/*
This file is part of solidity.
solidity is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
solidity is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with solidity. If not, see .
*/
// SPDX-License-Identifier: GPL-3.0
/**
* @author Christian
* @date 2014
* Solidity parser.
*/
#pragma once
#include
#include
#include
namespace solidity::langutil
{
class CharStream;
}
namespace solidity::frontend
{
class Parser: public langutil::ParserBase
{
public:
explicit Parser(
langutil::ErrorReporter& _errorReporter,
langutil::EVMVersion _evmVersion
):
ParserBase(_errorReporter),
m_evmVersion(_evmVersion)
{}
ASTPointer parse(langutil::CharStream& _charStream);
private:
class ASTNodeFactory;
enum class VarDeclKind { FileLevel, State, Other };
struct VarDeclParserOptions
{
// This is actually not needed, but due to a defect in the C++ standard, we have to.
// https://stackoverflow.com/questions/17430377
VarDeclParserOptions() {}
VarDeclKind kind = VarDeclKind::Other;
bool allowIndexed = false;
bool allowEmptyName = false;
bool allowInitialValue = false;
bool allowLocationSpecifier = false;
};
/// This struct is shared for parsing a function header and a function type.
struct FunctionHeaderParserResult
{
bool isVirtual = false;
ASTPointer overrides;
ASTPointer parameters;
ASTPointer returnParameters;
Visibility visibility = Visibility::Default;
StateMutability stateMutability = StateMutability::NonPayable;
std::vector> modifiers;
};
/// Struct to share parsed function call arguments.
struct FunctionCallArguments
{
std::vector> arguments;
std::vector> parameterNames;
std::vector parameterNameLocations;
};
///@{
///@name Parsing functions for the AST nodes
void parsePragmaVersion(langutil::SourceLocation const& _location, std::vector const& _tokens, std::vector const& _literals);
ASTPointer parseStructuredDocumentation();
ASTPointer parsePragmaDirective(bool _finishedParsingTopLevelPragmas);
ASTPointer parseImportDirective();
/// @returns an std::pair, where
/// result.second is set to true, if an abstract contract was parsed, false otherwise.
std::pair parseContractKind();
ASTPointer parseContractDefinition();
ASTPointer parseInheritanceSpecifier();
Visibility parseVisibilitySpecifier();
ASTPointer parseOverrideSpecifier();
StateMutability parseStateMutability();
FunctionHeaderParserResult parseFunctionHeader(bool _isStateVariable);
ASTPointer parseFunctionDefinition(bool _freeFunction = false);
ASTPointer parseStructDefinition();
ASTPointer parseEnumDefinition();
ASTPointer parseUserDefinedValueTypeDefinition();
ASTPointer parseEnumValue();
ASTPointer parseVariableDeclaration(
VarDeclParserOptions const& _options = {},
ASTPointer const& _lookAheadArrayType = ASTPointer()
);
ASTPointer parseModifierDefinition();
ASTPointer parseEventDefinition();
ASTPointer parseErrorDefinition();
ASTPointer parseUsingDirective();
ASTPointer parseModifierInvocation();
ASTPointer parseIdentifier();
ASTPointer parseIdentifierOrAddress();
ASTPointer parseUserDefinedTypeName();
ASTPointer parseIdentifierPath();
ASTPointer parseTypeNameSuffix(ASTPointer type, ASTNodeFactory& nodeFactory);
ASTPointer parseTypeName();
ASTPointer parseFunctionType();
ASTPointer parseMapping();
ASTPointer parseParameterList(
VarDeclParserOptions const& _options = {},
bool _allowEmpty = true
);
ASTPointer parseBlock(bool _allowUncheckedBlock = false, ASTPointer const& _docString = {});
ASTPointer parseStatement(bool _allowUncheckedBlock = false);
ASTPointer parseInlineAssembly(ASTPointer const& _docString = {});
ASTPointer parseIfStatement(ASTPointer const& _docString);
ASTPointer parseTryStatement(ASTPointer const& _docString);
ASTPointer parseCatchClause();
ASTPointer parseWhileStatement(ASTPointer const& _docString);
ASTPointer parseDoWhileStatement(ASTPointer const& _docString);
ASTPointer parseForStatement(ASTPointer const& _docString);
ASTPointer parseEmitStatement(ASTPointer const& docString);
ASTPointer parseRevertStatement(ASTPointer const& docString);
/// A "simple statement" can be a variable declaration statement or an expression statement.
ASTPointer parseSimpleStatement(ASTPointer const& _docString);
ASTPointer parseVariableDeclarationStatement(
ASTPointer const& _docString,
ASTPointer const& _lookAheadArrayType = ASTPointer()
);
ASTPointer parseExpressionStatement(
ASTPointer const& _docString,
ASTPointer const& _partiallyParsedExpression = ASTPointer()
);
ASTPointer parseExpression(
ASTPointer const& _partiallyParsedExpression = ASTPointer()
);
ASTPointer parseBinaryExpression(int _minPrecedence = 4,
ASTPointer const& _partiallyParsedExpression = ASTPointer()
);
ASTPointer parseUnaryExpression(
ASTPointer const& _partiallyParsedExpression = ASTPointer()
);
ASTPointer parseLeftHandSideExpression(
ASTPointer const& _partiallyParsedExpression = ASTPointer()
);
ASTPointer parseLiteral();
ASTPointer parsePrimaryExpression();
std::vector> parseFunctionCallListArguments();
FunctionCallArguments parseFunctionCallArguments();
FunctionCallArguments parseNamedArguments();
std::pair, langutil::SourceLocation> expectIdentifierWithLocation();
///@}
///@{
///@name Helper functions
/// @return true if we are at the start of a variable declaration.
bool variableDeclarationStart();
/// Used as return value of @see peekStatementType.
enum class LookAheadInfo
{
IndexAccessStructure, VariableDeclaration, Expression
};
/// Structure that represents a.b.c[x][y][z]. Can be converted either to an expression
/// or to a type name. For this to be valid, path cannot be empty, but indices can be empty.
struct IndexAccessedPath
{
struct Index
{
ASTPointer start;
std::optional> end;
langutil::SourceLocation location;
};
std::vector> path;
std::vector indices;
bool empty() const;
};
std::optional findLicenseString(std::vector> const& _nodes);
/// Returns the next AST node ID
int64_t nextID() { return ++m_currentNodeID; }
std::pair tryParseIndexAccessedPath();
/// Performs limited look-ahead to distinguish between variable declaration and expression statement.
/// For source code of the form "a[][8]" ("IndexAccessStructure"), this is not possible to
/// decide with constant look-ahead.
LookAheadInfo peekStatementType() const;
/// @returns an IndexAccessedPath as a prestage to parsing a variable declaration (type name)
/// or an expression;
IndexAccessedPath parseIndexAccessedPath();
/// @returns a typename parsed in look-ahead fashion from something like "a.b[8][2**70]",
/// or an empty pointer if an empty @a _pathAndIncides has been supplied.
ASTPointer typeNameFromIndexAccessStructure(IndexAccessedPath const& _pathAndIndices);
/// @returns an expression parsed in look-ahead fashion from something like "a.b[8][2**70]",
/// or an empty pointer if an empty @a _pathAndIncides has been supplied.
ASTPointer expressionFromIndexAccessStructure(IndexAccessedPath const& _pathAndIndices);
ASTPointer expectIdentifierToken();
ASTPointer expectIdentifierTokenOrAddress();
ASTPointer getLiteralAndAdvance();
///@}
bool isQuotedPath() const;
bool isStdlibPath() const;
ASTPointer getStdlibImportPathAndAdvance();
/// Creates an empty ParameterList at the current location (used if parameters can be omitted).
ASTPointer createEmptyParameterList();
/// Flag that signifies whether '_' is parsed as a PlaceholderStatement or a regular identifier.
bool m_insideModifier = false;
langutil::EVMVersion m_evmVersion;
/// Counter for the next AST node ID
int64_t m_currentNodeID = 0;
/// Flag that indicates whether experimental mode is enabled in the current source unit
bool m_experimentalSolidityEnabledInCurrentSourceUnit = false;
};
}