solidity/libsolidity/AST.h

/*
    This file is part of cpp-ethereum.

    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.

    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.

    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 abstract syntax tree.
 */

#pragma once


#include <string>
#include <vector>
#include <memory>
#include <boost/noncopyable.hpp>
#include <libevmasm/SourceLocation.h>
#include <libsolidity/Utils.h>
#include <libsolidity/ASTForward.h>
#include <libsolidity/Token.h>
#include <libsolidity/Types.h>
#include <libsolidity/Exceptions.h>
#include <libsolidity/ASTAnnotations.h>

namespace dev
{
namespace solidity
{

class ASTVisitor;
class ASTConstVisitor;


/**
 * The root (abstract) class of the AST inheritance tree.
 * It is possible to traverse all direct and indirect children of an AST node by calling
 * accept, providing an ASTVisitor.
 */
class ASTNode: private boost::noncopyable
{
public:
	explicit ASTNode(SourceLocation const& _location);
	virtual ~ASTNode();

	virtual void accept(ASTVisitor& _visitor) = 0;
	virtual void accept(ASTConstVisitor& _visitor) const = 0;
	template <class T>
	static void listAccept(std::vector<ASTPointer<T>>& _list, ASTVisitor& _visitor)
	{
		for (ASTPointer<T>& element: _list)
			element->accept(_visitor);
	}
	template <class T>
	static void listAccept(std::vector<ASTPointer<T>> const& _list, ASTConstVisitor& _visitor)
	{
		for (ASTPointer<T> const& element: _list)
			element->accept(_visitor);
	}

	/// Returns the source code location of this node.
	SourceLocation const& location() const { return m_location; }

	/// Creates a @ref TypeError exception and decorates it with the location of the node and
	/// the given description
	TypeError createTypeError(std::string const& _description) const;

	///@todo make this const-safe by providing a different way to access the annotation
	virtual ASTAnnotation& annotation() const;

	///@{
	///@name equality operators
	/// Equality relies on the fact that nodes cannot be copied.
	bool operator==(ASTNode const& _other) const { return this == &_other; }
	bool operator!=(ASTNode const& _other) const { return !operator==(_other); }
	///@}

protected:
	/// Annotation - is specialised in derived classes, is created upon request (because of polymorphism).
	mutable ASTAnnotation* m_annotation = nullptr;

private:
	SourceLocation m_location;
};

/**
 * Source unit containing import directives and contract definitions.
 */
class SourceUnit: public ASTNode
{
public:
	SourceUnit(SourceLocation const& _location, std::vector<ASTPointer<ASTNode>> const& _nodes):
		ASTNode(_location), m_nodes(_nodes) {}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	std::vector<ASTPointer<ASTNode>> nodes() const { return m_nodes; }

private:
	std::vector<ASTPointer<ASTNode>> m_nodes;
};

/**
 * Import directive for referencing other files / source objects.
 * Example: import "abc.sol"
 * Source objects are identified by a string which can be a file name but does not have to be.
 */
class ImportDirective: public ASTNode
{
public:
	ImportDirective(SourceLocation const& _location, ASTPointer<ASTString> const& _identifier):
		ASTNode(_location), m_identifier(_identifier) {}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	ASTString const& identifier() const { return *m_identifier; }

private:
	ASTPointer<ASTString> m_identifier;
};

/**
 * Abstract AST class for a declaration (contract, function, struct, variable).
 */
class Declaration: public ASTNode
{
public:
	/// Visibility ordered from restricted to unrestricted.
	enum class Visibility { Default, Private, Internal, Public, External };

	Declaration(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name,
		Visibility _visibility = Visibility::Default
	):
		ASTNode(_location), m_name(_name), m_visibility(_visibility), m_scope(nullptr) {}

	/// @returns the declared name.
	ASTString const& name() const { return *m_name; }
	Visibility visibility() const { return m_visibility == Visibility::Default ? defaultVisibility() : m_visibility; }
	bool isPublic() const { return visibility() >= Visibility::Public; }
	virtual bool isVisibleInContract() const { return visibility() != Visibility::External; }
	bool isVisibleInDerivedContracts() const { return isVisibleInContract() && visibility() >= Visibility::Internal; }

	/// @returns the scope this declaration resides in. Can be nullptr if it is the global scope.
	/// Available only after name and type resolution step.
	Declaration const* scope() const { return m_scope; }
	void setScope(Declaration const* _scope) { m_scope = _scope; }

	virtual bool isLValue() const { return false; }
	virtual bool isPartOfExternalInterface() const { return false; }

	/// @returns the type of expressions referencing this declaration.
	/// The current contract has to be given since this context can change the type, especially of
	/// contract types.
	/// This can only be called once types of variable declarations have already been resolved.
	virtual TypePointer type(ContractDefinition const* m_currentContract = nullptr) const = 0;

protected:
	virtual Visibility defaultVisibility() const { return Visibility::Public; }

private:
	ASTPointer<ASTString> m_name;
	Visibility m_visibility;
	Declaration const* m_scope;
};

/**
 * Abstract class that is added to each AST node that can store local variables.
 */
class VariableScope
{
public:
	void addLocalVariable(VariableDeclaration const& _localVariable) { m_localVariables.push_back(&_localVariable); }
	std::vector<VariableDeclaration const*> const& localVariables() const { return m_localVariables; }

private:
	std::vector<VariableDeclaration const*> m_localVariables;
};

/**
 * Abstract class that is added to each AST node that can receive documentation.
 */
class Documented
{
public:
	explicit Documented(ASTPointer<ASTString> const& _documentation): m_documentation(_documentation) {}

	/// @return A shared pointer of an ASTString.
	/// Can contain a nullptr in which case indicates absence of documentation
	ASTPointer<ASTString> const& documentation() const { return m_documentation; }

protected:
	ASTPointer<ASTString> m_documentation;
};

/**
 * Abstract class that is added to AST nodes that can be marked as not being fully implemented
 */
class ImplementationOptional
{
public:
	explicit ImplementationOptional(bool _implemented): m_implemented(_implemented) {}

	/// @return whether this node is fully implemented or not
	bool isImplemented() const { return m_implemented; }

protected:
	bool m_implemented;
};

/// @}

/**
 * Definition of a contract or library. This is the only AST nodes where child nodes are not visited in
 * document order. It first visits all struct declarations, then all variable declarations and
 * finally all function declarations.
 */
class ContractDefinition: public Declaration, public Documented
{
public:
	ContractDefinition(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name,
		ASTPointer<ASTString> const& _documentation,
		std::vector<ASTPointer<InheritanceSpecifier>> const& _baseContracts,
		std::vector<ASTPointer<StructDefinition>> const& _definedStructs,
		std::vector<ASTPointer<EnumDefinition>> const& _definedEnums,
		std::vector<ASTPointer<VariableDeclaration>> const& _stateVariables,
		std::vector<ASTPointer<FunctionDefinition>> const& _definedFunctions,
		std::vector<ASTPointer<ModifierDefinition>> const& _functionModifiers,
		std::vector<ASTPointer<EventDefinition>> const& _events,
		bool _isLibrary
	):
		Declaration(_location, _name),
		Documented(_documentation),
		m_baseContracts(_baseContracts),
		m_definedStructs(_definedStructs),
		m_definedEnums(_definedEnums),
		m_stateVariables(_stateVariables),
		m_definedFunctions(_definedFunctions),
		m_functionModifiers(_functionModifiers),
		m_events(_events),
		m_isLibrary(_isLibrary)
	{}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	std::vector<ASTPointer<InheritanceSpecifier>> const& baseContracts() const { return m_baseContracts; }
	std::vector<ASTPointer<StructDefinition>> const& definedStructs() const { return m_definedStructs; }
	std::vector<ASTPointer<EnumDefinition>> const& definedEnums() const { return m_definedEnums; }
	std::vector<ASTPointer<VariableDeclaration>> const& stateVariables() const { return m_stateVariables; }
	std::vector<ASTPointer<ModifierDefinition>> const& functionModifiers() const { return m_functionModifiers; }
	std::vector<ASTPointer<FunctionDefinition>> const& definedFunctions() const { return m_definedFunctions; }
	std::vector<ASTPointer<EventDefinition>> const& events() const { return m_events; }
	std::vector<ASTPointer<EventDefinition>> const& interfaceEvents() const;
	bool isLibrary() const { return m_isLibrary; }

	/// @returns a map of canonical function signatures to FunctionDefinitions
	/// as intended for use by the ABI.
	std::map<FixedHash<4>, FunctionTypePointer> interfaceFunctions() const;
	std::vector<std::pair<FixedHash<4>, FunctionTypePointer>> const& interfaceFunctionList() const;

	/// @returns a list of the inheritable members of this contract
	std::vector<Declaration const*> const& inheritableMembers() const;

	/// Returns the constructor or nullptr if no constructor was specified.
	FunctionDefinition const* constructor() const;
	/// Returns the fallback function or nullptr if no fallback function was specified.
	FunctionDefinition const* fallbackFunction() const;

	std::string const& userDocumentation() const;
	void setUserDocumentation(std::string const& _userDocumentation);

	std::string const& devDocumentation() const;
	void setDevDocumentation(std::string const& _devDocumentation);

	virtual TypePointer type(ContractDefinition const* m_currentContract) const override;

	virtual ContractDefinitionAnnotation& annotation() const override;

private:
	std::vector<ASTPointer<InheritanceSpecifier>> m_baseContracts;
	std::vector<ASTPointer<StructDefinition>> m_definedStructs;
	std::vector<ASTPointer<EnumDefinition>> m_definedEnums;
	std::vector<ASTPointer<VariableDeclaration>> m_stateVariables;
	std::vector<ASTPointer<FunctionDefinition>> m_definedFunctions;
	std::vector<ASTPointer<ModifierDefinition>> m_functionModifiers;
	std::vector<ASTPointer<EventDefinition>> m_events;
	bool m_isLibrary;

	// parsed Natspec documentation of the contract.
	std::string m_userDocumentation;
	std::string m_devDocumentation;

	std::vector<ContractDefinition const*> m_linearizedBaseContracts;
	mutable std::unique_ptr<std::vector<std::pair<FixedHash<4>, FunctionTypePointer>>> m_interfaceFunctionList;
	mutable std::unique_ptr<std::vector<ASTPointer<EventDefinition>>> m_interfaceEvents;
	mutable std::unique_ptr<std::vector<Declaration const*>> m_inheritableMembers;
};

class InheritanceSpecifier: public ASTNode
{
public:
	InheritanceSpecifier(
		SourceLocation const& _location,
		ASTPointer<Identifier> const& _baseName,
		std::vector<ASTPointer<Expression>> _arguments
	):
		ASTNode(_location), m_baseName(_baseName), m_arguments(_arguments) {}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Identifier const& name() const { return *m_baseName; }
	std::vector<ASTPointer<Expression>> const& arguments() const { return m_arguments; }

private:
	ASTPointer<Identifier> m_baseName;
	std::vector<ASTPointer<Expression>> m_arguments;
};

class StructDefinition: public Declaration
{
public:
	StructDefinition(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name,
		std::vector<ASTPointer<VariableDeclaration>> const& _members
	):
		Declaration(_location, _name), m_members(_members) {}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	std::vector<ASTPointer<VariableDeclaration>> const& members() const { return m_members; }

	virtual TypePointer type(ContractDefinition const* m_currentContract) const override;

	virtual TypeDeclarationAnnotation& annotation() const override;

private:
	std::vector<ASTPointer<VariableDeclaration>> m_members;
};

class EnumDefinition: public Declaration
{
public:
	EnumDefinition(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name,
		std::vector<ASTPointer<EnumValue>> const& _members
	):
		Declaration(_location, _name), m_members(_members) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	std::vector<ASTPointer<EnumValue>> const& members() const { return m_members; }

	virtual TypePointer type(ContractDefinition const* m_currentContract) const override;

	virtual TypeDeclarationAnnotation& annotation() const override;

private:
	std::vector<ASTPointer<EnumValue>> m_members;
};

/**
 * Declaration of an Enum Value
 */
class EnumValue: public Declaration
{
public:
	EnumValue(SourceLocation const& _location, ASTPointer<ASTString> const& _name):
		Declaration(_location, _name) {}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	virtual TypePointer type(ContractDefinition const* m_currentContract) const override;
};

/**
 * Parameter list, used as function parameter list and return list.
 * None of the parameters is allowed to contain mappings (not even recursively
 * inside structs).
 */
class ParameterList: public ASTNode
{
public:
	ParameterList(
		SourceLocation const& _location,
		std::vector<ASTPointer<VariableDeclaration>> const& _parameters
	):
		ASTNode(_location), m_parameters(_parameters) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	std::vector<ASTPointer<VariableDeclaration>> const& parameters() const { return m_parameters; }

private:
	std::vector<ASTPointer<VariableDeclaration>> m_parameters;
};

/**
 * Base class for all nodes that define function-like objects, i.e. FunctionDefinition,
 * EventDefinition and ModifierDefinition.
 */
class CallableDeclaration: public Declaration, public VariableScope
{
public:
	CallableDeclaration(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name,
		Declaration::Visibility _visibility,
		ASTPointer<ParameterList> const& _parameters,
		ASTPointer<ParameterList> const& _returnParameters = ASTPointer<ParameterList>()
	):
		Declaration(_location, _name, _visibility),
		m_parameters(_parameters),
		m_returnParameters(_returnParameters)
	{
	}

	std::vector<ASTPointer<VariableDeclaration>> const& parameters() const { return m_parameters->parameters(); }
	ParameterList const& parameterList() const { return *m_parameters; }
	ASTPointer<ParameterList> const& returnParameterList() const { return m_returnParameters; }

protected:
	ASTPointer<ParameterList> m_parameters;
	ASTPointer<ParameterList> m_returnParameters;
};

class FunctionDefinition: public CallableDeclaration, public Documented, public ImplementationOptional
{
public:
	FunctionDefinition(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name,
		Declaration::Visibility _visibility,
		bool _isConstructor,
		ASTPointer<ASTString> const& _documentation,
		ASTPointer<ParameterList> const& _parameters,
		bool _isDeclaredConst,
		std::vector<ASTPointer<ModifierInvocation>> const& _modifiers,
		ASTPointer<ParameterList> const& _returnParameters,
		ASTPointer<Block> const& _body
	):
		CallableDeclaration(_location, _name, _visibility, _parameters, _returnParameters),
		Documented(_documentation),
		ImplementationOptional(_body != nullptr),
		m_isConstructor(_isConstructor),
		m_isDeclaredConst(_isDeclaredConst),
		m_functionModifiers(_modifiers),
		m_body(_body)
	{}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	bool isConstructor() const { return m_isConstructor; }
	bool isDeclaredConst() const { return m_isDeclaredConst; }
	std::vector<ASTPointer<ModifierInvocation>> const& modifiers() const { return m_functionModifiers; }
	std::vector<ASTPointer<VariableDeclaration>> const& returnParameters() const { return m_returnParameters->parameters(); }
	Block const& body() const { return *m_body; }

	virtual bool isVisibleInContract() const override
	{
		return Declaration::isVisibleInContract() && !isConstructor() && !name().empty();
	}
	virtual bool isPartOfExternalInterface() const override { return isPublic() && !m_isConstructor && !name().empty(); }

	/// @returns the external signature of the function
	/// That consists of the name of the function followed by the types of the
	/// arguments separated by commas all enclosed in parentheses without any spaces.
	std::string externalSignature() const;

	virtual TypePointer type(ContractDefinition const* m_currentContract) const override;

private:
	bool m_isConstructor;
	bool m_isDeclaredConst;
	std::vector<ASTPointer<ModifierInvocation>> m_functionModifiers;
	ASTPointer<Block> m_body;
};

/**
 * Declaration of a variable. This can be used in various places, e.g. in function parameter
 * lists, struct definitions and even function bodys.
 */
class VariableDeclaration: public Declaration
{
public:
	enum Location { Default, Storage, Memory };

	VariableDeclaration(
		SourceLocation const& _sourceLocation,
		ASTPointer<TypeName> const& _type,
		ASTPointer<ASTString> const& _name,
		ASTPointer<Expression> _value,
		Visibility _visibility,
		bool _isStateVar = false,
		bool _isIndexed = false,
		bool _isConstant = false,
		Location _referenceLocation = Location::Default
	):
		Declaration(_sourceLocation, _name, _visibility),
		m_typeName(_type),
		m_value(_value),
		m_isStateVariable(_isStateVar),
		m_isIndexed(_isIndexed),
		m_isConstant(_isConstant),
		m_location(_referenceLocation) {}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	TypeName* typeName() const { return m_typeName.get(); }
	ASTPointer<Expression> const& value() const { return m_value; }

	virtual bool isLValue() const override;
	virtual bool isPartOfExternalInterface() const override { return isPublic(); }

	bool isLocalVariable() const { return !!dynamic_cast<FunctionDefinition const*>(scope()); }
	/// @returns true if this variable is a parameter or return parameter of a function.
	bool isCallableParameter() const;
	/// @returns true if this variable is a parameter (not return parameter) of an external function.
	bool isExternalCallableParameter() const;
	/// @returns true if the type of the variable does not need to be specified, i.e. it is declared
	/// in the body of a function or modifier.
	bool canHaveAutoType() const;
	bool isStateVariable() const { return m_isStateVariable; }
	bool isIndexed() const { return m_isIndexed; }
	bool isConstant() const { return m_isConstant; }
	Location referenceLocation() const { return m_location; }

	virtual TypePointer type(ContractDefinition const* m_currentContract) const override;

	virtual VariableDeclarationAnnotation& annotation() const override;

protected:
	Visibility defaultVisibility() const override { return Visibility::Internal; }

private:
	ASTPointer<TypeName> m_typeName; ///< can be empty ("var")
	/// Initially assigned value, can be missing. For local variables, this is stored inside
	/// VariableDeclarationStatement and not here.
	ASTPointer<Expression> m_value;
	bool m_isStateVariable; ///< Whether or not this is a contract state variable
	bool m_isIndexed; ///< Whether this is an indexed variable (used by events).
	bool m_isConstant; ///< Whether the variable is a compile-time constant.
	Location m_location; ///< Location of the variable if it is of reference type.
};

/**
 * Definition of a function modifier.
 */
class ModifierDefinition: public CallableDeclaration, public Documented
{
public:
	ModifierDefinition(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name,
		ASTPointer<ASTString> const& _documentation,
		ASTPointer<ParameterList> const& _parameters,
		ASTPointer<Block> const& _body
	):
		CallableDeclaration(_location, _name, Visibility::Default, _parameters),
		Documented(_documentation),
		m_body(_body)
	{
	}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Block const& body() const { return *m_body; }

	virtual TypePointer type(ContractDefinition const* m_currentContract) const override;

private:
	ASTPointer<Block> m_body;
};

/**
 * Invocation/usage of a modifier in a function header or a base constructor call.
 */
class ModifierInvocation: public ASTNode
{
public:
	ModifierInvocation(
		SourceLocation const& _location,
		ASTPointer<Identifier> const& _name,
		std::vector<ASTPointer<Expression>> _arguments
	):
		ASTNode(_location), m_modifierName(_name), m_arguments(_arguments) {}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	ASTPointer<Identifier> const& name() const { return m_modifierName; }
	std::vector<ASTPointer<Expression>> const& arguments() const { return m_arguments; }

private:
	ASTPointer<Identifier> m_modifierName;
	std::vector<ASTPointer<Expression>> m_arguments;
};

/**
 * Definition of a (loggable) event.
 */
class EventDefinition: public CallableDeclaration, public Documented
{
public:
	EventDefinition(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name,
		ASTPointer<ASTString> const& _documentation,
		ASTPointer<ParameterList> const& _parameters,
		bool _anonymous = false
	):
		CallableDeclaration(_location, _name, Visibility::Default, _parameters),
		Documented(_documentation),
		m_anonymous(_anonymous)
	{
	}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	bool isAnonymous() const { return m_anonymous; }

	virtual TypePointer type(ContractDefinition const* m_currentContract) const override;

private:
	bool m_anonymous = false;
};

/**
 * Pseudo AST node that is used as declaration for "this", "msg", "tx", "block" and the global
 * functions when such an identifier is encountered. Will never have a valid location in the source code.
 */
class MagicVariableDeclaration: public Declaration
{
public:
	MagicVariableDeclaration(ASTString const& _name, std::shared_ptr<Type const> const& _type):
		Declaration(SourceLocation(), std::make_shared<ASTString>(_name)), m_type(_type) {}
	virtual void accept(ASTVisitor&) override { BOOST_THROW_EXCEPTION(InternalCompilerError()
							<< errinfo_comment("MagicVariableDeclaration used inside real AST.")); }
	virtual void accept(ASTConstVisitor&) const override { BOOST_THROW_EXCEPTION(InternalCompilerError()
							<< errinfo_comment("MagicVariableDeclaration used inside real AST.")); }

	virtual TypePointer type(ContractDefinition const*) const override { return m_type; }

private:
	std::shared_ptr<Type const> m_type;
};

/// Types
/// @{

/**
 * Abstract base class of a type name, can be any built-in or user-defined type.
 */
class TypeName: public ASTNode
{
public:
	explicit TypeName(SourceLocation const& _location): ASTNode(_location) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	virtual TypeNameAnnotation& annotation() const override;
};

/**
 * Any pre-defined type name represented by a single keyword, i.e. it excludes mappings,
 * contracts, functions, etc.
 */
class ElementaryTypeName: public TypeName
{
public:
	ElementaryTypeName(SourceLocation const& _location, Token::Value _type):
		TypeName(_location), m_type(_type)
	{
		solAssert(Token::isElementaryTypeName(_type), "");
	}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Token::Value typeName() const { return m_type; }

private:
	Token::Value m_type;
};

/**
 * Name referring to a user-defined type (i.e. a struct, contract, etc.).
 */
class UserDefinedTypeName: public TypeName
{
public:
	UserDefinedTypeName(SourceLocation const& _location, std::vector<ASTString> const& _namePath):
		TypeName(_location), m_namePath(_namePath) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	std::vector<ASTString> const& namePath() const { return m_namePath; }

	virtual UserDefinedTypeNameAnnotation& annotation() const override;

private:
	std::vector<ASTString> m_namePath;
};

/**
 * A mapping type. Its source form is "mapping('keyType' => 'valueType')"
 */
class Mapping: public TypeName
{
public:
	Mapping(
		SourceLocation const& _location,
		ASTPointer<ElementaryTypeName> const& _keyType,
		ASTPointer<TypeName> const& _valueType
	):
		TypeName(_location), m_keyType(_keyType), m_valueType(_valueType) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	ElementaryTypeName const& keyType() const { return *m_keyType; }
	TypeName const& valueType() const { return *m_valueType; }

private:
	ASTPointer<ElementaryTypeName> m_keyType;
	ASTPointer<TypeName> m_valueType;
};

/**
 * An array type, can be "typename[]" or "typename[<expression>]".
 */
class ArrayTypeName: public TypeName
{
public:
	ArrayTypeName(
		SourceLocation const& _location,
		ASTPointer<TypeName> const& _baseType,
		ASTPointer<Expression> const& _length
	):
		TypeName(_location), m_baseType(_baseType), m_length(_length) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	TypeName const& baseType() const { return *m_baseType; }
	Expression const* length() const { return m_length.get(); }

private:
	ASTPointer<TypeName> m_baseType;
	ASTPointer<Expression> m_length; ///< Length of the array, might be empty.
};

/// @}

/// Statements
/// @{


/**
 * Abstract base class for statements.
 */
class Statement: public ASTNode
{
public:
	explicit Statement(SourceLocation const& _location): ASTNode(_location) {}
};

/**
 * Brace-enclosed block containing zero or more statements.
 */
class Block: public Statement
{
public:
	Block(
		SourceLocation const& _location,
		std::vector<ASTPointer<Statement>> const& _statements
	):
		Statement(_location), m_statements(_statements) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

private:
	std::vector<ASTPointer<Statement>> m_statements;
};

/**
 * Special placeholder statement denoted by "_" used in function modifiers. This is replaced by
 * the original function when the modifier is applied.
 */
class PlaceholderStatement: public Statement
{
public:
	explicit PlaceholderStatement(SourceLocation const& _location): Statement(_location) {}

	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;
};

/**
 * If-statement with an optional "else" part. Note that "else if" is modeled by having a new
 * if-statement as the false (else) body.
 */
class IfStatement: public Statement
{
public:
	IfStatement(
		SourceLocation const& _location,
		ASTPointer<Expression> const& _condition,
		ASTPointer<Statement> const& _trueBody,
		ASTPointer<Statement> const& _falseBody
	):
		Statement(_location),
		m_condition(_condition),
		m_trueBody(_trueBody),
		m_falseBody(_falseBody)
	{}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Expression const& condition() const { return *m_condition; }
	Statement const& trueStatement() const { return *m_trueBody; }
	/// @returns the "else" part of the if statement or nullptr if there is no "else" part.
	Statement const* falseStatement() const { return m_falseBody.get(); }

private:
	ASTPointer<Expression> m_condition;
	ASTPointer<Statement> m_trueBody;
	ASTPointer<Statement> m_falseBody; ///< "else" part, optional
};

/**
 * Statement in which a break statement is legal (abstract class).
 */
class BreakableStatement: public Statement
{
public:
	explicit BreakableStatement(SourceLocation const& _location): Statement(_location) {}
};

class WhileStatement: public BreakableStatement
{
public:
	WhileStatement(
		SourceLocation const& _location,
		ASTPointer<Expression> const& _condition,
		ASTPointer<Statement> const& _body
	):
		BreakableStatement(_location), m_condition(_condition), m_body(_body) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Expression const& condition() const { return *m_condition; }
	Statement const& body() const { return *m_body; }

private:
	ASTPointer<Expression> m_condition;
	ASTPointer<Statement> m_body;
};

/**
 * For loop statement
 */
class ForStatement: public BreakableStatement
{
public:
	ForStatement(
		SourceLocation const& _location,
		ASTPointer<Statement> const& _initExpression,
		ASTPointer<Expression> const& _conditionExpression,
		ASTPointer<ExpressionStatement> const& _loopExpression,
		ASTPointer<Statement> const& _body
	):
		BreakableStatement(_location),
		m_initExpression(_initExpression),
		m_condExpression(_conditionExpression),
		m_loopExpression(_loopExpression),
		m_body(_body)
	{}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Statement const* initializationExpression() const { return m_initExpression.get(); }
	Expression const* condition() const { return m_condExpression.get(); }
	ExpressionStatement const* loopExpression() const { return m_loopExpression.get(); }
	Statement const& body() const { return *m_body; }

private:
	/// For statement's initialization expresion. for(XXX; ; ). Can be empty
	ASTPointer<Statement> m_initExpression;
	/// For statement's condition expresion. for(; XXX ; ). Can be empty
	ASTPointer<Expression> m_condExpression;
	/// For statement's loop expresion. for(;;XXX). Can be empty
	ASTPointer<ExpressionStatement> m_loopExpression;
	/// The body of the loop
	ASTPointer<Statement> m_body;
};

class Continue: public Statement
{
public:
	explicit Continue(SourceLocation const& _location): Statement(_location) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;
};

class Break: public Statement
{
public:
	explicit Break(SourceLocation const& _location): Statement(_location) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;
};

class Return: public Statement
{
public:
	Return(SourceLocation const& _location, ASTPointer<Expression> _expression):
		Statement(_location), m_expression(_expression) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Expression const* expression() const { return m_expression.get(); }

	virtual ReturnAnnotation& annotation() const override;

private:
	ASTPointer<Expression> m_expression; ///< value to return, optional
};

/**
 * @brief The Throw statement to throw that triggers a solidity exception(jump to ErrorTag)
 */
class Throw: public Statement
{
public:
	explicit Throw(SourceLocation const& _location): Statement(_location) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;
};

/**
 * Definition of a variable as a statement inside a function. It requires a type name (which can
 * also be "var") but the actual assignment can be missing.
 * Examples: var a = 2; uint256 a;
 * As a second form, multiple variables can be declared, cannot have a type and must be assigned
 * right away. If the first or last component is unnamed, it can "consume" an arbitrary number
 * of components.
 * Examples: var (a, b) = f(); var (a,,,c) = g(); var (a,) = d();
 */
class VariableDeclarationStatement: public Statement
{
public:
	VariableDeclarationStatement(
		SourceLocation const& _location,
		std::vector<ASTPointer<VariableDeclaration>> const& _variables,
		ASTPointer<Expression> const& _initialValue
	):
		Statement(_location), m_variables(_variables), m_initialValue(_initialValue) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	VariableDeclarationStatementAnnotation& annotation() const override;

	std::vector<ASTPointer<VariableDeclaration>> const& declarations() const { return m_variables; }
	Expression const* initialValue() const { return m_initialValue.get(); }

private:
	/// List of variables, some of which can be empty pointers (unnamed components).
	std::vector<ASTPointer<VariableDeclaration>> m_variables;
	/// The assigned expression / initial value.
	ASTPointer<Expression> m_initialValue;
};

/**
 * A statement that contains only an expression (i.e. an assignment, function call, ...).
 */
class ExpressionStatement: public Statement
{
public:
	ExpressionStatement(
		SourceLocation const& _location,
		ASTPointer<Expression> _expression
	):
		Statement(_location), m_expression(_expression) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Expression const& expression() const { return *m_expression; }

private:
	ASTPointer<Expression> m_expression;
};

/// @}

/// Expressions
/// @{

/**
 * An expression, i.e. something that has a value (which can also be of type "void" in case
 * of some function calls).
 * @abstract
 */
class Expression: public ASTNode
{
public:
	explicit Expression(SourceLocation const& _location): ASTNode(_location) {}

	ExpressionAnnotation& annotation() const override;
};

/// Assignment, can also be a compound assignment.
/// Examples: (a = 7 + 8) or (a *= 2)
class Assignment: public Expression
{
public:
	Assignment(
		SourceLocation const& _location,
		ASTPointer<Expression> const& _leftHandSide,
		Token::Value _assignmentOperator,
		ASTPointer<Expression> const& _rightHandSide
	):
		Expression(_location),
		m_leftHandSide(_leftHandSide),
		m_assigmentOperator(_assignmentOperator),
		m_rightHandSide(_rightHandSide)
	{
		solAssert(Token::isAssignmentOp(_assignmentOperator), "");
	}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Expression const& leftHandSide() const { return *m_leftHandSide; }
	Token::Value assignmentOperator() const { return m_assigmentOperator; }
	Expression const& rightHandSide() const { return *m_rightHandSide; }

private:
	ASTPointer<Expression> m_leftHandSide;
	Token::Value m_assigmentOperator;
	ASTPointer<Expression> m_rightHandSide;
};

/**
 * Operation involving a unary operator, pre- or postfix.
 * Examples: ++i, delete x or !true
 */
class UnaryOperation: public Expression
{
public:
	UnaryOperation(
		SourceLocation const& _location,
		Token::Value _operator,
		ASTPointer<Expression> const& _subExpression,
		bool _isPrefix
	):
		Expression(_location),
		m_operator(_operator),
		m_subExpression(_subExpression),
		m_isPrefix(_isPrefix)
	{
		solAssert(Token::isUnaryOp(_operator), "");
	}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Token::Value getOperator() const { return m_operator; }
	bool isPrefixOperation() const { return m_isPrefix; }
	Expression const& subExpression() const { return *m_subExpression; }

private:
	Token::Value m_operator;
	ASTPointer<Expression> m_subExpression;
	bool m_isPrefix;
};

/**
 * Operation involving a binary operator.
 * Examples: 1 + 2, true && false or 1 <= 4
 */
class BinaryOperation: public Expression
{
public:
	BinaryOperation(
		SourceLocation const& _location,
		ASTPointer<Expression> const& _left,
		Token::Value _operator,
		ASTPointer<Expression> const& _right
	):
		Expression(_location), m_left(_left), m_operator(_operator), m_right(_right)
	{
		solAssert(Token::isBinaryOp(_operator) || Token::isCompareOp(_operator), "");
	}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Expression const& leftExpression() const { return *m_left; }
	Expression const& rightExpression() const { return *m_right; }
	Token::Value getOperator() const { return m_operator; }

	BinaryOperationAnnotation& annotation() const override;

private:
	ASTPointer<Expression> m_left;
	Token::Value m_operator;
	ASTPointer<Expression> m_right;
};

/**
 * Can be ordinary function call, type cast or struct construction.
 */
class FunctionCall: public Expression
{
public:
	FunctionCall(
		SourceLocation const& _location,
		ASTPointer<Expression> const& _expression,
		std::vector<ASTPointer<Expression>> const& _arguments,
		std::vector<ASTPointer<ASTString>> const& _names
	):
		Expression(_location), m_expression(_expression), m_arguments(_arguments), m_names(_names) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Expression const& expression() const { return *m_expression; }
	std::vector<ASTPointer<Expression const>> arguments() const { return {m_arguments.begin(), m_arguments.end()}; }
	std::vector<ASTPointer<ASTString>> const& names() const { return m_names; }

	virtual FunctionCallAnnotation& annotation() const override;

private:
	ASTPointer<Expression> m_expression;
	std::vector<ASTPointer<Expression>> m_arguments;
	std::vector<ASTPointer<ASTString>> m_names;
};

/**
 * Expression that creates a new contract, e.g. the "new SomeContract" part in "new SomeContract(1, 2)".
 */
class NewExpression: public Expression
{
public:
	NewExpression(
		SourceLocation const& _location,
		ASTPointer<Identifier> const& _contractName
	):
		Expression(_location), m_contractName(_contractName) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Identifier const& contractName() const { return *m_contractName; }

private:
	ASTPointer<Identifier> m_contractName;
};

/**
 * Access to a member of an object. Example: x.name
 */
class MemberAccess: public Expression
{
public:
	MemberAccess(
		SourceLocation const& _location,
		ASTPointer<Expression> _expression,
		ASTPointer<ASTString> const& _memberName
	):
		Expression(_location), m_expression(_expression), m_memberName(_memberName) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;
	Expression const& expression() const { return *m_expression; }
	ASTString const& memberName() const { return *m_memberName; }

	virtual MemberAccessAnnotation& annotation() const override;

private:
	ASTPointer<Expression> m_expression;
	ASTPointer<ASTString> m_memberName;
};

/**
 * Index access to an array. Example: a[2]
 */
class IndexAccess: public Expression
{
public:
	IndexAccess(
		SourceLocation const& _location,
		ASTPointer<Expression> const& _base,
		ASTPointer<Expression> const& _index
	):
		Expression(_location), m_base(_base), m_index(_index) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Expression const& baseExpression() const { return *m_base; }
	Expression const* indexExpression() const { return m_index.get(); }

private:
	ASTPointer<Expression> m_base;
	ASTPointer<Expression> m_index;
};

/**
 * Primary expression, i.e. an expression that cannot be divided any further. Examples are literals
 * or variable references.
 */
class PrimaryExpression: public Expression
{
public:
	PrimaryExpression(SourceLocation const& _location): Expression(_location) {}
};

/**
 * An identifier, i.e. a reference to a declaration by name like a variable or function.
 */
class Identifier: public PrimaryExpression
{
public:
	Identifier(
		SourceLocation const& _location,
		ASTPointer<ASTString> const& _name
	):
		PrimaryExpression(_location), m_name(_name) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	ASTString const& name() const { return *m_name; }

	virtual IdentifierAnnotation& annotation() const override;

private:
	ASTPointer<ASTString> m_name;
};

/**
 * An elementary type name expression is used in expressions like "a = uint32(2)" to change the
 * type of an expression explicitly. Here, "uint32" is the elementary type name expression and
 * "uint32(2)" is a @ref FunctionCall.
 */
class ElementaryTypeNameExpression: public PrimaryExpression
{
public:
	ElementaryTypeNameExpression(SourceLocation const& _location, Token::Value _typeToken):
		PrimaryExpression(_location), m_typeToken(_typeToken)
	{
		solAssert(Token::isElementaryTypeName(_typeToken), "");
	}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Token::Value typeToken() const { return m_typeToken; }

private:
	Token::Value m_typeToken;
};

/**
 * A literal string or number. @see ExpressionCompiler::endVisit() is used to actually parse its value.
 */
class Literal: public PrimaryExpression
{
public:
	enum class SubDenomination
	{
		None = Token::Illegal,
		Wei = Token::SubWei,
		Szabo = Token::SubSzabo,
		Finney = Token::SubFinney,
		Ether = Token::SubEther,
		Second = Token::SubSecond,
		Minute = Token::SubMinute,
		Hour = Token::SubHour,
		Day = Token::SubDay,
		Week = Token::SubWeek,
		Year = Token::SubYear
	};
	Literal(
		SourceLocation const& _location,
		Token::Value _token,
		ASTPointer<ASTString> const& _value,
		SubDenomination _sub = SubDenomination::None
	):
		PrimaryExpression(_location), m_token(_token), m_value(_value), m_subDenomination(_sub) {}
	virtual void accept(ASTVisitor& _visitor) override;
	virtual void accept(ASTConstVisitor& _visitor) const override;

	Token::Value token() const { return m_token; }
	/// @returns the non-parsed value of the literal
	ASTString const& value() const { return *m_value; }

	SubDenomination subDenomination() const { return m_subDenomination; }

private:
	Token::Value m_token;
	ASTPointer<ASTString> m_value;
	SubDenomination m_subDenomination;
};

/// @}


}
}