Exemplo n.º 1
0
def test_dotted_list():
    """Check that dotted lists get tokenized correctly"""
    entry = tokenize("(a b c . (d . e))")[0]
    assert entry == HyCons(
        HySymbol("a"),
        HyCons(HySymbol("b"),
               HyCons(HySymbol("c"), HyCons(HySymbol("d"), HySymbol("e")))))
Exemplo n.º 2
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def test_cons_replacing():
    """Check that assigning to a cons works as expected"""
    cons = HyCons("foo", "bar")
    cons[0] = "car"

    assert cons == HyCons("car", "bar")

    cons[1:] = "cdr"
    assert cons == HyCons("car", "cdr")

    try:
        cons[:] = "foo"
        assert True is False
    except IndexError:
        pass
Exemplo n.º 3
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def test_compound_model_repr():
    HY_LIST_MODELS = (HyExpression, HyDict, HySet, HyList)
    with pretty(False):
        assert eval(repr(HyCons(1, 2))).__class__ is HyCons
        assert eval(repr(HyCons(1, 2))) == HyCons(1, 2)
        for model in HY_LIST_MODELS:
            assert eval(repr(model())).__class__ is model
            assert eval(repr(model([1, 2]))) == model([1, 2])
            assert eval(repr(model([1, 2, 3]))) == model([1, 2, 3])
        for k, v in PRETTY_STRINGS.items():
            # `str` should be pretty, even under `pretty(False)`.
            assert clean(str(hy.read_str(k))) == v
        for k in PRETTY_STRINGS.keys():
            assert eval(repr(hy.read_str(k))) == hy.read_str(k)
    with pretty(True):
        for model in HY_LIST_MODELS:
            assert eval(clean(repr(model()))).__class__ is model
            assert eval(clean(repr(model([1, 2])))) == model([1, 2])
            assert eval(clean(repr(model([1, 2, 3])))) == model([1, 2, 3])
        for k, v in PRETTY_STRINGS.items():
            assert clean(repr(hy.read_str(k))) == v
Exemplo n.º 4
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def paren(p):
    cont = p[1]

    # Dotted lists are expressions of the form
    # (a b c . d)
    # that evaluate to nested cons cells of the form
    # (a . (b . (c . d)))
    if len(cont) >= 3 and isinstance(cont[-2], HySymbol) and cont[-2] == ".":

        reject_spurious_dots(cont[:-2], cont[-1:])

        if len(cont) == 3:
            # Two-item dotted list: return the cons cell directly
            return HyCons(cont[0], cont[2])
        else:
            # Return a nested cons cell
            return HyCons(cont[0], paren([p[0], cont[1:], p[2]]))

    # Warn preemptively on a malformed dotted list.
    # Only check for dots after the first item to allow for a potential
    # attribute accessor shorthand
    reject_spurious_dots(cont[1:])

    return HyExpression(p[1])
Exemplo n.º 5
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def test_cons_slicing():
    """Check that cons slicing works as expected"""
    cons = HyCons("car", "cdr")
    assert cons[0] == "car"
    assert cons[1:] == "cdr"
    try:
        cons[:]
        assert True is False
    except IndexError:
        pass

    try:
        cons[1]
        assert True is False
    except IndexError:
        pass
Exemplo n.º 6
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def test_simple_cons():
    """Check that cons gets tokenized correctly"""
    entry = tokenize("(a . b)")[0]
    assert entry == HyCons(HySymbol("a"), HySymbol("b"))