Esempio n. 1
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 def parse(self, tokens, wrap=True):
     self.tokens = [token for token in tokens]
     self.position = 0
     program = self.parse_block(False)
     if wrap:
         return model.FunctionCall(model.Function([], program), [])
     return program
Esempio n. 2
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 def test_function_call(self):
     reference = model.Reference("foo")
     call = model.FunctionCall(
         reference, [model.Number(1),
                     model.Number(2),
                     model.Number(3)])
     printer = PrettyPrinter()
     result = printer.visit(call)
     assert result == "foo(1, 2, 3);\n"
Esempio n. 3
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def test_function_call():
    arg_name = "arg"
    f = model.Function([arg_name], [model.Reference(arg_name)])
    scope = model.Scope()
    f_name = "foo"
    f_r = model.Reference(f_name)
    scope[f_name] = f
    n = model.Number(10)
    call = model.FunctionCall(f_r, [n])
    assert call.evaluate(scope) is n
Esempio n. 4
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    def parse_unary(self):
        token = self.peek_token()
        if self.is_unary(token.value):
            self.drop_tokens()
            return model.UnaryOperation(token.value, self.parse_unary())

        primary = self.parse_primary()
        while self.peek_token().value == '(':
            parameters = self.parse_parameters()
            primary = model.FunctionCall(primary, parameters)
        return primary
Esempio n. 5
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def mytest():
    printer = PrettyPrinter()
    cond2 = model.Conditional(model.Number(30), [model.Number(10)],
                              [model.Number(20)])
    cond = model.Conditional(
        model.Number(42),
        [model.Number(1), cond2, model.Number(3)],
        [model.Number(4), model.Number(5)])
    cond3 = model.Conditional(model.Number(228), [], [])
    func2 = model.Function(('p111', 'p222'), [
        model.Reference("x"),
        model.Print(model.Reference("p111")),
        model.Read("myVar")
    ])
    fd2 = model.FunctionDefinition("anotherPrettyFunc", func2)
    func = model.Function(
        (),
        [model.UnaryOperation("-", model.Number(100000000)), fd2, cond, cond3])
    fd = model.FunctionDefinition("myPrettyFunc", func)
    printer.visit(fd)
    asd = model.BinaryOperation(
        model.BinaryOperation(model.Number(123), "+", model.Reference("xx")),
        "*",
        model.UnaryOperation(
            "-",
            model.BinaryOperation(model.Reference("xx"), "+",
                                  model.Reference("yy"))))
    printer.visit(asd)
    asd2 = model.BinaryOperation(
        model.BinaryOperation(model.Number(123), "/", model.Reference("xx")),
        "/",
        model.BinaryOperation(
            model.BinaryOperation(model.Reference("xx"), "/",
                                  model.Reference("yy")), "/",
            model.BinaryOperation(model.Number(123), "/",
                                  model.Reference("yy"))))
    printer.visit(asd2)
    printer.visit(model.FunctionCall(model.Reference("func"), [asd, asd2]))
    cond4 = model.Conditional(model.Number(228), [])
    printer.visit(cond4)
Esempio n. 6
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    def test_function_with_body_args(self):
        parent = model.Scope()
        parent["f"] = model.Function(("a", "b"), [
            model.Print(
                model.BinaryOperation(model.Reference("a"), "+",
                                      model.Reference("b")))
        ])
        parent["x"] = model.Number(10)
        scope = model.Scope(parent)
        scope["y"] = model.Number(20)
        definition = model.FunctionDefinition("f", parent["f"])
        printer = PrettyPrinter()
        result = printer.visit(definition)
        assert result == "def f(a, b) {\n\tprint (a) + (b);\n};\n"

        definition.evaluate(scope)
        call = model.FunctionCall(
            model.Reference("f"),
            [model.Number(5),
             model.UnaryOperation("-", model.Number(3))])
        result = printer.visit(call)
        assert result == "f(5, -(3));\n"
Esempio n. 7
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def test_conditional():
    scope = model.Scope()
    true = model.Number(1)
    false = model.Number(0)
    f = model.FunctionCall(model.Function([], [true]), [])
    cond = model.Conditional(true, None, None)
    cond.evaluate(scope)
    cond = model.Conditional(false, None, None)
    cond.evaluate(scope)
    cond = model.Conditional(true, [], None)
    cond.evaluate(scope)
    cond = model.Conditional(true, None, [])
    cond.evaluate(scope)
    cond = model.Conditional(false, [], None)
    cond.evaluate(scope)
    cond = model.Conditional(false, None, [])
    cond.evaluate(scope)
    cond = model.Conditional(true, [], [])
    cond.evaluate(scope)
    cond = model.Conditional(true, [], [])
    cond.evaluate(scope)
    cond = model.Conditional(true, [true], None)
    assert cond.evaluate(scope) is true
    cond = model.Conditional(false, None, [false])
    assert cond.evaluate(scope) is false
    cond = model.Conditional(true, [f], None)
    assert cond.evaluate(scope) is true
    cond = model.Conditional(false, None, [f])
    assert cond.evaluate(scope) is true
    # If one of the following assertions fail, it means that Conditional has
    # evaluated wrong branch.
    cond = model.Conditional(false, [true], None)
    assert cond.evaluate(scope) is not true
    cond = model.Conditional(false, [true], [])
    assert cond.evaluate(scope) is not true
    cond = model.Conditional(true, None, [false])
    assert cond.evaluate(scope) is not false
    cond = model.Conditional(true, [], [false])
    assert cond.evaluate(scope) is not false
Esempio n. 8
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    def test_function_call(self):
        scope = model.Scope()
        scope["x"] = model.Number(10)
        function = model.Function(["a", "b", "c"], [])
        model.FunctionDefinition("f", function).evaluate(scope)

        call = model.FunctionCall(model.Reference("f"), [
            model.BinaryOperation(model.Number(2), "*", model.Number(3)),
            model.BinaryOperation(model.Number(0), "*", model.Reference("x")),
            model.Reference("x")
        ])
        folder = ConstantFolder()
        tree = folder.visit(call)
        assert (isinstance(tree, model.FunctionCall)
                and isinstance(tree.fun_expr, model.Reference)
                and tree.fun_expr.name == "f" and len(tree.args) == 3
                and isinstance(tree.args[0], model.Number)
                and tree.args[0].value == 6
                and isinstance(tree.args[1], model.Number)
                and tree.args[1].value == 0
                and isinstance(tree.args[2], model.Reference)
                and tree.args[2].name == "x")
Esempio n. 9
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def main():
    v = PrettyPrinter()
    v.visit(m.Print(m.Number(10)))
    v.visit(m.UnaryOperation('-', m.Number(10)))
    v.visit(
        m.BinaryOperation(
            m.BinaryOperation(m.Reference('foo'), '+', m.Number(7)), '*',
            m.Number(2)))
    v.visit(m.Read("read"))
    v.visit(
        m.Conditional(
            m.Number(5),
            [m.BinaryOperation(m.Reference('var'), '-', m.Number(-5))]))
    v.visit(
        m.FunctionDefinition(
            'summer',
            m.Function(['a', 'b'], [
                m.Print(
                    m.BinaryOperation(m.Reference('a'), '+',
                                      m.Reference('b'))),
                m.BinaryOperation(m.Reference('a'), '+', m.Reference('b'))
            ])))
    v.visit(
        m.FunctionCall(
            m.Reference('summer'),
            [m.Number(1),
             m.BinaryOperation(m.Number(2), '+', m.Number(3))]))
    v.visit(
        m.Print(
            m.Conditional(m.BinaryOperation(m.Number(4), '-', m.Number(4)), [],
                          [
                              m.BinaryOperation(m.Number(9), '/', m.Number(3)),
                              m.Reference('var')
                          ])))
    v.visit(
        m.FunctionDefinition(
            'abs',
            m.Function(['a', 'b'], [
                m.Conditional(
                    m.BinaryOperation(
                        m.BinaryOperation(m.Reference('a'), '-',
                                          m.Reference('b')), '>', m.Number(0)),
                    [
                        m.Print(
                            m.BinaryOperation(m.Reference('a'), '-',
                                              m.Reference('b')))
                    ], [
                        m.Print(
                            m.BinaryOperation(m.Reference('b'), '-',
                                              m.Reference('a')))
                    ])
            ])))
    v.visit(
        m.FunctionCall(
            m.Reference('abs'),
            [m.Number(23), m.UnaryOperation('-', m.Number(-30))]))
    v.visit(m.FunctionDefinition('fu', m.Function([], [])))
    v.visit(m.FunctionCall(m.Reference('fu'), []))
    v.visit(m.Print(m.BinaryOperation(m.Number(5), '&&', m.Number(6))))
    v.visit(m.Print(m.BinaryOperation(m.Number(3), '<', m.Number(5))))
    v.visit(m.Print(m.Conditional(m.Number(3), None, None)))
    v.visit(m.Print(m.BinaryOperation(m.Number(1), '||', m.Number(4))))
Esempio n. 10
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 def visit_function_call(self, func_call):
     return m.FunctionCall(func_call.fun_expr.accept(self),
                           self.optimize_list(func_call.args))
Esempio n. 11
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 def visit_function_call(self, func_call):
     args = self.process_list(func_call.args)
     fun_expr = func_call.fun_expr.visit(self)
     return model.FunctionCall(fun_expr, args)