/*
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 data types
*/
# pragma once
# include <memory>
# include <string>
# include <map>
# include <boost/noncopyable.hpp>
# include <libdevcore/Common.h>
# include <libsolidity/Exceptions.h>
# include <libsolidity/ASTForward.h>
# include <libsolidity/Token.h>
# include <libdevcore/UndefMacros.h>
namespace dev
{
namespace solidity
{
class Type ; // forward
class FunctionType ; // forward
using TypePointer = std : : shared_ptr < Type const > ;
using FunctionTypePointer = std : : shared_ptr < FunctionType const > ;
using TypePointers = std : : vector < TypePointer > ;
/**
* List of members of a type .
*/
class MemberList
{
public :
using MemberMap = std : : vector < std : : pair < std : : string , TypePointer > > ;
MemberList ( ) { }
explicit MemberList ( MemberMap const & _members ) : m_memberTypes ( _members ) { }
TypePointer getMemberType ( std : : string const & _name ) const
{
for ( auto const & it : m_memberTypes )
if ( it . first = = _name )
return it . second ;
return TypePointer ( ) ;
}
MemberMap : : const_iterator begin ( ) const { return m_memberTypes . begin ( ) ; }
MemberMap : : const_iterator end ( ) const { return m_memberTypes . end ( ) ; }
private :
MemberMap m_memberTypes ;
} ;
/**
* Abstract base class that forms the root of the type hierarchy .
*/
class Type : private boost : : noncopyable , public std : : enable_shared_from_this < Type >
{
public :
enum class Category
{
Integer , IntegerConstant , Bool , Real , Array ,
FixedBytes , Contract , Struct , Function , Enum ,
Mapping , Void , TypeType , Modifier , Magic
} ;
/// @{
/// @name Factory functions
/// Factory functions that convert an AST @ref TypeName to a Type.
static TypePointer fromElementaryTypeName ( Token : : Value _typeToken ) ;
static TypePointer fromElementaryTypeName ( std : : string const & _name ) ;
static TypePointer fromUserDefinedTypeName ( UserDefinedTypeName const & _typeName ) ;
static TypePointer fromMapping ( ElementaryTypeName & _keyType , TypeName & _valueType ) ;
static TypePointer fromArrayTypeName ( TypeName & _baseTypeName , Expression * _length ) ;
/// @}
/// Auto-detect the proper type for a literal. @returns an empty pointer if the literal does
/// not fit any type.
static TypePointer forLiteral ( Literal const & _literal ) ;
/// @returns a pointer to _a or _b if the other is implicitly convertible to it or nullptr otherwise
static TypePointer commonType ( TypePointer const & _a , TypePointer const & _b ) ;
virtual Category getCategory ( ) const = 0 ;
virtual bool isImplicitlyConvertibleTo ( Type const & _other ) const { return * this = = _other ; }
virtual bool isExplicitlyConvertibleTo ( Type const & _convertTo ) const
{
return isImplicitlyConvertibleTo ( _convertTo ) ;
}
/// @returns the resulting type of applying the given unary operator or an empty pointer if
/// this is not possible.
/// The default implementation does not allow any unary operator.
virtual TypePointer unaryOperatorResult ( Token : : Value ) const { return TypePointer ( ) ; }
/// @returns the resulting type of applying the given binary operator or an empty pointer if
/// this is not possible.
/// The default implementation allows comparison operators if a common type exists
virtual TypePointer binaryOperatorResult ( Token : : Value _operator , TypePointer const & _other ) const
{
return Token : : isCompareOp ( _operator ) ? commonType ( shared_from_this ( ) , _other ) : TypePointer ( ) ;
}
virtual bool operator = = ( Type const & _other ) const { return getCategory ( ) = = _other . getCategory ( ) ; }
virtual bool operator ! = ( Type const & _other ) const { return ! this - > operator = = ( _other ) ; }
/// @returns number of bytes used by this type when encoded for CALL, or 0 if the encoding
/// is not a simple big-endian encoding or the type cannot be stored in calldata.
/// If @a _padded then it is assumed that each element is padded to a multiple of 32 bytes.
virtual unsigned getCalldataEncodedSize ( bool _padded ) const { ( void ) _padded ; return 0 ; }
/// Convenience version of @see getCalldataEncodedSize(bool)
unsigned getCalldataEncodedSize ( ) const { return getCalldataEncodedSize ( true ) ; }
/// @returns true if the type is dynamically encoded in calldata
virtual bool isDynamicallySized ( ) const { return false ; }
/// @returns number of bytes required to hold this value in storage.
/// For dynamically "allocated" types, it returns the size of the statically allocated head,
virtual u256 getStorageSize ( ) const { return 1 ; }
/// Returns true if the type can be stored in storage.
virtual bool canBeStored ( ) const { return true ; }
/// Returns false if the type cannot live outside the storage, i.e. if it includes some mapping.
virtual bool canLiveOutsideStorage ( ) const { return true ; }
/// Returns true if the type can be stored as a value (as opposed to a reference) on the stack,
/// i.e. it behaves differently in lvalue context and in value context.
virtual bool isValueType ( ) const { return false ; }
virtual unsigned getSizeOnStack ( ) const { return 1 ; }
/// @returns the real type of some types, like e.g: IntegerConstant
virtual TypePointer getRealType ( ) const { return shared_from_this ( ) ; }
/// Returns the list of all members of this type. Default implementation: no members.
virtual MemberList const & getMembers ( ) const { return EmptyMemberList ; }
/// Convenience method, returns the type of the given named member or an empty pointer if no such member exists.
TypePointer getMemberType ( std : : string const & _name ) const { return getMembers ( ) . getMemberType ( _name ) ; }
virtual std : : string toString ( ) const = 0 ;
virtual u256 literalValue ( Literal const * ) const
{
BOOST_THROW_EXCEPTION ( InternalCompilerError ( ) < < errinfo_comment ( " Literal value requested "
" for type without literals. " ) ) ;
}
protected :
/// Convenience object used when returning an empty member list.
static const MemberList EmptyMemberList ;
} ;
/**
* Any kind of integer type ( signed , unsigned , address ) .
*/
class IntegerType : public Type
{
public :
enum class Modifier
{
Unsigned , Signed , Address
} ;
virtual Category getCategory ( ) const override { return Category : : Integer ; }
explicit IntegerType ( int _bits , Modifier _modifier = Modifier : : Unsigned ) ;
virtual bool isImplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual bool isExplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual TypePointer unaryOperatorResult ( Token : : Value _operator ) const override ;
virtual TypePointer binaryOperatorResult ( Token : : Value _operator , TypePointer const & _other ) const override ;
virtual bool operator = = ( Type const & _other ) const override ;
virtual unsigned getCalldataEncodedSize ( bool _padded = true ) const override { return _padded ? 32 : m_bits / 8 ; }
virtual bool isValueType ( ) const override { return true ; }
virtual MemberList const & getMembers ( ) const { return isAddress ( ) ? AddressMemberList : EmptyMemberList ; }
virtual std : : string toString ( ) const override ;
int getNumBits ( ) const { return m_bits ; }
bool isAddress ( ) const { return m_modifier = = Modifier : : Address ; }
bool isSigned ( ) const { return m_modifier = = Modifier : : Signed ; }
static const MemberList AddressMemberList ;
private :
int m_bits ;
Modifier m_modifier ;
} ;
/**
* Integer constants either literals or computed . Example expressions : 2 , 2 + 10 , ~ 10.
* There is one distinct type per value .
*/
class IntegerConstantType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : IntegerConstant ; }
explicit IntegerConstantType ( Literal const & _literal ) ;
explicit IntegerConstantType ( bigint _value ) : m_value ( _value ) { }
virtual bool isImplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual bool isExplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual TypePointer unaryOperatorResult ( Token : : Value _operator ) const override ;
virtual TypePointer binaryOperatorResult ( Token : : Value _operator , TypePointer const & _other ) const override ;
virtual bool operator = = ( Type const & _other ) const override ;
virtual bool canBeStored ( ) const override { return false ; }
virtual bool canLiveOutsideStorage ( ) const override { return false ; }
virtual unsigned getSizeOnStack ( ) const override { return 1 ; }
virtual std : : string toString ( ) const override ;
virtual u256 literalValue ( Literal const * _literal ) const override ;
virtual TypePointer getRealType ( ) const override ;
/// @returns the smallest integer type that can hold the value or an empty pointer if not possible.
std : : shared_ptr < IntegerType const > getIntegerType ( ) const ;
private :
bigint m_value ;
} ;
/**
* Bytes type with fixed length of up to 32 bytes .
*/
class FixedBytesType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : FixedBytes ; }
/// @returns the smallest bytes type for the given literal or an empty pointer
/// if no type fits.
static std : : shared_ptr < FixedBytesType > smallestTypeForLiteral ( std : : string const & _literal ) ;
explicit FixedBytesType ( int _bytes ) ;
virtual bool isImplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual bool isExplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual bool operator = = ( Type const & _other ) const override ;
virtual TypePointer unaryOperatorResult ( Token : : Value _operator ) const override ;
virtual TypePointer binaryOperatorResult ( Token : : Value _operator , TypePointer const & _other ) const override ;
virtual unsigned getCalldataEncodedSize ( bool _padded ) const override { return _padded & & m_bytes > 0 ? 32 : m_bytes ; }
virtual bool isValueType ( ) const override { return true ; }
virtual std : : string toString ( ) const override { return " bytes " + dev : : toString ( m_bytes ) ; }
virtual u256 literalValue ( Literal const * _literal ) const override ;
int getNumBytes ( ) const { return m_bytes ; }
private :
int m_bytes ;
} ;
/**
* The boolean type .
*/
class BoolType : public Type
{
public :
BoolType ( ) { }
virtual Category getCategory ( ) const override { return Category : : Bool ; }
virtual bool isExplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual TypePointer unaryOperatorResult ( Token : : Value _operator ) const override ;
virtual TypePointer binaryOperatorResult ( Token : : Value _operator , TypePointer const & _other ) const override ;
virtual unsigned getCalldataEncodedSize ( bool _padded ) const { return _padded ? 32 : 1 ; }
virtual bool isValueType ( ) const override { return true ; }
virtual std : : string toString ( ) const override { return " bool " ; }
virtual u256 literalValue ( Literal const * _literal ) const override ;
} ;
/**
* The type of an array . The flavours are byte array ( bytes ) , statically - ( < type > [ < length > ] )
* and dynamically - sized array ( < type > [ ] ) .
*/
class ArrayType : public Type
{
public :
enum class Location { Storage , CallData , Memory } ;
virtual Category getCategory ( ) const override { return Category : : Array ; }
/// Constructor for a byte array ("bytes")
explicit ArrayType ( Location _location ) :
m_location ( _location ) , m_isByteArray ( true ) , m_baseType ( std : : make_shared < IntegerType > ( 8 ) ) { }
/// Constructor for a dynamically sized array type ("type[]")
ArrayType ( Location _location , const TypePointer & _baseType ) :
m_location ( _location ) , m_baseType ( _baseType ) { }
/// Constructor for a fixed-size array type ("type[20]")
ArrayType ( Location _location , const TypePointer & _baseType , u256 const & _length ) :
m_location ( _location ) , m_baseType ( _baseType ) , m_hasDynamicLength ( false ) , m_length ( _length ) { }
virtual bool isImplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual TypePointer unaryOperatorResult ( Token : : Value _operator ) const override ;
virtual bool operator = = ( const Type & _other ) const override ;
virtual unsigned getCalldataEncodedSize ( bool _padded ) const override ;
virtual bool isDynamicallySized ( ) const { return m_hasDynamicLength ; }
virtual u256 getStorageSize ( ) const override ;
virtual unsigned getSizeOnStack ( ) const override ;
virtual std : : string toString ( ) const override ;
virtual MemberList const & getMembers ( ) const override { return s_arrayTypeMemberList ; }
Location getLocation ( ) const { return m_location ; }
bool isByteArray ( ) const { return m_isByteArray ; }
TypePointer const & getBaseType ( ) const { solAssert ( ! ! m_baseType , " " ) ; return m_baseType ; }
u256 const & getLength ( ) const { return m_length ; }
/// @returns a copy of this type with location changed to @a _location
/// @todo this might move as far up as Type later
std : : shared_ptr < ArrayType > copyForLocation ( Location _location ) const ;
private :
Location m_location ;
bool m_isByteArray = false ; ///< Byte arrays ("bytes") have different semantics from ordinary arrays.
TypePointer m_baseType ;
bool m_hasDynamicLength = true ;
u256 m_length ;
static const MemberList s_arrayTypeMemberList ;
} ;
/**
* The type of a contract instance , there is one distinct type for each contract definition .
*/
class ContractType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : Contract ; }
explicit ContractType ( ContractDefinition const & _contract , bool _super = false ) :
m_contract ( _contract ) , m_super ( _super ) { }
/// Contracts can be implicitly converted to super classes and to addresses.
virtual bool isImplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
/// Contracts can be converted to themselves and to integers.
virtual bool isExplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
virtual TypePointer unaryOperatorResult ( Token : : Value _operator ) const override ;
virtual bool operator = = ( Type const & _other ) const override ;
virtual bool isValueType ( ) const override { return true ; }
virtual std : : string toString ( ) const override ;
virtual MemberList const & getMembers ( ) const override ;
bool isSuper ( ) const { return m_super ; }
ContractDefinition const & getContractDefinition ( ) const { return m_contract ; }
/// Returns the function type of the constructor. Note that the location part of the function type
/// is not used, as this type cannot be the type of a variable or expression.
FunctionTypePointer const & getConstructorType ( ) const ;
/// @returns the identifier of the function with the given name or Invalid256 if such a name does
/// not exist.
u256 getFunctionIdentifier ( std : : string const & _functionName ) const ;
private :
ContractDefinition const & m_contract ;
/// If true, it is the "super" type of the current contract, i.e. it contains only inherited
/// members.
bool m_super ;
/// Type of the constructor, @see getConstructorType. Lazily initialized.
mutable FunctionTypePointer m_constructorType ;
/// List of member types, will be lazy-initialized because of recursive references.
mutable std : : unique_ptr < MemberList > m_members ;
} ;
/**
* The type of a struct instance , there is one distinct type per struct definition .
*/
class StructType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : Struct ; }
explicit StructType ( StructDefinition const & _struct ) : m_struct ( _struct ) { }
virtual TypePointer unaryOperatorResult ( Token : : Value _operator ) const override ;
virtual bool operator = = ( Type const & _other ) const override ;
virtual u256 getStorageSize ( ) const override ;
virtual bool canLiveOutsideStorage ( ) const override ;
virtual unsigned getSizeOnStack ( ) const override { return 1 ; /*@todo*/ }
virtual std : : string toString ( ) const override ;
virtual MemberList const & getMembers ( ) const override ;
u256 getStorageOffsetOfMember ( std : : string const & _name ) const ;
private :
StructDefinition const & m_struct ;
/// List of member types, will be lazy-initialized because of recursive references.
mutable std : : unique_ptr < MemberList > m_members ;
} ;
/**
* The type of an enum instance , there is one distinct type per enum definition .
*/
class EnumType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : Enum ; }
explicit EnumType ( EnumDefinition const & _enum ) : m_enum ( _enum ) { }
virtual TypePointer unaryOperatorResult ( Token : : Value _operator ) const override ;
virtual bool operator = = ( Type const & _other ) const override ;
virtual unsigned getSizeOnStack ( ) const override { return 1 ; }
virtual std : : string toString ( ) const override ;
virtual bool isValueType ( ) const override { return true ; }
virtual bool isExplicitlyConvertibleTo ( Type const & _convertTo ) const override ;
EnumDefinition const & getEnumDefinition ( ) const { return m_enum ; }
/// @returns the value that the string has in the Enum
unsigned int getMemberValue ( ASTString const & _member ) const ;
private :
EnumDefinition const & m_enum ;
/// List of member types, will be lazy-initialized because of recursive references.
mutable std : : unique_ptr < MemberList > m_members ;
} ;
/**
* The type of a function , identified by its ( return ) parameter types .
* @ todo the return parameters should also have names , i . e . return parameters should be a struct
* type .
*/
class FunctionType : public Type
{
public :
/// The meaning of the value(s) on the stack referencing the function:
/// INTERNAL: jump tag, EXTERNAL: contract address + function identifier,
/// BARE: contract address (non-abi contract call)
/// OTHERS: special virtual function, nothing on the stack
/// @todo This documentation is outdated, and Location should rather be named "Type"
enum class Location { Internal , External , Creation , Send ,
SHA3 , Suicide ,
ECRecover , SHA256 , RIPEMD160 ,
Log0 , Log1 , Log2 , Log3 , Log4 , Event ,
SetGas , SetValue , BlockHash ,
Bare } ;
virtual Category getCategory ( ) const override { return Category : : Function ; }
explicit FunctionType ( FunctionDefinition const & _function , bool _isInternal = true ) ;
explicit FunctionType ( VariableDeclaration const & _varDecl ) ;
explicit FunctionType ( EventDefinition const & _event ) ;
FunctionType ( strings const & _parameterTypes , strings const & _returnParameterTypes ,
Location _location = Location : : Internal , bool _arbitraryParameters = false ) :
FunctionType ( parseElementaryTypeVector ( _parameterTypes ) , parseElementaryTypeVector ( _returnParameterTypes ) ,
_location , _arbitraryParameters ) { }
FunctionType (
TypePointers const & _parameterTypes ,
TypePointers const & _returnParameterTypes ,
Location _location = Location : : Internal ,
bool _arbitraryParameters = false ,
bool _gasSet = false ,
bool _valueSet = false
) :
m_parameterTypes ( _parameterTypes ) ,
m_returnParameterTypes ( _returnParameterTypes ) ,
m_location ( _location ) ,
m_arbitraryParameters ( _arbitraryParameters ) ,
m_gasSet ( _gasSet ) ,
m_valueSet ( _valueSet )
{ }
TypePointers const & getParameterTypes ( ) const { return m_parameterTypes ; }
std : : vector < std : : string > const & getParameterNames ( ) const { return m_parameterNames ; }
std : : vector < std : : string > const getParameterTypeNames ( ) const ;
TypePointers const & getReturnParameterTypes ( ) const { return m_returnParameterTypes ; }
std : : vector < std : : string > const & getReturnParameterNames ( ) const { return m_returnParameterNames ; }
std : : vector < std : : string > const getReturnParameterTypeNames ( ) const ;
virtual bool operator = = ( Type const & _other ) const override ;
virtual std : : string toString ( ) const override ;
virtual bool canBeStored ( ) const override { return false ; }
virtual u256 getStorageSize ( ) const override { BOOST_THROW_EXCEPTION ( InternalCompilerError ( ) < < errinfo_comment ( " Storage size of non-storable function type requested. " ) ) ; }
virtual bool canLiveOutsideStorage ( ) const override { return false ; }
virtual unsigned getSizeOnStack ( ) const override ;
virtual MemberList const & getMembers ( ) const override ;
Location const & getLocation ( ) const { return m_location ; }
/// @returns the canonical signature of this function type given the function name
/// If @a _name is not provided (empty string) then the @c m_declaration member of the
/// function type is used
std : : string getCanonicalSignature ( std : : string const & _name = " " ) const ;
Declaration const & getDeclaration ( ) const
{
solAssert ( m_declaration , " Requested declaration from a FunctionType that has none " ) ;
return * m_declaration ;
}
bool hasDeclaration ( ) const { return ! ! m_declaration ; }
bool isConstant ( ) const { return m_isConstant ; }
/// @return A shared pointer of an ASTString.
/// Can contain a nullptr in which case indicates absence of documentation
ASTPointer < ASTString > getDocumentation ( ) const ;
/// true iff arguments are to be padded to multiples of 32 bytes for external calls
bool padArguments ( ) const { return ! ( m_location = = Location : : SHA3 | | m_location = = Location : : SHA256 | | m_location = = Location : : RIPEMD160 ) ; }
bool takesArbitraryParameters ( ) const { return m_arbitraryParameters ; }
bool gasSet ( ) const { return m_gasSet ; }
bool valueSet ( ) const { return m_valueSet ; }
/// @returns a copy of this type, where gas or value are set manually. This will never set one
/// of the parameters to fals.
TypePointer copyAndSetGasOrValue ( bool _setGas , bool _setValue ) const ;
private :
static TypePointers parseElementaryTypeVector ( strings const & _types ) ;
TypePointers m_parameterTypes ;
TypePointers m_returnParameterTypes ;
std : : vector < std : : string > m_parameterNames ;
std : : vector < std : : string > m_returnParameterNames ;
Location const m_location ;
/// true iff the function takes an arbitrary number of arguments of arbitrary types
bool const m_arbitraryParameters = false ;
bool const m_gasSet = false ; ///< true iff the gas value to be used is on the stack
bool const m_valueSet = false ; ///< true iff the value to be sent is on the stack
bool m_isConstant = false ;
mutable std : : unique_ptr < MemberList > m_members ;
Declaration const * m_declaration = nullptr ;
} ;
/**
* The type of a mapping , there is one distinct type per key / value type pair .
*/
class MappingType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : Mapping ; }
MappingType ( TypePointer const & _keyType , TypePointer const & _valueType ) :
m_keyType ( _keyType ) , m_valueType ( _valueType ) { }
virtual bool operator = = ( Type const & _other ) const override ;
virtual std : : string toString ( ) const override ;
virtual bool canLiveOutsideStorage ( ) const override { return false ; }
TypePointer const & getKeyType ( ) const { return m_keyType ; }
TypePointer const & getValueType ( ) const { return m_valueType ; }
private :
TypePointer m_keyType ;
TypePointer m_valueType ;
} ;
/**
* The void type , can only be implicitly used as the type that is returned by functions without
* return parameters .
*/
class VoidType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : Void ; }
VoidType ( ) { }
virtual TypePointer binaryOperatorResult ( Token : : Value , TypePointer const & ) const override { return TypePointer ( ) ; }
virtual std : : string toString ( ) const override { return " void " ; }
virtual bool canBeStored ( ) const override { return false ; }
virtual u256 getStorageSize ( ) const override { BOOST_THROW_EXCEPTION ( InternalCompilerError ( ) < < errinfo_comment ( " Storage size of non-storable void type requested. " ) ) ; }
virtual bool canLiveOutsideStorage ( ) const override { return false ; }
virtual unsigned getSizeOnStack ( ) const override { return 0 ; }
} ;
/**
* The type of a type reference . The type of " uint32 " when used in " a = uint32(2) " is an example
* of a TypeType .
*/
class TypeType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : TypeType ; }
explicit TypeType ( TypePointer const & _actualType , ContractDefinition const * _currentContract = nullptr ) :
m_actualType ( _actualType ) , m_currentContract ( _currentContract ) { }
TypePointer const & getActualType ( ) const { return m_actualType ; }
virtual TypePointer binaryOperatorResult ( Token : : Value , TypePointer const & ) const override { return TypePointer ( ) ; }
virtual bool operator = = ( Type const & _other ) const override ;
virtual bool canBeStored ( ) const override { return false ; }
virtual u256 getStorageSize ( ) const override { BOOST_THROW_EXCEPTION ( InternalCompilerError ( ) < < errinfo_comment ( " Storage size of non-storable type type requested. " ) ) ; }
virtual bool canLiveOutsideStorage ( ) const override { return false ; }
virtual unsigned getSizeOnStack ( ) const override { return 0 ; }
virtual std : : string toString ( ) const override { return " type( " + m_actualType - > toString ( ) + " ) " ; }
virtual MemberList const & getMembers ( ) const override ;
private :
TypePointer m_actualType ;
/// Context in which this type is used (influences visibility etc.), can be nullptr.
ContractDefinition const * m_currentContract ;
/// List of member types, will be lazy-initialized because of recursive references.
mutable std : : unique_ptr < MemberList > m_members ;
} ;
/**
* The type of a function modifier . Not used for anything for now .
*/
class ModifierType : public Type
{
public :
virtual Category getCategory ( ) const override { return Category : : Modifier ; }
explicit ModifierType ( ModifierDefinition const & _modifier ) ;
virtual TypePointer binaryOperatorResult ( Token : : Value , TypePointer const & ) const override { return TypePointer ( ) ; }
virtual bool canBeStored ( ) const override { return false ; }
virtual u256 getStorageSize ( ) const override { BOOST_THROW_EXCEPTION ( InternalCompilerError ( ) < < errinfo_comment ( " Storage size of non-storable type type requested. " ) ) ; }
virtual bool canLiveOutsideStorage ( ) const override { return false ; }
virtual unsigned getSizeOnStack ( ) const override { return 0 ; }
virtual bool operator = = ( Type const & _other ) const override ;
virtual std : : string toString ( ) const override ;
private :
TypePointers m_parameterTypes ;
} ;
/**
* Special type for magic variables ( block , msg , tx ) , similar to a struct but without any reference
* ( it always references a global singleton by name ) .
*/
class MagicType : public Type
{
public :
enum class Kind { Block , Message , Transaction } ;
virtual Category getCategory ( ) const override { return Category : : Magic ; }
explicit MagicType ( Kind _kind ) ;
virtual TypePointer binaryOperatorResult ( Token : : Value , TypePointer const & ) const override
{
return TypePointer ( ) ;
}
virtual bool operator = = ( Type const & _other ) const ;
virtual bool canBeStored ( ) const override { return false ; }
virtual bool canLiveOutsideStorage ( ) const override { return true ; }
virtual unsigned getSizeOnStack ( ) const override { return 0 ; }
virtual MemberList const & getMembers ( ) const override { return m_members ; }
virtual std : : string toString ( ) const override ;
private :
Kind m_kind ;
MemberList m_members ;
} ;
}
}
