Ejemplo n.º 1
0
def propagate_types(ir, node):
    # propagate the type
    using_for = node.function.contract.using_for
    if isinstance(ir, OperationWithLValue):
        # Force assignment in case of missing previous correct type
        if not ir.lvalue.type:
            if isinstance(ir, Assignment):
                ir.lvalue.set_type(ir.rvalue.type)
            elif isinstance(ir, Binary):
                if BinaryType.return_bool(ir.type):
                    ir.lvalue.set_type(ElementaryType('bool'))
                else:
                    ir.lvalue.set_type(ir.variable_left.type)
            elif isinstance(ir, Delete):
                # nothing to propagate
                pass
            elif isinstance(ir, LibraryCall):
                return convert_type_library_call(ir, ir.destination)
            elif isinstance(ir, HighLevelCall):
                t = ir.destination.type

                # Temporary operation (they are removed later)
                if t is None:
                    return

                # convert library
                if t in using_for or '*' in using_for:
                    new_ir = convert_to_library(ir, node, using_for)
                    if new_ir:
                        return new_ir

                if isinstance(t, UserDefinedType):
                    # UserdefinedType
                    t_type = t.type
                    if isinstance(t_type, Contract):
                        contract = node.slither.get_contract_from_name(
                            t_type.name)
                        return convert_type_of_high_level_call(ir, contract)

                # Convert HighLevelCall to LowLevelCall
                if isinstance(t, ElementaryType) and t.name == 'address':
                    if ir.destination.name == 'this':
                        return convert_type_of_high_level_call(
                            ir, node.function.contract)
                    return convert_to_low_level(ir)

                # Convert push operations
                # May need to insert a new operation
                # Which leads to return a list of operation
                if isinstance(t, ArrayType):
                    if ir.function_name == 'push' and len(ir.arguments) == 1:
                        return convert_to_push(ir, node)

            elif isinstance(ir, Index):
                if isinstance(ir.variable_left.type, MappingType):
                    ir.lvalue.set_type(ir.variable_left.type.type_to)
                elif isinstance(ir.variable_left.type, ArrayType):
                    ir.lvalue.set_type(ir.variable_left.type.type)

            elif isinstance(ir, InitArray):
                length = len(ir.init_values)
                t = ir.init_values[0].type
                ir.lvalue.set_type(ArrayType(t, length))
            elif isinstance(ir, InternalCall):
                # if its not a tuple, return a singleton
                return_type = ir.function.return_type
                if return_type:
                    if len(return_type) == 1:
                        ir.lvalue.set_type(return_type[0])
                    elif len(return_type) > 1:
                        ir.lvalue.set_type(return_type)
                else:
                    ir.lvalue = None
            elif isinstance(ir, InternalDynamicCall):
                # if its not a tuple, return a singleton
                return_type = ir.function_type.return_type
                if return_type:
                    if len(return_type) == 1:
                        ir.lvalue.set_type(return_type[0])
                    else:
                        ir.lvalue.set_type(return_type)
                else:
                    ir.lvalue = None
            elif isinstance(ir, LowLevelCall):
                # Call are not yet converted
                # This should not happen
                assert False
            elif isinstance(ir, Member):
                # TODO we should convert the reference to a temporary if the member is a length or a balance
                if ir.variable_right == 'length' and not isinstance(
                        ir.variable_left, Contract) and isinstance(
                            ir.variable_left.type,
                            (ElementaryType, ArrayType)):
                    length = Length(ir.variable_left, ir.lvalue)
                    length.lvalue.points_to = ir.variable_left
                    return length
                if ir.variable_right == 'balance' and not isinstance(
                        ir.variable_left, Contract) and isinstance(
                            ir.variable_left.type, ElementaryType):
                    return Balance(ir.variable_left, ir.lvalue)
                left = ir.variable_left
                if isinstance(left, (Variable, SolidityVariable)):
                    t = ir.variable_left.type
                elif isinstance(left, (Contract, Enum, Structure)):
                    t = UserDefinedType(left)
                # can be None due to temporary operation
                if t:
                    if isinstance(t, UserDefinedType):
                        # UserdefinedType
                        type_t = t.type
                        if isinstance(type_t, Enum):
                            ir.lvalue.set_type(t)
                        elif isinstance(type_t, Structure):
                            elems = type_t.elems
                            for elem in elems:
                                if elem == ir.variable_right:
                                    ir.lvalue.set_type(elems[elem].type)
                        else:
                            assert isinstance(type_t, Contract)
            elif isinstance(ir, NewArray):
                ir.lvalue.set_type(ir.array_type)
            elif isinstance(ir, NewContract):
                contract = node.slither.get_contract_from_name(
                    ir.contract_name)
                ir.lvalue.set_type(UserDefinedType(contract))
            elif isinstance(ir, NewElementaryType):
                ir.lvalue.set_type(ir.type)
            elif isinstance(ir, NewStructure):
                ir.lvalue.set_type(UserDefinedType(ir.structure))
            elif isinstance(ir, Push):
                # No change required
                pass
            elif isinstance(ir, Send):
                ir.lvalue.set_type(ElementaryType('bool'))
            elif isinstance(ir, SolidityCall):
                return_type = ir.function.return_type
                if len(return_type) == 1:
                    ir.lvalue.set_type(return_type[0])
                elif len(return_type) > 1:
                    ir.lvalue.set_type(return_type)
            elif isinstance(ir, TypeConversion):
                ir.lvalue.set_type(ir.type)
            elif isinstance(ir, Unary):
                ir.lvalue.set_type(ir.rvalue.type)
            elif isinstance(ir, Unpack):
                types = ir.tuple.type.type
                idx = ir.index
                t = types[idx]
                ir.lvalue.set_type(t)
            elif isinstance(ir,
                            (Argument, TmpCall, TmpNewArray, TmpNewContract,
                             TmpNewStructure, TmpNewElementaryType)):
                # temporary operation; they will be removed
                pass
            else:
                logger.error('Not handling {} during type propgation'.format(
                    type(ir)))
                exit(-1)
Ejemplo n.º 2
0
def propagate_types(ir, node):
    # propagate the type
    using_for = node.function.contract.using_for
    if isinstance(ir, OperationWithLValue):
        # Force assignment in case of missing previous correct type
        if not ir.lvalue.type:
            if isinstance(ir, Assignment):
                ir.lvalue.set_type(ir.rvalue.type)
            elif isinstance(ir, Binary):
                if BinaryType.return_bool(ir.type):
                    ir.lvalue.set_type(ElementaryType('bool'))
                else:
                    ir.lvalue.set_type(ir.variable_left.type)
            elif isinstance(ir, Delete):
                # nothing to propagate
                pass
            elif isinstance(ir, LibraryCall):
                return convert_type_library_call(ir, ir.destination)
            elif isinstance(ir, HighLevelCall):
                t = ir.destination.type

                # Temporary operation (they are removed later)
                if t is None:
                    return

                if isinstance(t, ElementaryType) and t.name == 'address':
                    if can_be_solidity_func(ir):
                        return convert_to_solidity_func(ir)

                # convert library
                if t in using_for or '*' in using_for:
                    new_ir = convert_to_library(ir, node, using_for)
                    if new_ir:
                        return new_ir

                if isinstance(t, UserDefinedType):
                    # UserdefinedType
                    t_type = t.type
                    if isinstance(t_type, Contract):
                        contract = node.slither.get_contract_from_name(t_type.name)
                        return convert_type_of_high_and_internal_level_call(ir, contract)

                # Convert HighLevelCall to LowLevelCall
                if isinstance(t, ElementaryType) and t.name == 'address':
                    if ir.destination.name == 'this':
                        return convert_type_of_high_and_internal_level_call(ir, node.function.contract)
                    if can_be_low_level(ir):
                        return convert_to_low_level(ir)

                # Convert push operations
                # May need to insert a new operation
                # Which leads to return a list of operation
                if isinstance(t, ArrayType) or (isinstance(t, ElementaryType) and t.type == 'bytes'):
                    if ir.function_name == 'push' and len(ir.arguments) == 1:
                        return convert_to_push(ir, node)
                    if ir.function_name == 'pop' and len(ir.arguments) == 0:
                        return convert_to_pop(ir, node)

            elif isinstance(ir, Index):
                if isinstance(ir.variable_left.type, MappingType):
                    ir.lvalue.set_type(ir.variable_left.type.type_to)
                elif isinstance(ir.variable_left.type, ArrayType):
                    ir.lvalue.set_type(ir.variable_left.type.type)

            elif isinstance(ir, InitArray):
                length = len(ir.init_values)
                t = ir.init_values[0].type
                ir.lvalue.set_type(ArrayType(t, length))
            elif isinstance(ir, InternalCall):
                # if its not a tuple, return a singleton
                if ir.function is None:
                    convert_type_of_high_and_internal_level_call(ir, node.function.contract)
                return_type = ir.function.return_type
                if return_type:
                    if len(return_type) == 1:
                        ir.lvalue.set_type(return_type[0])
                    elif len(return_type) > 1:
                        ir.lvalue.set_type(return_type)
                else:
                    ir.lvalue = None
            elif isinstance(ir, InternalDynamicCall):
                # if its not a tuple, return a singleton
                return_type = ir.function_type.return_type
                if return_type:
                    if len(return_type) == 1:
                        ir.lvalue.set_type(return_type[0])
                    else:
                        ir.lvalue.set_type(return_type)
                else:
                    ir.lvalue = None
            elif isinstance(ir, LowLevelCall):
                # Call are not yet converted
                # This should not happen
                assert False
            elif isinstance(ir, Member):
                # TODO we should convert the reference to a temporary if the member is a length or a balance
                if ir.variable_right == 'length' and not isinstance(ir.variable_left, Contract) and isinstance(
                        ir.variable_left.type, (ElementaryType, ArrayType)):
                    length = Length(ir.variable_left, ir.lvalue)
                    length.set_expression(ir.expression)
                    length.lvalue.points_to = ir.variable_left
                    length.set_node(ir.node)
                    return length
                if ir.variable_right == 'balance' and not isinstance(ir.variable_left, Contract) and isinstance(
                        ir.variable_left.type, ElementaryType):
                    b = Balance(ir.variable_left, ir.lvalue)
                    b.set_expression(ir.expression)
                    b.set_node(ir.node)
                    return b
                if ir.variable_right == 'selector' and isinstance(ir.variable_left.type, Function):
                    assignment = Assignment(ir.lvalue,
                                            Constant(str(get_function_id(ir.variable_left.type.full_name))),
                                            ElementaryType('bytes4'))
                    assignment.set_expression(ir.expression)
                    assignment.set_node(ir.node)
                    assignment.lvalue.set_type(ElementaryType('bytes4'))
                    return assignment
                if isinstance(ir.variable_left, TemporaryVariable) and isinstance(ir.variable_left.type,
                                                                                  TypeInformation):
                    return _convert_type_contract(ir, node.function.slither)
                left = ir.variable_left
                t = None
                if isinstance(left, (Variable, SolidityVariable)):
                    t = ir.variable_left.type
                elif isinstance(left, (Contract, Enum, Structure)):
                    t = UserDefinedType(left)
                # can be None due to temporary operation
                if t:
                    if isinstance(t, UserDefinedType):
                        # UserdefinedType
                        type_t = t.type
                        if isinstance(type_t, Enum):
                            ir.lvalue.set_type(t)
                        elif isinstance(type_t, Structure):
                            elems = type_t.elems
                            for elem in elems:
                                if elem == ir.variable_right:
                                    ir.lvalue.set_type(elems[elem].type)
                        else:
                            assert isinstance(type_t, Contract)
                            # Allow type propagtion as a Function
                            # Only for reference variables
                            # This allows to track the selector keyword
                            # We dont need to check for function collision, as solc prevents the use of selector
                            # if there are multiple functions with the same name
                            f = next((f for f in type_t.functions if f.name == ir.variable_right), None)
                            if f:
                                ir.lvalue.set_type(f)
                            else:
                                # Allow propgation for variable access through contract's nale
                                # like Base_contract.my_variable
                                v = next((v for v in type_t.state_variables if v.name == ir.variable_right), None)
                                if v:
                                    ir.lvalue.set_type(v.type)
            elif isinstance(ir, NewArray):
                ir.lvalue.set_type(ir.array_type)
            elif isinstance(ir, NewContract):
                contract = node.slither.get_contract_from_name(ir.contract_name)
                ir.lvalue.set_type(UserDefinedType(contract))
            elif isinstance(ir, NewElementaryType):
                ir.lvalue.set_type(ir.type)
            elif isinstance(ir, NewStructure):
                ir.lvalue.set_type(UserDefinedType(ir.structure))
            elif isinstance(ir, Push):
                # No change required
                pass
            elif isinstance(ir, Send):
                ir.lvalue.set_type(ElementaryType('bool'))
            elif isinstance(ir, SolidityCall):
                if ir.function.name == 'type(address)':
                    ir.function.return_type = [TypeInformation(ir.arguments[0])]
                return_type = ir.function.return_type
                if len(return_type) == 1:
                    ir.lvalue.set_type(return_type[0])
                elif len(return_type) > 1:
                    ir.lvalue.set_type(return_type)
            elif isinstance(ir, TypeConversion):
                ir.lvalue.set_type(ir.type)
            elif isinstance(ir, Unary):
                ir.lvalue.set_type(ir.rvalue.type)
            elif isinstance(ir, Unpack):
                types = ir.tuple.type.type
                idx = ir.index
                t = types[idx]
                ir.lvalue.set_type(t)
            elif isinstance(ir,
                            (Argument, TmpCall, TmpNewArray, TmpNewContract, TmpNewStructure, TmpNewElementaryType)):
                # temporary operation; they will be removed
                pass
            else:
                raise SlithIRError('Not handling {} during type propgation'.format(type(ir)))
Ejemplo n.º 3
0
Archivo: ssa.py Proyecto: gyDBD/slither
def copy_ir(ir, local_variables_instances, state_variables_instances,
            temporary_variables_instances, reference_variables_instances,
            all_local_variables_instances):
    '''
    Args:
        ir (Operation)
        local_variables_instances(dict(str -> LocalVariable))
        state_variables_instances(dict(str -> StateVariable))
        temporary_variables_instances(dict(int -> Variable))
        reference_variables_instances(dict(int -> Variable))

    Note: temporary and reference can be indexed by int, as they dont need phi functions
    '''
    def get(variable):
        if isinstance(variable, LocalVariable):
            if variable.name in local_variables_instances:
                return local_variables_instances[variable.name]
            new_var = LocalIRVariable(variable)
            local_variables_instances[variable.name] = new_var
            all_local_variables_instances[variable.name] = new_var
            return new_var
        if isinstance(
                variable, StateVariable
        ) and variable.canonical_name in state_variables_instances:
            return state_variables_instances[variable.canonical_name]
        elif isinstance(variable, ReferenceVariable):
            if not variable.index in reference_variables_instances:
                new_variable = ReferenceVariable(variable.node,
                                                 index=variable.index)
                if variable.points_to:
                    new_variable.points_to = get(variable.points_to)
                new_variable.set_type(variable.type)
                reference_variables_instances[variable.index] = new_variable
            return reference_variables_instances[variable.index]
        elif isinstance(variable, TemporaryVariable):
            if not variable.index in temporary_variables_instances:
                new_variable = TemporaryVariable(variable.node,
                                                 index=variable.index)
                new_variable.set_type(variable.type)
                temporary_variables_instances[variable.index] = new_variable
            return temporary_variables_instances[variable.index]
        return variable

    def get_variable(ir, f):
        variable = f(ir)
        variable = get(variable)
        return variable

    def get_arguments(ir):
        arguments = []
        for arg in ir.arguments:
            arg = get(arg)
            arguments.append(arg)
        return arguments

    def get_rec_values(ir, f):
        # Use by InitArray and NewArray
        # Potential recursive array(s)
        ori_init_values = f(ir)

        def traversal(values):
            ret = []
            for v in values:
                if isinstance(v, list):
                    v = traversal(v)
                else:
                    v = get(v)
                ret.append(v)
            return ret

        return traversal(ori_init_values)

    if isinstance(ir, Assignment):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        rvalue = get_variable(ir, lambda x: ir.rvalue)
        variable_return_type = ir.variable_return_type
        return Assignment(lvalue, rvalue, variable_return_type)
    elif isinstance(ir, Balance):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        value = get_variable(ir, lambda x: ir.value)
        return Balance(value, lvalue)
    elif isinstance(ir, Binary):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        variable_left = get_variable(ir, lambda x: ir.variable_left)
        variable_right = get_variable(ir, lambda x: ir.variable_right)
        operation_type = ir.type
        return Binary(lvalue, variable_left, variable_right, operation_type)
    elif isinstance(ir, Condition):
        val = get_variable(ir, lambda x: ir.value)
        return Condition(val)
    elif isinstance(ir, Delete):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        variable = get_variable(ir, lambda x: ir.variable)
        return Delete(lvalue, variable)
    elif isinstance(ir, EventCall):
        name = ir.name
        return EventCall(name)
    elif isinstance(ir, HighLevelCall):  # include LibraryCall
        destination = get_variable(ir, lambda x: ir.destination)
        function_name = ir.function_name
        nbr_arguments = ir.nbr_arguments
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        type_call = ir.type_call
        if isinstance(ir, LibraryCall):
            new_ir = LibraryCall(destination, function_name, nbr_arguments,
                                 lvalue, type_call)
        else:
            new_ir = HighLevelCall(destination, function_name, nbr_arguments,
                                   lvalue, type_call)
        new_ir.call_id = ir.call_id
        new_ir.call_value = get_variable(ir, lambda x: ir.call_value)
        new_ir.call_gas = get_variable(ir, lambda x: ir.call_gas)
        new_ir.arguments = get_arguments(ir)
        new_ir.function = ir.function
        return new_ir
    elif isinstance(ir, Index):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        variable_left = get_variable(ir, lambda x: ir.variable_left)
        variable_right = get_variable(ir, lambda x: ir.variable_right)
        index_type = ir.index_type
        return Index(lvalue, variable_left, variable_right, index_type)
    elif isinstance(ir, InitArray):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        init_values = get_rec_values(ir, lambda x: ir.init_values)
        return InitArray(init_values, lvalue)
    elif isinstance(ir, InternalCall):
        function = ir.function
        nbr_arguments = ir.nbr_arguments
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        type_call = ir.type_call
        new_ir = InternalCall(function, nbr_arguments, lvalue, type_call)
        new_ir.arguments = get_arguments(ir)
        return new_ir
    elif isinstance(ir, InternalDynamicCall):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        function = ir.function
        function_type = ir.function_type
        new_ir = InternalDynamicCall(lvalue, function, function_type)
        new_ir.arguments = get_arguments(ir)
        return new_ir
    elif isinstance(ir, LowLevelCall):
        destination = get_variable(ir, lambda x: x.destination)
        function_name = ir.function_name
        nbr_arguments = ir.nbr_arguments
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        type_call = ir.type_call
        new_ir = LowLevelCall(destination, function_name, nbr_arguments,
                              lvalue, type_call)
        new_ir.call_id = ir.call_id
        new_ir.call_value = get_variable(ir, lambda x: ir.call_value)
        new_ir.call_gas = get_variable(ir, lambda x: ir.call_gas)
        new_ir.arguments = get_arguments(ir)
        return new_ir
    elif isinstance(ir, Member):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        variable_left = get_variable(ir, lambda x: ir.variable_left)
        variable_right = get_variable(ir, lambda x: ir.variable_right)
        return Member(variable_left, variable_right, lvalue)
    elif isinstance(ir, NewArray):
        depth = ir.depth
        array_type = ir.array_type
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        new_ir = NewArray(depth, array_type, lvalue)
        new_ir.arguments = get_rec_values(ir, lambda x: ir.arguments)
        return new_ir
    elif isinstance(ir, NewElementaryType):
        new_type = ir.type
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        new_ir = NewElementaryType(new_type, lvalue)
        new_ir.arguments = get_arguments(ir)
        return new_ir
    elif isinstance(ir, NewContract):
        contract_name = ir.contract_name
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        new_ir = NewContract(contract_name, lvalue)
        new_ir.arguments = get_arguments(ir)
        return new_ir
    elif isinstance(ir, NewStructure):
        structure = ir.structure
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        new_ir = NewStructure(structure, lvalue)
        new_ir.arguments = get_arguments(ir)
        return new_ir
    elif isinstance(ir, Push):
        array = get_variable(ir, lambda x: ir.array)
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        return Push(array, lvalue)
    elif isinstance(ir, Return):
        value = [get_variable(x, lambda y: y) for x in ir.values]
        return Return(value)
    elif isinstance(ir, Send):
        destination = get_variable(ir, lambda x: ir.destination)
        value = get_variable(ir, lambda x: ir.call_value)
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        return Send(destination, value, lvalue)
    elif isinstance(ir, SolidityCall):
        function = ir.function
        nbr_arguments = ir.nbr_arguments
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        type_call = ir.type_call
        new_ir = SolidityCall(function, nbr_arguments, lvalue, type_call)
        new_ir.arguments = get_arguments(ir)
        return new_ir
    elif isinstance(ir, Transfer):
        destination = get_variable(ir, lambda x: ir.destination)
        value = get_variable(ir, lambda x: ir.call_value)
        return Transfer(destination, value)
    elif isinstance(ir, TypeConversion):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        variable = get_variable(ir, lambda x: ir.variable)
        variable_type = ir.type
        return TypeConversion(lvalue, variable, variable_type)
    elif isinstance(ir, Unary):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        rvalue = get_variable(ir, lambda x: ir.rvalue)
        operation_type = ir.type
        return Unary(lvalue, rvalue, operation_type)
    elif isinstance(ir, Unpack):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        tuple_var = ir.tuple
        idx = ir.index
        return Unpack(lvalue, tuple_var, idx)
    elif isinstance(ir, Length):
        lvalue = get_variable(ir, lambda x: ir.lvalue)
        value = get_variable(ir, lambda x: ir.value)
        return Length(value, lvalue)

    logger.error('Impossible ir copy on {} ({})'.format(ir, type(ir)))
    exit(-1)
Ejemplo n.º 4
0
def copy_ir(ir, *instances):
    '''
    Args:
        ir (Operation)
        local_variables_instances(dict(str -> LocalVariable))
        state_variables_instances(dict(str -> StateVariable))
        temporary_variables_instances(dict(int -> Variable))
        reference_variables_instances(dict(int -> Variable))

    Note: temporary and reference can be indexed by int, as they dont need phi functions
    '''
    if isinstance(ir, Assignment):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        rvalue = get_variable(ir, lambda x: x.rvalue, *instances)
        variable_return_type = ir.variable_return_type
        return Assignment(lvalue, rvalue, variable_return_type)
    elif isinstance(ir, Balance):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        value = get_variable(ir, lambda x: x.value, *instances)
        return Balance(value, lvalue)
    elif isinstance(ir, Binary):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        variable_left = get_variable(ir, lambda x: x.variable_left, *instances)
        variable_right = get_variable(ir, lambda x: x.variable_right,
                                      *instances)
        operation_type = ir.type
        return Binary(lvalue, variable_left, variable_right, operation_type)
    elif isinstance(ir, Condition):
        val = get_variable(ir, lambda x: x.value, *instances)
        return Condition(val)
    elif isinstance(ir, Delete):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        variable = get_variable(ir, lambda x: x.variable, *instances)
        return Delete(lvalue, variable)
    elif isinstance(ir, EventCall):
        name = ir.name
        return EventCall(name)
    elif isinstance(ir, HighLevelCall):  # include LibraryCall
        destination = get_variable(ir, lambda x: x.destination, *instances)
        function_name = ir.function_name
        nbr_arguments = ir.nbr_arguments
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        type_call = ir.type_call
        if isinstance(ir, LibraryCall):
            new_ir = LibraryCall(destination, function_name, nbr_arguments,
                                 lvalue, type_call)
        else:
            new_ir = HighLevelCall(destination, function_name, nbr_arguments,
                                   lvalue, type_call)
        new_ir.call_id = ir.call_id
        new_ir.call_value = get_variable(ir, lambda x: x.call_value,
                                         *instances)
        new_ir.call_gas = get_variable(ir, lambda x: x.call_gas, *instances)
        new_ir.arguments = get_arguments(ir, *instances)
        new_ir.function = ir.function
        return new_ir
    elif isinstance(ir, Index):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        variable_left = get_variable(ir, lambda x: x.variable_left, *instances)
        variable_right = get_variable(ir, lambda x: x.variable_right,
                                      *instances)
        index_type = ir.index_type
        return Index(lvalue, variable_left, variable_right, index_type)
    elif isinstance(ir, InitArray):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        init_values = get_rec_values(ir, lambda x: x.init_values, *instances)
        return InitArray(init_values, lvalue)
    elif isinstance(ir, InternalCall):
        function = ir.function
        nbr_arguments = ir.nbr_arguments
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        type_call = ir.type_call
        new_ir = InternalCall(function, nbr_arguments, lvalue, type_call)
        new_ir.arguments = get_arguments(ir, *instances)
        return new_ir
    elif isinstance(ir, InternalDynamicCall):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        function = get_variable(ir, lambda x: x.function, *instances)
        function_type = ir.function_type
        new_ir = InternalDynamicCall(lvalue, function, function_type)
        new_ir.arguments = get_arguments(ir, *instances)
        return new_ir
    elif isinstance(ir, LowLevelCall):
        destination = get_variable(ir, lambda x: x.destination, *instances)
        function_name = ir.function_name
        nbr_arguments = ir.nbr_arguments
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        type_call = ir.type_call
        new_ir = LowLevelCall(destination, function_name, nbr_arguments,
                              lvalue, type_call)
        new_ir.call_id = ir.call_id
        new_ir.call_value = get_variable(ir, lambda x: x.call_value,
                                         *instances)
        new_ir.call_gas = get_variable(ir, lambda x: x.call_gas, *instances)
        new_ir.arguments = get_arguments(ir, *instances)
        return new_ir
    elif isinstance(ir, Member):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        variable_left = get_variable(ir, lambda x: x.variable_left, *instances)
        variable_right = get_variable(ir, lambda x: x.variable_right,
                                      *instances)
        return Member(variable_left, variable_right, lvalue)
    elif isinstance(ir, NewArray):
        depth = ir.depth
        array_type = ir.array_type
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        new_ir = NewArray(depth, array_type, lvalue)
        new_ir.arguments = get_rec_values(ir, lambda x: x.arguments,
                                          *instances)
        return new_ir
    elif isinstance(ir, NewElementaryType):
        new_type = ir.type
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        new_ir = NewElementaryType(new_type, lvalue)
        new_ir.arguments = get_arguments(ir, *instances)
        return new_ir
    elif isinstance(ir, NewContract):
        contract_name = ir.contract_name
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        new_ir = NewContract(contract_name, lvalue)
        new_ir.arguments = get_arguments(ir, *instances)
        return new_ir
    elif isinstance(ir, NewStructure):
        structure = ir.structure
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        new_ir = NewStructure(structure, lvalue)
        new_ir.arguments = get_arguments(ir, *instances)
        return new_ir
    elif isinstance(ir, Push):
        array = get_variable(ir, lambda x: x.array, *instances)
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        return Push(array, lvalue)
    elif isinstance(ir, Return):
        values = get_rec_values(ir, lambda x: x.values, *instances)
        return Return(values)
    elif isinstance(ir, Send):
        destination = get_variable(ir, lambda x: x.destination, *instances)
        value = get_variable(ir, lambda x: x.call_value, *instances)
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        return Send(destination, value, lvalue)
    elif isinstance(ir, SolidityCall):
        function = ir.function
        nbr_arguments = ir.nbr_arguments
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        type_call = ir.type_call
        new_ir = SolidityCall(function, nbr_arguments, lvalue, type_call)
        new_ir.arguments = get_arguments(ir, *instances)
        return new_ir
    elif isinstance(ir, Transfer):
        destination = get_variable(ir, lambda x: x.destination, *instances)
        value = get_variable(ir, lambda x: x.call_value, *instances)
        return Transfer(destination, value)
    elif isinstance(ir, TypeConversion):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        variable = get_variable(ir, lambda x: x.variable, *instances)
        variable_type = ir.type
        return TypeConversion(lvalue, variable, variable_type)
    elif isinstance(ir, Unary):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        rvalue = get_variable(ir, lambda x: x.rvalue, *instances)
        operation_type = ir.type
        return Unary(lvalue, rvalue, operation_type)
    elif isinstance(ir, Unpack):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        tuple_var = get_variable(ir, lambda x: x.tuple, *instances)
        idx = ir.index
        return Unpack(lvalue, tuple_var, idx)
    elif isinstance(ir, Length):
        lvalue = get_variable(ir, lambda x: x.lvalue, *instances)
        value = get_variable(ir, lambda x: x.value, *instances)
        return Length(value, lvalue)

    logger.error('Impossible ir copy on {} ({})'.format(ir, type(ir)))
    exit(-1)