// 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.cpp: // Functions to generate SPIR-V binary for each instruction. #include "spirv_instruction_builder_autogen.h" #include #include "common/debug.h" namespace angle { namespace spirv { namespace { uint32_t MakeLengthOp(size_t length, spv::Op op) { ASSERT(length <= 0xFFFFu); ASSERT(op <= 0xFFFFu); // It's easy for a complex shader to be crafted to hit the length limit, // turn that into a crash instead of a security bug. Ideally, the compiler // would gracefully fail compilation, so this is more of a safety net. if (ANGLE_UNLIKELY(length > 0xFFFFu)) { ERR() << "Complex shader not representible in SPIR-V"; ANGLE_CRASH(); } return static_cast(length) << 16 | op; } } // anonymous namespace void WriteSpirvHeader(std::vector *blob, uint32_t version, uint32_t idCount) { // Header: // // - Magic number // - Version (1.X) // - ANGLE's Generator number: // * 24 for tool id (higher 16 bits) // * 1 for tool version (lower 16 bits)) // - Bound (idCount) // - 0 (reserved) constexpr uint32_t kANGLEGeneratorId = 24; constexpr uint32_t kANGLEGeneratorVersion = 1; ASSERT(blob->empty()); blob->push_back(spv::MagicNumber); blob->push_back(version); blob->push_back(kANGLEGeneratorId << 16 | kANGLEGeneratorVersion); blob->push_back(idCount); blob->push_back(0x00000000); } void WriteNop(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpNop); } void WriteUndef(Blob *blob, IdResultType idResultType1, IdResult idResult2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpUndef); } void WriteSourceContinued(Blob *blob, LiteralString continuedSource) { const size_t startSize = blob->size(); blob->push_back(0); { size_t d = blob->size(); blob->resize(d + strlen(continuedSource) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), continuedSource); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSourceContinued); } void WriteSource(Blob *blob, spv::SourceLanguage sourceLanguage1, LiteralInteger version, const IdRef *file, const LiteralString *source) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(sourceLanguage1); blob->push_back(version); if (file) { blob->push_back(*file); } if (source) { { size_t d = blob->size(); blob->resize(d + strlen(*source) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), *source); } } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSource); } void WriteSourceExtension(Blob *blob, LiteralString extension) { const size_t startSize = blob->size(); blob->push_back(0); { size_t d = blob->size(); blob->resize(d + strlen(extension) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), extension); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSourceExtension); } void WriteName(Blob *blob, IdRef target, LiteralString name) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(target); { size_t d = blob->size(); blob->resize(d + strlen(name) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), name); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpName); } void WriteMemberName(Blob *blob, IdRef type, LiteralInteger member, LiteralString name) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(type); blob->push_back(member); { size_t d = blob->size(); blob->resize(d + strlen(name) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), name); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpMemberName); } void WriteString(Blob *blob, IdResult idResult1, LiteralString string) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); { size_t d = blob->size(); blob->resize(d + strlen(string) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), string); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpString); } void WriteLine(Blob *blob, IdRef file, LiteralInteger line, LiteralInteger column) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(file); blob->push_back(line); blob->push_back(column); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLine); } void WriteExtension(Blob *blob, LiteralString name) { const size_t startSize = blob->size(); blob->push_back(0); { size_t d = blob->size(); blob->resize(d + strlen(name) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), name); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpExtension); } void WriteExtInstImport(Blob *blob, IdResult idResult1, LiteralString name) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); { size_t d = blob->size(); blob->resize(d + strlen(name) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), name); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpExtInstImport); } void WriteExtInst(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef set, LiteralExtInstInteger instruction, const IdRefList &operandList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(set); blob->push_back(instruction); for (const auto &operand : operandList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpExtInst); } void WriteMemoryModel(Blob *blob, spv::AddressingModel addressingModel1, spv::MemoryModel memoryModel2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(addressingModel1); blob->push_back(memoryModel2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpMemoryModel); } void WriteEntryPoint(Blob *blob, spv::ExecutionModel executionModel1, IdRef entryPoint, LiteralString name, const IdRefList &interfaceList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(executionModel1); blob->push_back(entryPoint); { size_t d = blob->size(); blob->resize(d + strlen(name) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), name); } for (const auto &operand : interfaceList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpEntryPoint); } void WriteExecutionMode(Blob *blob, IdRef entryPoint, spv::ExecutionMode mode, const LiteralIntegerList &operandsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(entryPoint); blob->push_back(mode); for (const auto &operand : operandsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpExecutionMode); } void WriteCapability(Blob *blob, spv::Capability capability) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(capability); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpCapability); } void WriteTypeVoid(Blob *blob, IdResult idResult1) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeVoid); } void WriteTypeBool(Blob *blob, IdResult idResult1) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeBool); } void WriteTypeInt(Blob *blob, IdResult idResult1, LiteralInteger width, LiteralInteger signedness) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(width); blob->push_back(signedness); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeInt); } void WriteTypeFloat(Blob *blob, IdResult idResult1, LiteralInteger width, const spv::FPEncoding *floatingPointEncoding) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(width); if (floatingPointEncoding) { blob->push_back(*floatingPointEncoding); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeFloat); } void WriteTypeVector(Blob *blob, IdResult idResult1, IdRef componentType, LiteralInteger componentCount) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(componentType); blob->push_back(componentCount); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeVector); } void WriteTypeMatrix(Blob *blob, IdResult idResult1, IdRef columnType, LiteralInteger columnCount) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(columnType); blob->push_back(columnCount); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeMatrix); } 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) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(sampledType); blob->push_back(dim3); blob->push_back(depth); blob->push_back(arrayed); blob->push_back(mS); blob->push_back(sampled); blob->push_back(imageFormat8); if (accessQualifier9) { blob->push_back(*accessQualifier9); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeImage); } void WriteTypeSampler(Blob *blob, IdResult idResult1) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeSampler); } void WriteTypeSampledImage(Blob *blob, IdResult idResult1, IdRef imageType) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(imageType); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeSampledImage); } void WriteTypeArray(Blob *blob, IdResult idResult1, IdRef elementType, IdRef length) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(elementType); blob->push_back(length); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeArray); } void WriteTypeRuntimeArray(Blob *blob, IdResult idResult1, IdRef elementType) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(elementType); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeRuntimeArray); } void WriteTypeStruct(Blob *blob, IdResult idResult1, const IdRefList &memberList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); for (const auto &operand : memberList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeStruct); } void WriteTypePointer(Blob *blob, IdResult idResult1, spv::StorageClass storageClass2, IdRef type) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(storageClass2); blob->push_back(type); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypePointer); } void WriteTypeFunction(Blob *blob, IdResult idResult1, IdRef returnType, const IdRefList ¶meterList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); blob->push_back(returnType); for (const auto &operand : parameterList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTypeFunction); } void WriteConstantTrue(Blob *blob, IdResultType idResultType1, IdResult idResult2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConstantTrue); } void WriteConstantFalse(Blob *blob, IdResultType idResultType1, IdResult idResult2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConstantFalse); } void WriteConstant(Blob *blob, IdResultType idResultType1, IdResult idResult2, LiteralContextDependentNumber value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConstant); } void WriteConstantComposite(Blob *blob, IdResultType idResultType1, IdResult idResult2, const IdRefList &constituentsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); for (const auto &operand : constituentsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConstantComposite); } void WriteConstantNull(Blob *blob, IdResultType idResultType1, IdResult idResult2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConstantNull); } void WriteSpecConstantTrue(Blob *blob, IdResultType idResultType1, IdResult idResult2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSpecConstantTrue); } void WriteSpecConstantFalse(Blob *blob, IdResultType idResultType1, IdResult idResult2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSpecConstantFalse); } void WriteSpecConstant(Blob *blob, IdResultType idResultType1, IdResult idResult2, LiteralContextDependentNumber value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSpecConstant); } void WriteSpecConstantComposite(Blob *blob, IdResultType idResultType1, IdResult idResult2, const IdRefList &constituentsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); for (const auto &operand : constituentsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSpecConstantComposite); } void WriteFunction(Blob *blob, IdResultType idResultType1, IdResult idResult2, spv::FunctionControlMask functionControl3, IdRef functionType) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(functionControl3); blob->push_back(functionType); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFunction); } void WriteFunctionParameter(Blob *blob, IdResultType idResultType1, IdResult idResult2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFunctionParameter); } void WriteFunctionEnd(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFunctionEnd); } void WriteFunctionCall(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef function, const IdRefList &argumentList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(function); for (const auto &operand : argumentList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFunctionCall); } void WriteVariable(Blob *blob, IdResultType idResultType1, IdResult idResult2, spv::StorageClass storageClass3, const IdRef *initializer) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(storageClass3); if (initializer) { blob->push_back(*initializer); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpVariable); } void WriteImageTexelPointer(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, IdRef sample) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); blob->push_back(coordinate); blob->push_back(sample); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageTexelPointer); } void WriteLoad(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, const spv::MemoryAccessMask *memoryAccess4) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); if (memoryAccess4) { blob->push_back(*memoryAccess4); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLoad); } void WriteStore(Blob *blob, IdRef pointer, IdRef object, const spv::MemoryAccessMask *memoryAccess3) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(pointer); blob->push_back(object); if (memoryAccess3) { blob->push_back(*memoryAccess3); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpStore); } void WriteCopyMemory(Blob *blob, IdRef target, IdRef source, const spv::MemoryAccessMask *memoryAccess3, const spv::MemoryAccessMask *memoryAccess4) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(target); blob->push_back(source); if (memoryAccess3) { blob->push_back(*memoryAccess3); } if (memoryAccess4) { blob->push_back(*memoryAccess4); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpCopyMemory); } void WriteAccessChain(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, const IdRefList &indexesList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); for (const auto &operand : indexesList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAccessChain); } void WriteInBoundsAccessChain(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, const IdRefList &indexesList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); for (const auto &operand : indexesList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpInBoundsAccessChain); } void WriteArrayLength(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef structure, LiteralInteger arraymember) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(structure); blob->push_back(arraymember); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpArrayLength); } void WriteDecorate(Blob *blob, IdRef target, spv::Decoration decoration2, const LiteralIntegerList &valuesList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(target); blob->push_back(decoration2); for (const auto &operand : valuesList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDecorate); } void WriteMemberDecorate(Blob *blob, IdRef structureType, LiteralInteger member, spv::Decoration decoration3, const LiteralIntegerList &valuesList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(structureType); blob->push_back(member); blob->push_back(decoration3); for (const auto &operand : valuesList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpMemberDecorate); } void WriteDecorationGroup(Blob *blob, IdResult idResult1) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDecorationGroup); } void WriteGroupDecorate(Blob *blob, IdRef decorationGroup, const IdRefList &targetsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(decorationGroup); for (const auto &operand : targetsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupDecorate); } void WriteGroupMemberDecorate(Blob *blob, IdRef decorationGroup, const PairIdRefLiteralIntegerList &targetsPairList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(decorationGroup); for (const auto &operand : targetsPairList) { blob->push_back(operand.id); blob->push_back(operand.literal); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupMemberDecorate); } void WriteVectorExtractDynamic(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector, IdRef index) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector); blob->push_back(index); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpVectorExtractDynamic); } void WriteVectorInsertDynamic(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector, IdRef component, IdRef index) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector); blob->push_back(component); blob->push_back(index); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpVectorInsertDynamic); } void WriteVectorShuffle(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector1, IdRef vector2, const LiteralIntegerList &componentsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector1); blob->push_back(vector2); for (const auto &operand : componentsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpVectorShuffle); } void WriteCompositeConstruct(Blob *blob, IdResultType idResultType1, IdResult idResult2, const IdRefList &constituentsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); for (const auto &operand : constituentsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpCompositeConstruct); } void WriteCompositeExtract(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef composite, const LiteralIntegerList &indexesList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(composite); for (const auto &operand : indexesList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpCompositeExtract); } void WriteCompositeInsert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef object, IdRef composite, const LiteralIntegerList &indexesList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(object); blob->push_back(composite); for (const auto &operand : indexesList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpCompositeInsert); } void WriteCopyObject(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpCopyObject); } void WriteTranspose(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef matrix) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(matrix); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpTranspose); } void WriteSampledImage(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef sampler) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); blob->push_back(sampler); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSampledImage); } void WriteImageSampleImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); if (imageOperands5) { blob->push_back(*imageOperands5); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSampleImplicitLod); } void WriteImageSampleExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, spv::ImageOperandsMask imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(imageOperands5); for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSampleExplicitLod); } void WriteImageSampleDrefImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); if (imageOperands6) { blob->push_back(*imageOperands6); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSampleDrefImplicitLod); } void WriteImageSampleDrefExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, spv::ImageOperandsMask imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); blob->push_back(imageOperands6); for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSampleDrefExplicitLod); } void WriteImageSampleProjImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); if (imageOperands5) { blob->push_back(*imageOperands5); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSampleProjImplicitLod); } void WriteImageSampleProjExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, spv::ImageOperandsMask imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(imageOperands5); for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSampleProjExplicitLod); } void WriteImageSampleProjDrefImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); if (imageOperands6) { blob->push_back(*imageOperands6); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSampleProjDrefImplicitLod); } void WriteImageSampleProjDrefExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, spv::ImageOperandsMask imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); blob->push_back(imageOperands6); for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSampleProjDrefExplicitLod); } void WriteImageFetch(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); blob->push_back(coordinate); if (imageOperands5) { blob->push_back(*imageOperands5); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageFetch); } void WriteImageGather(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef component, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(component); if (imageOperands6) { blob->push_back(*imageOperands6); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageGather); } void WriteImageDrefGather(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); if (imageOperands6) { blob->push_back(*imageOperands6); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageDrefGather); } void WriteImageRead(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); blob->push_back(coordinate); if (imageOperands5) { blob->push_back(*imageOperands5); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageRead); } void WriteImageWrite(Blob *blob, IdRef image, IdRef coordinate, IdRef texel, const spv::ImageOperandsMask *imageOperands4, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(image); blob->push_back(coordinate); blob->push_back(texel); if (imageOperands4) { blob->push_back(*imageOperands4); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageWrite); } void WriteImage(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImage); } void WriteImageQuerySizeLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef levelofDetail) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); blob->push_back(levelofDetail); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageQuerySizeLod); } void WriteImageQuerySize(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageQuerySize); } void WriteImageQueryLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageQueryLod); } void WriteImageQueryLevels(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageQueryLevels); } void WriteImageQuerySamples(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageQuerySamples); } void WriteConvertFToU(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef floatValue) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(floatValue); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConvertFToU); } void WriteConvertFToS(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef floatValue) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(floatValue); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConvertFToS); } void WriteConvertSToF(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef signedValue) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(signedValue); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConvertSToF); } void WriteConvertUToF(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef unsignedValue) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(unsignedValue); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpConvertUToF); } void WriteUConvert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef unsignedValue) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(unsignedValue); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpUConvert); } void WriteSConvert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef signedValue) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(signedValue); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSConvert); } void WriteFConvert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef floatValue) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(floatValue); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFConvert); } void WriteQuantizeToF16(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpQuantizeToF16); } void WriteBitcast(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitcast); } void WriteSNegate(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSNegate); } void WriteFNegate(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFNegate); } void WriteIAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpIAdd); } void WriteFAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFAdd); } void WriteISub(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpISub); } void WriteFSub(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFSub); } void WriteIMul(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpIMul); } void WriteFMul(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFMul); } void WriteUDiv(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpUDiv); } void WriteSDiv(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSDiv); } void WriteFDiv(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFDiv); } void WriteUMod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpUMod); } void WriteSRem(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSRem); } void WriteSMod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSMod); } void WriteFRem(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFRem); } void WriteFMod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFMod); } void WriteVectorTimesScalar(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector, IdRef scalar) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector); blob->push_back(scalar); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpVectorTimesScalar); } void WriteMatrixTimesScalar(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef matrix, IdRef scalar) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(matrix); blob->push_back(scalar); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpMatrixTimesScalar); } void WriteVectorTimesMatrix(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector, IdRef matrix) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector); blob->push_back(matrix); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpVectorTimesMatrix); } void WriteMatrixTimesVector(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef matrix, IdRef vector) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(matrix); blob->push_back(vector); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpMatrixTimesVector); } void WriteMatrixTimesMatrix(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef leftMatrix, IdRef rightMatrix) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(leftMatrix); blob->push_back(rightMatrix); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpMatrixTimesMatrix); } void WriteOuterProduct(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector1, IdRef vector2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector1); blob->push_back(vector2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpOuterProduct); } void WriteDot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector1, IdRef vector2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector1); blob->push_back(vector2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDot); } void WriteIAddCarry(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpIAddCarry); } void WriteISubBorrow(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpISubBorrow); } void WriteUMulExtended(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpUMulExtended); } void WriteSMulExtended(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSMulExtended); } void WriteAny(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAny); } void WriteAll(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef vector) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(vector); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAll); } void WriteIsNan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef x) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(x); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpIsNan); } void WriteIsInf(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef x) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(x); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpIsInf); } void WriteLogicalEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLogicalEqual); } void WriteLogicalNotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLogicalNotEqual); } void WriteLogicalOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLogicalOr); } void WriteLogicalAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLogicalAnd); } void WriteLogicalNot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLogicalNot); } void WriteSelect(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef condition, IdRef object1, IdRef object2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(condition); blob->push_back(object1); blob->push_back(object2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSelect); } void WriteIEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpIEqual); } void WriteINotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpINotEqual); } void WriteUGreaterThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpUGreaterThan); } void WriteSGreaterThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSGreaterThan); } void WriteUGreaterThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpUGreaterThanEqual); } void WriteSGreaterThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSGreaterThanEqual); } void WriteULessThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpULessThan); } void WriteSLessThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSLessThan); } void WriteULessThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpULessThanEqual); } void WriteSLessThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSLessThanEqual); } void WriteFOrdEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFOrdEqual); } void WriteFUnordEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFUnordEqual); } void WriteFOrdNotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFOrdNotEqual); } void WriteFUnordNotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFUnordNotEqual); } void WriteFOrdLessThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFOrdLessThan); } void WriteFUnordLessThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFUnordLessThan); } void WriteFOrdGreaterThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFOrdGreaterThan); } void WriteFUnordGreaterThan(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFUnordGreaterThan); } void WriteFOrdLessThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFOrdLessThanEqual); } void WriteFUnordLessThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFUnordLessThanEqual); } void WriteFOrdGreaterThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFOrdGreaterThanEqual); } void WriteFUnordGreaterThanEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFUnordGreaterThanEqual); } void WriteShiftRightLogical(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef shift) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); blob->push_back(shift); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpShiftRightLogical); } void WriteShiftRightArithmetic(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef shift) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); blob->push_back(shift); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpShiftRightArithmetic); } void WriteShiftLeftLogical(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef shift) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); blob->push_back(shift); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpShiftLeftLogical); } void WriteBitwiseOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitwiseOr); } void WriteBitwiseXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitwiseXor); } void WriteBitwiseAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitwiseAnd); } void WriteNot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpNot); } void WriteBitFieldInsert(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef insert, IdRef offset, IdRef count) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); blob->push_back(insert); blob->push_back(offset); blob->push_back(count); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitFieldInsert); } void WriteBitFieldSExtract(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef offset, IdRef count) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); blob->push_back(offset); blob->push_back(count); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitFieldSExtract); } void WriteBitFieldUExtract(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base, IdRef offset, IdRef count) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); blob->push_back(offset); blob->push_back(count); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitFieldUExtract); } void WriteBitReverse(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitReverse); } void WriteBitCount(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef base) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(base); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBitCount); } void WriteDPdx(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDPdx); } void WriteDPdy(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDPdy); } void WriteFwidth(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFwidth); } void WriteDPdxFine(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDPdxFine); } void WriteDPdyFine(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDPdyFine); } void WriteFwidthFine(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFwidthFine); } void WriteDPdxCoarse(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDPdxCoarse); } void WriteDPdyCoarse(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpDPdyCoarse); } void WriteFwidthCoarse(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef p) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(p); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpFwidthCoarse); } void WriteEmitVertex(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpEmitVertex); } void WriteEndPrimitive(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpEndPrimitive); } void WriteEmitStreamVertex(Blob *blob, IdRef stream) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(stream); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpEmitStreamVertex); } void WriteEndStreamPrimitive(Blob *blob, IdRef stream) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(stream); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpEndStreamPrimitive); } void WriteControlBarrier(Blob *blob, IdScope execution, IdScope memory, IdMemorySemantics semantics) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(execution); blob->push_back(memory); blob->push_back(semantics); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpControlBarrier); } void WriteMemoryBarrier(Blob *blob, IdScope memory, IdMemorySemantics semantics) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(memory); blob->push_back(semantics); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpMemoryBarrier); } void WriteAtomicLoad(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicLoad); } void WriteAtomicStore(Blob *blob, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicStore); } void WriteAtomicExchange(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicExchange); } void WriteAtomicCompareExchange(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics equal, IdMemorySemantics unequal, IdRef value, IdRef comparator) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(equal); blob->push_back(unequal); blob->push_back(value); blob->push_back(comparator); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicCompareExchange); } void WriteAtomicIIncrement(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicIIncrement); } void WriteAtomicIDecrement(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicIDecrement); } void WriteAtomicIAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicIAdd); } void WriteAtomicISub(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicISub); } void WriteAtomicSMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicSMin); } void WriteAtomicUMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicUMin); } void WriteAtomicSMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicSMax); } void WriteAtomicUMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicUMax); } void WriteAtomicAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicAnd); } void WriteAtomicOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicOr); } void WriteAtomicXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef pointer, IdScope memory, IdMemorySemantics semantics, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(pointer); blob->push_back(memory); blob->push_back(semantics); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpAtomicXor); } void WritePhi(Blob *blob, IdResultType idResultType1, IdResult idResult2, const PairIdRefIdRefList &variableParentPairList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); for (const auto &operand : variableParentPairList) { blob->push_back(operand.id1); blob->push_back(operand.id2); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpPhi); } void WriteLoopMerge(Blob *blob, IdRef mergeBlock, IdRef continueTarget, spv::LoopControlMask loopControl3) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(mergeBlock); blob->push_back(continueTarget); blob->push_back(loopControl3); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLoopMerge); } void WriteSelectionMerge(Blob *blob, IdRef mergeBlock, spv::SelectionControlMask selectionControl2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(mergeBlock); blob->push_back(selectionControl2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSelectionMerge); } void WriteLabel(Blob *blob, IdResult idResult1) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResult1); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpLabel); } void WriteBranch(Blob *blob, IdRef targetLabel) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(targetLabel); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBranch); } void WriteBranchConditional(Blob *blob, IdRef condition, IdRef trueLabel, IdRef falseLabel, const LiteralIntegerList &branchweightsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(condition); blob->push_back(trueLabel); blob->push_back(falseLabel); for (const auto &operand : branchweightsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBranchConditional); } void WriteSwitch(Blob *blob, IdRef selector, IdRef default_, const PairLiteralIntegerIdRefList &targetPairList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(selector); blob->push_back(default_); for (const auto &operand : targetPairList) { blob->push_back(operand.literal); blob->push_back(operand.id); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpSwitch); } void WriteKill(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpKill); } void WriteReturn(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpReturn); } void WriteReturnValue(Blob *blob, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpReturnValue); } void WriteUnreachable(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpUnreachable); } void WriteImageSparseSampleImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); if (imageOperands5) { blob->push_back(*imageOperands5); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseSampleImplicitLod); } void WriteImageSparseSampleExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, spv::ImageOperandsMask imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(imageOperands5); for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseSampleExplicitLod); } void WriteImageSparseSampleDrefImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); if (imageOperands6) { blob->push_back(*imageOperands6); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseSampleDrefImplicitLod); } void WriteImageSparseSampleDrefExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, spv::ImageOperandsMask imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); blob->push_back(imageOperands6); for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseSampleDrefExplicitLod); } void WriteImageSparseSampleProjImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); if (imageOperands5) { blob->push_back(*imageOperands5); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseSampleProjImplicitLod); } void WriteImageSparseSampleProjExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, spv::ImageOperandsMask imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(imageOperands5); for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseSampleProjExplicitLod); } void WriteImageSparseSampleProjDrefImplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); if (imageOperands6) { blob->push_back(*imageOperands6); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseSampleProjDrefImplicitLod); } void WriteImageSparseSampleProjDrefExplicitLod(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, spv::ImageOperandsMask imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); blob->push_back(imageOperands6); for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseSampleProjDrefExplicitLod); } void WriteImageSparseFetch(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); blob->push_back(coordinate); if (imageOperands5) { blob->push_back(*imageOperands5); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseFetch); } void WriteImageSparseGather(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef component, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(component); if (imageOperands6) { blob->push_back(*imageOperands6); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseGather); } void WriteImageSparseDrefGather(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef sampledImage, IdRef coordinate, IdRef dref, const spv::ImageOperandsMask *imageOperands6, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(sampledImage); blob->push_back(coordinate); blob->push_back(dref); if (imageOperands6) { blob->push_back(*imageOperands6); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseDrefGather); } void WriteImageSparseTexelsResident(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef residentCode) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(residentCode); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseTexelsResident); } void WriteNoLine(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpNoLine); } void WriteImageSparseRead(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef image, IdRef coordinate, const spv::ImageOperandsMask *imageOperands5, const IdRefList &imageOperandIdsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(image); blob->push_back(coordinate); if (imageOperands5) { blob->push_back(*imageOperands5); } for (const auto &operand : imageOperandIdsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpImageSparseRead); } void WriteModuleProcessed(Blob *blob, LiteralString process) { const size_t startSize = blob->size(); blob->push_back(0); { size_t d = blob->size(); blob->resize(d + strlen(process) / 4 + 1, 0); ASSERT(IsLittleEndian()); strcpy(reinterpret_cast(blob->data() + d), process); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpModuleProcessed); } void WriteExecutionModeId(Blob *blob, IdRef entryPoint, spv::ExecutionMode mode, const LiteralIntegerList &operandsList) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(entryPoint); blob->push_back(mode); for (const auto &operand : operandsList) { blob->push_back(operand); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpExecutionModeId); } void WriteGroupNonUniformElect(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformElect); } void WriteGroupNonUniformAll(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef predicate) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(predicate); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformAll); } void WriteGroupNonUniformAny(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef predicate) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(predicate); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformAny); } void WriteGroupNonUniformAllEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformAllEqual); } void WriteGroupNonUniformBroadcast(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef id) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); blob->push_back(id); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBroadcast); } void WriteGroupNonUniformBroadcastFirst(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBroadcastFirst); } void WriteGroupNonUniformBallot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef predicate) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(predicate); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBallot); } void WriteGroupNonUniformInverseBallot(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformInverseBallot); } void WriteGroupNonUniformBallotBitExtract(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef index) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); blob->push_back(index); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBallotBitExtract); } void WriteGroupNonUniformBallotBitCount(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBallotBitCount); } void WriteGroupNonUniformBallotFindLSB(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBallotFindLSB); } void WriteGroupNonUniformBallotFindMSB(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBallotFindMSB); } void WriteGroupNonUniformShuffle(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef id) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); blob->push_back(id); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformShuffle); } void WriteGroupNonUniformShuffleXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef mask) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); blob->push_back(mask); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformShuffleXor); } void WriteGroupNonUniformShuffleUp(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef delta) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); blob->push_back(delta); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformShuffleUp); } void WriteGroupNonUniformShuffleDown(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef delta) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); blob->push_back(delta); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformShuffleDown); } void WriteGroupNonUniformIAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformIAdd); } void WriteGroupNonUniformFAdd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformFAdd); } void WriteGroupNonUniformIMul(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformIMul); } void WriteGroupNonUniformFMul(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformFMul); } void WriteGroupNonUniformSMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformSMin); } void WriteGroupNonUniformUMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformUMin); } void WriteGroupNonUniformFMin(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformFMin); } void WriteGroupNonUniformSMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformSMax); } void WriteGroupNonUniformUMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformUMax); } void WriteGroupNonUniformFMax(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformFMax); } void WriteGroupNonUniformBitwiseAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBitwiseAnd); } void WriteGroupNonUniformBitwiseOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBitwiseOr); } void WriteGroupNonUniformBitwiseXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformBitwiseXor); } void WriteGroupNonUniformLogicalAnd(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformLogicalAnd); } void WriteGroupNonUniformLogicalOr(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformLogicalOr); } void WriteGroupNonUniformLogicalXor(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, spv::GroupOperation operation, IdRef value, const IdRef *clusterSize) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(operation); blob->push_back(value); if (clusterSize) { blob->push_back(*clusterSize); } (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformLogicalXor); } void WriteGroupNonUniformQuadBroadcast(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef index) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); blob->push_back(index); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformQuadBroadcast); } void WriteGroupNonUniformQuadSwap(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdScope execution, IdRef value, IdRef direction) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(execution); blob->push_back(value); blob->push_back(direction); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpGroupNonUniformQuadSwap); } void WriteCopyLogical(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpCopyLogical); } void WritePtrEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpPtrEqual); } void WritePtrNotEqual(Blob *blob, IdResultType idResultType1, IdResult idResult2, IdRef operand1, IdRef operand2) { const size_t startSize = blob->size(); blob->push_back(0); blob->push_back(idResultType1); blob->push_back(idResult2); blob->push_back(operand1); blob->push_back(operand2); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpPtrNotEqual); } void WriteBeginInvocationInterlockEXT(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpBeginInvocationInterlockEXT); } void WriteEndInvocationInterlockEXT(Blob *blob) { const size_t startSize = blob->size(); blob->push_back(0); (*blob)[startSize] = MakeLengthOp(blob->size() - startSize, spv::OpEndInvocationInterlockEXT); } } // namespace spirv } // namespace angle