src/sksl/SkSLDSLParser.h - skia - Git at Google

 /*
  * Copyright 2021 Google LLC.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SKSL_DSLPARSER
 #define SKSL_DSLPARSER

 #include "include/core/SkTypes.h"
 #include "include/private/SkSLDefines.h"
 #include "include/private/SkSLProgramKind.h"
 #include "include/private/SkTArray.h"
 #include "include/sksl/DSLCore.h"
 #include "include/sksl/DSLExpression.h"
 #include "include/sksl/DSLLayout.h"
 #include "include/sksl/DSLModifiers.h"
 #include "include/sksl/DSLStatement.h"
 #include "include/sksl/DSLType.h"
 #include "include/sksl/SkSLErrorReporter.h"
 #include "include/sksl/SkSLOperator.h"
 #include "include/sksl/SkSLPosition.h"
 #include "src/sksl/SkSLCompiler.h"
 #include "src/sksl/SkSLLexer.h"
 #include "src/sksl/SkSLProgramSettings.h"

 #include <memory>
 #include <optional>
 #include <string>
 #include <string_view>

 namespace SkSL {

 struct ParsedModule;
 struct Program;

 namespace dsl {
 class DSLBlock;
 class DSLCase;
 class DSLGlobalVar;
 class DSLParameter;
 template <typename T> class DSLWrapper;

 }

 class AutoDSLDepth;

 /**
  * Consumes .sksl text and invokes DSL functions to instantiate the program.
  */
 class DSLParser {
 public:
     DSLParser(Compiler* compiler, const ProgramSettings& settings, ProgramKind kind,
               std::string text);

     std::unique_ptr<Program> program();

     SkSL::LoadedModule moduleInheritingFrom(SkSL::ParsedModule baseModule);

     std::string_view text(Token token);

     Position position(Token token);

 private:
     /**
      * Return the next token, including whitespace tokens, from the parse stream.
      */
     Token nextRawToken();

     /**
      * Return the next non-whitespace token from the parse stream.
      */
     Token nextToken();

     /**
      * Push a token back onto the parse stream, so that it is the next one read. Only a single level
      * of pushback is supported (that is, it is an error to call pushback() twice in a row without
      * an intervening nextToken()).
      */
     void pushback(Token t);

     /**
      * Returns the next non-whitespace token without consuming it from the stream.
      */
     Token peek();

     /**
      * Checks to see if the next token is of the specified type. If so, stores it in result (if
      * result is non-null) and returns true. Otherwise, pushes it back and returns false.
      */
     bool checkNext(Token::Kind kind, Token* result = nullptr);

     /**
      * Behaves like checkNext(TK_IDENTIFIER), but also verifies that identifier is not a builtin
      * type. If the token was actually a builtin type, false is returned (the next token is not
      * considered to be an identifier).
      */
     bool checkIdentifier(Token* result = nullptr);

     /**
      * Reads the next non-whitespace token and generates an error if it is not the expected type.
      * The 'expected' string is part of the error message, which reads:
      *
      * "expected <expected>, but found '<actual text>'"
      *
      * If 'result' is non-null, it is set to point to the token that was read.
      * Returns true if the read token was as expected, false otherwise.
      */
     bool expect(Token::Kind kind, const char* expected, Token* result = nullptr);
     bool expect(Token::Kind kind, std::string expected, Token* result = nullptr);

     /**
      * Behaves like expect(TK_IDENTIFIER), but also verifies that identifier is not a type.
      * If the token was actually a type, generates an error message of the form:
      *
      * "expected an identifier, but found type 'float2'"
      */
     bool expectIdentifier(Token* result);

     void error(Token token, std::string msg);
     void error(Position position, std::string msg);

     // Returns the range from `start` to the current parse position.
     Position rangeFrom(Position start);
     Position rangeFrom(Token start);

     // these functions parse individual grammar rules from the current parse position; you probably
     // don't need to call any of these outside of the parser. The function declarations in the .cpp
     // file have comments describing the grammar rules.

     void declarations();

     /**
      * Parses an expression representing an array size. Reports errors if the array size is not
      * valid (out of bounds, not a literal integer). Returns true if an expression was
      * successfully parsed, even if that array size is not actually valid. In the event of a true
      * return, outResult always contains a valid array size (even if the parsed array size was not
      * actually valid; invalid array sizes result in a 1 to avoid additional errors downstream).
      */
     bool arraySize(SKSL_INT* outResult);

     void directive();

     bool declaration();

     bool functionDeclarationEnd(Position start,
                                 const dsl::DSLModifiers& modifiers,
                                 dsl::DSLType type,
                                 const Token& name);

     struct VarDeclarationsPrefix {
         Position fPosition;
         dsl::DSLModifiers fModifiers;
         dsl::DSLType fType = dsl::DSLType(dsl::kVoid_Type);
         Token fName;
     };

     bool varDeclarationsPrefix(VarDeclarationsPrefix* prefixData);

     dsl::DSLStatement varDeclarationsOrExpressionStatement();

     dsl::DSLStatement varDeclarations();

     std::optional<dsl::DSLType> structDeclaration();

     SkTArray<dsl::DSLGlobalVar> structVarDeclaration(Position start,
                                                      const dsl::DSLModifiers& modifiers);

     bool parseArrayDimensions(Position pos, dsl::DSLType* type);

     bool parseInitializer(Position pos, dsl::DSLExpression* initializer);

     void globalVarDeclarationEnd(Position position, const dsl::DSLModifiers& mods,
             dsl::DSLType baseType, Token name);

     dsl::DSLStatement localVarDeclarationEnd(Position position, const dsl::DSLModifiers& mods,
             dsl::DSLType baseType, Token name);

     std::optional<dsl::DSLWrapper<dsl::DSLParameter>> parameter(size_t paramIndex);

     int layoutInt();

     std::string_view layoutIdentifier();

     dsl::DSLLayout layout();

     dsl::DSLModifiers modifiers();

     dsl::DSLStatement statement();

     std::optional<dsl::DSLType> type(dsl::DSLModifiers* modifiers);

     bool interfaceBlock(const dsl::DSLModifiers& mods);

     dsl::DSLStatement ifStatement();

     dsl::DSLStatement doStatement();

     dsl::DSLStatement whileStatement();

     dsl::DSLStatement forStatement();

     std::optional<dsl::DSLCase> switchCase();

     dsl::DSLStatement switchStatement();

     dsl::DSLStatement returnStatement();

     dsl::DSLStatement breakStatement();

     dsl::DSLStatement continueStatement();

     dsl::DSLStatement discardStatement();

     std::optional<dsl::DSLBlock> block();

     dsl::DSLStatement expressionStatement();

     using BinaryParseFn = dsl::DSLExpression (DSLParser::*)();
     bool SK_WARN_UNUSED_RESULT operatorRight(AutoDSLDepth& depth, Operator::Kind op,
             BinaryParseFn rightFn, dsl::DSLExpression& result);

     dsl::DSLExpression expression();

     dsl::DSLExpression assignmentExpression();

     dsl::DSLExpression ternaryExpression();

     dsl::DSLExpression logicalOrExpression();

     dsl::DSLExpression logicalXorExpression();

     dsl::DSLExpression logicalAndExpression();

     dsl::DSLExpression bitwiseOrExpression();

     dsl::DSLExpression bitwiseXorExpression();

     dsl::DSLExpression bitwiseAndExpression();

     dsl::DSLExpression equalityExpression();

     dsl::DSLExpression relationalExpression();

     dsl::DSLExpression shiftExpression();

     dsl::DSLExpression additiveExpression();

     dsl::DSLExpression multiplicativeExpression();

     dsl::DSLExpression unaryExpression();

     dsl::DSLExpression postfixExpression();

     dsl::DSLExpression swizzle(Position pos, dsl::DSLExpression base,
             std::string_view swizzleMask, Position maskPos);

     dsl::DSLExpression call(Position pos, dsl::DSLExpression base, ExpressionArray args);

     dsl::DSLExpression suffix(dsl::DSLExpression base);

     dsl::DSLExpression term();

     bool intLiteral(SKSL_INT* dest);

     bool floatLiteral(SKSL_FLOAT* dest);

     bool boolLiteral(bool* dest);

     bool identifier(std::string_view* dest);

     class Checkpoint {
     public:
         Checkpoint(DSLParser* p) : fParser(p) {
             fPushbackCheckpoint = fParser->fPushback;
             fLexerCheckpoint = fParser->fLexer.getCheckpoint();
             fOldErrorReporter = &dsl::GetErrorReporter();
             fOldEncounteredFatalError = fParser->fEncounteredFatalError;
             SkASSERT(fOldErrorReporter);
             dsl::SetErrorReporter(&fErrorReporter);
         }

         ~Checkpoint() {
             SkASSERTF(!fOldErrorReporter,
                       "Checkpoint was not accepted or rewound before destruction");
         }

         void accept() {
             this->restoreErrorReporter();
             // Parser errors should have been fatal, but we can encounter other errors like type
             // mismatches despite accepting the parse. Forward those messages to the actual error
             // handler now.
             fErrorReporter.forwardErrors();
         }

         void rewind() {
             this->restoreErrorReporter();
             fParser->fPushback = fPushbackCheckpoint;
             fParser->fLexer.rewindToCheckpoint(fLexerCheckpoint);
             fParser->fEncounteredFatalError = fOldEncounteredFatalError;
         }

     private:
         class ForwardingErrorReporter : public ErrorReporter {
         public:
             void handleError(std::string_view msg, Position pos) override {
                 fErrors.push_back({std::string(msg), pos});
             }

             void forwardErrors() {
                 for (Error& error : fErrors) {
                     dsl::GetErrorReporter().error(error.fMsg.c_str(), error.fPos);
                 }
             }

         private:
             struct Error {
                 std::string fMsg;
                 Position fPos;
             };

             SkTArray<Error> fErrors;
         };

         void restoreErrorReporter() {
             SkASSERT(fOldErrorReporter);
             fErrorReporter.reportPendingErrors(Position());
             dsl::SetErrorReporter(fOldErrorReporter);
             fOldErrorReporter = nullptr;
         }

         DSLParser* fParser;
         Token fPushbackCheckpoint;
         SkSL::Lexer::Checkpoint fLexerCheckpoint;
         ForwardingErrorReporter fErrorReporter;
         ErrorReporter* fOldErrorReporter;
         bool fOldEncounteredFatalError;
     };

     Compiler& fCompiler;
     ProgramSettings fSettings;
     ErrorReporter* fErrorReporter;
     bool fEncounteredFatalError;
     ProgramKind fKind;
     std::unique_ptr<std::string> fText;
     Lexer fLexer;
     // current parse depth, used to enforce a recursion limit to try to keep us from overflowing the
     // stack on pathological inputs
     int fDepth = 0;
     Token fPushback;

     friend class AutoDSLDepth;
     friend class HCodeGenerator;
 };

 }  // namespace SkSL

 #endif
	/*
	* Copyright 2021 Google LLC.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SKSL_DSLPARSER
	#define SKSL_DSLPARSER

	#include "include/core/SkTypes.h"
	#include "include/private/SkSLDefines.h"
	#include "include/private/SkSLProgramKind.h"
	#include "include/private/SkTArray.h"
	#include "include/sksl/DSLCore.h"
	#include "include/sksl/DSLExpression.h"
	#include "include/sksl/DSLLayout.h"
	#include "include/sksl/DSLModifiers.h"
	#include "include/sksl/DSLStatement.h"
	#include "include/sksl/DSLType.h"
	#include "include/sksl/SkSLErrorReporter.h"
	#include "include/sksl/SkSLOperator.h"
	#include "include/sksl/SkSLPosition.h"
	#include "src/sksl/SkSLCompiler.h"
	#include "src/sksl/SkSLLexer.h"
	#include "src/sksl/SkSLProgramSettings.h"

	#include <memory>
	#include <optional>
	#include <string>
	#include <string_view>

	namespace SkSL {

	struct ParsedModule;
	struct Program;

	namespace dsl {
	class DSLBlock;
	class DSLCase;
	class DSLGlobalVar;
	class DSLParameter;
	template <typename T> class DSLWrapper;

	}

	class AutoDSLDepth;

	/**
	* Consumes .sksl text and invokes DSL functions to instantiate the program.
	*/
	class DSLParser {
	public:
	DSLParser(Compiler* compiler, const ProgramSettings& settings, ProgramKind kind,
	std::string text);

	std::unique_ptr<Program> program();

	SkSL::LoadedModule moduleInheritingFrom(SkSL::ParsedModule baseModule);

	std::string_view text(Token token);

	Position position(Token token);

	private:
	/**
	* Return the next token, including whitespace tokens, from the parse stream.
	*/
	Token nextRawToken();

	/**
	* Return the next non-whitespace token from the parse stream.
	*/
	Token nextToken();

	/**
	* Push a token back onto the parse stream, so that it is the next one read. Only a single level
	* of pushback is supported (that is, it is an error to call pushback() twice in a row without
	* an intervening nextToken()).
	*/
	void pushback(Token t);

	/**
	* Returns the next non-whitespace token without consuming it from the stream.
	*/
	Token peek();

	/**
	* Checks to see if the next token is of the specified type. If so, stores it in result (if
	* result is non-null) and returns true. Otherwise, pushes it back and returns false.
	*/
	bool checkNext(Token::Kind kind, Token* result = nullptr);

	/**
	* Behaves like checkNext(TK_IDENTIFIER), but also verifies that identifier is not a builtin
	* type. If the token was actually a builtin type, false is returned (the next token is not
	* considered to be an identifier).
	*/
	bool checkIdentifier(Token* result = nullptr);

	/**
	* Reads the next non-whitespace token and generates an error if it is not the expected type.
	* The 'expected' string is part of the error message, which reads:
	*
	* "expected <expected>, but found '<actual text>'"
	*
	* If 'result' is non-null, it is set to point to the token that was read.
	* Returns true if the read token was as expected, false otherwise.
	*/
	bool expect(Token::Kind kind, const char* expected, Token* result = nullptr);
	bool expect(Token::Kind kind, std::string expected, Token* result = nullptr);

	/**
	* Behaves like expect(TK_IDENTIFIER), but also verifies that identifier is not a type.
	* If the token was actually a type, generates an error message of the form:
	*
	* "expected an identifier, but found type 'float2'"
	*/
	bool expectIdentifier(Token* result);

	void error(Token token, std::string msg);
	void error(Position position, std::string msg);

	// Returns the range from `start` to the current parse position.
	Position rangeFrom(Position start);
	Position rangeFrom(Token start);

	// these functions parse individual grammar rules from the current parse position; you probably
	// don't need to call any of these outside of the parser. The function declarations in the .cpp
	// file have comments describing the grammar rules.

	void declarations();

	/**
	* Parses an expression representing an array size. Reports errors if the array size is not
	* valid (out of bounds, not a literal integer). Returns true if an expression was
	* successfully parsed, even if that array size is not actually valid. In the event of a true
	* return, outResult always contains a valid array size (even if the parsed array size was not
	* actually valid; invalid array sizes result in a 1 to avoid additional errors downstream).
	*/
	bool arraySize(SKSL_INT* outResult);

	void directive();

	bool declaration();

	bool functionDeclarationEnd(Position start,
	const dsl::DSLModifiers& modifiers,
	dsl::DSLType type,
	const Token& name);

	struct VarDeclarationsPrefix {
	Position fPosition;
	dsl::DSLModifiers fModifiers;
	dsl::DSLType fType = dsl::DSLType(dsl::kVoid_Type);
	Token fName;
	};

	bool varDeclarationsPrefix(VarDeclarationsPrefix* prefixData);

	dsl::DSLStatement varDeclarationsOrExpressionStatement();

	dsl::DSLStatement varDeclarations();

	std::optional<dsl::DSLType> structDeclaration();

	SkTArray<dsl::DSLGlobalVar> structVarDeclaration(Position start,
	const dsl::DSLModifiers& modifiers);

	bool parseArrayDimensions(Position pos, dsl::DSLType* type);

	bool parseInitializer(Position pos, dsl::DSLExpression* initializer);

	void globalVarDeclarationEnd(Position position, const dsl::DSLModifiers& mods,
	dsl::DSLType baseType, Token name);

	dsl::DSLStatement localVarDeclarationEnd(Position position, const dsl::DSLModifiers& mods,
	dsl::DSLType baseType, Token name);

	std::optional<dsl::DSLWrapper<dsl::DSLParameter>> parameter(size_t paramIndex);

	int layoutInt();

	std::string_view layoutIdentifier();

	dsl::DSLLayout layout();

	dsl::DSLModifiers modifiers();

	dsl::DSLStatement statement();

	std::optional<dsl::DSLType> type(dsl::DSLModifiers* modifiers);

	bool interfaceBlock(const dsl::DSLModifiers& mods);

	dsl::DSLStatement ifStatement();

	dsl::DSLStatement doStatement();

	dsl::DSLStatement whileStatement();

	dsl::DSLStatement forStatement();

	std::optional<dsl::DSLCase> switchCase();

	dsl::DSLStatement switchStatement();

	dsl::DSLStatement returnStatement();

	dsl::DSLStatement breakStatement();

	dsl::DSLStatement continueStatement();

	dsl::DSLStatement discardStatement();

	std::optional<dsl::DSLBlock> block();

	dsl::DSLStatement expressionStatement();

	using BinaryParseFn = dsl::DSLExpression (DSLParser::*)();
	bool SK_WARN_UNUSED_RESULT operatorRight(AutoDSLDepth& depth, Operator::Kind op,
	BinaryParseFn rightFn, dsl::DSLExpression& result);

	dsl::DSLExpression expression();

	dsl::DSLExpression assignmentExpression();

	dsl::DSLExpression ternaryExpression();

	dsl::DSLExpression logicalOrExpression();

	dsl::DSLExpression logicalXorExpression();

	dsl::DSLExpression logicalAndExpression();

	dsl::DSLExpression bitwiseOrExpression();

	dsl::DSLExpression bitwiseXorExpression();

	dsl::DSLExpression bitwiseAndExpression();

	dsl::DSLExpression equalityExpression();

	dsl::DSLExpression relationalExpression();

	dsl::DSLExpression shiftExpression();

	dsl::DSLExpression additiveExpression();

	dsl::DSLExpression multiplicativeExpression();

	dsl::DSLExpression unaryExpression();

	dsl::DSLExpression postfixExpression();

	dsl::DSLExpression swizzle(Position pos, dsl::DSLExpression base,
	std::string_view swizzleMask, Position maskPos);

	dsl::DSLExpression call(Position pos, dsl::DSLExpression base, ExpressionArray args);

	dsl::DSLExpression suffix(dsl::DSLExpression base);

	dsl::DSLExpression term();

	bool intLiteral(SKSL_INT* dest);

	bool floatLiteral(SKSL_FLOAT* dest);

	bool boolLiteral(bool* dest);

	bool identifier(std::string_view* dest);

	class Checkpoint {
	public:
	Checkpoint(DSLParser* p) : fParser(p) {
	fPushbackCheckpoint = fParser->fPushback;
	fLexerCheckpoint = fParser->fLexer.getCheckpoint();
	fOldErrorReporter = &dsl::GetErrorReporter();
	fOldEncounteredFatalError = fParser->fEncounteredFatalError;
	SkASSERT(fOldErrorReporter);
	dsl::SetErrorReporter(&fErrorReporter);
	}

	~Checkpoint() {
	SkASSERTF(!fOldErrorReporter,
	"Checkpoint was not accepted or rewound before destruction");
	}

	void accept() {
	this->restoreErrorReporter();
	// Parser errors should have been fatal, but we can encounter other errors like type
	// mismatches despite accepting the parse. Forward those messages to the actual error
	// handler now.
	fErrorReporter.forwardErrors();
	}

	void rewind() {
	this->restoreErrorReporter();
	fParser->fPushback = fPushbackCheckpoint;
	fParser->fLexer.rewindToCheckpoint(fLexerCheckpoint);
	fParser->fEncounteredFatalError = fOldEncounteredFatalError;
	}

	private:
	class ForwardingErrorReporter : public ErrorReporter {
	public:
	void handleError(std::string_view msg, Position pos) override {
	fErrors.push_back({std::string(msg), pos});
	}

	void forwardErrors() {
	for (Error& error : fErrors) {
	dsl::GetErrorReporter().error(error.fMsg.c_str(), error.fPos);
	}
	}

	private:
	struct Error {
	std::string fMsg;
	Position fPos;
	};

	SkTArray<Error> fErrors;
	};

	void restoreErrorReporter() {
	SkASSERT(fOldErrorReporter);
	fErrorReporter.reportPendingErrors(Position());
	dsl::SetErrorReporter(fOldErrorReporter);
	fOldErrorReporter = nullptr;
	}

	DSLParser* fParser;
	Token fPushbackCheckpoint;
	SkSL::Lexer::Checkpoint fLexerCheckpoint;
	ForwardingErrorReporter fErrorReporter;
	ErrorReporter* fOldErrorReporter;
	bool fOldEncounteredFatalError;
	};

	Compiler& fCompiler;
	ProgramSettings fSettings;
	ErrorReporter* fErrorReporter;
	bool fEncounteredFatalError;
	ProgramKind fKind;
	std::unique_ptr<std::string> fText;
	Lexer fLexer;
	// current parse depth, used to enforce a recursion limit to try to keep us from overflowing the
	// stack on pathological inputs
	int fDepth = 0;
	Token fPushback;

	friend class AutoDSLDepth;
	friend class HCodeGenerator;
	};

	} // namespace SkSL

	#endif