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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_COMPILER
#define SKSL_COMPILER
#include <set>
#include <unordered_set>
#include <vector>
#include "ir/SkSLProgram.h"
#include "ir/SkSLSymbolTable.h"
#include "SkSLCFGGenerator.h"
#include "SkSLContext.h"
#include "SkSLErrorReporter.h"
#include "SkSLLexer.h"
#define SK_FRAGCOLOR_BUILTIN 10001
#define SK_IN_BUILTIN 10002
#define SK_INCOLOR_BUILTIN 10003
#define SK_OUTCOLOR_BUILTIN 10004
#define SK_TRANSFORMEDCOORDS2D_BUILTIN 10005
#define SK_TEXTURESAMPLERS_BUILTIN 10006
#define SK_OUT_BUILTIN 10007
#define SK_LASTFRAGCOLOR_BUILTIN 10008
#define SK_MAIN_X_BUILTIN 10009
#define SK_MAIN_Y_BUILTIN 10010
#define SK_FRAGCOORD_BUILTIN 15
#define SK_VERTEXID_BUILTIN 42
#define SK_INSTANCEID_BUILTIN 43
#define SK_CLIPDISTANCE_BUILTIN 3
#define SK_INVOCATIONID_BUILTIN 8
#define SK_POSITION_BUILTIN 0
namespace SkSL {
class IRGenerator;
/**
* Main compiler entry point. This is a traditional compiler design which first parses the .sksl
* file into an abstract syntax tree (a tree of ASTNodes), then performs semantic analysis to
* produce a Program (a tree of IRNodes), then feeds the Program into a CodeGenerator to produce
* compiled output.
*
* See the README for information about SkSL.
*/
class Compiler : public ErrorReporter {
public:
static constexpr const char* RTADJUST_NAME = "sk_RTAdjust";
static constexpr const char* PERVERTEX_NAME = "sk_PerVertex";
enum Flags {
kNone_Flags = 0,
// permits static if/switch statements to be used with non-constant tests. This is used when
// producing H and CPP code; the static tests don't have to have constant values *yet*, but
// the generated code will contain a static test which then does have to be a constant.
kPermitInvalidStaticTests_Flag = 1,
};
enum class FormatArg {
kInput,
kOutput
};
Compiler(Flags flags = kNone_Flags);
~Compiler() override;
std::unique_ptr<Program> convertProgram(Program::Kind kind, String text,
const Program::Settings& settings);
bool optimize(Program& program);
std::unique_ptr<Program> specialize(Program& program,
const std::unordered_map<SkSL::String, SkSL::Program::Settings::Value>& inputs);
bool toSPIRV(Program& program, OutputStream& out);
bool toSPIRV(Program& program, String* out);
bool toGLSL(Program& program, OutputStream& out);
bool toGLSL(Program& program, String* out);
bool toMetal(Program& program, OutputStream& out);
bool toCPP(Program& program, String name, OutputStream& out);
bool toH(Program& program, String name, OutputStream& out);
bool toPipelineStage(const Program& program, String* out,
std::vector<FormatArg>* outFormatArgs);
void error(int offset, String msg) override;
String errorText();
void writeErrorCount();
int errorCount() override {
return fErrorCount;
}
Context& context() {
return *fContext;
}
static const char* OperatorName(Token::Kind token);
static bool IsAssignment(Token::Kind token);
private:
void addDefinition(const Expression* lvalue, std::unique_ptr<Expression>* expr,
DefinitionMap* definitions);
void addDefinitions(const BasicBlock::Node& node, DefinitionMap* definitions);
void scanCFG(CFG* cfg, BlockId block, std::set<BlockId>* workList);
void computeDataFlow(CFG* cfg);
/**
* Simplifies the expression pointed to by iter (in both the IR and CFG structures), if
* possible.
*/
void simplifyExpression(DefinitionMap& definitions,
BasicBlock& b,
std::vector<BasicBlock::Node>::iterator* iter,
std::unordered_set<const Variable*>* undefinedVariables,
bool* outUpdated,
bool* outNeedsRescan);
/**
* Simplifies the statement pointed to by iter (in both the IR and CFG structures), if
* possible.
*/
void simplifyStatement(DefinitionMap& definitions,
BasicBlock& b,
std::vector<BasicBlock::Node>::iterator* iter,
std::unordered_set<const Variable*>* undefinedVariables,
bool* outUpdated,
bool* outNeedsRescan);
void scanCFG(FunctionDefinition& f);
Position position(int offset);
std::vector<std::unique_ptr<ProgramElement>> fVertexInclude;
std::shared_ptr<SymbolTable> fVertexSymbolTable;
std::vector<std::unique_ptr<ProgramElement>> fFragmentInclude;
std::shared_ptr<SymbolTable> fFragmentSymbolTable;
std::vector<std::unique_ptr<ProgramElement>> fGeometryInclude;
std::shared_ptr<SymbolTable> fGeometrySymbolTable;
std::shared_ptr<SymbolTable> fTypes;
IRGenerator* fIRGenerator;
int fFlags;
const String* fSource;
std::shared_ptr<Context> fContext;
int fErrorCount;
String fErrorText;
};
} // namespace
#endif