_DISCARD_TO_ZERO, !NeedsTestDiscard());
|
|
}
|
|
|
|
id.SetBit(FS_BIT_ENABLE_FOG, enableFog); // TODO: Will be moved back to the ubershader.
|
|
id.SetBit(FS_BIT_DO_TEXTURE_PROJ, doTextureProjection);
|
|
|
|
// 2 bits
|
|
id.SetBits(FS_BIT_STENCIL_TO_ALPHA, 2, stencilToAlpha);
|
|
|
|
if (stencilToAlpha != REPLACE_ALPHA_NO) {
|
|
// 4 bits
|
|
id.SetBits(FS_BIT_REPLACE_ALPHA_WITH_STENCIL_TYPE, 4, ReplaceAlphaWithStencilType());
|
|
}
|
|
|
|
// 2 bits.
|
|
id.SetBits(FS_BIT_SIMULATE_LOGIC_OP_TYPE, 2, simulateLogicOpType);
|
|
|
|
// 4 bits. Set to GE_LOGIC_COPY if not used, which does nothing in the shader generator.
|
|
id.SetBits(FS_BIT_REPLACE_LOGIC_OP, 4, (int)replaceLogicOpType);
|
|
|
|
// If replaceBlend == REPLACE_BLEND_STANDARD (or REPLACE_BLEND_NO) nothing is done, so we kill these bits.
|
|
if (replaceBlend == REPLACE_BLEND_BLUE_TO_ALPHA) {
|
|
id.SetBits(FS_BIT_REPLACE_BLEND, 3, replaceBlend);
|
|
id.SetBits(FS_BIT_BLENDFUNC_A, 4, gstate.getBlendFuncA());
|
|
} else if (replaceBlend > REPLACE_BLEND_STANDARD) {
|
|
// 3 bits.
|
|
id.SetBits(FS_BIT_REPLACE_BLEND, 3, replaceBlend);
|
|
// 11 bits total.
|
|
id.SetBits(FS_BIT_BLENDEQ, 3, SanitizeBlendMode(gstate.getBlendEq()));
|
|
id.SetBits(FS_BIT_BLENDFUNC_A, 4, gstate.getBlendFuncA());
|
|
id.SetBits(FS_BIT_BLENDFUNC_B, 4, gstate.getBlendFuncB());
|
|
}
|
|
id.SetBit(FS_BIT_FLATSHADE, doFlatShading);
|
|
id.SetBit(FS_BIT_COLOR_WRITEMASK, colorWriteMask);
|
|
|
|
// All framebuffers are array textures in Vulkan now.
|
|
if (gstate_c.textureIsArray && gstate_c.Use(GPU_USE_FRAMEBUFFER_ARRAYS)) {
|
|
id.SetBit(FS_BIT_SAMPLE_ARRAY_TEXTURE);
|
|
}
|
|
|
|
// Stereo support
|
|
if (gstate_c.Use(GPU_USE_SINGLE_PASS_STEREO)) {
|
|
id.SetBit(FS_BIT_STEREO);
|
|
}
|
|
|
|
if (g_Config.bVendorBugChecksEnabled) {
|
|
if (bugs.Has(Draw::Bugs::NO_DEPTH_CANNOT_DISCARD_STENCIL_ADRENO) || bugs.Has(Draw::Bugs::NO_DEPTH_CANNOT_DISCARD_STENCIL_MALI)) {
|
|
// On Adreno, the workaround is safe, so we do simple checks.
|
|
bool stencilWithoutDepth = (!gstate.isDepthTestEnabled() || !gstate.isDepthWriteEnabled()) && !IsStencilTestOutputDisabled();
|
|
if (stencilWithoutDepth) {
|
|
id.SetBit(FS_BIT_NO_DEPTH_CANNOT_DISCARD_STENCIL, stencilWithoutDepth);
|
|
}
|
|
}
|
|
}
|
|
|
|
// Various conditions that require per-pixel depth manipulation (very expensive!)
|
|
bool needMinMaxClipping = gstate.getDepthRangeMin() != 0 && gstate.getDepthRangeMax() != 0xFFFF && !isModeThrough;
|
|
|
|
// Forcibly disable NEVER + depth-write on Mali.
|
|
// TODO: Take this from computed depth test instead of directly from the gstate.
|
|
// That will take more refactoring though.
|
|
if (bugs.Has(Draw::Bugs::NO_DEPTH_CANNOT_DISCARD_STENCIL_MALI) &&
|
|
gstate.getDepthTestFunction() == GE_COMP_NEVER && gstate.isDepthTestEnabled()) {
|
|
id.SetBit(FS_BIT_DEPTH_TEST_NEVER);
|
|
}
|
|
|
|
// In case the USE flag changes (for example, in multisampling we might disable input attachments),
|
|
// we don't want to accidentally use the wrong cached shader here. So moved it to a bit.
|
|
if (FragmentIdNeedsFramebufferRead(id)) {
|
|
if (gstate_c.Use(GPU_USE_FRAMEBUFFER_FETCH)) {
|
|
id.SetBit(FS_BIT_USE_FRAMEBUFFER_FETCH);
|
|
}
|
|
}
|
|
}
|
|
|
|
*id_out = id;
|
|
}
|
|
|
|
std::vector<std::string> ToSortedDebugShaderIdVec(std::vector<uint64_t> ids) {
|
|
// Reverse the bits so that the sort order matches the importance order.
|
|
for (auto &id : ids) {
|
|
id = ReverseBits64(id);
|
|
}
|
|
std::sort(ids.begin(), ids.end());
|
|
// Reverse the bits back to get the original IDs.
|
|
for (auto &id : ids) {
|
|
id = ReverseBits64(id);
|
|
}
|
|
std::vector<std::string> strIds;
|
|
for (auto &id : ids) {
|
|
ShaderID shaderId;
|
|
shaderId.FromUint64(id);
|
|
std::string idStr;
|
|
shaderId.ToString(&idStr);
|
|
strIds.push_back(idStr);
|
|
}
|
|
return strIds;
|
|
}
|