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/*
* Copyright 2016 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#ifndef SKSL_SPIRVCODEGENERATOR
#define SKSL_SPIRVCODEGENERATOR
#include <stack>
#include <tuple>
#include <unordered_map>
#include "src/sksl/SkSLCodeGenerator.h"
#include "src/sksl/SkSLMemoryLayout.h"
#include "src/sksl/SkSLStringStream.h"
#include "src/sksl/ir/SkSLBinaryExpression.h"
#include "src/sksl/ir/SkSLBoolLiteral.h"
#include "src/sksl/ir/SkSLConstructor.h"
#include "src/sksl/ir/SkSLDoStatement.h"
#include "src/sksl/ir/SkSLFieldAccess.h"
#include "src/sksl/ir/SkSLFloatLiteral.h"
#include "src/sksl/ir/SkSLForStatement.h"
#include "src/sksl/ir/SkSLFunctionCall.h"
#include "src/sksl/ir/SkSLFunctionDeclaration.h"
#include "src/sksl/ir/SkSLFunctionDefinition.h"
#include "src/sksl/ir/SkSLIfStatement.h"
#include "src/sksl/ir/SkSLIndexExpression.h"
#include "src/sksl/ir/SkSLIntLiteral.h"
#include "src/sksl/ir/SkSLInterfaceBlock.h"
#include "src/sksl/ir/SkSLPostfixExpression.h"
#include "src/sksl/ir/SkSLPrefixExpression.h"
#include "src/sksl/ir/SkSLProgramElement.h"
#include "src/sksl/ir/SkSLReturnStatement.h"
#include "src/sksl/ir/SkSLStatement.h"
#include "src/sksl/ir/SkSLSwitchStatement.h"
#include "src/sksl/ir/SkSLSwizzle.h"
#include "src/sksl/ir/SkSLTernaryExpression.h"
#include "src/sksl/ir/SkSLVarDeclarations.h"
#include "src/sksl/ir/SkSLVarDeclarationsStatement.h"
#include "src/sksl/ir/SkSLVariableReference.h"
#include "src/sksl/ir/SkSLWhileStatement.h"
#include "src/sksl/spirv.h"
union ConstantValue {
ConstantValue(int64_t i)
: fInt(i) {}
ConstantValue(double d)
: fDouble(d) {}
bool operator==(const ConstantValue& other) const {
return fInt == other.fInt;
}
int64_t fInt;
double fDouble;
};
enum class ConstantType {
kInt,
kUInt,
kShort,
kUShort,
kFloat,
kDouble,
kHalf,
};
namespace std {
template <>
struct hash<std::pair<ConstantValue, ConstantType>> {
size_t operator()(const std::pair<ConstantValue, ConstantType>& key) const {
return key.first.fInt ^ (int) key.second;
}
};
}
namespace SkSL {
#define kLast_Capability SpvCapabilityMultiViewport
/**
* Converts a Program into a SPIR-V binary.
*/
class SPIRVCodeGenerator : public CodeGenerator {
public:
class LValue {
public:
virtual ~LValue() {}
// returns a pointer to the lvalue, if possible. If the lvalue cannot be directly referenced
// by a pointer (e.g. vector swizzles), returns 0.
virtual SpvId getPointer() = 0;
virtual SpvId load(OutputStream& out) = 0;
virtual void store(SpvId value, OutputStream& out) = 0;
};
SPIRVCodeGenerator(const Context* context, const Program* program, ErrorReporter* errors,
OutputStream* out)
: INHERITED(program, errors, out)
, fContext(*context)
, fDefaultLayout(MemoryLayout::k140_Standard)
, fCapabilities(0)
, fIdCount(1)
, fBoolTrue(0)
, fBoolFalse(0)
, fSetupFragPosition(false)
, fCurrentBlock(0)
, fSynthetics(nullptr, errors) {
this->setupIntrinsics();
}
bool generateCode() override;
private:
enum IntrinsicKind {
kGLSL_STD_450_IntrinsicKind,
kSPIRV_IntrinsicKind,
kSpecial_IntrinsicKind
};
enum SpecialIntrinsic {
kAtan_SpecialIntrinsic,
kClamp_SpecialIntrinsic,
kMax_SpecialIntrinsic,
kMin_SpecialIntrinsic,
kMix_SpecialIntrinsic,
kMod_SpecialIntrinsic,
kDFdy_SpecialIntrinsic,
kSaturate_SpecialIntrinsic,
kSampledImage_SpecialIntrinsic,
kSubpassLoad_SpecialIntrinsic,
kTexture_SpecialIntrinsic,
};
enum class Precision {
kLow,
kHigh,
};
void setupIntrinsics();
SpvId nextId();
Type getActualType(const Type& type);
SpvId getType(const Type& type);
SpvId getType(const Type& type, const MemoryLayout& layout);
SpvId getImageType(const Type& type);
SpvId getFunctionType(const FunctionDeclaration& function);
SpvId getPointerType(const Type& type, SpvStorageClass_ storageClass);
SpvId getPointerType(const Type& type, const MemoryLayout& layout,
SpvStorageClass_ storageClass);
void writePrecisionModifier(Precision precision, SpvId id);
void writePrecisionModifier(const Type& type, SpvId id);
std::vector<SpvId> getAccessChain(const Expression& expr, OutputStream& out);
void writeLayout(const Layout& layout, SpvId target);
void writeLayout(const Layout& layout, SpvId target, int member);
void writeStruct(const Type& type, const MemoryLayout& layout, SpvId resultId);
void writeProgramElement(const ProgramElement& pe, OutputStream& out);
SpvId writeInterfaceBlock(const InterfaceBlock& intf);
SpvId writeFunctionStart(const FunctionDeclaration& f, OutputStream& out);
SpvId writeFunctionDeclaration(const FunctionDeclaration& f, OutputStream& out);
SpvId writeFunction(const FunctionDefinition& f, OutputStream& out);
void writeGlobalVars(Program::Kind kind, const VarDeclarations& v, OutputStream& out);
void writeVarDeclarations(const VarDeclarations& decl, OutputStream& out);
SpvId writeVariableReference(const VariableReference& ref, OutputStream& out);
std::unique_ptr<LValue> getLValue(const Expression& value, OutputStream& out);
SpvId writeExpression(const Expression& expr, OutputStream& out);
SpvId writeIntrinsicCall(const FunctionCall& c, OutputStream& out);
SpvId writeFunctionCall(const FunctionCall& c, OutputStream& out);
void writeGLSLExtendedInstruction(const Type& type, SpvId id, SpvId floatInst,
SpvId signedInst, SpvId unsignedInst,
const std::vector<SpvId>& args, OutputStream& out);
/**
* Given a list of potentially mixed scalars and vectors, promotes the scalars to match the
* size of the vectors and returns the ids of the written expressions. e.g. given (float, vec2),
* returns (vec2(float), vec2). It is an error to use mismatched vector sizes, e.g. (float,
* vec2, vec3).
*/
std::vector<SpvId> vectorize(const std::vector<std::unique_ptr<Expression>>& args,
OutputStream& out);
SpvId writeSpecialIntrinsic(const FunctionCall& c, SpecialIntrinsic kind, OutputStream& out);
SpvId writeConstantVector(const Constructor& c);
SpvId writeFloatConstructor(const Constructor& c, OutputStream& out);
SpvId writeIntConstructor(const Constructor& c, OutputStream& out);
SpvId writeUIntConstructor(const Constructor& c, OutputStream& out);
/**
* Writes a matrix with the diagonal entries all equal to the provided expression, and all other
* entries equal to zero.
*/
void writeUniformScaleMatrix(SpvId id, SpvId diagonal, const Type& type, OutputStream& out);
/**
* Writes a potentially-different-sized copy of a matrix. Entries which do not exist in the
* source matrix are filled with zero; entries which do not exist in the destination matrix are
* ignored.
*/
void writeMatrixCopy(SpvId id, SpvId src, const Type& srcType, const Type& dstType,
OutputStream& out);
void addColumnEntry(SpvId columnType, Precision precision, std::vector<SpvId>* currentColumn,
std::vector<SpvId>* columnIds, int* currentCount, int rows, SpvId entry,
OutputStream& out);
SpvId writeMatrixConstructor(const Constructor& c, OutputStream& out);
SpvId writeVectorConstructor(const Constructor& c, OutputStream& out);
SpvId writeArrayConstructor(const Constructor& c, OutputStream& out);
SpvId writeConstructor(const Constructor& c, OutputStream& out);
SpvId writeFieldAccess(const FieldAccess& f, OutputStream& out);
SpvId writeSwizzle(const Swizzle& swizzle, OutputStream& out);
/**
* Folds the potentially-vector result of a logical operation down to a single bool. If
* operandType is a vector type, assumes that the intermediate result in id is a bvec of the
* same dimensions, and applys all() to it to fold it down to a single bool value. Otherwise,
* returns the original id value.
*/
SpvId foldToBool(SpvId id, const Type& operandType, SpvOp op, OutputStream& out);
SpvId writeMatrixComparison(const Type& operandType, SpvId lhs, SpvId rhs, SpvOp_ floatOperator,
SpvOp_ intOperator, SpvOp_ vectorMergeOperator,
SpvOp_ mergeOperator, OutputStream& out);
SpvId writeComponentwiseMatrixBinary(const Type& operandType, SpvId lhs, SpvId rhs,
SpvOp_ floatOperator, SpvOp_ intOperator,
OutputStream& out);
SpvId writeBinaryOperation(const Type& resultType, const Type& operandType, SpvId lhs,
SpvId rhs, SpvOp_ ifFloat, SpvOp_ ifInt, SpvOp_ ifUInt,
SpvOp_ ifBool, OutputStream& out);
SpvId writeBinaryOperation(const BinaryExpression& expr, SpvOp_ ifFloat, SpvOp_ ifInt,
SpvOp_ ifUInt, OutputStream& out);
SpvId writeBinaryExpression(const Type& leftType, SpvId lhs, Token::Kind op,
const Type& rightType, SpvId rhs, const Type& resultType,
OutputStream& out);
SpvId writeBinaryExpression(const BinaryExpression& b, OutputStream& out);
SpvId writeTernaryExpression(const TernaryExpression& t, OutputStream& out);
SpvId writeIndexExpression(const IndexExpression& expr, OutputStream& out);
SpvId writeLogicalAnd(const BinaryExpression& b, OutputStream& out);
SpvId writeLogicalOr(const BinaryExpression& o, OutputStream& out);
SpvId writePrefixExpression(const PrefixExpression& p, OutputStream& out);
SpvId writePostfixExpression(const PostfixExpression& p, OutputStream& out);
SpvId writeBoolLiteral(const BoolLiteral& b);
SpvId writeIntLiteral(const IntLiteral& i);
SpvId writeFloatLiteral(const FloatLiteral& f);
void writeStatement(const Statement& s, OutputStream& out);
void writeBlock(const Block& b, OutputStream& out);
void writeIfStatement(const IfStatement& stmt, OutputStream& out);
void writeForStatement(const ForStatement& f, OutputStream& out);
void writeWhileStatement(const WhileStatement& w, OutputStream& out);
void writeDoStatement(const DoStatement& d, OutputStream& out);
void writeSwitchStatement(const SwitchStatement& s, OutputStream& out);
void writeReturnStatement(const ReturnStatement& r, OutputStream& out);
void writeCapabilities(OutputStream& out);
void writeInstructions(const Program& program, OutputStream& out);
void writeOpCode(SpvOp_ opCode, int length, OutputStream& out);
void writeWord(int32_t word, OutputStream& out);
void writeString(const char* string, size_t length, OutputStream& out);
void writeLabel(SpvId id, OutputStream& out);
void writeInstruction(SpvOp_ opCode, OutputStream& out);
void writeInstruction(SpvOp_ opCode, StringFragment string, OutputStream& out);
void writeInstruction(SpvOp_ opCode, int32_t word1, OutputStream& out);
void writeInstruction(SpvOp_ opCode, int32_t word1, StringFragment string, OutputStream& out);
void writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, StringFragment string,
OutputStream& out);
void writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, OutputStream& out);
void writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, int32_t word3,
OutputStream& out);
void writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, int32_t word3, int32_t word4,
OutputStream& out);
void writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, int32_t word3, int32_t word4,
int32_t word5, OutputStream& out);
void writeInstruction(SpvOp_ opCode, int32_t word1, int32_t word2, int32_t word3, int32_t word4,
int32_t word5, int32_t word6, OutputStream& out);
void 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);
void 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);
void writeGeometryShaderExecutionMode(SpvId entryPoint, OutputStream& out);
const Context& fContext;
const MemoryLayout fDefaultLayout;
uint64_t fCapabilities;
SpvId fIdCount;
SpvId fGLSLExtendedInstructions;
typedef std::tuple<IntrinsicKind, int32_t, int32_t, int32_t, int32_t> Intrinsic;
std::unordered_map<String, Intrinsic> fIntrinsicMap;
std::unordered_map<const FunctionDeclaration*, SpvId> fFunctionMap;
std::unordered_map<const Variable*, SpvId> fVariableMap;
std::unordered_map<const Variable*, int32_t> fInterfaceBlockMap;
std::unordered_map<String, SpvId> fImageTypeMap;
std::unordered_map<String, SpvId> fTypeMap;
StringStream fCapabilitiesBuffer;
StringStream fGlobalInitializersBuffer;
StringStream fConstantBuffer;
StringStream fExtraGlobalsBuffer;
StringStream fExternalFunctionsBuffer;
StringStream fVariableBuffer;
StringStream fNameBuffer;
StringStream fDecorationBuffer;
SpvId fBoolTrue;
SpvId fBoolFalse;
std::unordered_map<std::pair<ConstantValue, ConstantType>, SpvId> fNumberConstants;
// The constant float2(0, 1), used in swizzling
SpvId fConstantZeroOneVector = 0;
bool fSetupFragPosition;
// label of the current block, or 0 if we are not in a block
SpvId fCurrentBlock;
std::stack<SpvId> fBreakTarget;
std::stack<SpvId> fContinueTarget;
SpvId fRTHeightStructId = (SpvId) -1;
SpvId fRTHeightFieldIndex = (SpvId) -1;
// holds variables synthesized during output, for lifetime purposes
SymbolTable fSynthetics;
int fSkInCount = 1;
friend class PointerLValue;
friend class SwizzleLValue;
typedef CodeGenerator INHERITED;
};
}
#endif