Exemplo n.º 1
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def test_kernelfunctor_str():
    '''Check the str method of the KernelFunctor class.'''

    symbol = DataTypeSymbol("hello", StructureType())
    arg = Reference(Symbol("dummy"))
    klr = KernelFunctor.create(symbol, [arg])
    assert klr.__str__() == "KernelFunctor[name='hello']"
Exemplo n.º 2
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def test_kernelfunctor_node_str():
    '''Check the node_str method of the KernelFunctor class.'''

    symbol = DataTypeSymbol("hello", StructureType())
    arg = Reference(Symbol("dummy"))
    klr = KernelFunctor.create(symbol, [arg])
    coloredtext = colored("KernelFunctor", KernelFunctor._colour)
    assert klr.node_str() == coloredtext + "[name='hello']"
Exemplo n.º 3
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def test_kernelfunctor_create_invalid_args1():
    '''Check that the create method of KernelFunctor raises the expected
    exception if the provided 'arguments' argument is not a list.

    '''
    symbol = DataTypeSymbol("hello", StructureType())
    with pytest.raises(GenerationError) as info:
        _ = KernelFunctor.create(symbol, "Not a list")
    assert ("KernelFunctor create() arguments argument should be a list "
            "but found 'str'." in str(info.value))
Exemplo n.º 4
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def test_kernelfunctor_create_invalid_symbol():
    '''Check that the create method of KernelFunctor raises the expected
    exception if the provided symbol argument is not the correct type.

    '''
    symbol = Symbol("hello")
    with pytest.raises(GenerationError) as info:
        _ = KernelFunctor.create(symbol, [])
    assert ("KernelFunctor create() symbol argument should be a DataTypeSymbol"
            " but found 'Symbol'." in str(info.value))
Exemplo n.º 5
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def test_kernelfunctor_invalid_args2():
    '''Check that the create method of KernelFunctor raises the expected
    exception if its supplied list of children are not the expected
    type (tests _validate_child method and _children_valid_format
    variable)

    '''
    symbol = DataTypeSymbol("hello", StructureType())
    with pytest.raises(GenerationError) as info:
        _ = KernelFunctor.create(symbol, ["hello"])
    assert ("Item 'str' can't be child 0 of 'KernelFunctor'. The valid "
            "format is: '[DataNode]*'." in str(info.value))
Exemplo n.º 6
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def test_kernelfunctor_create(cls):
    '''Check that the create method of KernelFunctor works as expected.

    '''
    symbol = DataTypeSymbol("hello", StructureType())
    klr = cls.create(symbol, [])
    # pylint: disable=unidiomatic-typecheck
    assert type(klr) is cls
    assert klr._symbol == symbol
    assert len(klr.children) == 0

    arg = Reference(Symbol("dummy"))
    klr = KernelFunctor.create(symbol, [arg])
    assert len(klr.children) == 1
    assert klr.children[0] == arg
    assert arg.parent == klr
Exemplo n.º 7
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    def apply(self, call, index, options=None):
        ''' Apply the transformation to the supplied node.

        :param call: a PSyIR call node capturing an invoke call in \
            generic PSyIR.
        :type call: :py:class:`psyclone.psyir.nodes.Call`
        :param int index: the position of this invoke call relative to \
            other invokes in the algorithm layer.
        :param options: a dictionary with options for transformations.
        :type options: dictionary of string:values or None

        '''
        self.validate(call, options=options)

        kernel_calls = []
        for call_arg in call.children:
            arg_info = []
            if isinstance(call_arg, ArrayReference):
                # Structure constructor mis-parsed as an array
                # reference.
                type_symbol = call_arg.symbol
                args = call_arg.pop_all_children()
                arg_info.append((type_symbol, args))
            else:
                # CodeBlock containing a structure constructor
                for fp2_node in call_arg._fp2_nodes:
                    type_symbol = self._get_symbol(call, fp2_node)
                    args = self._parse_args(call_arg, fp2_node)
                    arg_info.append((type_symbol, args))

            for (type_symbol, args) in arg_info:
                self._specialise_symbol(type_symbol)
                kernel_calls.append(KernelFunctor.create(type_symbol, args))

        invoke_call = AlgorithmInvokeCall.create(call.routine, kernel_calls,
                                                 index)
        call.replace_with(invoke_call)