solidity/libsolidity/parsing/Parser.cpp

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/*
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This file is part of cpp-ethereum.
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cpp-ethereum 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.
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cpp-ethereum 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.
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You should have received a copy of the GNU General Public License
along with cpp-ethereum. If not, see <http://www.gnu.org/licenses/>.
*/
/**
* @author Christian <c@ethdev.com>
* @date 2014
* Solidity parser.
*/
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#include <vector>
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#include <libdevcore/Log.h>
#include <libevmasm/SourceLocation.h>
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#include <libsolidity/parsing/Parser.h>
#include <libsolidity/parsing/Scanner.h>
#include <libsolidity/interface/Exceptions.h>
#include <libsolidity/interface/InterfaceHandler.h>
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using namespace std;
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namespace dev
{
namespace solidity
{
/// AST node factory that also tracks the begin and end position of an AST node
/// while it is being parsed
class Parser::ASTNodeFactory
{
public:
ASTNodeFactory(Parser const& _parser):
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m_parser(_parser), m_location(_parser.position(), -1, _parser.sourceName()) {}
ASTNodeFactory(Parser const& _parser, ASTPointer<ASTNode> const& _childNode):
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m_parser(_parser), m_location(_childNode->location()) {}
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void markEndPosition() { m_location.end = m_parser.endPosition(); }
void setLocation(SourceLocation const& _location) { m_location = _location; }
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void setLocationEmpty() { m_location.end = m_location.start; }
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/// Set the end position to the one of the given node.
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void setEndPositionFromNode(ASTPointer<ASTNode> const& _node) { m_location.end = _node->location().end; }
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template <class NodeType, typename... Args>
ASTPointer<NodeType> createNode(Args&& ... _args)
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{
if (m_location.end < 0)
markEndPosition();
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return make_shared<NodeType>(m_location, forward<Args>(_args)...);
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}
private:
Parser const& m_parser;
SourceLocation m_location;
};
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ASTPointer<SourceUnit> Parser::parse(shared_ptr<Scanner> const& _scanner)
{
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try
{
m_scanner = _scanner;
ASTNodeFactory nodeFactory(*this);
vector<ASTPointer<ASTNode>> nodes;
while (m_scanner->currentToken() != Token::EOS)
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{
switch (auto token = m_scanner->currentToken())
{
case Token::Import:
nodes.push_back(parseImportDirective());
break;
case Token::Contract:
case Token::Library:
nodes.push_back(parseContractDefinition(token == Token::Library));
break;
default:
fatalParserError(std::string("Expected import directive or contract definition."));
}
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}
return nodeFactory.createNode<SourceUnit>(nodes);
}
catch (FatalError const& _error)
{
if (m_errors.empty())
throw; // Something is weird here, rather throw again.
return nullptr;
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}
}
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std::shared_ptr<const string> const& Parser::sourceName() const
{
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return m_scanner->sourceName();
}
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int Parser::position() const
{
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return m_scanner->currentLocation().start;
}
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int Parser::endPosition() const
{
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return m_scanner->currentLocation().end;
}
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ASTPointer<ImportDirective> Parser::parseImportDirective()
{
ASTNodeFactory nodeFactory(*this);
expectToken(Token::Import);
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if (m_scanner->currentToken() != Token::StringLiteral)
fatalParserError(std::string("Expected string literal (URL)."));
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ASTPointer<ASTString> url = getLiteralAndAdvance();
nodeFactory.markEndPosition();
expectToken(Token::Semicolon);
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return nodeFactory.createNode<ImportDirective>(url);
}
ASTPointer<ContractDefinition> Parser::parseContractDefinition(bool _isLibrary)
{
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ASTNodeFactory nodeFactory(*this);
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ASTPointer<ASTString> docString;
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if (m_scanner->currentCommentLiteral() != "")
docString = make_shared<ASTString>(m_scanner->currentCommentLiteral());
expectToken(_isLibrary ? Token::Library : Token::Contract);
ASTPointer<ASTString> name = expectIdentifierToken();
vector<ASTPointer<InheritanceSpecifier>> baseContracts;
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vector<ASTPointer<StructDefinition>> structs;
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vector<ASTPointer<EnumDefinition>> enums;
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vector<ASTPointer<VariableDeclaration>> stateVariables;
vector<ASTPointer<FunctionDefinition>> functions;
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vector<ASTPointer<ModifierDefinition>> modifiers;
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vector<ASTPointer<EventDefinition>> events;
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if (m_scanner->currentToken() == Token::Is)
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do
{
m_scanner->next();
baseContracts.push_back(parseInheritanceSpecifier());
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}
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while (m_scanner->currentToken() == Token::Comma);
expectToken(Token::LBrace);
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while (true)
{
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Token::Value currentTokenValue= m_scanner->currentToken();
if (currentTokenValue == Token::RBrace)
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break;
else if (currentTokenValue == Token::Function)
functions.push_back(parseFunctionDefinition(name.get()));
else if (currentTokenValue == Token::Struct)
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structs.push_back(parseStructDefinition());
else if (currentTokenValue == Token::Enum)
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enums.push_back(parseEnumDefinition());
else if (
currentTokenValue == Token::Identifier ||
currentTokenValue == Token::Mapping ||
Token::isElementaryTypeName(currentTokenValue)
)
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{
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VarDeclParserOptions options;
options.isStateVariable = true;
options.allowInitialValue = true;
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stateVariables.push_back(parseVariableDeclaration(options));
expectToken(Token::Semicolon);
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}
else if (currentTokenValue == Token::Modifier)
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modifiers.push_back(parseModifierDefinition());
else if (currentTokenValue == Token::Event)
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events.push_back(parseEventDefinition());
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else
fatalParserError(std::string("Function, variable, struct or modifier declaration expected."));
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}
nodeFactory.markEndPosition();
expectToken(Token::RBrace);
return nodeFactory.createNode<ContractDefinition>(
name,
docString,
baseContracts,
structs,
enums,
stateVariables,
functions,
modifiers,
events,
_isLibrary
);
}
ASTPointer<InheritanceSpecifier> Parser::parseInheritanceSpecifier()
{
ASTNodeFactory nodeFactory(*this);
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ASTPointer<Identifier> name(parseIdentifier());
vector<ASTPointer<Expression>> arguments;
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if (m_scanner->currentToken() == Token::LParen)
{
m_scanner->next();
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arguments = parseFunctionCallListArguments();
nodeFactory.markEndPosition();
expectToken(Token::RParen);
}
else
nodeFactory.setEndPositionFromNode(name);
return nodeFactory.createNode<InheritanceSpecifier>(name, arguments);
}
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Declaration::Visibility Parser::parseVisibilitySpecifier(Token::Value _token)
{
Declaration::Visibility visibility(Declaration::Visibility::Default);
if (_token == Token::Public)
visibility = Declaration::Visibility::Public;
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else if (_token == Token::Internal)
visibility = Declaration::Visibility::Internal;
else if (_token == Token::Private)
visibility = Declaration::Visibility::Private;
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else if (_token == Token::External)
visibility = Declaration::Visibility::External;
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else
solAssert(false, "Invalid visibility specifier.");
m_scanner->next();
return visibility;
}
ASTPointer<FunctionDefinition> Parser::parseFunctionDefinition(ASTString const* _contractName)
{
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ASTNodeFactory nodeFactory(*this);
ASTPointer<ASTString> docstring;
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if (m_scanner->currentCommentLiteral() != "")
docstring = make_shared<ASTString>(m_scanner->currentCommentLiteral());
expectToken(Token::Function);
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ASTPointer<ASTString> name;
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if (m_scanner->currentToken() == Token::LParen)
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name = make_shared<ASTString>(); // anonymous function
else
name = expectIdentifierToken();
VarDeclParserOptions options;
options.allowLocationSpecifier = true;
ASTPointer<ParameterList> parameters(parseParameterList(options));
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bool isDeclaredConst = false;
Declaration::Visibility visibility(Declaration::Visibility::Default);
vector<ASTPointer<ModifierInvocation>> modifiers;
while (true)
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{
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Token::Value token = m_scanner->currentToken();
if (token == Token::Const)
{
isDeclaredConst = true;
m_scanner->next();
}
else if (token == Token::Identifier)
modifiers.push_back(parseModifierInvocation());
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else if (Token::isVisibilitySpecifier(token))
{
if (visibility != Declaration::Visibility::Default)
fatalParserError(std::string("Multiple visibility specifiers."));
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visibility = parseVisibilitySpecifier(token);
}
else
break;
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}
ASTPointer<ParameterList> returnParameters;
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if (m_scanner->currentToken() == Token::Returns)
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{
bool const permitEmptyParameterList = false;
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m_scanner->next();
returnParameters = parseParameterList(options, permitEmptyParameterList);
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}
else
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returnParameters = createEmptyParameterList();
ASTPointer<Block> block = ASTPointer<Block>();
nodeFactory.markEndPosition();
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if (m_scanner->currentToken() != Token::Semicolon)
{
block = parseBlock();
nodeFactory.setEndPositionFromNode(block);
}
else
m_scanner->next(); // just consume the ';'
bool const c_isConstructor = (_contractName && *name == *_contractName);
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return nodeFactory.createNode<FunctionDefinition>(
name,
visibility,
c_isConstructor,
docstring,
parameters,
isDeclaredConst,
modifiers,
returnParameters,
block
);
}
ASTPointer<StructDefinition> Parser::parseStructDefinition()
{
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ASTNodeFactory nodeFactory(*this);
expectToken(Token::Struct);
ASTPointer<ASTString> name = expectIdentifierToken();
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vector<ASTPointer<VariableDeclaration>> members;
expectToken(Token::LBrace);
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while (m_scanner->currentToken() != Token::RBrace)
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{
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members.push_back(parseVariableDeclaration());
expectToken(Token::Semicolon);
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}
nodeFactory.markEndPosition();
expectToken(Token::RBrace);
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return nodeFactory.createNode<StructDefinition>(name, members);
}
ASTPointer<EnumValue> Parser::parseEnumValue()
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{
ASTNodeFactory nodeFactory(*this);
nodeFactory.markEndPosition();
return nodeFactory.createNode<EnumValue>(expectIdentifierToken());
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}
ASTPointer<EnumDefinition> Parser::parseEnumDefinition()
{
ASTNodeFactory nodeFactory(*this);
expectToken(Token::Enum);
ASTPointer<ASTString> name = expectIdentifierToken();
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vector<ASTPointer<EnumValue>> members;
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expectToken(Token::LBrace);
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while (m_scanner->currentToken() != Token::RBrace)
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{
members.push_back(parseEnumValue());
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if (m_scanner->currentToken() == Token::RBrace)
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break;
expectToken(Token::Comma);
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if (m_scanner->currentToken() != Token::Identifier)
fatalParserError(std::string("Expected Identifier after ','"));
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}
nodeFactory.markEndPosition();
expectToken(Token::RBrace);
return nodeFactory.createNode<EnumDefinition>(name, members);
}
ASTPointer<VariableDeclaration> Parser::parseVariableDeclaration(
VarDeclParserOptions const& _options,
ASTPointer<TypeName> const& _lookAheadArrayType
)
{
ASTNodeFactory nodeFactory = _lookAheadArrayType ?
ASTNodeFactory(*this, _lookAheadArrayType) : ASTNodeFactory(*this);
ASTPointer<TypeName> type;
if (_lookAheadArrayType)
type = _lookAheadArrayType;
else
{
type = parseTypeName(_options.allowVar);
if (type != nullptr)
nodeFactory.setEndPositionFromNode(type);
}
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bool isIndexed = false;
bool isDeclaredConst = false;
Declaration::Visibility visibility(Declaration::Visibility::Default);
VariableDeclaration::Location location = VariableDeclaration::Location::Default;
ASTPointer<ASTString> identifier;
while (true)
{
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Token::Value token = m_scanner->currentToken();
if (_options.isStateVariable && Token::isVariableVisibilitySpecifier(token))
{
if (visibility != Declaration::Visibility::Default)
fatalParserError(std::string("Visibility already specified."));
visibility = parseVisibilitySpecifier(token);
}
else
{
if (_options.allowIndexed && token == Token::Indexed)
isIndexed = true;
else if (token == Token::Const)
isDeclaredConst = true;
else if (_options.allowLocationSpecifier && Token::isLocationSpecifier(token))
{
if (location != VariableDeclaration::Location::Default)
fatalParserError(std::string("Location already specified."));
if (!type)
fatalParserError(std::string("Location specifier needs explicit type name."));
location = (
token == Token::Memory ?
VariableDeclaration::Location::Memory :
VariableDeclaration::Location::Storage
);
}
else
break;
m_scanner->next();
}
}
nodeFactory.markEndPosition();
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if (_options.allowEmptyName && m_scanner->currentToken() != Token::Identifier)
{
identifier = make_shared<ASTString>("");
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solAssert(type != nullptr, "");
nodeFactory.setEndPositionFromNode(type);
}
else
identifier = expectIdentifierToken();
ASTPointer<Expression> value;
if (_options.allowInitialValue)
{
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if (m_scanner->currentToken() == Token::Assign)
{
m_scanner->next();
value = parseExpression();
nodeFactory.setEndPositionFromNode(value);
}
}
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return nodeFactory.createNode<VariableDeclaration>(
type,
identifier,
value,
visibility,
_options.isStateVariable,
isIndexed,
isDeclaredConst,
location
);
}
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ASTPointer<ModifierDefinition> Parser::parseModifierDefinition()
{
ScopeGuard resetModifierFlag([this]() { m_insideModifier = false; });
m_insideModifier = true;
ASTNodeFactory nodeFactory(*this);
ASTPointer<ASTString> docstring;
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if (m_scanner->currentCommentLiteral() != "")
docstring = make_shared<ASTString>(m_scanner->currentCommentLiteral());
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expectToken(Token::Modifier);
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ASTPointer<ASTString> name(expectIdentifierToken());
ASTPointer<ParameterList> parameters;
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if (m_scanner->currentToken() == Token::LParen)
{
VarDeclParserOptions options;
options.allowIndexed = true;
options.allowLocationSpecifier = true;
parameters = parseParameterList(options);
}
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else
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parameters = createEmptyParameterList();
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ASTPointer<Block> block = parseBlock();
nodeFactory.setEndPositionFromNode(block);
return nodeFactory.createNode<ModifierDefinition>(name, docstring, parameters, block);
}
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ASTPointer<EventDefinition> Parser::parseEventDefinition()
{
ASTNodeFactory nodeFactory(*this);
ASTPointer<ASTString> docstring;
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if (m_scanner->currentCommentLiteral() != "")
docstring = make_shared<ASTString>(m_scanner->currentCommentLiteral());
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expectToken(Token::Event);
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ASTPointer<ASTString> name(expectIdentifierToken());
ASTPointer<ParameterList> parameters;
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if (m_scanner->currentToken() == Token::LParen)
{
VarDeclParserOptions options;
options.allowIndexed = true;
parameters = parseParameterList(options);
}
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else
parameters = createEmptyParameterList();
bool anonymous = false;
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if (m_scanner->currentToken() == Token::Anonymous)
{
anonymous = true;
m_scanner->next();
}
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nodeFactory.markEndPosition();
expectToken(Token::Semicolon);
return nodeFactory.createNode<EventDefinition>(name, docstring, parameters, anonymous);
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}
ASTPointer<ModifierInvocation> Parser::parseModifierInvocation()
{
ASTNodeFactory nodeFactory(*this);
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ASTPointer<Identifier> name(parseIdentifier());
vector<ASTPointer<Expression>> arguments;
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if (m_scanner->currentToken() == Token::LParen)
{
m_scanner->next();
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arguments = parseFunctionCallListArguments();
nodeFactory.markEndPosition();
expectToken(Token::RParen);
}
else
nodeFactory.setEndPositionFromNode(name);
return nodeFactory.createNode<ModifierInvocation>(name, arguments);
}
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ASTPointer<Identifier> Parser::parseIdentifier()
{
ASTNodeFactory nodeFactory(*this);
nodeFactory.markEndPosition();
return nodeFactory.createNode<Identifier>(expectIdentifierToken());
}
ASTPointer<TypeName> Parser::parseTypeName(bool _allowVar)
{
ASTNodeFactory nodeFactory(*this);
ASTPointer<TypeName> type;
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Token::Value token = m_scanner->currentToken();
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if (Token::isElementaryTypeName(token))
{
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type = ASTNodeFactory(*this).createNode<ElementaryTypeName>(token);
m_scanner->next();
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}
else if (token == Token::Var)
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{
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if (!_allowVar)
fatalParserError(std::string("Expected explicit type name."));
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m_scanner->next();
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}
else if (token == Token::Mapping)
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type = parseMapping();
else if (token == Token::Identifier)
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{
ASTNodeFactory nodeFactory(*this);
nodeFactory.markEndPosition();
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vector<ASTString> identifierPath{*expectIdentifierToken()};
while (m_scanner->currentToken() == Token::Period)
{
m_scanner->next();
nodeFactory.markEndPosition();
identifierPath.push_back(*expectIdentifierToken());
}
type = nodeFactory.createNode<UserDefinedTypeName>(identifierPath);
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}
else
fatalParserError(std::string("Expected type name"));
if (type)
// Parse "[...]" postfixes for arrays.
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while (m_scanner->currentToken() == Token::LBrack)
{
m_scanner->next();
ASTPointer<Expression> length;
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if (m_scanner->currentToken() != Token::RBrack)
length = parseExpression();
nodeFactory.markEndPosition();
expectToken(Token::RBrack);
type = nodeFactory.createNode<ArrayTypeName>(type, length);
}
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return type;
}
ASTPointer<Mapping> Parser::parseMapping()
{
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ASTNodeFactory nodeFactory(*this);
expectToken(Token::Mapping);
expectToken(Token::LParen);
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if (!Token::isElementaryTypeName(m_scanner->currentToken()))
fatalParserError(std::string("Expected elementary type name for mapping key type"));
ASTPointer<ElementaryTypeName> keyType;
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keyType = ASTNodeFactory(*this).createNode<ElementaryTypeName>(m_scanner->currentToken());
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m_scanner->next();
expectToken(Token::Arrow);
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bool const allowVar = false;
ASTPointer<TypeName> valueType = parseTypeName(allowVar);
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nodeFactory.markEndPosition();
expectToken(Token::RParen);
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return nodeFactory.createNode<Mapping>(keyType, valueType);
}
ASTPointer<ParameterList> Parser::parseParameterList(
VarDeclParserOptions const& _options,
bool _allowEmpty
)
{
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ASTNodeFactory nodeFactory(*this);
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vector<ASTPointer<VariableDeclaration>> parameters;
VarDeclParserOptions options(_options);
options.allowEmptyName = true;
expectToken(Token::LParen);
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if (!_allowEmpty || m_scanner->currentToken() != Token::RParen)
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{
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parameters.push_back(parseVariableDeclaration(options));
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while (m_scanner->currentToken() != Token::RParen)
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{
expectToken(Token::Comma);
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parameters.push_back(parseVariableDeclaration(options));
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}
}
nodeFactory.markEndPosition();
m_scanner->next();
return nodeFactory.createNode<ParameterList>(parameters);
}
ASTPointer<Block> Parser::parseBlock()
{
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ASTNodeFactory nodeFactory(*this);
expectToken(Token::LBrace);
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vector<ASTPointer<Statement>> statements;
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while (m_scanner->currentToken() != Token::RBrace)
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statements.push_back(parseStatement());
nodeFactory.markEndPosition();
expectToken(Token::RBrace);
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return nodeFactory.createNode<Block>(statements);
}
ASTPointer<Statement> Parser::parseStatement()
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{
ASTPointer<Statement> statement;
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switch (m_scanner->currentToken())
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{
case Token::If:
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return parseIfStatement();
case Token::While:
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return parseWhileStatement();
case Token::For:
return parseForStatement();
case Token::LBrace:
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return parseBlock();
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// starting from here, all statements must be terminated by a semicolon
case Token::Continue:
statement = ASTNodeFactory(*this).createNode<Continue>();
m_scanner->next();
break;
case Token::Break:
statement = ASTNodeFactory(*this).createNode<Break>();
m_scanner->next();
break;
case Token::Return:
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{
ASTNodeFactory nodeFactory(*this);
ASTPointer<Expression> expression;
if (m_scanner->next() != Token::Semicolon)
{
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expression = parseExpression();
nodeFactory.setEndPositionFromNode(expression);
}
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statement = nodeFactory.createNode<Return>(expression);
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break;
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}
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case Token::Throw:
{
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statement = ASTNodeFactory(*this).createNode<Throw>();
m_scanner->next();
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break;
}
case Token::Identifier:
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if (m_insideModifier && m_scanner->currentLiteral() == "_")
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{
statement = ASTNodeFactory(*this).createNode<PlaceholderStatement>();
m_scanner->next();
return statement;
}
// fall-through
default:
statement = parseSimpleStatement();
}
expectToken(Token::Semicolon);
return statement;
}
ASTPointer<IfStatement> Parser::parseIfStatement()
{
ASTNodeFactory nodeFactory(*this);
expectToken(Token::If);
expectToken(Token::LParen);
ASTPointer<Expression> condition = parseExpression();
expectToken(Token::RParen);
ASTPointer<Statement> trueBody = parseStatement();
ASTPointer<Statement> falseBody;
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if (m_scanner->currentToken() == Token::Else)
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{
m_scanner->next();
falseBody = parseStatement();
nodeFactory.setEndPositionFromNode(falseBody);
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}
else
nodeFactory.setEndPositionFromNode(trueBody);
return nodeFactory.createNode<IfStatement>(condition, trueBody, falseBody);
}
ASTPointer<WhileStatement> Parser::parseWhileStatement()
{
ASTNodeFactory nodeFactory(*this);
expectToken(Token::While);
expectToken(Token::LParen);
ASTPointer<Expression> condition = parseExpression();
expectToken(Token::RParen);
ASTPointer<Statement> body = parseStatement();
nodeFactory.setEndPositionFromNode(body);
return nodeFactory.createNode<WhileStatement>(condition, body);
}
ASTPointer<ForStatement> Parser::parseForStatement()
{
ASTNodeFactory nodeFactory(*this);
ASTPointer<Statement> initExpression;
ASTPointer<Expression> conditionExpression;
ASTPointer<ExpressionStatement> loopExpression;
expectToken(Token::For);
expectToken(Token::LParen);
// LTODO: Maybe here have some predicate like peekExpression() instead of checking for semicolon and RParen?
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if (m_scanner->currentToken() != Token::Semicolon)
initExpression = parseSimpleStatement();
expectToken(Token::Semicolon);
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if (m_scanner->currentToken() != Token::Semicolon)
conditionExpression = parseExpression();
expectToken(Token::Semicolon);
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if (m_scanner->currentToken() != Token::RParen)
loopExpression = parseExpressionStatement();
expectToken(Token::RParen);
ASTPointer<Statement> body = parseStatement();
nodeFactory.setEndPositionFromNode(body);
return nodeFactory.createNode<ForStatement>(initExpression,
conditionExpression,
loopExpression,
body);
}
ASTPointer<Statement> Parser::parseSimpleStatement()
{
// These two cases are very hard to distinguish:
// x[7 * 20 + 3] a; - x[7 * 20 + 3] = 9;
// In the first case, x is a type name, in the second it is the name of a variable.
// As an extension, we can even have:
// `x.y.z[1][2] a;` and `x.y.z[1][2] = 10;`
// Where in the first, x.y.z leads to a type name where in the second, it accesses structs.
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switch (peekStatementType())
{
case LookAheadInfo::VariableDeclarationStatement:
return parseVariableDeclarationStatement();
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case LookAheadInfo::ExpressionStatement:
return parseExpressionStatement();
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default:
break;
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}
// At this point, we have 'Identifier "["' or 'Identifier "." Identifier' or 'ElementoryTypeName "["'.
// We parse '(Identifier ("." Identifier)* |ElementaryTypeName) ( "[" Expression "]" )+'
// until we can decide whether to hand this over to ExpressionStatement or create a
// VariableDeclarationStatement out of it.
vector<ASTPointer<PrimaryExpression>> path;
bool startedWithElementary = false;
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if (m_scanner->currentToken() == Token::Identifier)
path.push_back(parseIdentifier());
else
{
startedWithElementary = true;
path.push_back(ASTNodeFactory(*this).createNode<ElementaryTypeNameExpression>(m_scanner->currentToken()));
m_scanner->next();
}
while (!startedWithElementary && m_scanner->currentToken() == Token::Period)
{
m_scanner->next();
path.push_back(parseIdentifier());
}
vector<pair<ASTPointer<Expression>, SourceLocation>> indices;
while (m_scanner->currentToken() == Token::LBrack)
{
expectToken(Token::LBrack);
ASTPointer<Expression> index;
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if (m_scanner->currentToken() != Token::RBrack)
index = parseExpression();
SourceLocation indexLocation = path.front()->location();
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indexLocation.end = endPosition();
indices.push_back(make_pair(index, indexLocation));
expectToken(Token::RBrack);
}
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if (m_scanner->currentToken() == Token::Identifier || Token::isLocationSpecifier(m_scanner->currentToken()))
return parseVariableDeclarationStatement(typeNameIndexAccessStructure(path, indices));
else
return parseExpressionStatement(expressionFromIndexAccessStructure(path, indices));
}
ASTPointer<VariableDeclarationStatement> Parser::parseVariableDeclarationStatement(
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ASTPointer<TypeName> const& _lookAheadArrayType
)
{
ASTNodeFactory nodeFactory(*this);
if (_lookAheadArrayType)
nodeFactory.setLocation(_lookAheadArrayType->location());
vector<ASTPointer<VariableDeclaration>> variables;
ASTPointer<Expression> value;
if (
!_lookAheadArrayType &&
m_scanner->currentToken() == Token::Var &&
m_scanner->peekNextToken() == Token::LParen
)
{
// Parse `var (a, b, ,, c) = ...` into a single VariableDeclarationStatement with multiple variables.
m_scanner->next();
m_scanner->next();
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if (m_scanner->currentToken() != Token::RParen)
while (true)
{
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ASTPointer<VariableDeclaration> var;
if (
m_scanner->currentToken() != Token::Comma &&
m_scanner->currentToken() != Token::RParen
)
{
ASTNodeFactory varDeclNodeFactory(*this);
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varDeclNodeFactory.markEndPosition();
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ASTPointer<ASTString> name = expectIdentifierToken();
var = varDeclNodeFactory.createNode<VariableDeclaration>(
ASTPointer<TypeName>(),
name,
ASTPointer<Expression>(),
VariableDeclaration::Visibility::Default
);
}
variables.push_back(var);
if (m_scanner->currentToken() == Token::RParen)
break;
else
expectToken(Token::Comma);
}
nodeFactory.markEndPosition();
m_scanner->next();
}
else
{
VarDeclParserOptions options;
options.allowVar = true;
options.allowLocationSpecifier = true;
variables.push_back(parseVariableDeclaration(options, _lookAheadArrayType));
}
if (m_scanner->currentToken() == Token::Assign)
{
m_scanner->next();
value = parseExpression();
nodeFactory.setEndPositionFromNode(value);
}
return nodeFactory.createNode<VariableDeclarationStatement>(variables, value);
}
ASTPointer<ExpressionStatement> Parser::parseExpressionStatement(
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ASTPointer<Expression> const& _lookAheadIndexAccessStructure
)
{
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ASTPointer<Expression> expression = parseExpression(_lookAheadIndexAccessStructure);
return ASTNodeFactory(*this, expression).createNode<ExpressionStatement>(expression);
}
ASTPointer<Expression> Parser::parseExpression(
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ASTPointer<Expression> const& _lookAheadIndexAccessStructure
)
{
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ASTPointer<Expression> expression = parseBinaryExpression(4, _lookAheadIndexAccessStructure);
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if (!Token::isAssignmentOp(m_scanner->currentToken()))
return expression;
Token::Value assignmentOperator = expectAssignmentOperator();
ASTPointer<Expression> rightHandSide = parseExpression();
ASTNodeFactory nodeFactory(*this, expression);
nodeFactory.setEndPositionFromNode(rightHandSide);
return nodeFactory.createNode<Assignment>(expression, assignmentOperator, rightHandSide);
}
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ASTPointer<Expression> Parser::parseBinaryExpression(
int _minPrecedence,
ASTPointer<Expression> const& _lookAheadIndexAccessStructure
)
{
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ASTPointer<Expression> expression = parseUnaryExpression(_lookAheadIndexAccessStructure);
ASTNodeFactory nodeFactory(*this, expression);
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int precedence = Token::precedence(m_scanner->currentToken());
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for (; precedence >= _minPrecedence; --precedence)
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while (Token::precedence(m_scanner->currentToken()) == precedence)
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{
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Token::Value op = m_scanner->currentToken();
m_scanner->next();
ASTPointer<Expression> right = parseBinaryExpression(precedence + 1);
nodeFactory.setEndPositionFromNode(right);
expression = nodeFactory.createNode<BinaryOperation>(expression, op, right);
}
return expression;
}
ASTPointer<Expression> Parser::parseUnaryExpression(
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ASTPointer<Expression> const& _lookAheadIndexAccessStructure
)
{
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ASTNodeFactory nodeFactory = _lookAheadIndexAccessStructure ?
ASTNodeFactory(*this, _lookAheadIndexAccessStructure) : ASTNodeFactory(*this);
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Token::Value token = m_scanner->currentToken();
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if (!_lookAheadIndexAccessStructure && (Token::isUnaryOp(token) || Token::isCountOp(token)))
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{
// prefix expression
m_scanner->next();
ASTPointer<Expression> subExpression = parseUnaryExpression();
nodeFactory.setEndPositionFromNode(subExpression);
return nodeFactory.createNode<UnaryOperation>(token, subExpression, true);
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}
else
{
// potential postfix expression
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ASTPointer<Expression> subExpression = parseLeftHandSideExpression(_lookAheadIndexAccessStructure);
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token = m_scanner->currentToken();
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if (!Token::isCountOp(token))
return subExpression;
nodeFactory.markEndPosition();
m_scanner->next();
return nodeFactory.createNode<UnaryOperation>(token, subExpression, false);
}
}
ASTPointer<Expression> Parser::parseLeftHandSideExpression(
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ASTPointer<Expression> const& _lookAheadIndexAccessStructure
)
{
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ASTNodeFactory nodeFactory = _lookAheadIndexAccessStructure ?
ASTNodeFactory(*this, _lookAheadIndexAccessStructure) : ASTNodeFactory(*this);
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ASTPointer<Expression> expression;
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if (_lookAheadIndexAccessStructure)
expression = _lookAheadIndexAccessStructure;
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else if (m_scanner->currentToken() == Token::New)
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{
expectToken(Token::New);
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ASTPointer<Identifier> contractName(parseIdentifier());
nodeFactory.setEndPositionFromNode(contractName);
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expression = nodeFactory.createNode<NewExpression>(contractName);
}
else
expression = parsePrimaryExpression();
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while (true)
{
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switch (m_scanner->currentToken())
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{
case Token::LBrack:
{
m_scanner->next();
ASTPointer<Expression> index;
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if (m_scanner->currentToken() != Token::RBrack)
index = parseExpression();
nodeFactory.markEndPosition();
expectToken(Token::RBrack);
expression = nodeFactory.createNode<IndexAccess>(expression, index);
}
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break;
case Token::Period:
{
m_scanner->next();
nodeFactory.markEndPosition();
expression = nodeFactory.createNode<MemberAccess>(expression, expectIdentifierToken());
}
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break;
case Token::LParen:
{
m_scanner->next();
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vector<ASTPointer<Expression>> arguments;
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vector<ASTPointer<ASTString>> names;
std::tie(arguments, names) = parseFunctionCallArguments();
nodeFactory.markEndPosition();
expectToken(Token::RParen);
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expression = nodeFactory.createNode<FunctionCall>(expression, arguments, names);
}
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break;
default:
return expression;
}
}
}
ASTPointer<Expression> Parser::parsePrimaryExpression()
{
ASTNodeFactory nodeFactory(*this);
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Token::Value token = m_scanner->currentToken();
ASTPointer<Expression> expression;
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switch (token)
{
case Token::TrueLiteral:
case Token::FalseLiteral:
expression = nodeFactory.createNode<Literal>(token, getLiteralAndAdvance());
break;
case Token::Number:
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if (Token::isEtherSubdenomination(m_scanner->peekNextToken()))
{
ASTPointer<ASTString> literal = getLiteralAndAdvance();
nodeFactory.markEndPosition();
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Literal::SubDenomination subdenomination = static_cast<Literal::SubDenomination>(m_scanner->currentToken());
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m_scanner->next();
expression = nodeFactory.createNode<Literal>(token, literal, subdenomination);
break;
}
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if (Token::isTimeSubdenomination(m_scanner->peekNextToken()))
{
ASTPointer<ASTString> literal = getLiteralAndAdvance();
nodeFactory.markEndPosition();
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Literal::SubDenomination subdenomination = static_cast<Literal::SubDenomination>(m_scanner->currentToken());
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m_scanner->next();
expression = nodeFactory.createNode<Literal>(token, literal, subdenomination);
break;
}
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// fall-through
case Token::StringLiteral:
nodeFactory.markEndPosition();
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expression = nodeFactory.createNode<Literal>(token, getLiteralAndAdvance());
break;
case Token::Identifier:
nodeFactory.markEndPosition();
expression = nodeFactory.createNode<Identifier>(getLiteralAndAdvance());
break;
case Token::LParen:
{
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// Tuple or parenthesized expression.
// Special cases: () is empty tuple type, (x) is not a real tuple, (x,) is one-dimensional tuple
m_scanner->next();
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vector<ASTPointer<Expression>> components;
if (m_scanner->currentToken() != Token::RParen)
while (true)
{
if (m_scanner->currentToken() != Token::Comma && m_scanner->currentToken() != Token::RParen)
components.push_back(parseExpression());
else
components.push_back(ASTPointer<Expression>());
if (m_scanner->currentToken() == Token::RParen)
break;
else if (m_scanner->currentToken() == Token::Comma)
m_scanner->next();
}
nodeFactory.markEndPosition();
expectToken(Token::RParen);
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return nodeFactory.createNode<TupleExpression>(components);
}
default:
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if (Token::isElementaryTypeName(token))
{
// used for casts
expression = nodeFactory.createNode<ElementaryTypeNameExpression>(token);
m_scanner->next();
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}
else
fatalParserError(std::string("Expected primary expression."));
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break;
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}
return expression;
}
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vector<ASTPointer<Expression>> Parser::parseFunctionCallListArguments()
{
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vector<ASTPointer<Expression>> arguments;
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if (m_scanner->currentToken() != Token::RParen)
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{
arguments.push_back(parseExpression());
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while (m_scanner->currentToken() != Token::RParen)
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{
expectToken(Token::Comma);
arguments.push_back(parseExpression());
}
}
return arguments;
}
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pair<vector<ASTPointer<Expression>>, vector<ASTPointer<ASTString>>> Parser::parseFunctionCallArguments()
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{
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pair<vector<ASTPointer<Expression>>, vector<ASTPointer<ASTString>>> ret;
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Token::Value token = m_scanner->currentToken();
if (token == Token::LBrace)
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{
// call({arg1 : 1, arg2 : 2 })
expectToken(Token::LBrace);
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while (m_scanner->currentToken() != Token::RBrace)
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{
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ret.second.push_back(expectIdentifierToken());
expectToken(Token::Colon);
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ret.first.push_back(parseExpression());
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if (m_scanner->currentToken() == Token::Comma)
expectToken(Token::Comma);
2015-01-29 17:26:00 +00:00
else
break;
}
expectToken(Token::RBrace);
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}
else
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ret.first = parseFunctionCallListArguments();
return ret;
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}
2015-02-23 13:38:44 +00:00
Parser::LookAheadInfo Parser::peekStatementType() const
{
// Distinguish between variable declaration (and potentially assignment) and expression statement
// (which include assignments to other expressions and pre-declared variables).
// We have a variable declaration if we get a keyword that specifies a type name.
// If it is an identifier or an elementary type name followed by an identifier, we also have
// a variable declaration.
// If we get an identifier followed by a "[" or ".", it can be both ("lib.type[9] a;" or "variable.el[9] = 7;").
// In all other cases, we have an expression statement.
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Token::Value token(m_scanner->currentToken());
bool mightBeTypeName = (Token::isElementaryTypeName(token) || token == Token::Identifier);
if (token == Token::Mapping || token == Token::Var)
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return LookAheadInfo::VariableDeclarationStatement;
if (mightBeTypeName)
{
Token::Value next = m_scanner->peekNextToken();
if (next == Token::Identifier || Token::isLocationSpecifier(next))
return LookAheadInfo::VariableDeclarationStatement;
if (next == Token::LBrack || next == Token::Period)
return LookAheadInfo::IndexAccessStructure;
}
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return LookAheadInfo::ExpressionStatement;
}
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ASTPointer<TypeName> Parser::typeNameIndexAccessStructure(
vector<ASTPointer<PrimaryExpression>> const& _path,
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vector<pair<ASTPointer<Expression>, SourceLocation>> const& _indices
)
{
solAssert(!_path.empty(), "");
ASTNodeFactory nodeFactory(*this);
SourceLocation location = _path.front()->location();
location.end = _path.back()->location().end;
nodeFactory.setLocation(location);
ASTPointer<TypeName> type;
if (auto typeName = dynamic_cast<ElementaryTypeNameExpression const*>(_path.front().get()))
{
solAssert(_path.size() == 1, "");
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type = nodeFactory.createNode<ElementaryTypeName>(typeName->typeToken());
}
else
{
vector<ASTString> path;
for (auto const& el: _path)
path.push_back(dynamic_cast<Identifier const&>(*el).name());
type = nodeFactory.createNode<UserDefinedTypeName>(path);
}
for (auto const& lengthExpression: _indices)
{
nodeFactory.setLocation(lengthExpression.second);
type = nodeFactory.createNode<ArrayTypeName>(type, lengthExpression.first);
}
return type;
}
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ASTPointer<Expression> Parser::expressionFromIndexAccessStructure(
vector<ASTPointer<PrimaryExpression>> const& _path,
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vector<pair<ASTPointer<Expression>, SourceLocation>> const& _indices
)
{
solAssert(!_path.empty(), "");
ASTNodeFactory nodeFactory(*this, _path.front());
ASTPointer<Expression> expression(_path.front());
for (size_t i = 1; i < _path.size(); ++i)
{
SourceLocation location(_path.front()->location());
location.end = _path[i]->location().end;
nodeFactory.setLocation(location);
Identifier const& identifier = dynamic_cast<Identifier const&>(*_path[i]);
expression = nodeFactory.createNode<MemberAccess>(
expression,
make_shared<ASTString>(identifier.name())
);
}
for (auto const& index: _indices)
{
nodeFactory.setLocation(index.second);
expression = nodeFactory.createNode<IndexAccess>(expression, index.first);
}
return expression;
}
void Parser::expectToken(Token::Value _value)
{
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if (m_scanner->currentToken() != _value)
fatalParserError(std::string(string("Expected token ") + string(Token::name(_value))));
2014-10-09 10:28:37 +00:00
m_scanner->next();
}
Token::Value Parser::expectAssignmentOperator()
{
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Token::Value op = m_scanner->currentToken();
2014-10-16 12:08:54 +00:00
if (!Token::isAssignmentOp(op))
fatalParserError(std::string("Expected assignment operator"));
m_scanner->next();
return op;
}
ASTPointer<ASTString> Parser::expectIdentifierToken()
{
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if (m_scanner->currentToken() != Token::Identifier)
fatalParserError(std::string("Expected identifier"));
return getLiteralAndAdvance();
}
ASTPointer<ASTString> Parser::getLiteralAndAdvance()
{
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ASTPointer<ASTString> identifier = make_shared<ASTString>(m_scanner->currentLiteral());
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m_scanner->next();
return identifier;
}
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ASTPointer<ParameterList> Parser::createEmptyParameterList()
{
ASTNodeFactory nodeFactory(*this);
nodeFactory.setLocationEmpty();
return nodeFactory.createNode<ParameterList>(vector<ASTPointer<VariableDeclaration>>());
}
void Parser::parserError(string const& _description)
{
auto err = make_shared<Error>(Error::Type::ParserError);
*err <<
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errinfo_sourceLocation(SourceLocation(position(), position(), sourceName())) <<
errinfo_comment(_description);
m_errors.push_back(err);
}
void Parser::fatalParserError(string const& _description)
{
parserError(_description);
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BOOST_THROW_EXCEPTION(FatalError());
}
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}
}