| /* |
| * Copyright 2016 Google Inc. |
| * |
| * Use of this source code is governed by a BSD-style license that can be |
| * found in the LICENSE file. |
| */ |
| |
| #include "SkSLSPIRVCodeGenerator.h" |
| |
| #include "GLSL.std.450.h" |
| |
| #include "ir/SkSLExpressionStatement.h" |
| #include "ir/SkSLExtension.h" |
| #include "ir/SkSLIndexExpression.h" |
| #include "ir/SkSLVariableReference.h" |
| #include "SkSLCompiler.h" |
| |
| namespace SkSL { |
| |
| static const int32_t SKSL_MAGIC = 0x0; // FIXME: we should probably register a magic number |
| |
| void SPIRVCodeGenerator::setupIntrinsics() { |
| #define ALL_GLSL(x) std::make_tuple(kGLSL_STD_450_IntrinsicKind, GLSLstd450 ## x, GLSLstd450 ## x, \ |
| GLSLstd450 ## x, GLSLstd450 ## x) |
| #define BY_TYPE_GLSL(ifFloat, ifInt, ifUInt) std::make_tuple(kGLSL_STD_450_IntrinsicKind, \ |
| GLSLstd450 ## ifFloat, \ |
| GLSLstd450 ## ifInt, \ |
| GLSLstd450 ## ifUInt, \ |
| SpvOpUndef) |
| #define ALL_SPIRV(x) std::make_tuple(kSPIRV_IntrinsicKind, SpvOp ## x, SpvOp ## x, SpvOp ## x, \ |
| SpvOp ## x) |
| #define SPECIAL(x) std::make_tuple(kSpecial_IntrinsicKind, k ## x ## _SpecialIntrinsic, \ |
| k ## x ## _SpecialIntrinsic, k ## x ## _SpecialIntrinsic, \ |
| k ## x ## _SpecialIntrinsic) |
| fIntrinsicMap[String("round")] = ALL_GLSL(Round); |
| fIntrinsicMap[String("roundEven")] = ALL_GLSL(RoundEven); |
| fIntrinsicMap[String("trunc")] = ALL_GLSL(Trunc); |
| fIntrinsicMap[String("abs")] = BY_TYPE_GLSL(FAbs, SAbs, SAbs); |
| fIntrinsicMap[String("sign")] = BY_TYPE_GLSL(FSign, SSign, SSign); |
| fIntrinsicMap[String("floor")] = ALL_GLSL(Floor); |
| fIntrinsicMap[String("ceil")] = ALL_GLSL(Ceil); |
| fIntrinsicMap[String("fract")] = ALL_GLSL(Fract); |
| fIntrinsicMap[String("radians")] = ALL_GLSL(Radians); |
| fIntrinsicMap[String("degrees")] = ALL_GLSL(Degrees); |
| fIntrinsicMap[String("sin")] = ALL_GLSL(Sin); |
| fIntrinsicMap[String("cos")] = ALL_GLSL(Cos); |
| fIntrinsicMap[String("tan")] = ALL_GLSL(Tan); |
| fIntrinsicMap[String("asin")] = ALL_GLSL(Asin); |
| fIntrinsicMap[String("acos")] = ALL_GLSL(Acos); |
| fIntrinsicMap[String("atan")] = SPECIAL(Atan); |
| fIntrinsicMap[String("sinh")] = ALL_GLSL(Sinh); |
| fIntrinsicMap[String("cosh")] = ALL_GLSL(Cosh); |
| fIntrinsicMap[String("tanh")] = ALL_GLSL(Tanh); |
| fIntrinsicMap[String("asinh")] = ALL_GLSL(Asinh); |
| fIntrinsicMap[String("acosh")] = ALL_GLSL(Acosh); |
| fIntrinsicMap[String("atanh")] = ALL_GLSL(Atanh); |
| fIntrinsicMap[String("pow")] = ALL_GLSL(Pow); |
| fIntrinsicMap[String("exp")] = ALL_GLSL(Exp); |
| fIntrinsicMap[String("log")] = ALL_GLSL(Log); |
| fIntrinsicMap[String("exp2")] = ALL_GLSL(Exp2); |
| fIntrinsicMap[String("log2")] = ALL_GLSL(Log2); |
| fIntrinsicMap[String("sqrt")] = ALL_GLSL(Sqrt); |
| fIntrinsicMap[String("inverse")] = ALL_GLSL(MatrixInverse); |
| fIntrinsicMap[String("transpose")] = ALL_SPIRV(Transpose); |
| fIntrinsicMap[String("inversesqrt")] = ALL_GLSL(InverseSqrt); |
| fIntrinsicMap[String("determinant")] = ALL_GLSL(Determinant); |
| fIntrinsicMap[String("matrixInverse")] = ALL_GLSL(MatrixInverse); |
| fIntrinsicMap[String("mod")] = SPECIAL(Mod); |
| fIntrinsicMap[String("min")] = SPECIAL(Min); |
| fIntrinsicMap[String("max")] = SPECIAL(Max); |
| fIntrinsicMap[String("clamp")] = SPECIAL(Clamp); |
| fIntrinsicMap[String("saturate")] = SPECIAL(Saturate); |
| fIntrinsicMap[String("dot")] = std::make_tuple(kSPIRV_IntrinsicKind, SpvOpDot, |
| SpvOpUndef, SpvOpUndef, SpvOpUndef); |
| fIntrinsicMap[String("mix")] = SPECIAL(Mix); |
| fIntrinsicMap[String("step")] = ALL_GLSL(Step); |
| fIntrinsicMap[String("smoothstep")] = ALL_GLSL(SmoothStep); |
| fIntrinsicMap[String("fma")] = ALL_GLSL(Fma); |
| fIntrinsicMap[String("frexp")] = ALL_GLSL(Frexp); |
| fIntrinsicMap[String("ldexp")] = ALL_GLSL(Ldexp); |
| |
| #define PACK(type) fIntrinsicMap[String("pack" #type)] = ALL_GLSL(Pack ## type); \ |
| fIntrinsicMap[String("unpack" #type)] = ALL_GLSL(Unpack ## type) |
| PACK(Snorm4x8); |
| PACK(Unorm4x8); |
| PACK(Snorm2x16); |
| PACK(Unorm2x16); |
| PACK(Half2x16); |
| PACK(Double2x32); |
| fIntrinsicMap[String("length")] = ALL_GLSL(Length); |
| fIntrinsicMap[String("distance")] = ALL_GLSL(Distance); |
| fIntrinsicMap[String("cross")] = ALL_GLSL(Cross); |
| fIntrinsicMap[String("normalize")] = ALL_GLSL(Normalize); |
| fIntrinsicMap[String("faceForward")] = ALL_GLSL(FaceForward); |
| fIntrinsicMap[String("reflect")] = ALL_GLSL(Reflect); |
| fIntrinsicMap[String("refract")] = ALL_GLSL(Refract); |
| fIntrinsicMap[String("findLSB")] = ALL_GLSL(FindILsb); |
| fIntrinsicMap[String("findMSB")] = BY_TYPE_GLSL(FindSMsb, FindSMsb, FindUMsb); |
| fIntrinsicMap[String("dFdx")] = std::make_tuple(kSPIRV_IntrinsicKind, SpvOpDPdx, |
| SpvOpUndef, SpvOpUndef, SpvOpUndef); |
| fIntrinsicMap[String("dFdy")] = std::make_tuple(kSPIRV_IntrinsicKind, SpvOpDPdy, |
| SpvOpUndef, SpvOpUndef, SpvOpUndef); |
| fIntrinsicMap[String("dFdy")] = std::make_tuple(kSPIRV_IntrinsicKind, SpvOpDPdy, |
| SpvOpUndef, SpvOpUndef, SpvOpUndef); |
| fIntrinsicMap[String("texture")] = SPECIAL(Texture); |
| fIntrinsicMap[String("subpassLoad")] = SPECIAL(SubpassLoad); |
| |
| fIntrinsicMap[String("any")] = std::make_tuple(kSPIRV_IntrinsicKind, SpvOpUndef, |
| SpvOpUndef, SpvOpUndef, SpvOpAny); |
| fIntrinsicMap[String("all")] = std::make_tuple(kSPIRV_IntrinsicKind, SpvOpUndef, |
| SpvOpUndef, SpvOpUndef, SpvOpAll); |
| fIntrinsicMap[String("equal")] = std::make_tuple(kSPIRV_IntrinsicKind, |
| SpvOpFOrdEqual, SpvOpIEqual, |
| SpvOpIEqual, SpvOpLogicalEqual); |
| fIntrinsicMap[String("notEqual")] = std::make_tuple(kSPIRV_IntrinsicKind, |
| SpvOpFOrdNotEqual, SpvOpINotEqual, |
| SpvOpINotEqual, |
| SpvOpLogicalNotEqual); |
| fIntrinsicMap[String("lessThan")] = std::make_tuple(kSPIRV_IntrinsicKind, |
| SpvOpFOrdLessThan, SpvOpSLessThan, |
| SpvOpULessThan, SpvOpUndef); |
| fIntrinsicMap[String("lessThanEqual")] = std::make_tuple(kSPIRV_IntrinsicKind, |
| SpvOpFOrdLessThanEqual, |
| SpvOpSLessThanEqual, |
| SpvOpULessThanEqual, |
| SpvOpUndef); |
| fIntrinsicMap[String("greaterThan")] = std::make_tuple(kSPIRV_IntrinsicKind, |
| SpvOpFOrdGreaterThan, |
| SpvOpSGreaterThan, |
| SpvOpUGreaterThan, |
| SpvOpUndef); |
| fIntrinsicMap[String("greaterThanEqual")] = std::make_tuple(kSPIRV_IntrinsicKind, |
| SpvOpFOrdGreaterThanEqual, |
| SpvOpSGreaterThanEqual, |
| SpvOpUGreaterThanEqual, |
| SpvOpUndef); |
| fIntrinsicMap[String("EmitVertex")] = ALL_SPIRV(EmitVertex); |
| fIntrinsicMap[String("EndPrimitive")] = ALL_SPIRV(EndPrimitive); |
| // interpolateAt* not yet supported... |
| } |
| |
| void SPIRVCodeGenerator::writeWord(int32_t word, OutputStream& out) { |
| out.write((const char*) &word, sizeof(word)); |
| } |
| |
| static bool is_float(const Context& context, const Type& type) { |
| if (type.columns() > 1) { |
| return is_float(context, type.componentType()); |
| } |
| return type == *context.fFloat_Type || type == *context.fHalf_Type || |
| type == *context.fDouble_Type; |
| } |
| |
| static bool is_signed(const Context& context, const Type& type) { |
| if (type.kind() == Type::kVector_Kind) { |
| return is_signed(context, type.componentType()); |
| } |
| return type == *context.fInt_Type || type == *context.fShort_Type || |
| type == *context.fByte_Type; |
| } |
| |
| static bool is_unsigned(const Context& context, const Type& type) { |
| if (type.kind() == Type::kVector_Kind) { |
| return is_unsigned(context, type.componentType()); |
| } |
| return type == *context.fUInt_Type || type == *context.fUShort_Type || |
| type == *context.fUByte_Type; |
| } |
| |
| static bool is_bool(const Context& context, const Type& type) { |
| if (type.kind() == Type::kVector_Kind) { |
| return is_bool(context, type.componentType()); |
| } |
| return type == *context.fBool_Type; |
| } |
| |
| static bool is_out(const Variable& var) { |
| return (var.fModifiers.fFlags & Modifiers::kOut_Flag) != 0; |
| } |
| |
| void SPIRVCodeGenerator::writeOpCode(SpvOp_ opCode, int length, OutputStream& out) { |
| SkASSERT(opCode != SpvOpLoad || &out != &fConstantBuffer); |
| SkASSERT(opCode != SpvOpUndef); |
| switch (opCode) { |
| case SpvOpReturn: // fall through |
| case SpvOpReturnValue: // fall through |
| case SpvOpKill: // fall through |
| case SpvOpBranch: // fall through |
| case SpvOpBranchConditional: |
| SkASSERT(fCurrentBlock); |
| fCurrentBlock = 0; |
| break; |
| case SpvOpConstant: // fall through |
| case SpvOpConstantTrue: // fall through |
| case SpvOpConstantFalse: // fall through |
| case SpvOpConstantComposite: // fall through |
| case SpvOpTypeVoid: // fall through |
| case SpvOpTypeInt: // fall through |
| case SpvOpTypeFloat: // fall through |
| case SpvOpTypeBool: // fall through |
| case SpvOpTypeVector: // fall through |
| case SpvOpTypeMatrix: // fall through |
| case SpvOpTypeArray: // fall through |
| case SpvOpTypePointer: // fall through |
| case SpvOpTypeFunction: // fall through |
| case SpvOpTypeRuntimeArray: // fall through |
| case SpvOpTypeStruct: // fall through |
| case SpvOpTypeImage: // fall through |
| case SpvOpTypeSampledImage: // fall through |
| case SpvOpVariable: // fall through |
| case SpvOpFunction: // fall through |
| case SpvOpFunctionParameter: // fall through |
| case SpvOpFunctionEnd: // fall through |
| case SpvOpExecutionMode: // fall through |
| case SpvOpMemoryModel: // fall through |
| case SpvOpCapability: // fall through |
| case SpvOpExtInstImport: // fall through |
| case SpvOpEntryPoint: // fall through |
| case SpvOpSource: // fall through |
| case SpvOpSourceExtension: // fall through |
| case SpvOpName: // fall through |
| case SpvOpMemberName: // fall through |
| case SpvOpDecorate: // fall through |
| case SpvOpMemberDecorate: |
| break; |
| default: |
| SkASSERT(fCurrentBlock); |
| } |
| this->writeWord((length << 16) | opCode, out); |
| } |
| |
| void SPIRVCodeGenerator::writeLabel(SpvId label, OutputStream& out) { |
| fCurrentBlock = label; |
| this->writeInstruction(SpvOpLabel, label, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, OutputStream& out) { |
| this->writeOpCode(opCode, 1, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, OutputStream& out) { |
| this->writeOpCode(opCode, 2, out); |
| this->writeWord(word1, out); |
| } |
| |
| void SPIRVCodeGenerator::writeString(const char* string, size_t length, OutputStream& out) { |
| out.write(string, length); |
| switch (length % 4) { |
| case 1: |
| out.write8(0); |
| // fall through |
| case 2: |
| out.write8(0); |
| // fall through |
| case 3: |
| out.write8(0); |
| break; |
| default: |
| this->writeWord(0, out); |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, StringFragment string, OutputStream& out) { |
| this->writeOpCode(opCode, 1 + (string.fLength + 4) / 4, out); |
| this->writeString(string.fChars, string.fLength, out); |
| } |
| |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, StringFragment string, |
| OutputStream& out) { |
| this->writeOpCode(opCode, 2 + (string.fLength + 4) / 4, out); |
| this->writeWord(word1, out); |
| this->writeString(string.fChars, string.fLength, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, |
| StringFragment string, OutputStream& out) { |
| this->writeOpCode(opCode, 3 + (string.fLength + 4) / 4, out); |
| this->writeWord(word1, out); |
| this->writeWord(word2, out); |
| this->writeString(string.fChars, string.fLength, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, |
| OutputStream& out) { |
| this->writeOpCode(opCode, 3, out); |
| this->writeWord(word1, out); |
| this->writeWord(word2, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, |
| int32_t word3, OutputStream& out) { |
| this->writeOpCode(opCode, 4, out); |
| this->writeWord(word1, out); |
| this->writeWord(word2, out); |
| this->writeWord(word3, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, |
| int32_t word3, int32_t word4, OutputStream& out) { |
| this->writeOpCode(opCode, 5, out); |
| this->writeWord(word1, out); |
| this->writeWord(word2, out); |
| this->writeWord(word3, out); |
| this->writeWord(word4, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, |
| int32_t word3, int32_t word4, int32_t word5, |
| OutputStream& out) { |
| this->writeOpCode(opCode, 6, out); |
| this->writeWord(word1, out); |
| this->writeWord(word2, out); |
| this->writeWord(word3, out); |
| this->writeWord(word4, out); |
| this->writeWord(word5, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, |
| int32_t word3, int32_t word4, int32_t word5, |
| int32_t word6, OutputStream& out) { |
| this->writeOpCode(opCode, 7, out); |
| this->writeWord(word1, out); |
| this->writeWord(word2, out); |
| this->writeWord(word3, out); |
| this->writeWord(word4, out); |
| this->writeWord(word5, out); |
| this->writeWord(word6, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, |
| int32_t word3, int32_t word4, int32_t word5, |
| int32_t word6, int32_t word7, OutputStream& out) { |
| this->writeOpCode(opCode, 8, out); |
| this->writeWord(word1, out); |
| this->writeWord(word2, out); |
| this->writeWord(word3, out); |
| this->writeWord(word4, out); |
| this->writeWord(word5, out); |
| this->writeWord(word6, out); |
| this->writeWord(word7, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, |
| int32_t word3, int32_t word4, int32_t word5, |
| int32_t word6, int32_t word7, int32_t word8, |
| OutputStream& out) { |
| this->writeOpCode(opCode, 9, out); |
| this->writeWord(word1, out); |
| this->writeWord(word2, out); |
| this->writeWord(word3, out); |
| this->writeWord(word4, out); |
| this->writeWord(word5, out); |
| this->writeWord(word6, out); |
| this->writeWord(word7, out); |
| this->writeWord(word8, out); |
| } |
| |
| void SPIRVCodeGenerator::writeCapabilities(OutputStream& out) { |
| for (uint64_t i = 0, bit = 1; i <= kLast_Capability; i++, bit <<= 1) { |
| if (fCapabilities & bit) { |
| this->writeInstruction(SpvOpCapability, (SpvId) i, out); |
| } |
| } |
| if (fProgram.fKind == Program::kGeometry_Kind) { |
| this->writeInstruction(SpvOpCapability, SpvCapabilityGeometry, out); |
| } |
| else { |
| this->writeInstruction(SpvOpCapability, SpvCapabilityShader, out); |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::nextId() { |
| return fIdCount++; |
| } |
| |
| void SPIRVCodeGenerator::writeStruct(const Type& type, const MemoryLayout& memoryLayout, |
| SpvId resultId) { |
| this->writeInstruction(SpvOpName, resultId, type.name().c_str(), fNameBuffer); |
| // go ahead and write all of the field types, so we don't inadvertently write them while we're |
| // in the middle of writing the struct instruction |
| std::vector<SpvId> types; |
| for (const auto& f : type.fields()) { |
| types.push_back(this->getType(*f.fType, memoryLayout)); |
| } |
| this->writeOpCode(SpvOpTypeStruct, 2 + (int32_t) types.size(), fConstantBuffer); |
| this->writeWord(resultId, fConstantBuffer); |
| for (SpvId id : types) { |
| this->writeWord(id, fConstantBuffer); |
| } |
| size_t offset = 0; |
| for (int32_t i = 0; i < (int32_t) type.fields().size(); i++) { |
| size_t size = memoryLayout.size(*type.fields()[i].fType); |
| size_t alignment = memoryLayout.alignment(*type.fields()[i].fType); |
| const Layout& fieldLayout = type.fields()[i].fModifiers.fLayout; |
| if (fieldLayout.fOffset >= 0) { |
| if (fieldLayout.fOffset < (int) offset) { |
| fErrors.error(type.fOffset, |
| "offset of field '" + type.fields()[i].fName + "' must be at " |
| "least " + to_string((int) offset)); |
| } |
| if (fieldLayout.fOffset % alignment) { |
| fErrors.error(type.fOffset, |
| "offset of field '" + type.fields()[i].fName + "' must be a multiple" |
| " of " + to_string((int) alignment)); |
| } |
| offset = fieldLayout.fOffset; |
| } else { |
| size_t mod = offset % alignment; |
| if (mod) { |
| offset += alignment - mod; |
| } |
| } |
| this->writeInstruction(SpvOpMemberName, resultId, i, type.fields()[i].fName, fNameBuffer); |
| this->writeLayout(fieldLayout, resultId, i); |
| if (type.fields()[i].fModifiers.fLayout.fBuiltin < 0) { |
| this->writeInstruction(SpvOpMemberDecorate, resultId, (SpvId) i, SpvDecorationOffset, |
| (SpvId) offset, fDecorationBuffer); |
| } |
| if (type.fields()[i].fType->kind() == Type::kMatrix_Kind) { |
| this->writeInstruction(SpvOpMemberDecorate, resultId, i, SpvDecorationColMajor, |
| fDecorationBuffer); |
| this->writeInstruction(SpvOpMemberDecorate, resultId, i, SpvDecorationMatrixStride, |
| (SpvId) memoryLayout.stride(*type.fields()[i].fType), |
| fDecorationBuffer); |
| } |
| offset += size; |
| Type::Kind kind = type.fields()[i].fType->kind(); |
| if ((kind == Type::kArray_Kind || kind == Type::kStruct_Kind) && offset % alignment != 0) { |
| offset += alignment - offset % alignment; |
| } |
| } |
| } |
| |
| Type SPIRVCodeGenerator::getActualType(const Type& type) { |
| if (type == *fContext.fHalf_Type) { |
| return *fContext.fFloat_Type; |
| } |
| if (type == *fContext.fShort_Type || type == *fContext.fByte_Type) { |
| return *fContext.fInt_Type; |
| } |
| if (type == *fContext.fUShort_Type || type == *fContext.fUByte_Type) { |
| return *fContext.fUInt_Type; |
| } |
| if (type.kind() == Type::kMatrix_Kind || type.kind() == Type::kVector_Kind) { |
| if (type.componentType() == *fContext.fHalf_Type) { |
| return fContext.fFloat_Type->toCompound(fContext, type.columns(), type.rows()); |
| } |
| if (type.componentType() == *fContext.fShort_Type || |
| type.componentType() == *fContext.fByte_Type) { |
| return fContext.fInt_Type->toCompound(fContext, type.columns(), type.rows()); |
| } |
| if (type.componentType() == *fContext.fUShort_Type || |
| type.componentType() == *fContext.fUByte_Type) { |
| return fContext.fUInt_Type->toCompound(fContext, type.columns(), type.rows()); |
| } |
| } |
| return type; |
| } |
| |
| SpvId SPIRVCodeGenerator::getType(const Type& type) { |
| return this->getType(type, fDefaultLayout); |
| } |
| |
| SpvId SPIRVCodeGenerator::getType(const Type& rawType, const MemoryLayout& layout) { |
| Type type = this->getActualType(rawType); |
| String key = type.name() + to_string((int) layout.fStd); |
| auto entry = fTypeMap.find(key); |
| if (entry == fTypeMap.end()) { |
| SpvId result = this->nextId(); |
| switch (type.kind()) { |
| case Type::kScalar_Kind: |
| if (type == *fContext.fBool_Type) { |
| this->writeInstruction(SpvOpTypeBool, result, fConstantBuffer); |
| } else if (type == *fContext.fInt_Type) { |
| this->writeInstruction(SpvOpTypeInt, result, 32, 1, fConstantBuffer); |
| } else if (type == *fContext.fUInt_Type) { |
| this->writeInstruction(SpvOpTypeInt, result, 32, 0, fConstantBuffer); |
| } else if (type == *fContext.fFloat_Type) { |
| this->writeInstruction(SpvOpTypeFloat, result, 32, fConstantBuffer); |
| } else if (type == *fContext.fDouble_Type) { |
| this->writeInstruction(SpvOpTypeFloat, result, 64, fConstantBuffer); |
| } else { |
| SkASSERT(false); |
| } |
| break; |
| case Type::kVector_Kind: |
| this->writeInstruction(SpvOpTypeVector, result, |
| this->getType(type.componentType(), layout), |
| type.columns(), fConstantBuffer); |
| break; |
| case Type::kMatrix_Kind: |
| this->writeInstruction(SpvOpTypeMatrix, result, |
| this->getType(index_type(fContext, type), layout), |
| type.columns(), fConstantBuffer); |
| break; |
| case Type::kStruct_Kind: |
| this->writeStruct(type, layout, result); |
| break; |
| case Type::kArray_Kind: { |
| if (type.columns() > 0) { |
| IntLiteral count(fContext, -1, type.columns()); |
| this->writeInstruction(SpvOpTypeArray, result, |
| this->getType(type.componentType(), layout), |
| this->writeIntLiteral(count), fConstantBuffer); |
| this->writeInstruction(SpvOpDecorate, result, SpvDecorationArrayStride, |
| (int32_t) layout.stride(type), |
| fDecorationBuffer); |
| } else { |
| SkASSERT(false); // we shouldn't have any runtime-sized arrays right now |
| this->writeInstruction(SpvOpTypeRuntimeArray, result, |
| this->getType(type.componentType(), layout), |
| fConstantBuffer); |
| this->writeInstruction(SpvOpDecorate, result, SpvDecorationArrayStride, |
| (int32_t) layout.stride(type), |
| fDecorationBuffer); |
| } |
| break; |
| } |
| case Type::kSampler_Kind: { |
| SpvId image = result; |
| if (SpvDimSubpassData != type.dimensions()) { |
| image = this->nextId(); |
| } |
| if (SpvDimBuffer == type.dimensions()) { |
| fCapabilities |= (((uint64_t) 1) << SpvCapabilitySampledBuffer); |
| } |
| this->writeInstruction(SpvOpTypeImage, image, |
| this->getType(*fContext.fFloat_Type, layout), |
| type.dimensions(), type.isDepth(), type.isArrayed(), |
| type.isMultisampled(), type.isSampled() ? 1 : 2, |
| SpvImageFormatUnknown, fConstantBuffer); |
| fImageTypeMap[key] = image; |
| if (SpvDimSubpassData != type.dimensions()) { |
| this->writeInstruction(SpvOpTypeSampledImage, result, image, fConstantBuffer); |
| } |
| break; |
| } |
| default: |
| if (type == *fContext.fVoid_Type) { |
| this->writeInstruction(SpvOpTypeVoid, result, fConstantBuffer); |
| } else { |
| ABORT("invalid type: %s", type.description().c_str()); |
| } |
| } |
| fTypeMap[key] = result; |
| return result; |
| } |
| return entry->second; |
| } |
| |
| SpvId SPIRVCodeGenerator::getImageType(const Type& type) { |
| SkASSERT(type.kind() == Type::kSampler_Kind); |
| this->getType(type); |
| String key = type.name() + to_string((int) fDefaultLayout.fStd); |
| SkASSERT(fImageTypeMap.find(key) != fImageTypeMap.end()); |
| return fImageTypeMap[key]; |
| } |
| |
| SpvId SPIRVCodeGenerator::getFunctionType(const FunctionDeclaration& function) { |
| String key = function.fReturnType.description() + "("; |
| String separator; |
| for (size_t i = 0; i < function.fParameters.size(); i++) { |
| key += separator; |
| separator = ", "; |
| key += function.fParameters[i]->fType.description(); |
| } |
| key += ")"; |
| auto entry = fTypeMap.find(key); |
| if (entry == fTypeMap.end()) { |
| SpvId result = this->nextId(); |
| int32_t length = 3 + (int32_t) function.fParameters.size(); |
| SpvId returnType = this->getType(function.fReturnType); |
| std::vector<SpvId> parameterTypes; |
| for (size_t i = 0; i < function.fParameters.size(); i++) { |
| // glslang seems to treat all function arguments as pointers whether they need to be or |
| // not. I was initially puzzled by this until I ran bizarre failures with certain |
| // patterns of function calls and control constructs, as exemplified by this minimal |
| // failure case: |
| // |
| // void sphere(float x) { |
| // } |
| // |
| // void map() { |
| // sphere(1.0); |
| // } |
| // |
| // void main() { |
| // for (int i = 0; i < 1; i++) { |
| // map(); |
| // } |
| // } |
| // |
| // As of this writing, compiling this in the "obvious" way (with sphere taking a float) |
| // crashes. Making it take a float* and storing the argument in a temporary variable, |
| // as glslang does, fixes it. It's entirely possible I simply missed whichever part of |
| // the spec makes this make sense. |
| // if (is_out(function->fParameters[i])) { |
| parameterTypes.push_back(this->getPointerType(function.fParameters[i]->fType, |
| SpvStorageClassFunction)); |
| // } else { |
| // parameterTypes.push_back(this->getType(function.fParameters[i]->fType)); |
| // } |
| } |
| this->writeOpCode(SpvOpTypeFunction, length, fConstantBuffer); |
| this->writeWord(result, fConstantBuffer); |
| this->writeWord(returnType, fConstantBuffer); |
| for (SpvId id : parameterTypes) { |
| this->writeWord(id, fConstantBuffer); |
| } |
| fTypeMap[key] = result; |
| return result; |
| } |
| return entry->second; |
| } |
| |
| SpvId SPIRVCodeGenerator::getPointerType(const Type& type, SpvStorageClass_ storageClass) { |
| return this->getPointerType(type, fDefaultLayout, storageClass); |
| } |
| |
| SpvId SPIRVCodeGenerator::getPointerType(const Type& rawType, const MemoryLayout& layout, |
| SpvStorageClass_ storageClass) { |
| Type type = this->getActualType(rawType); |
| String key = type.description() + "*" + to_string(layout.fStd) + to_string(storageClass); |
| auto entry = fTypeMap.find(key); |
| if (entry == fTypeMap.end()) { |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpTypePointer, result, storageClass, |
| this->getType(type), fConstantBuffer); |
| fTypeMap[key] = result; |
| return result; |
| } |
| return entry->second; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeExpression(const Expression& expr, OutputStream& out) { |
| switch (expr.fKind) { |
| case Expression::kBinary_Kind: |
| return this->writeBinaryExpression((BinaryExpression&) expr, out); |
| case Expression::kBoolLiteral_Kind: |
| return this->writeBoolLiteral((BoolLiteral&) expr); |
| case Expression::kConstructor_Kind: |
| return this->writeConstructor((Constructor&) expr, out); |
| case Expression::kIntLiteral_Kind: |
| return this->writeIntLiteral((IntLiteral&) expr); |
| case Expression::kFieldAccess_Kind: |
| return this->writeFieldAccess(((FieldAccess&) expr), out); |
| case Expression::kFloatLiteral_Kind: |
| return this->writeFloatLiteral(((FloatLiteral&) expr)); |
| case Expression::kFunctionCall_Kind: |
| return this->writeFunctionCall((FunctionCall&) expr, out); |
| case Expression::kPrefix_Kind: |
| return this->writePrefixExpression((PrefixExpression&) expr, out); |
| case Expression::kPostfix_Kind: |
| return this->writePostfixExpression((PostfixExpression&) expr, out); |
| case Expression::kSwizzle_Kind: |
| return this->writeSwizzle((Swizzle&) expr, out); |
| case Expression::kVariableReference_Kind: |
| return this->writeVariableReference((VariableReference&) expr, out); |
| case Expression::kTernary_Kind: |
| return this->writeTernaryExpression((TernaryExpression&) expr, out); |
| case Expression::kIndex_Kind: |
| return this->writeIndexExpression((IndexExpression&) expr, out); |
| default: |
| ABORT("unsupported expression: %s", expr.description().c_str()); |
| } |
| return -1; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeIntrinsicCall(const FunctionCall& c, OutputStream& out) { |
| auto intrinsic = fIntrinsicMap.find(c.fFunction.fName); |
| SkASSERT(intrinsic != fIntrinsicMap.end()); |
| int32_t intrinsicId; |
| if (c.fArguments.size() > 0) { |
| const Type& type = c.fArguments[0]->fType; |
| if (std::get<0>(intrinsic->second) == kSpecial_IntrinsicKind || is_float(fContext, type)) { |
| intrinsicId = std::get<1>(intrinsic->second); |
| } else if (is_signed(fContext, type)) { |
| intrinsicId = std::get<2>(intrinsic->second); |
| } else if (is_unsigned(fContext, type)) { |
| intrinsicId = std::get<3>(intrinsic->second); |
| } else if (is_bool(fContext, type)) { |
| intrinsicId = std::get<4>(intrinsic->second); |
| } else { |
| intrinsicId = std::get<1>(intrinsic->second); |
| } |
| } else { |
| intrinsicId = std::get<1>(intrinsic->second); |
| } |
| switch (std::get<0>(intrinsic->second)) { |
| case kGLSL_STD_450_IntrinsicKind: { |
| SpvId result = this->nextId(); |
| std::vector<SpvId> arguments; |
| for (size_t i = 0; i < c.fArguments.size(); i++) { |
| if (c.fFunction.fParameters[i]->fModifiers.fFlags & Modifiers::kOut_Flag) { |
| arguments.push_back(this->getLValue(*c.fArguments[i], out)->getPointer()); |
| } else { |
| arguments.push_back(this->writeExpression(*c.fArguments[i], out)); |
| } |
| } |
| this->writeOpCode(SpvOpExtInst, 5 + (int32_t) arguments.size(), out); |
| this->writeWord(this->getType(c.fType), out); |
| this->writeWord(result, out); |
| this->writeWord(fGLSLExtendedInstructions, out); |
| this->writeWord(intrinsicId, out); |
| for (SpvId id : arguments) { |
| this->writeWord(id, out); |
| } |
| return result; |
| } |
| case kSPIRV_IntrinsicKind: { |
| SpvId result = this->nextId(); |
| std::vector<SpvId> arguments; |
| for (size_t i = 0; i < c.fArguments.size(); i++) { |
| if (c.fFunction.fParameters[i]->fModifiers.fFlags & Modifiers::kOut_Flag) { |
| arguments.push_back(this->getLValue(*c.fArguments[i], out)->getPointer()); |
| } else { |
| arguments.push_back(this->writeExpression(*c.fArguments[i], out)); |
| } |
| } |
| if (c.fType != *fContext.fVoid_Type) { |
| this->writeOpCode((SpvOp_) intrinsicId, 3 + (int32_t) arguments.size(), out); |
| this->writeWord(this->getType(c.fType), out); |
| this->writeWord(result, out); |
| } else { |
| this->writeOpCode((SpvOp_) intrinsicId, 1 + (int32_t) arguments.size(), out); |
| } |
| for (SpvId id : arguments) { |
| this->writeWord(id, out); |
| } |
| return result; |
| } |
| case kSpecial_IntrinsicKind: |
| return this->writeSpecialIntrinsic(c, (SpecialIntrinsic) intrinsicId, out); |
| default: |
| ABORT("unsupported intrinsic kind"); |
| } |
| } |
| |
| std::vector<SpvId> SPIRVCodeGenerator::vectorize( |
| const std::vector<std::unique_ptr<Expression>>& args, |
| OutputStream& out) { |
| int vectorSize = 0; |
| for (const auto& a : args) { |
| if (a->fType.kind() == Type::kVector_Kind) { |
| if (vectorSize) { |
| SkASSERT(a->fType.columns() == vectorSize); |
| } |
| else { |
| vectorSize = a->fType.columns(); |
| } |
| } |
| } |
| std::vector<SpvId> result; |
| for (const auto& a : args) { |
| SpvId raw = this->writeExpression(*a, out); |
| if (vectorSize && a->fType.kind() == Type::kScalar_Kind) { |
| SpvId vector = this->nextId(); |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + vectorSize, out); |
| this->writeWord(this->getType(a->fType.toCompound(fContext, vectorSize, 1)), out); |
| this->writeWord(vector, out); |
| for (int i = 0; i < vectorSize; i++) { |
| this->writeWord(raw, out); |
| } |
| result.push_back(vector); |
| } else { |
| result.push_back(raw); |
| } |
| } |
| return result; |
| } |
| |
| void SPIRVCodeGenerator::writeGLSLExtendedInstruction(const Type& type, SpvId id, SpvId floatInst, |
| SpvId signedInst, SpvId unsignedInst, |
| const std::vector<SpvId>& args, |
| OutputStream& out) { |
| this->writeOpCode(SpvOpExtInst, 5 + args.size(), out); |
| this->writeWord(this->getType(type), out); |
| this->writeWord(id, out); |
| this->writeWord(fGLSLExtendedInstructions, out); |
| |
| if (is_float(fContext, type)) { |
| this->writeWord(floatInst, out); |
| } else if (is_signed(fContext, type)) { |
| this->writeWord(signedInst, out); |
| } else if (is_unsigned(fContext, type)) { |
| this->writeWord(unsignedInst, out); |
| } else { |
| SkASSERT(false); |
| } |
| for (SpvId a : args) { |
| this->writeWord(a, out); |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeSpecialIntrinsic(const FunctionCall& c, SpecialIntrinsic kind, |
| OutputStream& out) { |
| SpvId result = this->nextId(); |
| switch (kind) { |
| case kAtan_SpecialIntrinsic: { |
| std::vector<SpvId> arguments; |
| for (size_t i = 0; i < c.fArguments.size(); i++) { |
| arguments.push_back(this->writeExpression(*c.fArguments[i], out)); |
| } |
| this->writeOpCode(SpvOpExtInst, 5 + (int32_t) arguments.size(), out); |
| this->writeWord(this->getType(c.fType), out); |
| this->writeWord(result, out); |
| this->writeWord(fGLSLExtendedInstructions, out); |
| this->writeWord(arguments.size() == 2 ? GLSLstd450Atan2 : GLSLstd450Atan, out); |
| for (SpvId id : arguments) { |
| this->writeWord(id, out); |
| } |
| break; |
| } |
| case kSubpassLoad_SpecialIntrinsic: { |
| SpvId img = this->writeExpression(*c.fArguments[0], out); |
| std::vector<std::unique_ptr<Expression>> args; |
| args.emplace_back(new FloatLiteral(fContext, -1, 0.0)); |
| args.emplace_back(new FloatLiteral(fContext, -1, 0.0)); |
| Constructor ctor(-1, *fContext.fFloat2_Type, std::move(args)); |
| SpvId coords = this->writeConstantVector(ctor); |
| if (1 == c.fArguments.size()) { |
| this->writeInstruction(SpvOpImageRead, |
| this->getType(c.fType), |
| result, |
| img, |
| coords, |
| out); |
| } else { |
| SkASSERT(2 == c.fArguments.size()); |
| SpvId sample = this->writeExpression(*c.fArguments[1], out); |
| this->writeInstruction(SpvOpImageRead, |
| this->getType(c.fType), |
| result, |
| img, |
| coords, |
| SpvImageOperandsSampleMask, |
| sample, |
| out); |
| } |
| break; |
| } |
| case kTexture_SpecialIntrinsic: { |
| SpvOp_ op = SpvOpImageSampleImplicitLod; |
| switch (c.fArguments[0]->fType.dimensions()) { |
| case SpvDim1D: |
| if (c.fArguments[1]->fType == *fContext.fFloat2_Type) { |
| op = SpvOpImageSampleProjImplicitLod; |
| } else { |
| SkASSERT(c.fArguments[1]->fType == *fContext.fFloat_Type); |
| } |
| break; |
| case SpvDim2D: |
| if (c.fArguments[1]->fType == *fContext.fFloat3_Type) { |
| op = SpvOpImageSampleProjImplicitLod; |
| } else { |
| SkASSERT(c.fArguments[1]->fType == *fContext.fFloat2_Type); |
| } |
| break; |
| case SpvDim3D: |
| if (c.fArguments[1]->fType == *fContext.fFloat4_Type) { |
| op = SpvOpImageSampleProjImplicitLod; |
| } else { |
| SkASSERT(c.fArguments[1]->fType == *fContext.fFloat3_Type); |
| } |
| break; |
| case SpvDimCube: // fall through |
| case SpvDimRect: // fall through |
| case SpvDimBuffer: // fall through |
| case SpvDimSubpassData: |
| break; |
| } |
| SpvId type = this->getType(c.fType); |
| SpvId sampler = this->writeExpression(*c.fArguments[0], out); |
| SpvId uv = this->writeExpression(*c.fArguments[1], out); |
| if (c.fArguments.size() == 3) { |
| this->writeInstruction(op, type, result, sampler, uv, |
| SpvImageOperandsBiasMask, |
| this->writeExpression(*c.fArguments[2], out), |
| out); |
| } else { |
| SkASSERT(c.fArguments.size() == 2); |
| if (fProgram.fSettings.fSharpenTextures) { |
| FloatLiteral lodBias(fContext, -1, -0.5); |
| this->writeInstruction(op, type, result, sampler, uv, |
| SpvImageOperandsBiasMask, |
| this->writeFloatLiteral(lodBias), |
| out); |
| } else { |
| this->writeInstruction(op, type, result, sampler, uv, |
| out); |
| } |
| } |
| break; |
| } |
| case kMod_SpecialIntrinsic: { |
| std::vector<SpvId> args = this->vectorize(c.fArguments, out); |
| SkASSERT(args.size() == 2); |
| const Type& operandType = c.fArguments[0]->fType; |
| SpvOp_ op; |
| if (is_float(fContext, operandType)) { |
| op = SpvOpFMod; |
| } else if (is_signed(fContext, operandType)) { |
| op = SpvOpSMod; |
| } else if (is_unsigned(fContext, operandType)) { |
| op = SpvOpUMod; |
| } else { |
| SkASSERT(false); |
| return 0; |
| } |
| this->writeOpCode(op, 5, out); |
| this->writeWord(this->getType(operandType), out); |
| this->writeWord(result, out); |
| this->writeWord(args[0], out); |
| this->writeWord(args[1], out); |
| break; |
| } |
| case kClamp_SpecialIntrinsic: { |
| std::vector<SpvId> args = this->vectorize(c.fArguments, out); |
| SkASSERT(args.size() == 3); |
| this->writeGLSLExtendedInstruction(c.fType, result, GLSLstd450FClamp, GLSLstd450SClamp, |
| GLSLstd450UClamp, args, out); |
| break; |
| } |
| case kMax_SpecialIntrinsic: { |
| std::vector<SpvId> args = this->vectorize(c.fArguments, out); |
| SkASSERT(args.size() == 2); |
| this->writeGLSLExtendedInstruction(c.fType, result, GLSLstd450FMax, GLSLstd450SMax, |
| GLSLstd450UMax, args, out); |
| break; |
| } |
| case kMin_SpecialIntrinsic: { |
| std::vector<SpvId> args = this->vectorize(c.fArguments, out); |
| SkASSERT(args.size() == 2); |
| this->writeGLSLExtendedInstruction(c.fType, result, GLSLstd450FMin, GLSLstd450SMin, |
| GLSLstd450UMin, args, out); |
| break; |
| } |
| case kMix_SpecialIntrinsic: { |
| std::vector<SpvId> args = this->vectorize(c.fArguments, out); |
| SkASSERT(args.size() == 3); |
| this->writeGLSLExtendedInstruction(c.fType, result, GLSLstd450FMix, SpvOpUndef, |
| SpvOpUndef, args, out); |
| break; |
| } |
| case kSaturate_SpecialIntrinsic: { |
| SkASSERT(c.fArguments.size() == 1); |
| std::vector<std::unique_ptr<Expression>> finalArgs; |
| finalArgs.push_back(c.fArguments[0]->clone()); |
| finalArgs.emplace_back(new FloatLiteral(fContext, -1, 0)); |
| finalArgs.emplace_back(new FloatLiteral(fContext, -1, 1)); |
| std::vector<SpvId> spvArgs = this->vectorize(finalArgs, out); |
| this->writeGLSLExtendedInstruction(c.fType, result, GLSLstd450FClamp, GLSLstd450SClamp, |
| GLSLstd450UClamp, spvArgs, out); |
| break; |
| } |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeFunctionCall(const FunctionCall& c, OutputStream& out) { |
| const auto& entry = fFunctionMap.find(&c.fFunction); |
| if (entry == fFunctionMap.end()) { |
| return this->writeIntrinsicCall(c, out); |
| } |
| // stores (variable, type, lvalue) pairs to extract and save after the function call is complete |
| std::vector<std::tuple<SpvId, SpvId, std::unique_ptr<LValue>>> lvalues; |
| std::vector<SpvId> arguments; |
| for (size_t i = 0; i < c.fArguments.size(); i++) { |
| // id of temporary variable that we will use to hold this argument, or 0 if it is being |
| // passed directly |
| SpvId tmpVar; |
| // if we need a temporary var to store this argument, this is the value to store in the var |
| SpvId tmpValueId; |
| if (is_out(*c.fFunction.fParameters[i])) { |
| std::unique_ptr<LValue> lv = this->getLValue(*c.fArguments[i], out); |
| SpvId ptr = lv->getPointer(); |
| if (ptr) { |
| arguments.push_back(ptr); |
| continue; |
| } else { |
| // lvalue cannot simply be read and written via a pointer (e.g. a swizzle). Need to |
| // copy it into a temp, call the function, read the value out of the temp, and then |
| // update the lvalue. |
| tmpValueId = lv->load(out); |
| tmpVar = this->nextId(); |
| lvalues.push_back(std::make_tuple(tmpVar, this->getType(c.fArguments[i]->fType), |
| std::move(lv))); |
| } |
| } else { |
| // see getFunctionType for an explanation of why we're always using pointer parameters |
| tmpValueId = this->writeExpression(*c.fArguments[i], out); |
| tmpVar = this->nextId(); |
| } |
| this->writeInstruction(SpvOpVariable, |
| this->getPointerType(c.fArguments[i]->fType, |
| SpvStorageClassFunction), |
| tmpVar, |
| SpvStorageClassFunction, |
| fVariableBuffer); |
| this->writeInstruction(SpvOpStore, tmpVar, tmpValueId, out); |
| arguments.push_back(tmpVar); |
| } |
| SpvId result = this->nextId(); |
| this->writeOpCode(SpvOpFunctionCall, 4 + (int32_t) c.fArguments.size(), out); |
| this->writeWord(this->getType(c.fType), out); |
| this->writeWord(result, out); |
| this->writeWord(entry->second, out); |
| for (SpvId id : arguments) { |
| this->writeWord(id, out); |
| } |
| // now that the call is complete, we may need to update some lvalues with the new values of out |
| // arguments |
| for (const auto& tuple : lvalues) { |
| SpvId load = this->nextId(); |
| this->writeInstruction(SpvOpLoad, std::get<1>(tuple), load, std::get<0>(tuple), out); |
| std::get<2>(tuple)->store(load, out); |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeConstantVector(const Constructor& c) { |
| SkASSERT(c.fType.kind() == Type::kVector_Kind && c.isConstant()); |
| SpvId result = this->nextId(); |
| std::vector<SpvId> arguments; |
| for (size_t i = 0; i < c.fArguments.size(); i++) { |
| arguments.push_back(this->writeExpression(*c.fArguments[i], fConstantBuffer)); |
| } |
| SpvId type = this->getType(c.fType); |
| if (c.fArguments.size() == 1) { |
| // with a single argument, a vector will have all of its entries equal to the argument |
| this->writeOpCode(SpvOpConstantComposite, 3 + c.fType.columns(), fConstantBuffer); |
| this->writeWord(type, fConstantBuffer); |
| this->writeWord(result, fConstantBuffer); |
| for (int i = 0; i < c.fType.columns(); i++) { |
| this->writeWord(arguments[0], fConstantBuffer); |
| } |
| } else { |
| this->writeOpCode(SpvOpConstantComposite, 3 + (int32_t) c.fArguments.size(), |
| fConstantBuffer); |
| this->writeWord(type, fConstantBuffer); |
| this->writeWord(result, fConstantBuffer); |
| for (SpvId id : arguments) { |
| this->writeWord(id, fConstantBuffer); |
| } |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeFloatConstructor(const Constructor& c, OutputStream& out) { |
| SkASSERT(c.fType.isFloat()); |
| SkASSERT(c.fArguments.size() == 1); |
| SkASSERT(c.fArguments[0]->fType.isNumber()); |
| SpvId result = this->nextId(); |
| SpvId parameter = this->writeExpression(*c.fArguments[0], out); |
| if (c.fArguments[0]->fType.isSigned()) { |
| this->writeInstruction(SpvOpConvertSToF, this->getType(c.fType), result, parameter, |
| out); |
| } else { |
| SkASSERT(c.fArguments[0]->fType.isUnsigned()); |
| this->writeInstruction(SpvOpConvertUToF, this->getType(c.fType), result, parameter, |
| out); |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeIntConstructor(const Constructor& c, OutputStream& out) { |
| SkASSERT(c.fType.isSigned()); |
| SkASSERT(c.fArguments.size() == 1); |
| SkASSERT(c.fArguments[0]->fType.isNumber()); |
| SpvId result = this->nextId(); |
| SpvId parameter = this->writeExpression(*c.fArguments[0], out); |
| if (c.fArguments[0]->fType.isFloat()) { |
| this->writeInstruction(SpvOpConvertFToS, this->getType(c.fType), result, parameter, |
| out); |
| } |
| else { |
| SkASSERT(c.fArguments[0]->fType.isUnsigned()); |
| this->writeInstruction(SpvOpBitcast, this->getType(c.fType), result, parameter, |
| out); |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeUIntConstructor(const Constructor& c, OutputStream& out) { |
| SkASSERT(c.fType.isUnsigned()); |
| SkASSERT(c.fArguments.size() == 1); |
| SkASSERT(c.fArguments[0]->fType.isNumber()); |
| SpvId result = this->nextId(); |
| SpvId parameter = this->writeExpression(*c.fArguments[0], out); |
| if (c.fArguments[0]->fType.isFloat()) { |
| this->writeInstruction(SpvOpConvertFToU, this->getType(c.fType), result, parameter, |
| out); |
| } else { |
| SkASSERT(c.fArguments[0]->fType.isSigned()); |
| this->writeInstruction(SpvOpBitcast, this->getType(c.fType), result, parameter, |
| out); |
| } |
| return result; |
| } |
| |
| void SPIRVCodeGenerator::writeUniformScaleMatrix(SpvId id, SpvId diagonal, const Type& type, |
| OutputStream& out) { |
| FloatLiteral zero(fContext, -1, 0); |
| SpvId zeroId = this->writeFloatLiteral(zero); |
| std::vector<SpvId> columnIds; |
| for (int column = 0; column < type.columns(); column++) { |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + type.rows(), |
| out); |
| this->writeWord(this->getType(type.componentType().toCompound(fContext, type.rows(), 1)), |
| out); |
| SpvId columnId = this->nextId(); |
| this->writeWord(columnId, out); |
| columnIds.push_back(columnId); |
| for (int row = 0; row < type.columns(); row++) { |
| this->writeWord(row == column ? diagonal : zeroId, out); |
| } |
| } |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + type.columns(), |
| out); |
| this->writeWord(this->getType(type), out); |
| this->writeWord(id, out); |
| for (SpvId id : columnIds) { |
| this->writeWord(id, out); |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeMatrixCopy(SpvId id, SpvId src, const Type& srcType, |
| const Type& dstType, OutputStream& out) { |
| SkASSERT(srcType.kind() == Type::kMatrix_Kind); |
| SkASSERT(dstType.kind() == Type::kMatrix_Kind); |
| SkASSERT(srcType.componentType() == dstType.componentType()); |
| SpvId srcColumnType = this->getType(srcType.componentType().toCompound(fContext, |
| srcType.rows(), |
| 1)); |
| SpvId dstColumnType = this->getType(dstType.componentType().toCompound(fContext, |
| dstType.rows(), |
| 1)); |
| SpvId zeroId; |
| if (dstType.componentType() == *fContext.fFloat_Type) { |
| FloatLiteral zero(fContext, -1, 0.0); |
| zeroId = this->writeFloatLiteral(zero); |
| } else if (dstType.componentType() == *fContext.fInt_Type) { |
| IntLiteral zero(fContext, -1, 0); |
| zeroId = this->writeIntLiteral(zero); |
| } else { |
| ABORT("unsupported matrix component type"); |
| } |
| SpvId zeroColumn = 0; |
| SpvId columns[4]; |
| for (int i = 0; i < dstType.columns(); i++) { |
| if (i < srcType.columns()) { |
| // we're still inside the src matrix, copy the column |
| SpvId srcColumn = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, srcColumnType, srcColumn, src, i, out); |
| SpvId dstColumn; |
| if (srcType.rows() == dstType.rows()) { |
| // columns are equal size, don't need to do anything |
| dstColumn = srcColumn; |
| } |
| else if (dstType.rows() > srcType.rows()) { |
| // dst column is bigger, need to zero-pad it |
| dstColumn = this->nextId(); |
| int delta = dstType.rows() - srcType.rows(); |
| this->writeOpCode(SpvOpCompositeConstruct, 4 + delta, out); |
| this->writeWord(dstColumnType, out); |
| this->writeWord(dstColumn, out); |
| this->writeWord(srcColumn, out); |
| for (int i = 0; i < delta; ++i) { |
| this->writeWord(zeroId, out); |
| } |
| } |
| else { |
| // dst column is smaller, need to swizzle the src column |
| dstColumn = this->nextId(); |
| int count = dstType.rows(); |
| this->writeOpCode(SpvOpVectorShuffle, 5 + count, out); |
| this->writeWord(dstColumnType, out); |
| this->writeWord(dstColumn, out); |
| this->writeWord(srcColumn, out); |
| this->writeWord(srcColumn, out); |
| for (int i = 0; i < count; i++) { |
| this->writeWord(i, out); |
| } |
| } |
| columns[i] = dstColumn; |
| } else { |
| // we're past the end of the src matrix, need a vector of zeroes |
| if (!zeroColumn) { |
| zeroColumn = this->nextId(); |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + dstType.rows(), out); |
| this->writeWord(dstColumnType, out); |
| this->writeWord(zeroColumn, out); |
| for (int i = 0; i < dstType.rows(); ++i) { |
| this->writeWord(zeroId, out); |
| } |
| } |
| columns[i] = zeroColumn; |
| } |
| } |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + dstType.columns(), out); |
| this->writeWord(this->getType(dstType), out); |
| this->writeWord(id, out); |
| for (int i = 0; i < dstType.columns(); i++) { |
| this->writeWord(columns[i], out); |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeMatrixConstructor(const Constructor& c, OutputStream& out) { |
| SkASSERT(c.fType.kind() == Type::kMatrix_Kind); |
| // go ahead and write the arguments so we don't try to write new instructions in the middle of |
| // an instruction |
| std::vector<SpvId> arguments; |
| for (size_t i = 0; i < c.fArguments.size(); i++) { |
| arguments.push_back(this->writeExpression(*c.fArguments[i], out)); |
| } |
| SpvId result = this->nextId(); |
| int rows = c.fType.rows(); |
| int columns = c.fType.columns(); |
| if (arguments.size() == 1 && c.fArguments[0]->fType.kind() == Type::kScalar_Kind) { |
| this->writeUniformScaleMatrix(result, arguments[0], c.fType, out); |
| } else if (arguments.size() == 1 && c.fArguments[0]->fType.kind() == Type::kMatrix_Kind) { |
| this->writeMatrixCopy(result, arguments[0], c.fArguments[0]->fType, c.fType, out); |
| } else if (arguments.size() == 1 && c.fArguments[0]->fType.kind() == Type::kVector_Kind) { |
| SkASSERT(c.fType.rows() == 2 && c.fType.columns() == 2); |
| SkASSERT(c.fArguments[0]->fType.columns() == 4); |
| SpvId componentType = this->getType(c.fType.componentType()); |
| SpvId v[4]; |
| for (int i = 0; i < 4; ++i) { |
| v[i] = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, componentType, v[i], arguments[0], i, out); |
| } |
| SpvId columnType = this->getType(c.fType.componentType().toCompound(fContext, 2, 1)); |
| SpvId column1 = this->nextId(); |
| this->writeInstruction(SpvOpCompositeConstruct, columnType, column1, v[0], v[1], out); |
| SpvId column2 = this->nextId(); |
| this->writeInstruction(SpvOpCompositeConstruct, columnType, column2, v[2], v[3], out); |
| this->writeInstruction(SpvOpCompositeConstruct, this->getType(c.fType), result, column1, |
| column2, out); |
| } else { |
| std::vector<SpvId> columnIds; |
| // ids of vectors and scalars we have written to the current column so far |
| std::vector<SpvId> currentColumn; |
| // the total number of scalars represented by currentColumn's entries |
| int currentCount = 0; |
| for (size_t i = 0; i < arguments.size(); i++) { |
| if (c.fArguments[i]->fType.kind() == Type::kVector_Kind && |
| c.fArguments[i]->fType.columns() == c.fType.rows()) { |
| // this is a complete column by itself |
| SkASSERT(currentCount == 0); |
| columnIds.push_back(arguments[i]); |
| } else { |
| if (c.fArguments[i]->fType.columns() == 1) { |
| currentColumn.push_back(arguments[i]); |
| } else { |
| SpvId componentType = this->getType(c.fArguments[i]->fType.componentType()); |
| for (int j = 0; j < c.fArguments[i]->fType.columns(); ++j) { |
| SpvId swizzle = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, componentType, swizzle, |
| arguments[i], j, out); |
| currentColumn.push_back(swizzle); |
| } |
| } |
| currentCount += c.fArguments[i]->fType.columns(); |
| if (currentCount == rows) { |
| currentCount = 0; |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + currentColumn.size(), out); |
| this->writeWord(this->getType(c.fType.componentType().toCompound(fContext, rows, |
| 1)), |
| out); |
| SpvId columnId = this->nextId(); |
| this->writeWord(columnId, out); |
| columnIds.push_back(columnId); |
| for (SpvId id : currentColumn) { |
| this->writeWord(id, out); |
| } |
| currentColumn.clear(); |
| } |
| SkASSERT(currentCount < rows); |
| } |
| } |
| SkASSERT(columnIds.size() == (size_t) columns); |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + columns, out); |
| this->writeWord(this->getType(c.fType), out); |
| this->writeWord(result, out); |
| for (SpvId id : columnIds) { |
| this->writeWord(id, out); |
| } |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeVectorConstructor(const Constructor& c, OutputStream& out) { |
| SkASSERT(c.fType.kind() == Type::kVector_Kind); |
| if (c.isConstant()) { |
| return this->writeConstantVector(c); |
| } |
| // go ahead and write the arguments so we don't try to write new instructions in the middle of |
| // an instruction |
| std::vector<SpvId> arguments; |
| for (size_t i = 0; i < c.fArguments.size(); i++) { |
| if (c.fArguments[i]->fType.kind() == Type::kVector_Kind) { |
| // SPIR-V doesn't support vector(vector-of-different-type) directly, so we need to |
| // extract the components and convert them in that case manually. On top of that, |
| // as of this writing there's a bug in the Intel Vulkan driver where OpCreateComposite |
| // doesn't handle vector arguments at all, so we always extract vector components and |
| // pass them into OpCreateComposite individually. |
| SpvId vec = this->writeExpression(*c.fArguments[i], out); |
| SpvOp_ op = SpvOpUndef; |
| const Type& src = c.fArguments[i]->fType.componentType(); |
| const Type& dst = c.fType.componentType(); |
| if (dst == *fContext.fFloat_Type || dst == *fContext.fHalf_Type) { |
| if (src == *fContext.fFloat_Type || src == *fContext.fHalf_Type) { |
| if (c.fArguments.size() == 1) { |
| return vec; |
| } |
| } else if (src == *fContext.fInt_Type || |
| src == *fContext.fShort_Type || |
| src == *fContext.fByte_Type) { |
| op = SpvOpConvertSToF; |
| } else if (src == *fContext.fUInt_Type || |
| src == *fContext.fUShort_Type || |
| src == *fContext.fUByte_Type) { |
| op = SpvOpConvertUToF; |
| } else { |
| SkASSERT(false); |
| } |
| } else if (dst == *fContext.fInt_Type || |
| dst == *fContext.fShort_Type || |
| dst == *fContext.fByte_Type) { |
| if (src == *fContext.fFloat_Type || src == *fContext.fHalf_Type) { |
| op = SpvOpConvertFToS; |
| } else if (src == *fContext.fInt_Type || |
| src == *fContext.fShort_Type || |
| src == *fContext.fByte_Type) { |
| if (c.fArguments.size() == 1) { |
| return vec; |
| } |
| } else if (src == *fContext.fUInt_Type || |
| src == *fContext.fUShort_Type || |
| src == *fContext.fUByte_Type) { |
| op = SpvOpBitcast; |
| } else { |
| SkASSERT(false); |
| } |
| } else if (dst == *fContext.fUInt_Type || |
| dst == *fContext.fUShort_Type || |
| dst == *fContext.fUByte_Type) { |
| if (src == *fContext.fFloat_Type || src == *fContext.fHalf_Type) { |
| op = SpvOpConvertFToS; |
| } else if (src == *fContext.fInt_Type || |
| src == *fContext.fShort_Type || |
| src == *fContext.fByte_Type) { |
| op = SpvOpBitcast; |
| } else if (src == *fContext.fUInt_Type || |
| src == *fContext.fUShort_Type || |
| src == *fContext.fUByte_Type) { |
| if (c.fArguments.size() == 1) { |
| return vec; |
| } |
| } else { |
| SkASSERT(false); |
| } |
| } |
| for (int j = 0; j < c.fArguments[i]->fType.columns(); j++) { |
| SpvId swizzle = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, this->getType(src), swizzle, vec, j, |
| out); |
| if (op != SpvOpUndef) { |
| SpvId cast = this->nextId(); |
| this->writeInstruction(op, this->getType(dst), cast, swizzle, out); |
| arguments.push_back(cast); |
| } else { |
| arguments.push_back(swizzle); |
| } |
| } |
| } else { |
| arguments.push_back(this->writeExpression(*c.fArguments[i], out)); |
| } |
| } |
| SpvId result = this->nextId(); |
| if (arguments.size() == 1 && c.fArguments[0]->fType.kind() == Type::kScalar_Kind) { |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + c.fType.columns(), out); |
| this->writeWord(this->getType(c.fType), out); |
| this->writeWord(result, out); |
| for (int i = 0; i < c.fType.columns(); i++) { |
| this->writeWord(arguments[0], out); |
| } |
| } else { |
| SkASSERT(arguments.size() > 1); |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + (int32_t) arguments.size(), out); |
| this->writeWord(this->getType(c.fType), out); |
| this->writeWord(result, out); |
| for (SpvId id : arguments) { |
| this->writeWord(id, out); |
| } |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeArrayConstructor(const Constructor& c, OutputStream& out) { |
| SkASSERT(c.fType.kind() == Type::kArray_Kind); |
| // go ahead and write the arguments so we don't try to write new instructions in the middle of |
| // an instruction |
| std::vector<SpvId> arguments; |
| for (size_t i = 0; i < c.fArguments.size(); i++) { |
| arguments.push_back(this->writeExpression(*c.fArguments[i], out)); |
| } |
| SpvId result = this->nextId(); |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + (int32_t) c.fArguments.size(), out); |
| this->writeWord(this->getType(c.fType), out); |
| this->writeWord(result, out); |
| for (SpvId id : arguments) { |
| this->writeWord(id, out); |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeConstructor(const Constructor& c, OutputStream& out) { |
| if (c.fArguments.size() == 1 && |
| this->getActualType(c.fType) == this->getActualType(c.fArguments[0]->fType)) { |
| return this->writeExpression(*c.fArguments[0], out); |
| } |
| if (c.fType == *fContext.fFloat_Type || c.fType == *fContext.fHalf_Type) { |
| return this->writeFloatConstructor(c, out); |
| } else if (c.fType == *fContext.fInt_Type || |
| c.fType == *fContext.fShort_Type || |
| c.fType == *fContext.fByte_Type) { |
| return this->writeIntConstructor(c, out); |
| } else if (c.fType == *fContext.fUInt_Type || |
| c.fType == *fContext.fUShort_Type || |
| c.fType == *fContext.fUByte_Type) { |
| return this->writeUIntConstructor(c, out); |
| } |
| switch (c.fType.kind()) { |
| case Type::kVector_Kind: |
| return this->writeVectorConstructor(c, out); |
| case Type::kMatrix_Kind: |
| return this->writeMatrixConstructor(c, out); |
| case Type::kArray_Kind: |
| return this->writeArrayConstructor(c, out); |
| default: |
| ABORT("unsupported constructor: %s", c.description().c_str()); |
| } |
| } |
| |
| SpvStorageClass_ get_storage_class(const Modifiers& modifiers) { |
| if (modifiers.fFlags & Modifiers::kIn_Flag) { |
| SkASSERT(!(modifiers.fLayout.fFlags & Layout::kPushConstant_Flag)); |
| return SpvStorageClassInput; |
| } else if (modifiers.fFlags & Modifiers::kOut_Flag) { |
| SkASSERT(!(modifiers.fLayout.fFlags & Layout::kPushConstant_Flag)); |
| return SpvStorageClassOutput; |
| } else if (modifiers.fFlags & Modifiers::kUniform_Flag) { |
| if (modifiers.fLayout.fFlags & Layout::kPushConstant_Flag) { |
| return SpvStorageClassPushConstant; |
| } |
| return SpvStorageClassUniform; |
| } else { |
| return SpvStorageClassFunction; |
| } |
| } |
| |
| SpvStorageClass_ get_storage_class(const Expression& expr) { |
| switch (expr.fKind) { |
| case Expression::kVariableReference_Kind: { |
| const Variable& var = ((VariableReference&) expr).fVariable; |
| if (var.fStorage != Variable::kGlobal_Storage) { |
| return SpvStorageClassFunction; |
| } |
| SpvStorageClass_ result = get_storage_class(var.fModifiers); |
| if (result == SpvStorageClassFunction) { |
| result = SpvStorageClassPrivate; |
| } |
| return result; |
| } |
| case Expression::kFieldAccess_Kind: |
| return get_storage_class(*((FieldAccess&) expr).fBase); |
| case Expression::kIndex_Kind: |
| return get_storage_class(*((IndexExpression&) expr).fBase); |
| default: |
| return SpvStorageClassFunction; |
| } |
| } |
| |
| std::vector<SpvId> SPIRVCodeGenerator::getAccessChain(const Expression& expr, OutputStream& out) { |
| std::vector<SpvId> chain; |
| switch (expr.fKind) { |
| case Expression::kIndex_Kind: { |
| IndexExpression& indexExpr = (IndexExpression&) expr; |
| chain = this->getAccessChain(*indexExpr.fBase, out); |
| chain.push_back(this->writeExpression(*indexExpr.fIndex, out)); |
| break; |
| } |
| case Expression::kFieldAccess_Kind: { |
| FieldAccess& fieldExpr = (FieldAccess&) expr; |
| chain = this->getAccessChain(*fieldExpr.fBase, out); |
| IntLiteral index(fContext, -1, fieldExpr.fFieldIndex); |
| chain.push_back(this->writeIntLiteral(index)); |
| break; |
| } |
| default: |
| chain.push_back(this->getLValue(expr, out)->getPointer()); |
| } |
| return chain; |
| } |
| |
| class PointerLValue : public SPIRVCodeGenerator::LValue { |
| public: |
| PointerLValue(SPIRVCodeGenerator& gen, SpvId pointer, SpvId type) |
| : fGen(gen) |
| , fPointer(pointer) |
| , fType(type) {} |
| |
| virtual SpvId getPointer() override { |
| return fPointer; |
| } |
| |
| virtual SpvId load(OutputStream& out) override { |
| SpvId result = fGen.nextId(); |
| fGen.writeInstruction(SpvOpLoad, fType, result, fPointer, out); |
| return result; |
| } |
| |
| virtual void store(SpvId value, OutputStream& out) override { |
| fGen.writeInstruction(SpvOpStore, fPointer, value, out); |
| } |
| |
| private: |
| SPIRVCodeGenerator& fGen; |
| const SpvId fPointer; |
| const SpvId fType; |
| }; |
| |
| class SwizzleLValue : public SPIRVCodeGenerator::LValue { |
| public: |
| SwizzleLValue(SPIRVCodeGenerator& gen, SpvId vecPointer, const std::vector<int>& components, |
| const Type& baseType, const Type& swizzleType) |
| : fGen(gen) |
| , fVecPointer(vecPointer) |
| , fComponents(components) |
| , fBaseType(baseType) |
| , fSwizzleType(swizzleType) {} |
| |
| virtual SpvId getPointer() override { |
| return 0; |
| } |
| |
| virtual SpvId load(OutputStream& out) override { |
| SpvId base = fGen.nextId(); |
| fGen.writeInstruction(SpvOpLoad, fGen.getType(fBaseType), base, fVecPointer, out); |
| SpvId result = fGen.nextId(); |
| fGen.writeOpCode(SpvOpVectorShuffle, 5 + (int32_t) fComponents.size(), out); |
| fGen.writeWord(fGen.getType(fSwizzleType), out); |
| fGen.writeWord(result, out); |
| fGen.writeWord(base, out); |
| fGen.writeWord(base, out); |
| for (int component : fComponents) { |
| fGen.writeWord(component, out); |
| } |
| return result; |
| } |
| |
| virtual void store(SpvId value, OutputStream& out) override { |
| // use OpVectorShuffle to mix and match the vector components. We effectively create |
| // a virtual vector out of the concatenation of the left and right vectors, and then |
| // select components from this virtual vector to make the result vector. For |
| // instance, given: |
| // float3L = ...; |
| // float3R = ...; |
| // L.xz = R.xy; |
| // we end up with the virtual vector (L.x, L.y, L.z, R.x, R.y, R.z). Then we want |
| // our result vector to look like (R.x, L.y, R.y), so we need to select indices |
| // (3, 1, 4). |
| SpvId base = fGen.nextId(); |
| fGen.writeInstruction(SpvOpLoad, fGen.getType(fBaseType), base, fVecPointer, out); |
| SpvId shuffle = fGen.nextId(); |
| fGen.writeOpCode(SpvOpVectorShuffle, 5 + fBaseType.columns(), out); |
| fGen.writeWord(fGen.getType(fBaseType), out); |
| fGen.writeWord(shuffle, out); |
| fGen.writeWord(base, out); |
| fGen.writeWord(value, out); |
| for (int i = 0; i < fBaseType.columns(); i++) { |
| // current offset into the virtual vector, defaults to pulling the unmodified |
| // value from the left side |
| int offset = i; |
| // check to see if we are writing this component |
| for (size_t j = 0; j < fComponents.size(); j++) { |
| if (fComponents[j] == i) { |
| // we're writing to this component, so adjust the offset to pull from |
| // the correct component of the right side instead of preserving the |
| // value from the left |
| offset = (int) (j + fBaseType.columns()); |
| break; |
| } |
| } |
| fGen.writeWord(offset, out); |
| } |
| fGen.writeInstruction(SpvOpStore, fVecPointer, shuffle, out); |
| } |
| |
| private: |
| SPIRVCodeGenerator& fGen; |
| const SpvId fVecPointer; |
| const std::vector<int>& fComponents; |
| const Type& fBaseType; |
| const Type& fSwizzleType; |
| }; |
| |
| std::unique_ptr<SPIRVCodeGenerator::LValue> SPIRVCodeGenerator::getLValue(const Expression& expr, |
| OutputStream& out) { |
| switch (expr.fKind) { |
| case Expression::kVariableReference_Kind: { |
| SpvId type; |
| const Variable& var = ((VariableReference&) expr).fVariable; |
| if (var.fModifiers.fLayout.fBuiltin == SK_IN_BUILTIN) { |
| type = this->getType(Type("sk_in", Type::kArray_Kind, var.fType.componentType(), |
| fSkInCount)); |
| } else { |
| type = this->getType(expr.fType); |
| } |
| auto entry = fVariableMap.find(&var); |
| SkASSERT(entry != fVariableMap.end()); |
| return std::unique_ptr<SPIRVCodeGenerator::LValue>(new PointerLValue(*this, |
| entry->second, |
| type)); |
| } |
| case Expression::kIndex_Kind: // fall through |
| case Expression::kFieldAccess_Kind: { |
| std::vector<SpvId> chain = this->getAccessChain(expr, out); |
| SpvId member = this->nextId(); |
| this->writeOpCode(SpvOpAccessChain, (SpvId) (3 + chain.size()), out); |
| this->writeWord(this->getPointerType(expr.fType, get_storage_class(expr)), out); |
| this->writeWord(member, out); |
| for (SpvId idx : chain) { |
| this->writeWord(idx, out); |
| } |
| return std::unique_ptr<SPIRVCodeGenerator::LValue>(new PointerLValue( |
| *this, |
| member, |
| this->getType(expr.fType))); |
| } |
| case Expression::kSwizzle_Kind: { |
| Swizzle& swizzle = (Swizzle&) expr; |
| size_t count = swizzle.fComponents.size(); |
| SpvId base = this->getLValue(*swizzle.fBase, out)->getPointer(); |
| SkASSERT(base); |
| if (count == 1) { |
| IntLiteral index(fContext, -1, swizzle.fComponents[0]); |
| SpvId member = this->nextId(); |
| this->writeInstruction(SpvOpAccessChain, |
| this->getPointerType(swizzle.fType, |
| get_storage_class(*swizzle.fBase)), |
| member, |
| base, |
| this->writeIntLiteral(index), |
| out); |
| return std::unique_ptr<SPIRVCodeGenerator::LValue>(new PointerLValue( |
| *this, |
| member, |
| this->getType(expr.fType))); |
| } else { |
| return std::unique_ptr<SPIRVCodeGenerator::LValue>(new SwizzleLValue( |
| *this, |
| base, |
| swizzle.fComponents, |
| swizzle.fBase->fType, |
| expr.fType)); |
| } |
| } |
| case Expression::kTernary_Kind: { |
| TernaryExpression& t = (TernaryExpression&) expr; |
| SpvId test = this->writeExpression(*t.fTest, out); |
| SpvId end = this->nextId(); |
| SpvId ifTrueLabel = this->nextId(); |
| SpvId ifFalseLabel = this->nextId(); |
| this->writeInstruction(SpvOpSelectionMerge, end, SpvSelectionControlMaskNone, out); |
| this->writeInstruction(SpvOpBranchConditional, test, ifTrueLabel, ifFalseLabel, out); |
| this->writeLabel(ifTrueLabel, out); |
| SpvId ifTrue = this->getLValue(*t.fIfTrue, out)->getPointer(); |
| SkASSERT(ifTrue); |
| this->writeInstruction(SpvOpBranch, end, out); |
| ifTrueLabel = fCurrentBlock; |
| SpvId ifFalse = this->getLValue(*t.fIfFalse, out)->getPointer(); |
| SkASSERT(ifFalse); |
| ifFalseLabel = fCurrentBlock; |
| this->writeInstruction(SpvOpBranch, end, out); |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpPhi, this->getType(*fContext.fBool_Type), result, ifTrue, |
| ifTrueLabel, ifFalse, ifFalseLabel, out); |
| return std::unique_ptr<SPIRVCodeGenerator::LValue>(new PointerLValue( |
| *this, |
| result, |
| this->getType(expr.fType))); |
| } |
| default: |
| // expr isn't actually an lvalue, create a dummy variable for it. This case happens due |
| // to the need to store values in temporary variables during function calls (see |
| // comments in getFunctionType); erroneous uses of rvalues as lvalues should have been |
| // caught by IRGenerator |
| SpvId result = this->nextId(); |
| SpvId type = this->getPointerType(expr.fType, SpvStorageClassFunction); |
| this->writeInstruction(SpvOpVariable, type, result, SpvStorageClassFunction, |
| fVariableBuffer); |
| this->writeInstruction(SpvOpStore, result, this->writeExpression(expr, out), out); |
| return std::unique_ptr<SPIRVCodeGenerator::LValue>(new PointerLValue( |
| *this, |
| result, |
| this->getType(expr.fType))); |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeVariableReference(const VariableReference& ref, OutputStream& out) { |
| SpvId result = this->nextId(); |
| auto entry = fVariableMap.find(&ref.fVariable); |
| SkASSERT(entry != fVariableMap.end()); |
| SpvId var = entry->second; |
| this->writeInstruction(SpvOpLoad, this->getType(ref.fVariable.fType), result, var, out); |
| if (ref.fVariable.fModifiers.fLayout.fBuiltin == SK_FRAGCOORD_BUILTIN && |
| fProgram.fSettings.fFlipY) { |
| // need to remap to a top-left coordinate system |
| if (fRTHeightStructId == (SpvId) -1) { |
| // height variable hasn't been written yet |
| std::shared_ptr<SymbolTable> st(new SymbolTable(&fErrors)); |
| SkASSERT(fRTHeightFieldIndex == (SpvId) -1); |
| std::vector<Type::Field> fields; |
| fields.emplace_back(Modifiers(), SKSL_RTHEIGHT_NAME, fContext.fFloat_Type.get()); |
| StringFragment name("sksl_synthetic_uniforms"); |
| Type intfStruct(-1, name, fields); |
| Layout layout(0, -1, -1, 1, -1, -1, -1, -1, Layout::Format::kUnspecified, |
| Layout::kUnspecified_Primitive, -1, -1, "", Layout::kNo_Key, |
| StringFragment()); |
| Variable* intfVar = new Variable(-1, |
| Modifiers(layout, Modifiers::kUniform_Flag), |
| name, |
| intfStruct, |
| Variable::kGlobal_Storage); |
| fSynthetics.takeOwnership(intfVar); |
| InterfaceBlock intf(-1, intfVar, name, String(""), |
| std::vector<std::unique_ptr<Expression>>(), st); |
| fRTHeightStructId = this->writeInterfaceBlock(intf); |
| fRTHeightFieldIndex = 0; |
| } |
| SkASSERT(fRTHeightFieldIndex != (SpvId) -1); |
| // write float4(gl_FragCoord.x, u_skRTHeight - gl_FragCoord.y, 0.0, 1.0) |
| SpvId xId = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, this->getType(*fContext.fFloat_Type), xId, |
| result, 0, out); |
| IntLiteral fieldIndex(fContext, -1, fRTHeightFieldIndex); |
| SpvId fieldIndexId = this->writeIntLiteral(fieldIndex); |
| SpvId heightPtr = this->nextId(); |
| this->writeOpCode(SpvOpAccessChain, 5, out); |
| this->writeWord(this->getPointerType(*fContext.fFloat_Type, SpvStorageClassUniform), out); |
| this->writeWord(heightPtr, out); |
| this->writeWord(fRTHeightStructId, out); |
| this->writeWord(fieldIndexId, out); |
| SpvId heightRead = this->nextId(); |
| this->writeInstruction(SpvOpLoad, this->getType(*fContext.fFloat_Type), heightRead, |
| heightPtr, out); |
| SpvId rawYId = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, this->getType(*fContext.fFloat_Type), rawYId, |
| result, 1, out); |
| SpvId flippedYId = this->nextId(); |
| this->writeInstruction(SpvOpFSub, this->getType(*fContext.fFloat_Type), flippedYId, |
| heightRead, rawYId, out); |
| FloatLiteral zero(fContext, -1, 0.0); |
| SpvId zeroId = writeFloatLiteral(zero); |
| FloatLiteral one(fContext, -1, 1.0); |
| SpvId oneId = writeFloatLiteral(one); |
| SpvId flipped = this->nextId(); |
| this->writeOpCode(SpvOpCompositeConstruct, 7, out); |
| this->writeWord(this->getType(*fContext.fFloat4_Type), out); |
| this->writeWord(flipped, out); |
| this->writeWord(xId, out); |
| this->writeWord(flippedYId, out); |
| this->writeWord(zeroId, out); |
| this->writeWord(oneId, out); |
| return flipped; |
| } |
| if (ref.fVariable.fModifiers.fLayout.fBuiltin == SK_CLOCKWISE_BUILTIN && |
| !fProgram.fSettings.fFlipY) { |
| // FrontFacing in Vulkan is defined in terms of a top-down render target. In skia, we use |
| // the default convention of "counter-clockwise face is front". |
| SpvId inverse = this->nextId(); |
| this->writeInstruction(SpvOpLogicalNot, this->getType(*fContext.fBool_Type), inverse, |
| result, out); |
| return inverse; |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeIndexExpression(const IndexExpression& expr, OutputStream& out) { |
| return getLValue(expr, out)->load(out); |
| } |
| |
| SpvId SPIRVCodeGenerator::writeFieldAccess(const FieldAccess& f, OutputStream& out) { |
| return getLValue(f, out)->load(out); |
| } |
| |
| SpvId SPIRVCodeGenerator::writeSwizzle(const Swizzle& swizzle, OutputStream& out) { |
| SpvId base = this->writeExpression(*swizzle.fBase, out); |
| SpvId result = this->nextId(); |
| size_t count = swizzle.fComponents.size(); |
| if (count == 1) { |
| this->writeInstruction(SpvOpCompositeExtract, this->getType(swizzle.fType), result, base, |
| swizzle.fComponents[0], out); |
| } else { |
| this->writeOpCode(SpvOpVectorShuffle, 5 + (int32_t) count, out); |
| this->writeWord(this->getType(swizzle.fType), out); |
| this->writeWord(result, out); |
| this->writeWord(base, out); |
| this->writeWord(base, out); |
| for (int component : swizzle.fComponents) { |
| this->writeWord(component, out); |
| } |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeBinaryOperation(const Type& resultType, |
| const Type& operandType, SpvId lhs, |
| SpvId rhs, SpvOp_ ifFloat, SpvOp_ ifInt, |
| SpvOp_ ifUInt, SpvOp_ ifBool, OutputStream& out) { |
| SpvId result = this->nextId(); |
| if (is_float(fContext, operandType)) { |
| this->writeInstruction(ifFloat, this->getType(resultType), result, lhs, rhs, out); |
| } else if (is_signed(fContext, operandType)) { |
| this->writeInstruction(ifInt, this->getType(resultType), result, lhs, rhs, out); |
| } else if (is_unsigned(fContext, operandType)) { |
| this->writeInstruction(ifUInt, this->getType(resultType), result, lhs, rhs, out); |
| } else if (operandType == *fContext.fBool_Type) { |
| this->writeInstruction(ifBool, this->getType(resultType), result, lhs, rhs, out); |
| } else { |
| ABORT("invalid operandType: %s", operandType.description().c_str()); |
| } |
| return result; |
| } |
| |
| bool is_assignment(Token::Kind op) { |
| switch (op) { |
| case Token::EQ: // fall through |
| case Token::PLUSEQ: // fall through |
| case Token::MINUSEQ: // fall through |
| case Token::STAREQ: // fall through |
| case Token::SLASHEQ: // fall through |
| case Token::PERCENTEQ: // fall through |
| case Token::SHLEQ: // fall through |
| case Token::SHREQ: // fall through |
| case Token::BITWISEOREQ: // fall through |
| case Token::BITWISEXOREQ: // fall through |
| case Token::BITWISEANDEQ: // fall through |
| case Token::LOGICALOREQ: // fall through |
| case Token::LOGICALXOREQ: // fall through |
| case Token::LOGICALANDEQ: |
| return true; |
| default: |
| return false; |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::foldToBool(SpvId id, const Type& operandType, SpvOp op, |
| OutputStream& out) { |
| if (operandType.kind() == Type::kVector_Kind) { |
| SpvId result = this->nextId(); |
| this->writeInstruction(op, this->getType(*fContext.fBool_Type), result, id, out); |
| return result; |
| } |
| return id; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeMatrixComparison(const Type& operandType, SpvId lhs, SpvId rhs, |
| SpvOp_ floatOperator, SpvOp_ intOperator, |
| SpvOp_ vectorMergeOperator, SpvOp_ mergeOperator, |
| OutputStream& out) { |
| SpvOp_ compareOp = is_float(fContext, operandType) ? floatOperator : intOperator; |
| SkASSERT(operandType.kind() == Type::kMatrix_Kind); |
| SpvId columnType = this->getType(operandType.componentType().toCompound(fContext, |
| operandType.rows(), |
| 1)); |
| SpvId bvecType = this->getType(fContext.fBool_Type->toCompound(fContext, |
| operandType.rows(), |
| 1)); |
| SpvId boolType = this->getType(*fContext.fBool_Type); |
| SpvId result = 0; |
| for (int i = 0; i < operandType.columns(); i++) { |
| SpvId columnL = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, columnType, columnL, lhs, i, out); |
| SpvId columnR = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, columnType, columnR, rhs, i, out); |
| SpvId compare = this->nextId(); |
| this->writeInstruction(compareOp, bvecType, compare, columnL, columnR, out); |
| SpvId merge = this->nextId(); |
| this->writeInstruction(vectorMergeOperator, boolType, merge, compare, out); |
| if (result != 0) { |
| SpvId next = this->nextId(); |
| this->writeInstruction(mergeOperator, boolType, next, result, merge, out); |
| result = next; |
| } |
| else { |
| result = merge; |
| } |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeComponentwiseMatrixBinary(const Type& operandType, SpvId lhs, |
| SpvId rhs, SpvOp_ floatOperator, |
| SpvOp_ intOperator, |
| OutputStream& out) { |
| SpvOp_ op = is_float(fContext, operandType) ? floatOperator : intOperator; |
| SkASSERT(operandType.kind() == Type::kMatrix_Kind); |
| SpvId columnType = this->getType(operandType.componentType().toCompound(fContext, |
| operandType.rows(), |
| 1)); |
| SpvId columns[4]; |
| for (int i = 0; i < operandType.columns(); i++) { |
| SpvId columnL = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, columnType, columnL, lhs, i, out); |
| SpvId columnR = this->nextId(); |
| this->writeInstruction(SpvOpCompositeExtract, columnType, columnR, rhs, i, out); |
| columns[i] = this->nextId(); |
| this->writeInstruction(op, columnType, columns[i], columnL, columnR, out); |
| } |
| SpvId result = this->nextId(); |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + operandType.columns(), out); |
| this->writeWord(this->getType(operandType), out); |
| this->writeWord(result, out); |
| for (int i = 0; i < operandType.columns(); i++) { |
| this->writeWord(columns[i], out); |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeBinaryExpression(const BinaryExpression& b, OutputStream& out) { |
| // handle cases where we don't necessarily evaluate both LHS and RHS |
| switch (b.fOperator) { |
| case Token::EQ: { |
| SpvId rhs = this->writeExpression(*b.fRight, out); |
| this->getLValue(*b.fLeft, out)->store(rhs, out); |
| return rhs; |
| } |
| case Token::LOGICALAND: |
| return this->writeLogicalAnd(b, out); |
| case Token::LOGICALOR: |
| return this->writeLogicalOr(b, out); |
| default: |
| break; |
| } |
| |
| // "normal" operators |
| const Type& resultType = b.fType; |
| std::unique_ptr<LValue> lvalue; |
| SpvId lhs; |
| if (is_assignment(b.fOperator)) { |
| lvalue = this->getLValue(*b.fLeft, out); |
| lhs = lvalue->load(out); |
| } else { |
| lvalue = nullptr; |
| lhs = this->writeExpression(*b.fLeft, out); |
| } |
| SpvId rhs = this->writeExpression(*b.fRight, out); |
| if (b.fOperator == Token::COMMA) { |
| return rhs; |
| } |
| Type tmp("<invalid>"); |
| // overall type we are operating on: float2, int, uint4... |
| const Type* operandType; |
| // IR allows mismatched types in expressions (e.g. float2 * float), but they need special |
| // handling in SPIR-V |
| if (this->getActualType(b.fLeft->fType) != this->getActualType(b.fRight->fType)) { |
| if (b.fLeft->fType.kind() == Type::kVector_Kind && |
| b.fRight->fType.isNumber()) { |
| // promote number to vector |
| SpvId vec = this->nextId(); |
| const Type& vecType = b.fLeft->fType; |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + vecType.columns(), out); |
| this->writeWord(this->getType(vecType), out); |
| this->writeWord(vec, out); |
| for (int i = 0; i < vecType.columns(); i++) { |
| this->writeWord(rhs, out); |
| } |
| rhs = vec; |
| operandType = &b.fLeft->fType; |
| } else if (b.fRight->fType.kind() == Type::kVector_Kind && |
| b.fLeft->fType.isNumber()) { |
| // promote number to vector |
| SpvId vec = this->nextId(); |
| const Type& vecType = b.fRight->fType; |
| this->writeOpCode(SpvOpCompositeConstruct, 3 + vecType.columns(), out); |
| this->writeWord(this->getType(vecType), out); |
| this->writeWord(vec, out); |
| for (int i = 0; i < vecType.columns(); i++) { |
| this->writeWord(lhs, out); |
| } |
| lhs = vec; |
| SkASSERT(!lvalue); |
| operandType = &b.fRight->fType; |
| } else if (b.fLeft->fType.kind() == Type::kMatrix_Kind) { |
| SpvOp_ op; |
| if (b.fRight->fType.kind() == Type::kMatrix_Kind) { |
| op = SpvOpMatrixTimesMatrix; |
| } else if (b.fRight->fType.kind() == Type::kVector_Kind) { |
| op = SpvOpMatrixTimesVector; |
| } else { |
| SkASSERT(b.fRight->fType.kind() == Type::kScalar_Kind); |
| op = SpvOpMatrixTimesScalar; |
| } |
| SpvId result = this->nextId(); |
| this->writeInstruction(op, this->getType(b.fType), result, lhs, rhs, out); |
| if (b.fOperator == Token::STAREQ) { |
| lvalue->store(result, out); |
| } else { |
| SkASSERT(b.fOperator == Token::STAR); |
| } |
| return result; |
| } else if (b.fRight->fType.kind() == Type::kMatrix_Kind) { |
| SpvId result = this->nextId(); |
| if (b.fLeft->fType.kind() == Type::kVector_Kind) { |
| this->writeInstruction(SpvOpVectorTimesMatrix, this->getType(b.fType), result, |
| lhs, rhs, out); |
| } else { |
| SkASSERT(b.fLeft->fType.kind() == Type::kScalar_Kind); |
| this->writeInstruction(SpvOpMatrixTimesScalar, this->getType(b.fType), result, rhs, |
| lhs, out); |
| } |
| if (b.fOperator == Token::STAREQ) { |
| lvalue->store(result, out); |
| } else { |
| SkASSERT(b.fOperator == Token::STAR); |
| } |
| return result; |
| } else { |
| ABORT("unsupported binary expression: %s", b.description().c_str()); |
| } |
| } else { |
| tmp = this->getActualType(b.fLeft->fType); |
| operandType = &tmp; |
| SkASSERT(*operandType == this->getActualType(b.fRight->fType)); |
| } |
| switch (b.fOperator) { |
| case Token::EQEQ: { |
| if (operandType->kind() == Type::kMatrix_Kind) { |
| return this->writeMatrixComparison(*operandType, lhs, rhs, SpvOpFOrdEqual, |
| SpvOpIEqual, SpvOpAll, SpvOpLogicalAnd, out); |
| } |
| SkASSERT(resultType == *fContext.fBool_Type); |
| const Type* tmpType; |
| if (operandType->kind() == Type::kVector_Kind) { |
| tmpType = &fContext.fBool_Type->toCompound(fContext, |
| operandType->columns(), |
| operandType->rows()); |
| } else { |
| tmpType = &resultType; |
| } |
| return this->foldToBool(this->writeBinaryOperation(*tmpType, *operandType, lhs, rhs, |
| SpvOpFOrdEqual, SpvOpIEqual, |
| SpvOpIEqual, SpvOpLogicalEqual, out), |
| *operandType, SpvOpAll, out); |
| } |
| case Token::NEQ: |
| if (operandType->kind() == Type::kMatrix_Kind) { |
| return this->writeMatrixComparison(*operandType, lhs, rhs, SpvOpFOrdNotEqual, |
| SpvOpINotEqual, SpvOpAny, SpvOpLogicalOr, out); |
| } |
| SkASSERT(resultType == *fContext.fBool_Type); |
| const Type* tmpType; |
| if (operandType->kind() == Type::kVector_Kind) { |
| tmpType = &fContext.fBool_Type->toCompound(fContext, |
| operandType->columns(), |
| operandType->rows()); |
| } else { |
| tmpType = &resultType; |
| } |
| return this->foldToBool(this->writeBinaryOperation(*tmpType, *operandType, lhs, rhs, |
| SpvOpFOrdNotEqual, SpvOpINotEqual, |
| SpvOpINotEqual, SpvOpLogicalNotEqual, |
| out), |
| *operandType, SpvOpAny, out); |
| case Token::GT: |
| SkASSERT(resultType == *fContext.fBool_Type); |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, |
| SpvOpFOrdGreaterThan, SpvOpSGreaterThan, |
| SpvOpUGreaterThan, SpvOpUndef, out); |
| case Token::LT: |
| SkASSERT(resultType == *fContext.fBool_Type); |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFOrdLessThan, |
| SpvOpSLessThan, SpvOpULessThan, SpvOpUndef, out); |
| case Token::GTEQ: |
| SkASSERT(resultType == *fContext.fBool_Type); |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, |
| SpvOpFOrdGreaterThanEqual, SpvOpSGreaterThanEqual, |
| SpvOpUGreaterThanEqual, SpvOpUndef, out); |
| case Token::LTEQ: |
| SkASSERT(resultType == *fContext.fBool_Type); |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, |
| SpvOpFOrdLessThanEqual, SpvOpSLessThanEqual, |
| SpvOpULessThanEqual, SpvOpUndef, out); |
| case Token::PLUS: |
| if (b.fLeft->fType.kind() == Type::kMatrix_Kind && |
| b.fRight->fType.kind() == Type::kMatrix_Kind) { |
| SkASSERT(b.fLeft->fType == b.fRight->fType); |
| return this->writeComponentwiseMatrixBinary(b.fLeft->fType, lhs, rhs, |
| SpvOpFAdd, SpvOpIAdd, out); |
| } |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFAdd, |
| SpvOpIAdd, SpvOpIAdd, SpvOpUndef, out); |
| case Token::MINUS: |
| if (b.fLeft->fType.kind() == Type::kMatrix_Kind && |
| b.fRight->fType.kind() == Type::kMatrix_Kind) { |
| SkASSERT(b.fLeft->fType == b.fRight->fType); |
| return this->writeComponentwiseMatrixBinary(b.fLeft->fType, lhs, rhs, |
| SpvOpFSub, SpvOpISub, out); |
| } |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFSub, |
| SpvOpISub, SpvOpISub, SpvOpUndef, out); |
| case Token::STAR: |
| if (b.fLeft->fType.kind() == Type::kMatrix_Kind && |
| b.fRight->fType.kind() == Type::kMatrix_Kind) { |
| // matrix multiply |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpMatrixTimesMatrix, this->getType(resultType), result, |
| lhs, rhs, out); |
| return result; |
| } |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFMul, |
| SpvOpIMul, SpvOpIMul, SpvOpUndef, out); |
| case Token::SLASH: |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFDiv, |
| SpvOpSDiv, SpvOpUDiv, SpvOpUndef, out); |
| case Token::PERCENT: |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFMod, |
| SpvOpSMod, SpvOpUMod, SpvOpUndef, out); |
| case Token::SHL: |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpUndef, |
| SpvOpShiftLeftLogical, SpvOpShiftLeftLogical, |
| SpvOpUndef, out); |
| case Token::SHR: |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpUndef, |
| SpvOpShiftRightArithmetic, SpvOpShiftRightLogical, |
| SpvOpUndef, out); |
| case Token::BITWISEAND: |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpUndef, |
| SpvOpBitwiseAnd, SpvOpBitwiseAnd, SpvOpUndef, out); |
| case Token::BITWISEOR: |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpUndef, |
| SpvOpBitwiseOr, SpvOpBitwiseOr, SpvOpUndef, out); |
| case Token::BITWISEXOR: |
| return this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpUndef, |
| SpvOpBitwiseXor, SpvOpBitwiseXor, SpvOpUndef, out); |
| case Token::PLUSEQ: { |
| SpvId result; |
| if (b.fLeft->fType.kind() == Type::kMatrix_Kind && |
| b.fRight->fType.kind() == Type::kMatrix_Kind) { |
| SkASSERT(b.fLeft->fType == b.fRight->fType); |
| result = this->writeComponentwiseMatrixBinary(b.fLeft->fType, lhs, rhs, |
| SpvOpFAdd, SpvOpIAdd, out); |
| } |
| else { |
| result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFAdd, |
| SpvOpIAdd, SpvOpIAdd, SpvOpUndef, out); |
| } |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::MINUSEQ: { |
| SpvId result; |
| if (b.fLeft->fType.kind() == Type::kMatrix_Kind && |
| b.fRight->fType.kind() == Type::kMatrix_Kind) { |
| SkASSERT(b.fLeft->fType == b.fRight->fType); |
| result = this->writeComponentwiseMatrixBinary(b.fLeft->fType, lhs, rhs, |
| SpvOpFSub, SpvOpISub, out); |
| } |
| else { |
| result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFSub, |
| SpvOpISub, SpvOpISub, SpvOpUndef, out); |
| } |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::STAREQ: { |
| if (b.fLeft->fType.kind() == Type::kMatrix_Kind && |
| b.fRight->fType.kind() == Type::kMatrix_Kind) { |
| // matrix multiply |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpMatrixTimesMatrix, this->getType(resultType), result, |
| lhs, rhs, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| SpvId result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFMul, |
| SpvOpIMul, SpvOpIMul, SpvOpUndef, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::SLASHEQ: { |
| SpvId result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFDiv, |
| SpvOpSDiv, SpvOpUDiv, SpvOpUndef, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::PERCENTEQ: { |
| SpvId result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, SpvOpFMod, |
| SpvOpSMod, SpvOpUMod, SpvOpUndef, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::SHLEQ: { |
| SpvId result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, |
| SpvOpUndef, SpvOpShiftLeftLogical, |
| SpvOpShiftLeftLogical, SpvOpUndef, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::SHREQ: { |
| SpvId result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, |
| SpvOpUndef, SpvOpShiftRightArithmetic, |
| SpvOpShiftRightLogical, SpvOpUndef, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::BITWISEANDEQ: { |
| SpvId result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, |
| SpvOpUndef, SpvOpBitwiseAnd, SpvOpBitwiseAnd, |
| SpvOpUndef, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::BITWISEOREQ: { |
| SpvId result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, |
| SpvOpUndef, SpvOpBitwiseOr, SpvOpBitwiseOr, |
| SpvOpUndef, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| case Token::BITWISEXOREQ: { |
| SpvId result = this->writeBinaryOperation(resultType, *operandType, lhs, rhs, |
| SpvOpUndef, SpvOpBitwiseXor, SpvOpBitwiseXor, |
| SpvOpUndef, out); |
| SkASSERT(lvalue); |
| lvalue->store(result, out); |
| return result; |
| } |
| default: |
| ABORT("unsupported binary expression: %s", b.description().c_str()); |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeLogicalAnd(const BinaryExpression& a, OutputStream& out) { |
| SkASSERT(a.fOperator == Token::LOGICALAND); |
| BoolLiteral falseLiteral(fContext, -1, false); |
| SpvId falseConstant = this->writeBoolLiteral(falseLiteral); |
| SpvId lhs = this->writeExpression(*a.fLeft, out); |
| SpvId rhsLabel = this->nextId(); |
| SpvId end = this->nextId(); |
| SpvId lhsBlock = fCurrentBlock; |
| this->writeInstruction(SpvOpSelectionMerge, end, SpvSelectionControlMaskNone, out); |
| this->writeInstruction(SpvOpBranchConditional, lhs, rhsLabel, end, out); |
| this->writeLabel(rhsLabel, out); |
| SpvId rhs = this->writeExpression(*a.fRight, out); |
| SpvId rhsBlock = fCurrentBlock; |
| this->writeInstruction(SpvOpBranch, end, out); |
| this->writeLabel(end, out); |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpPhi, this->getType(*fContext.fBool_Type), result, falseConstant, |
| lhsBlock, rhs, rhsBlock, out); |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeLogicalOr(const BinaryExpression& o, OutputStream& out) { |
| SkASSERT(o.fOperator == Token::LOGICALOR); |
| BoolLiteral trueLiteral(fContext, -1, true); |
| SpvId trueConstant = this->writeBoolLiteral(trueLiteral); |
| SpvId lhs = this->writeExpression(*o.fLeft, out); |
| SpvId rhsLabel = this->nextId(); |
| SpvId end = this->nextId(); |
| SpvId lhsBlock = fCurrentBlock; |
| this->writeInstruction(SpvOpSelectionMerge, end, SpvSelectionControlMaskNone, out); |
| this->writeInstruction(SpvOpBranchConditional, lhs, end, rhsLabel, out); |
| this->writeLabel(rhsLabel, out); |
| SpvId rhs = this->writeExpression(*o.fRight, out); |
| SpvId rhsBlock = fCurrentBlock; |
| this->writeInstruction(SpvOpBranch, end, out); |
| this->writeLabel(end, out); |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpPhi, this->getType(*fContext.fBool_Type), result, trueConstant, |
| lhsBlock, rhs, rhsBlock, out); |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeTernaryExpression(const TernaryExpression& t, OutputStream& out) { |
| SpvId test = this->writeExpression(*t.fTest, out); |
| if (t.fIfTrue->fType.columns() == 1 && t.fIfTrue->isConstant() && t.fIfFalse->isConstant()) { |
| // both true and false are constants, can just use OpSelect |
| SpvId result = this->nextId(); |
| SpvId trueId = this->writeExpression(*t.fIfTrue, out); |
| SpvId falseId = this->writeExpression(*t.fIfFalse, out); |
| this->writeInstruction(SpvOpSelect, this->getType(t.fType), result, test, trueId, falseId, |
| out); |
| return result; |
| } |
| // was originally using OpPhi to choose the result, but for some reason that is crashing on |
| // Adreno. Switched to storing the result in a temp variable as glslang does. |
| SpvId var = this->nextId(); |
| this->writeInstruction(SpvOpVariable, this->getPointerType(t.fType, SpvStorageClassFunction), |
| var, SpvStorageClassFunction, fVariableBuffer); |
| SpvId trueLabel = this->nextId(); |
| SpvId falseLabel = this->nextId(); |
| SpvId end = this->nextId(); |
| this->writeInstruction(SpvOpSelectionMerge, end, SpvSelectionControlMaskNone, out); |
| this->writeInstruction(SpvOpBranchConditional, test, trueLabel, falseLabel, out); |
| this->writeLabel(trueLabel, out); |
| this->writeInstruction(SpvOpStore, var, this->writeExpression(*t.fIfTrue, out), out); |
| this->writeInstruction(SpvOpBranch, end, out); |
| this->writeLabel(falseLabel, out); |
| this->writeInstruction(SpvOpStore, var, this->writeExpression(*t.fIfFalse, out), out); |
| this->writeInstruction(SpvOpBranch, end, out); |
| this->writeLabel(end, out); |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpLoad, this->getType(t.fType), result, var, out); |
| return result; |
| } |
| |
| std::unique_ptr<Expression> create_literal_1(const Context& context, const Type& type) { |
| if (type.isInteger()) { |
| return std::unique_ptr<Expression>(new IntLiteral(-1, 1, &type)); |
| } |
| else if (type.isFloat()) { |
| return std::unique_ptr<Expression>(new FloatLiteral(-1, 1.0, &type)); |
| } else { |
| ABORT("math is unsupported on type '%s'", type.name().c_str()); |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writePrefixExpression(const PrefixExpression& p, OutputStream& out) { |
| if (p.fOperator == Token::MINUS) { |
| SpvId result = this->nextId(); |
| SpvId typeId = this->getType(p.fType); |
| SpvId expr = this->writeExpression(*p.fOperand, out); |
| if (is_float(fContext, p.fType)) { |
| this->writeInstruction(SpvOpFNegate, typeId, result, expr, out); |
| } else if (is_signed(fContext, p.fType)) { |
| this->writeInstruction(SpvOpSNegate, typeId, result, expr, out); |
| } else { |
| ABORT("unsupported prefix expression %s", p.description().c_str()); |
| }; |
| return result; |
| } |
| switch (p.fOperator) { |
| case Token::PLUS: |
| return this->writeExpression(*p.fOperand, out); |
| case Token::PLUSPLUS: { |
| std::unique_ptr<LValue> lv = this->getLValue(*p.fOperand, out); |
| SpvId one = this->writeExpression(*create_literal_1(fContext, p.fType), out); |
| SpvId result = this->writeBinaryOperation(p.fType, p.fType, lv->load(out), one, |
| SpvOpFAdd, SpvOpIAdd, SpvOpIAdd, SpvOpUndef, |
| out); |
| lv->store(result, out); |
| return result; |
| } |
| case Token::MINUSMINUS: { |
| std::unique_ptr<LValue> lv = this->getLValue(*p.fOperand, out); |
| SpvId one = this->writeExpression(*create_literal_1(fContext, p.fType), out); |
| SpvId result = this->writeBinaryOperation(p.fType, p.fType, lv->load(out), one, |
| SpvOpFSub, SpvOpISub, SpvOpISub, SpvOpUndef, |
| out); |
| lv->store(result, out); |
| return result; |
| } |
| case Token::LOGICALNOT: { |
| SkASSERT(p.fOperand->fType == *fContext.fBool_Type); |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpLogicalNot, this->getType(p.fOperand->fType), result, |
| this->writeExpression(*p.fOperand, out), out); |
| return result; |
| } |
| case Token::BITWISENOT: { |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpNot, this->getType(p.fOperand->fType), result, |
| this->writeExpression(*p.fOperand, out), out); |
| return result; |
| } |
| default: |
| ABORT("unsupported prefix expression: %s", p.description().c_str()); |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writePostfixExpression(const PostfixExpression& p, OutputStream& out) { |
| std::unique_ptr<LValue> lv = this->getLValue(*p.fOperand, out); |
| SpvId result = lv->load(out); |
| SpvId one = this->writeExpression(*create_literal_1(fContext, p.fType), out); |
| switch (p.fOperator) { |
| case Token::PLUSPLUS: { |
| SpvId temp = this->writeBinaryOperation(p.fType, p.fType, result, one, SpvOpFAdd, |
| SpvOpIAdd, SpvOpIAdd, SpvOpUndef, out); |
| lv->store(temp, out); |
| return result; |
| } |
| case Token::MINUSMINUS: { |
| SpvId temp = this->writeBinaryOperation(p.fType, p.fType, result, one, SpvOpFSub, |
| SpvOpISub, SpvOpISub, SpvOpUndef, out); |
| lv->store(temp, out); |
| return result; |
| } |
| default: |
| ABORT("unsupported postfix expression %s", p.description().c_str()); |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeBoolLiteral(const BoolLiteral& b) { |
| if (b.fValue) { |
| if (fBoolTrue == 0) { |
| fBoolTrue = this->nextId(); |
| this->writeInstruction(SpvOpConstantTrue, this->getType(b.fType), fBoolTrue, |
| fConstantBuffer); |
| } |
| return fBoolTrue; |
| } else { |
| if (fBoolFalse == 0) { |
| fBoolFalse = this->nextId(); |
| this->writeInstruction(SpvOpConstantFalse, this->getType(b.fType), fBoolFalse, |
| fConstantBuffer); |
| } |
| return fBoolFalse; |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeIntLiteral(const IntLiteral& i) { |
| if (i.fType == *fContext.fInt_Type) { |
| auto entry = fIntConstants.find(i.fValue); |
| if (entry == fIntConstants.end()) { |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpConstant, this->getType(i.fType), result, (SpvId) i.fValue, |
| fConstantBuffer); |
| fIntConstants[i.fValue] = result; |
| return result; |
| } |
| return entry->second; |
| } else { |
| SkASSERT(i.fType == *fContext.fUInt_Type); |
| auto entry = fUIntConstants.find(i.fValue); |
| if (entry == fUIntConstants.end()) { |
| SpvId result = this->nextId(); |
| this->writeInstruction(SpvOpConstant, this->getType(i.fType), result, (SpvId) i.fValue, |
| fConstantBuffer); |
| fUIntConstants[i.fValue] = result; |
| return result; |
| } |
| return entry->second; |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeFloatLiteral(const FloatLiteral& f) { |
| if (f.fType == *fContext.fFloat_Type || f.fType == *fContext.fHalf_Type) { |
| float value = (float) f.fValue; |
| auto entry = fFloatConstants.find(value); |
| if (entry == fFloatConstants.end()) { |
| SpvId result = this->nextId(); |
| uint32_t bits; |
| SkASSERT(sizeof(bits) == sizeof(value)); |
| memcpy(&bits, &value, sizeof(bits)); |
| this->writeInstruction(SpvOpConstant, this->getType(f.fType), result, bits, |
| fConstantBuffer); |
| fFloatConstants[value] = result; |
| return result; |
| } |
| return entry->second; |
| } else { |
| SkASSERT(f.fType == *fContext.fDouble_Type); |
| auto entry = fDoubleConstants.find(f.fValue); |
| if (entry == fDoubleConstants.end()) { |
| SpvId result = this->nextId(); |
| uint64_t bits; |
| SkASSERT(sizeof(bits) == sizeof(f.fValue)); |
| memcpy(&bits, &f.fValue, sizeof(bits)); |
| this->writeInstruction(SpvOpConstant, this->getType(f.fType), result, |
| bits & 0xffffffff, bits >> 32, fConstantBuffer); |
| fDoubleConstants[f.fValue] = result; |
| return result; |
| } |
| return entry->second; |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeFunctionStart(const FunctionDeclaration& f, OutputStream& out) { |
| SpvId result = fFunctionMap[&f]; |
| this->writeInstruction(SpvOpFunction, this->getType(f.fReturnType), result, |
| SpvFunctionControlMaskNone, this->getFunctionType(f), out); |
| this->writeInstruction(SpvOpName, result, f.fName, fNameBuffer); |
| for (size_t i = 0; i < f.fParameters.size(); i++) { |
| SpvId id = this->nextId(); |
| fVariableMap[f.fParameters[i]] = id; |
| SpvId type; |
| type = this->getPointerType(f.fParameters[i]->fType, SpvStorageClassFunction); |
| this->writeInstruction(SpvOpFunctionParameter, type, id, out); |
| } |
| return result; |
| } |
| |
| SpvId SPIRVCodeGenerator::writeFunction(const FunctionDefinition& f, OutputStream& out) { |
| fVariableBuffer.reset(); |
| SpvId result = this->writeFunctionStart(f.fDeclaration, out); |
| this->writeLabel(this->nextId(), out); |
| if (f.fDeclaration.fName == "main") { |
| write_stringstream(fGlobalInitializersBuffer, out); |
| } |
| StringStream bodyBuffer; |
| this->writeBlock((Block&) *f.fBody, bodyBuffer); |
| write_stringstream(fVariableBuffer, out); |
| write_stringstream(bodyBuffer, out); |
| if (fCurrentBlock) { |
| if (f.fDeclaration.fReturnType == *fContext.fVoid_Type) { |
| this->writeInstruction(SpvOpReturn, out); |
| } else { |
| this->writeInstruction(SpvOpUnreachable, out); |
| } |
| } |
| this->writeInstruction(SpvOpFunctionEnd, out); |
| return result; |
| } |
| |
| void SPIRVCodeGenerator::writeLayout(const Layout& layout, SpvId target) { |
| if (layout.fLocation >= 0) { |
| this->writeInstruction(SpvOpDecorate, target, SpvDecorationLocation, layout.fLocation, |
| fDecorationBuffer); |
| } |
| if (layout.fBinding >= 0) { |
| this->writeInstruction(SpvOpDecorate, target, SpvDecorationBinding, layout.fBinding, |
| fDecorationBuffer); |
| } |
| if (layout.fIndex >= 0) { |
| this->writeInstruction(SpvOpDecorate, target, SpvDecorationIndex, layout.fIndex, |
| fDecorationBuffer); |
| } |
| if (layout.fSet >= 0) { |
| this->writeInstruction(SpvOpDecorate, target, SpvDecorationDescriptorSet, layout.fSet, |
| fDecorationBuffer); |
| } |
| if (layout.fInputAttachmentIndex >= 0) { |
| this->writeInstruction(SpvOpDecorate, target, SpvDecorationInputAttachmentIndex, |
| layout.fInputAttachmentIndex, fDecorationBuffer); |
| fCapabilities |= (((uint64_t) 1) << SpvCapabilityInputAttachment); |
| } |
| if (layout.fBuiltin >= 0 && layout.fBuiltin != SK_FRAGCOLOR_BUILTIN && |
| layout.fBuiltin != SK_IN_BUILTIN && layout.fBuiltin != SK_OUT_BUILTIN) { |
| this->writeInstruction(SpvOpDecorate, target, SpvDecorationBuiltIn, layout.fBuiltin, |
| fDecorationBuffer); |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeLayout(const Layout& layout, SpvId target, int member) { |
| if (layout.fLocation >= 0) { |
| this->writeInstruction(SpvOpMemberDecorate, target, member, SpvDecorationLocation, |
| layout.fLocation, fDecorationBuffer); |
| } |
| if (layout.fBinding >= 0) { |
| this->writeInstruction(SpvOpMemberDecorate, target, member, SpvDecorationBinding, |
| layout.fBinding, fDecorationBuffer); |
| } |
| if (layout.fIndex >= 0) { |
| this->writeInstruction(SpvOpMemberDecorate, target, member, SpvDecorationIndex, |
| layout.fIndex, fDecorationBuffer); |
| } |
| if (layout.fSet >= 0) { |
| this->writeInstruction(SpvOpMemberDecorate, target, member, SpvDecorationDescriptorSet, |
| layout.fSet, fDecorationBuffer); |
| } |
| if (layout.fInputAttachmentIndex >= 0) { |
| this->writeInstruction(SpvOpDecorate, target, member, SpvDecorationInputAttachmentIndex, |
| layout.fInputAttachmentIndex, fDecorationBuffer); |
| } |
| if (layout.fBuiltin >= 0) { |
| this->writeInstruction(SpvOpMemberDecorate, target, member, SpvDecorationBuiltIn, |
| layout.fBuiltin, fDecorationBuffer); |
| } |
| } |
| |
| static void update_sk_in_count(const Modifiers& m, int* outSkInCount) { |
| switch (m.fLayout.fPrimitive) { |
| case Layout::kPoints_Primitive: |
| *outSkInCount = 1; |
| break; |
| case Layout::kLines_Primitive: |
| *outSkInCount = 2; |
| break; |
| case Layout::kLinesAdjacency_Primitive: |
| *outSkInCount = 4; |
| break; |
| case Layout::kTriangles_Primitive: |
| *outSkInCount = 3; |
| break; |
| case Layout::kTrianglesAdjacency_Primitive: |
| *outSkInCount = 6; |
| break; |
| default: |
| return; |
| } |
| } |
| |
| SpvId SPIRVCodeGenerator::writeInterfaceBlock(const InterfaceBlock& intf) { |
| bool isBuffer = (0 != (intf.fVariable.fModifiers.fFlags & Modifiers::kBuffer_Flag)); |
| bool pushConstant = (0 != (intf.fVariable.fModifiers.fLayout.fFlags & |
| Layout::kPushConstant_Flag)); |
| MemoryLayout memoryLayout = (pushConstant || isBuffer) ? |
| MemoryLayout(MemoryLayout::k430_Standard) : |
| fDefaultLayout; |
| SpvId result = this->nextId(); |
| const Type* type = &intf.fVariable.fType; |
| if (fProgram.fInputs.fRTHeight) { |
| SkASSERT(fRTHeightStructId == (SpvId) -1); |
| SkASSERT(fRTHeightFieldIndex == (SpvId) -1); |
| std::vector<Type::Field> fields = type->fields(); |
| fRTHeightStructId = result; |
| fRTHeightFieldIndex = fields.size(); |
| fields.emplace_back(Modifiers(), StringFragment(SKSL_RTHEIGHT_NAME), fContext.fFloat_Type.get()); |
| type = new Type(type->fOffset, type->name(), fields); |
| } |
| SpvId typeId; |
| if (intf.fVariable.fModifiers.fLayout.fBuiltin == SK_IN_BUILTIN) { |
| for (const auto& e : fProgram) { |
| if (e.fKind == ProgramElement::kModifiers_Kind) { |
| const Modifiers& m = ((ModifiersDeclaration&) e).fModifiers; |
| update_sk_in_count(m, &fSkInCount); |
| } |
| } |
| typeId = this->getType(Type("sk_in", Type::kArray_Kind, intf.fVariable.fType.componentType(), |
| fSkInCount), memoryLayout); |
| } else { |
| typeId = this->getType(*type, memoryLayout); |
| } |
| if (intf.fVariable.fModifiers.fFlags & Modifiers::kBuffer_Flag) { |
| this->writeInstruction(SpvOpDecorate, typeId, SpvDecorationBufferBlock, fDecorationBuffer); |
| } else { |
| this->writeInstruction(SpvOpDecorate, typeId, SpvDecorationBlock, fDecorationBuffer); |
| } |
| SpvStorageClass_ storageClass = get_storage_class(intf.fVariable.fModifiers); |
| SpvId ptrType = this->nextId(); |
| this->writeInstruction(SpvOpTypePointer, ptrType, storageClass, typeId, fConstantBuffer); |
| this->writeInstruction(SpvOpVariable, ptrType, result, storageClass, fConstantBuffer); |
| Layout layout = intf.fVariable.fModifiers.fLayout; |
| if (intf.fVariable.fModifiers.fFlags & Modifiers::kUniform_Flag && layout.fSet == -1) { |
| layout.fSet = 0; |
| } |
| this->writeLayout(layout, result); |
| fVariableMap[&intf.fVariable] = result; |
| if (fProgram.fInputs.fRTHeight) { |
| delete type; |
| } |
| return result; |
| } |
| |
| void SPIRVCodeGenerator::writePrecisionModifier(const Modifiers& modifiers, SpvId id) { |
| if ((modifiers.fFlags & Modifiers::kLowp_Flag) | |
| (modifiers.fFlags & Modifiers::kMediump_Flag)) { |
| this->writeInstruction(SpvOpDecorate, id, SpvDecorationRelaxedPrecision, fDecorationBuffer); |
| } |
| } |
| |
| #define BUILTIN_IGNORE 9999 |
| void SPIRVCodeGenerator::writeGlobalVars(Program::Kind kind, const VarDeclarations& decl, |
| OutputStream& out) { |
| for (size_t i = 0; i < decl.fVars.size(); i++) { |
| if (decl.fVars[i]->fKind == Statement::kNop_Kind) { |
| continue; |
| } |
| const VarDeclaration& varDecl = (VarDeclaration&) *decl.fVars[i]; |
| const Variable* var = varDecl.fVar; |
| // These haven't been implemented in our SPIR-V generator yet and we only currently use them |
| // in the OpenGL backend. |
| SkASSERT(!(var->fModifiers.fFlags & (Modifiers::kReadOnly_Flag | |
| Modifiers::kWriteOnly_Flag | |
| Modifiers::kCoherent_Flag | |
| Modifiers::kVolatile_Flag | |
| Modifiers::kRestrict_Flag))); |
| if (var->fModifiers.fLayout.fBuiltin == BUILTIN_IGNORE) { |
| continue; |
| } |
| if (var->fModifiers.fLayout.fBuiltin == SK_FRAGCOLOR_BUILTIN && |
| kind != Program::kFragment_Kind) { |
| SkASSERT(!fProgram.fSettings.fFragColorIsInOut); |
| continue; |
| } |
| if (!var->fReadCount && !var->fWriteCount && |
| !(var->fModifiers.fFlags & (Modifiers::kIn_Flag | |
| Modifiers::kOut_Flag | |
| Modifiers::kUniform_Flag | |
| Modifiers::kBuffer_Flag))) { |
| // variable is dead and not an input / output var (the Vulkan debug layers complain if |
| // we elide an interface var, even if it's dead) |
| continue; |
| } |
| SpvStorageClass_ storageClass; |
| if (var->fModifiers.fFlags & Modifiers::kIn_Flag) { |
| storageClass = SpvStorageClassInput; |
| } else if (var->fModifiers.fFlags & Modifiers::kOut_Flag) { |
| storageClass = SpvStorageClassOutput; |
| } else if (var->fModifiers.fFlags & Modifiers::kUniform_Flag) { |
| if (var->fType.kind() == Type::kSampler_Kind) { |
| storageClass = SpvStorageClassUniformConstant; |
| } else { |
| storageClass = SpvStorageClassUniform; |
| } |
| } else { |
| storageClass = SpvStorageClassPrivate; |
| } |
| SpvId id = this->nextId(); |
| fVariableMap[var] = id; |
| SpvId type; |
| if (var->fModifiers.fLayout.fBuiltin == SK_IN_BUILTIN) { |
| type = this->getPointerType(Type("sk_in", Type::kArray_Kind, |
| var->fType.componentType(), fSkInCount), |
| storageClass); |
| } else { |
| type = this->getPointerType(var->fType, storageClass); |
| } |
| this->writeInstruction(SpvOpVariable, type, id, storageClass, fConstantBuffer); |
| this->writeInstruction(SpvOpName, id, var->fName, fNameBuffer); |
| this->writePrecisionModifier(var->fModifiers, id); |
| if (varDecl.fValue) { |
| SkASSERT(!fCurrentBlock); |
| fCurrentBlock = -1; |
| SpvId value = this->writeExpression(*varDecl.fValue, fGlobalInitializersBuffer); |
| this->writeInstruction(SpvOpStore, id, value, fGlobalInitializersBuffer); |
| fCurrentBlock = 0; |
| } |
| this->writeLayout(var->fModifiers.fLayout, id); |
| if (var->fModifiers.fFlags & Modifiers::kFlat_Flag) { |
| this->writeInstruction(SpvOpDecorate, id, SpvDecorationFlat, fDecorationBuffer); |
| } |
| if (var->fModifiers.fFlags & Modifiers::kNoPerspective_Flag) { |
| this->writeInstruction(SpvOpDecorate, id, SpvDecorationNoPerspective, |
| fDecorationBuffer); |
| } |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeVarDeclarations(const VarDeclarations& decl, OutputStream& out) { |
| for (const auto& stmt : decl.fVars) { |
| SkASSERT(stmt->fKind == Statement::kVarDeclaration_Kind); |
| VarDeclaration& varDecl = (VarDeclaration&) *stmt; |
| const Variable* var = varDecl.fVar; |
| // These haven't been implemented in our SPIR-V generator yet and we only currently use them |
| // in the OpenGL backend. |
| SkASSERT(!(var->fModifiers.fFlags & (Modifiers::kReadOnly_Flag | |
| Modifiers::kWriteOnly_Flag | |
| Modifiers::kCoherent_Flag | |
| Modifiers::kVolatile_Flag | |
| Modifiers::kRestrict_Flag))); |
| SpvId id = this->nextId(); |
| fVariableMap[var] = id; |
| SpvId type = this->getPointerType(var->fType, SpvStorageClassFunction); |
| this->writeInstruction(SpvOpVariable, type, id, SpvStorageClassFunction, fVariableBuffer); |
| this->writeInstruction(SpvOpName, id, var->fName, fNameBuffer); |
| if (varDecl.fValue) { |
| SpvId value = this->writeExpression(*varDecl.fValue, out); |
| this->writeInstruction(SpvOpStore, id, value, out); |
| } |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeStatement(const Statement& s, OutputStream& out) { |
| switch (s.fKind) { |
| case Statement::kNop_Kind: |
| break; |
| case Statement::kBlock_Kind: |
| this->writeBlock((Block&) s, out); |
| break; |
| case Statement::kExpression_Kind: |
| this->writeExpression(*((ExpressionStatement&) s).fExpression, out); |
| break; |
| case Statement::kReturn_Kind: |
| this->writeReturnStatement((ReturnStatement&) s, out); |
| break; |
| case Statement::kVarDeclarations_Kind: |
| this->writeVarDeclarations(*((VarDeclarationsStatement&) s).fDeclaration, out); |
| break; |
| case Statement::kIf_Kind: |
| this->writeIfStatement((IfStatement&) s, out); |
| break; |
| case Statement::kFor_Kind: |
| this->writeForStatement((ForStatement&) s, out); |
| break; |
| case Statement::kWhile_Kind: |
| this->writeWhileStatement((WhileStatement&) s, out); |
| break; |
| case Statement::kDo_Kind: |
| this->writeDoStatement((DoStatement&) s, out); |
| break; |
| case Statement::kSwitch_Kind: |
| this->writeSwitchStatement((SwitchStatement&) s, out); |
| break; |
| case Statement::kBreak_Kind: |
| this->writeInstruction(SpvOpBranch, fBreakTarget.top(), out); |
| break; |
| case Statement::kContinue_Kind: |
| this->writeInstruction(SpvOpBranch, fContinueTarget.top(), out); |
| break; |
| case Statement::kDiscard_Kind: |
| this->writeInstruction(SpvOpKill, out); |
| break; |
| default: |
| ABORT("unsupported statement: %s", s.description().c_str()); |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeBlock(const Block& b, OutputStream& out) { |
| for (size_t i = 0; i < b.fStatements.size(); i++) { |
| this->writeStatement(*b.fStatements[i], out); |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeIfStatement(const IfStatement& stmt, OutputStream& out) { |
| SpvId test = this->writeExpression(*stmt.fTest, out); |
| SpvId ifTrue = this->nextId(); |
| SpvId ifFalse = this->nextId(); |
| if (stmt.fIfFalse) { |
| SpvId end = this->nextId(); |
| this->writeInstruction(SpvOpSelectionMerge, end, SpvSelectionControlMaskNone, out); |
| this->writeInstruction(SpvOpBranchConditional, test, ifTrue, ifFalse, out); |
| this->writeLabel(ifTrue, out); |
| this->writeStatement(*stmt.fIfTrue, out); |
| if (fCurrentBlock) { |
| this->writeInstruction(SpvOpBranch, end, out); |
| } |
| this->writeLabel(ifFalse, out); |
| this->writeStatement(*stmt.fIfFalse, out); |
| if (fCurrentBlock) { |
| this->writeInstruction(SpvOpBranch, end, out); |
| } |
| this->writeLabel(end, out); |
| } else { |
| this->writeInstruction(SpvOpSelectionMerge, ifFalse, SpvSelectionControlMaskNone, out); |
| this->writeInstruction(SpvOpBranchConditional, test, ifTrue, ifFalse, out); |
| this->writeLabel(ifTrue, out); |
| this->writeStatement(*stmt.fIfTrue, out); |
| if (fCurrentBlock) { |
| this->writeInstruction(SpvOpBranch, ifFalse, out); |
| } |
| this->writeLabel(ifFalse, out); |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeForStatement(const ForStatement& f, OutputStream& out) { |
| if (f.fInitializer) { |
| this->writeStatement(*f.fInitializer, out); |
| } |
| SpvId header = this->nextId(); |
| SpvId start = this->nextId(); |
| SpvId body = this->nextId(); |
| SpvId next = this->nextId(); |
| fContinueTarget.push(next); |
| SpvId end = this->nextId(); |
| fBreakTarget.push(end); |
| this->writeInstruction(SpvOpBranch, header, out); |
| this->writeLabel(header, out); |
| this->writeInstruction(SpvOpLoopMerge, end, next, SpvLoopControlMaskNone, out); |
| this->writeInstruction(SpvOpBranch, start, out); |
| this->writeLabel(start, out); |
| if (f.fTest) { |
| SpvId test = this->writeExpression(*f.fTest, out); |
| this->writeInstruction(SpvOpBranchConditional, test, body, end, out); |
| } |
| this->writeLabel(body, out); |
| this->writeStatement(*f.fStatement, out); |
| if (fCurrentBlock) { |
| this->writeInstruction(SpvOpBranch, next, out); |
| } |
| this->writeLabel(next, out); |
| if (f.fNext) { |
| this->writeExpression(*f.fNext, out); |
| } |
| this->writeInstruction(SpvOpBranch, header, out); |
| this->writeLabel(end, out); |
| fBreakTarget.pop(); |
| fContinueTarget.pop(); |
| } |
| |
| void SPIRVCodeGenerator::writeWhileStatement(const WhileStatement& w, OutputStream& out) { |
| // We believe the while loop code below will work, but Skia doesn't actually use them and |
| // adequately testing this code in the absence of Skia exercising it isn't straightforward. For |
| // the time being, we just fail with an error due to the lack of testing. If you encounter this |
| // message, simply remove the error call below to see whether our while loop support actually |
| // works. |
| fErrors.error(w.fOffset, "internal error: while loop support has been disabled in SPIR-V, " |
| "see SkSLSPIRVCodeGenerator.cpp for details"); |
| |
| SpvId header = this->nextId(); |
| SpvId start = this->nextId(); |
| SpvId body = this->nextId(); |
| fContinueTarget.push(start); |
| SpvId end = this->nextId(); |
| fBreakTarget.push(end); |
| this->writeInstruction(SpvOpBranch, header, out); |
| this->writeLabel(header, out); |
| this->writeInstruction(SpvOpLoopMerge, end, start, SpvLoopControlMaskNone, out); |
| this->writeInstruction(SpvOpBranch, start, out); |
| this->writeLabel(start, out); |
| SpvId test = this->writeExpression(*w.fTest, out); |
| this->writeInstruction(SpvOpBranchConditional, test, body, end, out); |
| this->writeLabel(body, out); |
| this->writeStatement(*w.fStatement, out); |
| if (fCurrentBlock) { |
| this->writeInstruction(SpvOpBranch, start, out); |
| } |
| this->writeLabel(end, out); |
| fBreakTarget.pop(); |
| fContinueTarget.pop(); |
| } |
| |
| void SPIRVCodeGenerator::writeDoStatement(const DoStatement& d, OutputStream& out) { |
| // We believe the do loop code below will work, but Skia doesn't actually use them and |
| // adequately testing this code in the absence of Skia exercising it isn't straightforward. For |
| // the time being, we just fail with an error due to the lack of testing. If you encounter this |
| // message, simply remove the error call below to see whether our do loop support actually |
| // works. |
| fErrors.error(d.fOffset, "internal error: do loop support has been disabled in SPIR-V, see " |
| "SkSLSPIRVCodeGenerator.cpp for details"); |
| |
| SpvId header = this->nextId(); |
| SpvId start = this->nextId(); |
| SpvId next = this->nextId(); |
| fContinueTarget.push(next); |
| SpvId end = this->nextId(); |
| fBreakTarget.push(end); |
| this->writeInstruction(SpvOpBranch, header, out); |
| this->writeLabel(header, out); |
| this->writeInstruction(SpvOpLoopMerge, end, start, SpvLoopControlMaskNone, out); |
| this->writeInstruction(SpvOpBranch, start, out); |
| this->writeLabel(start, out); |
| this->writeStatement(*d.fStatement, out); |
| if (fCurrentBlock) { |
| this->writeInstruction(SpvOpBranch, next, out); |
| } |
| this->writeLabel(next, out); |
| SpvId test = this->writeExpression(*d.fTest, out); |
| this->writeInstruction(SpvOpBranchConditional, test, start, end, out); |
| this->writeLabel(end, out); |
| fBreakTarget.pop(); |
| fContinueTarget.pop(); |
| } |
| |
| void SPIRVCodeGenerator::writeSwitchStatement(const SwitchStatement& s, OutputStream& out) { |
| SpvId value = this->writeExpression(*s.fValue, out); |
| std::vector<SpvId> labels; |
| SpvId end = this->nextId(); |
| SpvId defaultLabel = end; |
| fBreakTarget.push(end); |
| int size = 3; |
| for (const auto& c : s.fCases) { |
| SpvId label = this->nextId(); |
| labels.push_back(label); |
| if (c->fValue) { |
| size += 2; |
| } else { |
| defaultLabel = label; |
| } |
| } |
| labels.push_back(end); |
| this->writeInstruction(SpvOpSelectionMerge, end, SpvSelectionControlMaskNone, out); |
| this->writeOpCode(SpvOpSwitch, size, out); |
| this->writeWord(value, out); |
| this->writeWord(defaultLabel, out); |
| for (size_t i = 0; i < s.fCases.size(); ++i) { |
| if (!s.fCases[i]->fValue) { |
| continue; |
| } |
| SkASSERT(s.fCases[i]->fValue->fKind == Expression::kIntLiteral_Kind); |
| this->writeWord(((IntLiteral&) *s.fCases[i]->fValue).fValue, out); |
| this->writeWord(labels[i], out); |
| } |
| for (size_t i = 0; i < s.fCases.size(); ++i) { |
| this->writeLabel(labels[i], out); |
| for (const auto& stmt : s.fCases[i]->fStatements) { |
| this->writeStatement(*stmt, out); |
| } |
| if (fCurrentBlock) { |
| this->writeInstruction(SpvOpBranch, labels[i + 1], out); |
| } |
| } |
| this->writeLabel(end, out); |
| fBreakTarget.pop(); |
| } |
| |
| void SPIRVCodeGenerator::writeReturnStatement(const ReturnStatement& r, OutputStream& out) { |
| if (r.fExpression) { |
| this->writeInstruction(SpvOpReturnValue, this->writeExpression(*r.fExpression, out), |
| out); |
| } else { |
| this->writeInstruction(SpvOpReturn, out); |
| } |
| } |
| |
| void SPIRVCodeGenerator::writeGeometryShaderExecutionMode(SpvId entryPoint, OutputStream& out) { |
| SkASSERT(fProgram.fKind == Program::kGeometry_Kind); |
| int invocations = 1; |
| for (const auto& e : fProgram) { |
| if (e.fKind == ProgramElement::kModifiers_Kind) { |
| const Modifiers& m = ((ModifiersDeclaration&) e).fModifiers; |
| if (m.fFlags & Modifiers::kIn_Flag) { |
| if (m.fLayout.fInvocations != -1) { |
| invocations = m.fLayout.fInvocations; |
| } |
| SpvId input; |
| switch (m.fLayout.fPrimitive) { |
| case Layout::kPoints_Primitive: |
| input = SpvExecutionModeInputPoints; |
| break; |
| case Layout::kLines_Primitive: |
| input = SpvExecutionModeInputLines; |
| break; |
| case Layout::kLinesAdjacency_Primitive: |
| input = SpvExecutionModeInputLinesAdjacency; |
| break; |
| case Layout::kTriangles_Primitive: |
| input = SpvExecutionModeTriangles; |
| break; |
| case Layout::kTrianglesAdjacency_Primitive: |
| input = SpvExecutionModeInputTrianglesAdjacency; |
| break; |
| default: |
| input = 0; |
| break; |
| } |
| update_sk_in_count(m, &fSkInCount); |
| if (input) { |
| this->writeInstruction(SpvOpExecutionMode, entryPoint, input, out); |
| } |
| } else if (m.fFlags & Modifiers::kOut_Flag) { |
| SpvId output; |
| switch (m.fLayout.fPrimitive) { |
| case Layout::kPoints_Primitive: |
| output = SpvExecutionModeOutputPoints; |
| break; |
| case Layout::kLineStrip_Primitive: |
| output = SpvExecutionModeOutputLineStrip; |
| break; |
| case Layout::kTriangleStrip_Primitive: |
| output = SpvExecutionModeOutputTriangleStrip; |
| break; |
| default: |
| output = 0; |
| break; |
| } |
| if (output) { |
| this->writeInstruction(SpvOpExecutionMode, entryPoint, output, out); |
| } |
| if (m.fLayout.fMaxVertices != -1) { |
| this->writeInstruction(SpvOpExecutionMode, entryPoint, |
| SpvExecutionModeOutputVertices, m.fLayout.fMaxVertices, |
| out); |
| } |
| } |
| } |
| } |
| this->writeInstruction(SpvOpExecutionMode, entryPoint, SpvExecutionModeInvocations, |
| invocations, out); |
| } |
| |
| void SPIRVCodeGenerator::writeInstructions(const Program& program, OutputStream& out) { |
| fGLSLExtendedInstructions = this->nextId(); |
| StringStream body; |
| std::set<SpvId> interfaceVars; |
| // assign IDs to functions, determine sk_in size |
| int skInSize = -1; |
| for (const auto& e : program) { |
| switch (e.fKind) { |
| case ProgramElement::kFunction_Kind: { |
| FunctionDefinition& f = (FunctionDefinition&) e; |
| fFunctionMap[&f.fDeclaration] = this->nextId(); |
| break; |
| } |
| case ProgramElement::kModifiers_Kind: { |
| Modifiers& m = ((ModifiersDeclaration&) e).fModifiers; |
| if (m.fFlags & Modifiers::kIn_Flag) { |
| switch (m.fLayout.fPrimitive) { |
| case Layout::kPoints_Primitive: // break |
| case Layout::kLines_Primitive: |
| skInSize = 1; |
| break; |
| case Layout::kLinesAdjacency_Primitive: // break |
| skInSize = 2; |
| break; |
| case Layout::kTriangles_Primitive: // break |
| case Layout::kTrianglesAdjacency_Primitive: |
| skInSize = 3; |
| break; |
| default: |
| break; |
| } |
| } |
| break; |
| } |
| default: |
| break; |
| } |
| } |
| for (const auto& e : program) { |
| if (e.fKind == ProgramElement::kInterfaceBlock_Kind) { |
| InterfaceBlock& intf = (InterfaceBlock&) e; |
| if (SK_IN_BUILTIN == intf.fVariable.fModifiers.fLayout.fBuiltin) { |
| SkASSERT(skInSize != -1); |
| intf.fSizes.emplace_back(new IntLiteral(fContext, -1, skInSize)); |
| } |
| SpvId id = this->writeInterfaceBlock(intf); |
| if (((intf.fVariable.fModifiers.fFlags & Modifiers::kIn_Flag) || |
| (intf.fVariable.fModifiers.fFlags & Modifiers::kOut_Flag)) && |
| intf.fVariable.fModifiers.fLayout.fBuiltin == -1) { |
| interfaceVars.insert(id); |
| } |
| } |
| } |
| for (const auto& e : program) { |
| if (e.fKind == ProgramElement::kVar_Kind) { |
| this->writeGlobalVars(program.fKind, ((VarDeclarations&) e), body); |
| } |
| } |
| for (const auto& e : program) { |
| if (e.fKind == ProgramElement::kFunction_Kind) { |
| this->writeFunction(((FunctionDefinition&) e), body); |
| } |
| } |
| const FunctionDeclaration* main = nullptr; |
| for (auto entry : fFunctionMap) { |
| if (entry.first->fName == "main") { |
| main = entry.first; |
| } |
| } |
| SkASSERT(main); |
| for (auto entry : fVariableMap) { |
| const Variable* var = entry.first; |
| int builtin = var->fModifiers.fLayout.fBuiltin; |
| if (var->fStorage == Variable::kGlobal_Storage && |
| ((var->fModifiers.fFlags & Modifiers::kIn_Flag) || |
| (var->fModifiers.fFlags & Modifiers::kOut_Flag)) && |
| builtin != SK_OUT_BUILTIN && |
| builtin != SK_INVOCATIONID_BUILTIN) { |
| interfaceVars.insert(entry.second); |
| } |
| } |
| this->writeCapabilities(out); |
| this->writeInstruction(SpvOpExtInstImport, fGLSLExtendedInstructions, "GLSL.std.450", out); |
| this->writeInstruction(SpvOpMemoryModel, SpvAddressingModelLogical, SpvMemoryModelGLSL450, out); |
| this->writeOpCode(SpvOpEntryPoint, (SpvId) (3 + (main->fName.fLength + 4) / 4) + |
| (int32_t) interfaceVars.size(), out); |
| switch (program.fKind) { |
| case Program::kVertex_Kind: |
| this->writeWord(SpvExecutionModelVertex, out); |
| break; |
| case Program::kFragment_Kind: |
| this->writeWord(SpvExecutionModelFragment, out); |
| break; |
| case Program::kGeometry_Kind: |
| this->writeWord(SpvExecutionModelGeometry, out); |
| break; |
| default: |
| ABORT("cannot write this kind of program to SPIR-V\n"); |
| } |
| SpvId entryPoint = fFunctionMap[main]; |
| this->writeWord(entryPoint, out); |
| this->writeString(main->fName.fChars, main->fName.fLength, out); |
| for (int var : interfaceVars) { |
| this->writeWord(var, out); |
| } |
| if (program.fKind == Program::kGeometry_Kind) { |
| this->writeGeometryShaderExecutionMode(entryPoint, out); |
| } |
| if (program.fKind == Program::kFragment_Kind) { |
| this->writeInstruction(SpvOpExecutionMode, |
| fFunctionMap[main], |
| SpvExecutionModeOriginUpperLeft, |
| out); |
| } |
| for (const auto& e : program) { |
| if (e.fKind == ProgramElement::kExtension_Kind) { |
| this->writeInstruction(SpvOpSourceExtension, ((Extension&) e).fName.c_str(), out); |
| } |
| } |
| |
| write_stringstream(fExtraGlobalsBuffer, out); |
| write_stringstream(fNameBuffer, out); |
| write_stringstream(fDecorationBuffer, out); |
| write_stringstream(fConstantBuffer, out); |
| write_stringstream(fExternalFunctionsBuffer, out); |
| write_stringstream(body, out); |
| } |
| |
| bool SPIRVCodeGenerator::generateCode() { |
| SkASSERT(!fErrors.errorCount()); |
| this->writeWord(SpvMagicNumber, *fOut); |
| this->writeWord(SpvVersion, *fOut); |
| this->writeWord(SKSL_MAGIC, *fOut); |
| StringStream buffer; |
| this->writeInstructions(fProgram, buffer); |
| this->writeWord(fIdCount, *fOut); |
| this->writeWord(0, *fOut); // reserved, always zero |
| write_stringstream(buffer, *fOut); |
| return 0 == fErrors.errorCount(); |
| } |
| |
| } |