kc3-lang/angle/src/common/spirv/spirv_instruction_builder_autogen.h
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Hash : ddbfae96
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Date : 2024-10-10T18:30:55
Manual roll vulkan-deps from e8e61a227e2c to b8d6ceadf45d (8 revisions) Manual roll requested by ynovikov@google.com https://chromium.googlesource.com/vulkan-deps.git/+log/e8e61a227e2c..b8d6ceadf45d Also rolling transitive DEPS: https://chromium.googlesource.com/external/github.com/KhronosGroup/SPIRV-Headers/+log/a62b032007b2e7a69f24a195cbfbd0cf22d31bb0..50bc4debdc3eec5045edbeb8ce164090e29b91f3 https://chromium.googlesource.com/external/github.com/KhronosGroup/SPIRV-Tools/+log/4310fd4edae21d711ab31f5183704ad320329419..fcf994a619608c2bdb505189f6e325b1a6b4f294 https://chromium.googlesource.com/external/github.com/KhronosGroup/Vulkan-ValidationLayers/+log/61037741e4d8ccdb8c7b761bc726ab87cc11496d..9553b9751916c06ea6f6a78236397450bc76bd32 If this roll has caused a breakage, revert this CL and stop the roller using the controls here: https://autoroll.skia.org/r/vulkan-deps-angle-autoroll Please CC angle-team@google.com,ynovikov@google.com on the revert to ensure that a human is aware of the problem. To file a bug in ANGLE: https://bugs.chromium.org/p/angleproject/issues/entry To report a problem with the AutoRoller itself, please file a bug: https://issues.skia.org/issues/new?component=1389291&template=1850622 Documentation for the AutoRoller is here: https://skia.googlesource.com/buildbot/+doc/main/autoroll/README.md Bug: None Tbr: ynovikov@google.com Change-Id: Ie07afc8447e73678f6fb9772a3477def5f120117 Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/5923803 Commit-Queue: Yuly Novikov <ynovikov@chromium.org> Bot-Commit: angle-autoroll <angle-autoroll@skia-public.iam.gserviceaccount.com>
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src/common/spirv/spirv_instruction_builder_autogen.h
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// GENERATED FILE - DO NOT EDIT. // Generated by gen_spirv_builder_and_parser.py using data from spirv.core.grammar.json. // // Copyright 2021 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // spirv_instruction_builder_autogen.h: // Functions to generate SPIR-V binary for each instruction. #ifndef COMMON_SPIRV_SPIRVINSTRUCTIONBUILDERAUTOGEN_H_ #define COMMON_SPIRV_SPIRVINSTRUCTIONBUILDERAUTOGEN_H_ #include <spirv/unified1/spirv.hpp> #include "spirv_types.h" namespace angle { namespace spirv { void WriteSpirvHeader(std::vector<uint32_t> *blob, uint32_t version, uint32_t idCount); void WriteNop(Blob *blob); void WriteUndef(Blob *blob, IdResultType idResultType1, IdResult idResult2); void WriteSourceContinued(Blob *blob, LiteralString continuedSource); void WriteSource(Blob *blob, spv::SourceLanguage sourceLanguage1, LiteralInteger version, const IdRef *file, const LiteralString *source); void WriteSourceExtension(Blob *blob, LiteralString extension); void WriteName(Blob *blob, IdRef target, LiteralString name); void WriteMemberName(Blob *blob, IdRef type, LiteralInteger member, LiteralString name); void WriteString(Blob *blob, IdResult idResult1, LiteralString string); void WriteLine(Blob *blob, IdRef file, LiteralInteger line, LiteralInteger column); void WriteExtension(Blob *blob, LiteralString name); void WriteExtInstImport(Blob *blob, IdResult idResult1, LiteralString name); void WriteExtInst(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef set, LiteralExtInstInteger instruction, const IdRefList &operandList); void WriteMemoryModel(Blob *blob, spv::AddressingModel addressingModel1, spv::MemoryModel memoryModel2); void WriteEntryPoint(Blob *blob, spv::ExecutionModel executionModel1, IdRef entryPoint, LiteralString name, const IdRefList &interfaceList); void WriteExecutionMode(Blob *blob, IdRef entryPoint, spv::ExecutionMode mode, const LiteralIntegerList &operandsList); void WriteCapability(Blob *blob, spv::Capability capability); void WriteTypeVoid(Blob *blob, IdResult idResult1); void WriteTypeBool(Blob *blob, IdResult idResult1); void WriteTypeInt(Blob *blob, IdResult idResult1, LiteralInteger width, LiteralInteger signedness); void WriteTypeFloat(Blob *blob, IdResult idResult1, LiteralInteger width, const spv::FPEncoding *floatingPointEncoding); void WriteTypeVector(Blob *blob, IdResult idResult1, IdRef componentType, LiteralInteger componentCount); void WriteTypeMatrix(Blob *blob, IdResult idResult1, IdRef columnType, LiteralInteger columnCount); void WriteTypeImage(Blob *blob, IdResult idResult1, IdRef sampledType, spv::Dim dim3, LiteralInteger depth, LiteralInteger arrayed, LiteralInteger mS, LiteralInteger sampled, spv::ImageFormat imageFormat8, const spv::AccessQualifier *accessQualifier9); void WriteTypeSampler(Blob *blob, IdResult idResult1); void WriteTypeSampledImage(Blob *blob, IdResult idResult1, IdRef imageType); void WriteTypeArray(Blob *blob, IdResult idResult1, IdRef elementType, IdRef length); void WriteTypeRuntimeArray(Blob *blob, IdResult idResult1, IdRef elementType); void WriteTypeStruct(Blob *blob, IdResult idResult1, const IdRefList &memberList); void WriteTypePointer(Blob *blob, IdResult idResult1, spv::StorageClass storageClass2, IdRef type); void WriteTypeFunction(Blob *blob, IdResult idResult1, IdRef returnType, const IdRefList ¶meterList); void WriteConstantTrue(Blob *blob, IdResultType idResultType1, IdResult idResult2); void WriteConstantFalse(Blob *blob, IdResultType idResultType1, IdResult idResult2); void WriteConstant(Blob *blob, IdResultType idResultType1, IdResult idResult2, LiteralContextDependentNumber value); void WriteConstantComposite(Blob *blob, IdResultType idResultType1, IdResult idResult2, const IdRefList &constituentsList); void WriteConstantNull(Blob *blob, IdResultType idResultType1, IdResult idResult2); void WriteSpecConstantTrue(Blob *blob, IdResultType idResultType1, IdResult idResult2); void WriteSpecConstantFalse(Blob *blob, IdResultType idResultType1, IdResult idResult2); void WriteSpecConstant(Blob *blob, IdResultType idResultType1, IdResult idResult2, LiteralContextDependentNumber value); void WriteSpecConstantComposite(Blob *blob, IdResultType idResultType1, IdResult idResult2, const IdRefList &constituentsList); void WriteFunction(Blob *blob, IdResultType idResultType1, IdResult idResult2, spv::FunctionControlMask functionControl3, IdRef functionType); void WriteFunctionParameter(Blob *blob, IdResultType idResultType1, IdResult idResult2); void WriteFunctionEnd(Blob *blob); void WriteFunctionCall(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef function, const IdRefList &argumentList); void WriteVariable(Blob *blob, IdResultType idResultType1, IdResult idResult2, spv::StorageClass storageClass3, const IdRef *initializer); void WriteImageTexelPointer(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, IdRef sample); void WriteLoad(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, const spv::MemoryAccessMask *memoryAccess4); void WriteStore(Blob *blob, IdRef pointer, IdRef object, const spv::MemoryAccessMask *memoryAccess3); void WriteCopyMemory(Blob *blob, IdRef target, IdRef source, const spv::MemoryAccessMask *memoryAccess3, const spv::MemoryAccessMask *memoryAccess4); void WriteAccessChain(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, const IdRefList &indexesList); void WriteInBoundsAccessChain(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, const IdRefList &indexesList); void WriteArrayLength(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef structure, LiteralInteger arraymember); void WriteDecorate(Blob *blob, IdRef target, spv::Decoration decoration2, const LiteralIntegerList &valuesList); void WriteMemberDecorate(Blob *blob, IdRef structureType, LiteralInteger member, spv::Decoration decoration3, const LiteralIntegerList &valuesList); void WriteDecorationGroup(Blob *blob, IdResult idResult1); void WriteGroupDecorate(Blob *blob, IdRef decorationGroup, const IdRefList &targetsList); void WriteGroupMemberDecorate(Blob *blob, IdRef decorationGroup, const PairIdRefLiteralIntegerList &targetsPairList); void WriteVectorExtractDynamic(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector, IdRef index); void WriteVectorInsertDynamic(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector, IdRef component, IdRef index); void WriteVectorShuffle(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector1, IdRef vector2, const LiteralIntegerList &componentsList); void WriteCompositeConstruct(Blob *blob, IdResultType idResultType1, IdResult idResult2, const IdRefList &constituentsList); void WriteCompositeExtract(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef composite, const LiteralIntegerList &indexesList); void WriteCompositeInsert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef object, IdRef composite, const LiteralIntegerList &indexesList); void WriteCopyObject(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand); void WriteTranspose(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef matrix); void WriteSampledImage(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef sampler); void WriteImageSampleImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSampleExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, spv::ImageOperandsMask imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSampleDrefImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSampleDrefExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, spv::ImageOperandsMask imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSampleProjImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSampleProjExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, spv::ImageOperandsMask imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSampleProjDrefImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSampleProjDrefExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, spv::ImageOperandsMask imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageFetch(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageGather(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef component, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageDrefGather(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageRead(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageWrite(Blob *blob, IdRef image, IdRef coordinate, IdRef texel, const spv::ImageOperandsMask *imageOperands4, const IdRefList &imageOperandIdsList); void WriteImage(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage); void WriteImageQuerySizeLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef levelofDetail); void WriteImageQuerySize(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image); void WriteImageQueryLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate); void WriteImageQueryLevels(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image); void WriteImageQuerySamples(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image); void WriteConvertFToU(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef floatValue); void WriteConvertFToS(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef floatValue); void WriteConvertSToF(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef signedValue); void WriteConvertUToF(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef unsignedValue); void WriteUConvert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef unsignedValue); void WriteSConvert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef signedValue); void WriteFConvert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef floatValue); void WriteQuantizeToF16(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef value); void WriteBitcast(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand); void WriteSNegate(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand); void WriteFNegate(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand); void WriteIAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteISub(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFSub(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteIMul(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFMul(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteUDiv(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteSDiv(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFDiv(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteUMod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteSRem(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteSMod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFRem(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFMod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteVectorTimesScalar(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector, IdRef scalar); void WriteMatrixTimesScalar(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef matrix, IdRef scalar); void WriteVectorTimesMatrix(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector, IdRef matrix); void WriteMatrixTimesVector(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef matrix, IdRef vector); void WriteMatrixTimesMatrix(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef leftMatrix, IdRef rightMatrix); void WriteOuterProduct(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector1, IdRef vector2); void WriteDot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector1, IdRef vector2); void WriteIAddCarry(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteISubBorrow(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteUMulExtended(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteSMulExtended(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteAny(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector); void WriteAll(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector); void WriteIsNan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef x); void WriteIsInf(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef x); void WriteLogicalEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteLogicalNotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteLogicalOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteLogicalAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteLogicalNot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand); void WriteSelect(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef condition, IdRef object1, IdRef object2); void WriteIEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteINotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteUGreaterThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteSGreaterThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteUGreaterThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteSGreaterThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteULessThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteSLessThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteULessThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteSLessThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFOrdEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFUnordEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFOrdNotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFUnordNotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFOrdLessThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFUnordLessThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFOrdGreaterThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFUnordGreaterThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFOrdLessThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFUnordLessThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFOrdGreaterThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteFUnordGreaterThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteShiftRightLogical(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef shift); void WriteShiftRightArithmetic(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef shift); void WriteShiftLeftLogical(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef shift); void WriteBitwiseOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteBitwiseXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteBitwiseAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteNot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand); void WriteBitFieldInsert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef insert, IdRef offset, IdRef count); void WriteBitFieldSExtract(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef offset, IdRef count); void WriteBitFieldUExtract(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef offset, IdRef count); void WriteBitReverse(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base); void WriteBitCount(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base); void WriteDPdx(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteDPdy(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteFwidth(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteDPdxFine(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteDPdyFine(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteFwidthFine(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteDPdxCoarse(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteDPdyCoarse(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteFwidthCoarse(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p); void WriteEmitVertex(Blob *blob); void WriteEndPrimitive(Blob *blob); void WriteEmitStreamVertex(Blob *blob, IdRef stream); void WriteEndStreamPrimitive(Blob *blob, IdRef stream); void WriteControlBarrier(Blob *blob, IdScope execution, IdScope memory, IdMemorySemantics semantics); void WriteMemoryBarrier(Blob *blob, IdScope memory, IdMemorySemantics semantics); void WriteAtomicLoad(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics); void WriteAtomicStore(Blob *blob, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicExchange(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicCompareExchange(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics equal, IdMemorySemantics unequal, IdRef value, IdRef comparator); void WriteAtomicIIncrement(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics); void WriteAtomicIDecrement(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics); void WriteAtomicIAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicISub(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicSMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicUMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicSMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicUMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WriteAtomicXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value); void WritePhi(Blob *blob, IdResultType idResultType1, IdResult idResult2, const PairIdRefIdRefList &variableParentPairList); void WriteLoopMerge(Blob *blob, IdRef mergeBlock, IdRef continueTarget, spv::LoopControlMask loopControl3); void WriteSelectionMerge(Blob *blob, IdRef mergeBlock, spv::SelectionControlMask selectionControl2); void WriteLabel(Blob *blob, IdResult idResult1); void WriteBranch(Blob *blob, IdRef targetLabel); void WriteBranchConditional(Blob *blob, IdRef condition, IdRef trueLabel, IdRef falseLabel, const LiteralIntegerList &branchweightsList); void WriteSwitch(Blob *blob, IdRef selector, IdRef default_, const PairLiteralIntegerIdRefList &targetPairList); void WriteKill(Blob *blob); void WriteReturn(Blob *blob); void WriteReturnValue(Blob *blob, IdRef value); void WriteUnreachable(Blob *blob); void WriteImageSparseSampleImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSparseSampleExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, spv::ImageOperandsMask imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSparseSampleDrefImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSparseSampleDrefExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, spv::ImageOperandsMask imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSparseSampleProjImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSparseSampleProjExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, spv::ImageOperandsMask imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSparseSampleProjDrefImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSparseSampleProjDrefExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, spv::ImageOperandsMask imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSparseFetch(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList); void WriteImageSparseGather(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef component, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSparseDrefGather(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList); void WriteImageSparseTexelsResident(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef residentCode); void WriteNoLine(Blob *blob); void WriteImageSparseRead(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList); void WriteModuleProcessed(Blob *blob, LiteralString process); void WriteExecutionModeId(Blob *blob, IdRef entryPoint, spv::ExecutionMode mode, const LiteralIntegerList &operandsList); void WriteGroupNonUniformElect(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution); void WriteGroupNonUniformAll(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef predicate); void WriteGroupNonUniformAny(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef predicate); void WriteGroupNonUniformAllEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value); void WriteGroupNonUniformBroadcast(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef id); void WriteGroupNonUniformBroadcastFirst(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value); void WriteGroupNonUniformBallot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef predicate); void WriteGroupNonUniformInverseBallot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value); void WriteGroupNonUniformBallotBitExtract(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef index); void WriteGroupNonUniformBallotBitCount(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value); void WriteGroupNonUniformBallotFindLSB(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value); void WriteGroupNonUniformBallotFindMSB(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value); void WriteGroupNonUniformShuffle(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef id); void WriteGroupNonUniformShuffleXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef mask); void WriteGroupNonUniformShuffleUp(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef delta); void WriteGroupNonUniformShuffleDown(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef delta); void WriteGroupNonUniformIAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformFAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformIMul(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformFMul(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformSMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformUMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformFMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformSMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformUMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformFMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformBitwiseAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformBitwiseOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformBitwiseXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformLogicalAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformLogicalOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformLogicalXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize); void WriteGroupNonUniformQuadBroadcast(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef index); void WriteGroupNonUniformQuadSwap(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef direction); void WriteCopyLogical(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand); void WritePtrEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WritePtrNotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2); void WriteBeginInvocationInterlockEXT(Blob *blob); void WriteEndInvocationInterlockEXT(Blob *blob); } // namespace spirv } // namespace angle #endif // COMMON_SPIRV_SPIRVINSTRUCTIONBUILDERAUTOGEN_H_