Ejemplo n.º 1
0
def test_enumerate_vars_of_bound_var():
    from prolog.interpreter.memo import EnumerationMemo
    h = Heap()
    X = h.newvar()
    X.setvalue(Callable.build("a"), h)
    t1 = Callable.build("f", [X])
    memo = EnumerationMemo()
    t2 = t1.enumerate_vars(memo)
    assert is_term(t2)
    assert t2.signature().eq(t1.signature())
    assert t1.argument_at(0).dereference(None) is t2.argument_at(0)
Ejemplo n.º 2
0
def test_enumerate_vars_of_bound_var():
    from prolog.interpreter.memo import EnumerationMemo
    h = Heap()
    X = h.newvar()
    X.setvalue(Callable.build("a"), h)
    t1 = Callable.build("f", [X])
    memo = EnumerationMemo()
    t2 = t1.enumerate_vars(memo)
    assert is_term(t2)
    assert t2.signature().eq(t1.signature())
    assert t1.argument_at(0).dereference(None) is t2.argument_at(0)
Ejemplo n.º 3
0
def test_cyclic_term():
    h = Heap()
    X = h.newvar()
    t = Callable.build("f", [X], heap=h)
    t.unify(X, h)

    Y = h.newvar()
    t2 = Callable.build("f", [Y], heap=h)
    t2.unify(Y, h)

    t.unify(t2, h) # does not crash
    X.unify(Y, h) # does not crash
Ejemplo n.º 4
0
def test_callable_build_removes_unneeded_vars():
    h1 = Heap()
    v1 = h1.newvar()
    v1.binding = 1

    h2 = h1.branch()
    v2 = h2.newvar()
    v2.binding = 2

    t = Callable.build("hello", [v1, v2], heap=h2)
    assert t.argument_at(0) is v1
    assert t.argument_at(1) == 2
Ejemplo n.º 5
0
def test_cyclic_term():
    h = Heap()
    X = h.newvar()
    t = Callable.build("f", [X], heap=h)
    t.unify(X, h)

    Y = h.newvar()
    t2 = Callable.build("f", [Y], heap=h)
    t2.unify(Y, h)

    t.unify(t2, h)  # does not crash
    X.unify(Y, h)  # does not crash
Ejemplo n.º 6
0
def test_callable_build_removes_unneeded_vars():
    h1 = Heap()
    v1 = h1.newvar()
    v1.binding = 1

    h2 = h1.branch()
    v2 = h2.newvar()
    v2.binding = 2

    t = Callable.build("hello", [v1, v2], heap=h2)
    assert t.argument_at(0) is v1
    assert t.argument_at(1) == 2
Ejemplo n.º 7
0
def test_copy_standardize_apart():
    heap = Heap()
    Z = NumberedVar(0)
    env = [None]
    t1, f1 = Z.copy_standardize_apart(heap, env)
    t2, f2 = Z.copy_standardize_apart(heap, env)
    assert not f1
    assert not f2
    assert isinstance(t1, Var)
    assert t1 is t2

    env = [Number(1)]
    t1, f1 = Z.copy_standardize_apart(heap, env)
    assert isinstance(t1, Number)
    t2, f2 = Z.copy_standardize_apart(heap, env)
    assert t1 is t2
    assert not f1
    assert not f2

    Z = NumberedVar(-1)
    t1, f1 = Z.copy_standardize_apart(heap, [None])
    t2, f2 = Z.copy_standardize_apart(heap, [None])
    assert isinstance(t1, Var)
    assert isinstance(t2, Var)
    assert t1 is not t2
    assert not f1
    assert not f2
Ejemplo n.º 8
0
def test_run():
    e = Engine()
    e.add_rule(Callable.build("f", [Callable.build("a"), Callable.build("b")]))
    X = BindingVar()
    Y = BindingVar()
    c = Callable.build("f", [X, X])
    e.add_rule(c)
    c2 = Callable.build(":-", [Callable.build("f", [X, Y]),
                           Callable.build("f", [Y, X])])
    e.add_rule(c2)
    hp = Heap()
    X = hp.newvar()
    c3 = Callable.build("f", [Callable.build("b"), X])
    e.run_query_in_current(c3)
    assert X.dereference(hp).name()== "b"
    query = Callable.build("f", [Callable.build("b"), Callable.build("a")]) 
    e.run_query_in_current(query)
Ejemplo n.º 9
0
def test_run():
    e = Engine()
    e.add_rule(Callable.build("f", [Callable.build("a"), Callable.build("b")]))
    X = BindingVar()
    Y = BindingVar()
    c = Callable.build("f", [X, X])
    e.add_rule(c)
    c2 = Callable.build(
        ":-", [Callable.build("f", [X, Y]),
               Callable.build("f", [Y, X])])
    e.add_rule(c2)
    hp = Heap()
    X = hp.newvar()
    c3 = Callable.build("f", [Callable.build("b"), X])
    e.run_query_in_current(c3)
    assert X.dereference(hp).name() == "b"
    query = Callable.build("f", [Callable.build("b"), Callable.build("a")])
    e.run_query_in_current(query)
Ejemplo n.º 10
0
def test_term():
    X = BindingVar()
    Y = BindingVar()
    t1 = Callable.build("f", [Callable.build("hallo"), X])
    t2 = Callable.build("f", [Y, Callable.build("HALLO")])
    heap = Heap()
    print t1, t2
    t1.unify(t2, heap)
    assert X.dereference(heap).name() == "HALLO"
    assert Y.dereference(heap).name() == "hallo"
Ejemplo n.º 11
0
def test_var():
    b = BindingVar()
    heap = Heap()
    b.unify(Callable.build("hallo"), heap)
    assert b.dereference(heap).name() == "hallo"
    a = BindingVar()
    b = BindingVar()
    a.unify(b, heap)
    a.unify(Callable.build("hallo"), heap)
    assert a.dereference(heap).name() == "hallo"
    assert b.dereference(heap).name() == "hallo"
Ejemplo n.º 12
0
def test_unify_and_standardize_apart():
    heap = Heap()
    X = BindingVar()
    Y = BindingVar()
    Z = NumberedVar(0)
    t1 = Callable.build(
        "f", [Z, Callable.build("g", [Z, Callable.build("h")]), Z])
    t2 = Callable.build("f", [Callable.build("i"), X, Y])
    env = [None]
    t1.unify_and_standardize_apart(t2, heap, env)

    Z = NumberedVar(-1)
    Z.unify_and_standardize_apart(t2, heap, [])
Ejemplo n.º 13
0
def test_copy_standardize_apart_term():
    heap = Heap()
    Z = NumberedVar(0)
    t = Callable.build("f", [Z, Z])
    t2 = t.copy_standardize_apart(heap, [None])
    assert isinstance(t2.argument_at(0), Var)
    assert t2.argument_at(0) is t2.argument_at(1)

    t2 = t.copy_standardize_apart(heap, [Number(1)])
    assert isinstance(t2.argument_at(0), Number)
    assert t2.argument_at(0) is t2.argument_at(1)

    Z = NumberedVar(-1)
    t = Callable.build("f", [Z, Z])
    t2 = t.copy_standardize_apart(heap, [None])
    assert isinstance(t2.argument_at(0), Var)
    assert isinstance(t2.argument_at(1), Var)
    assert t2.argument_at(0) is not t2.argument_at(1)
Ejemplo n.º 14
0
def test_recursive():
    b = BindingVar()
    heap = Heap()
    b.unify(Callable.build("hallo", [b]), heap)
Ejemplo n.º 15
0
def test_unify_var():
    b = BindingVar()
    heap = Heap()
    b.unify(b, heap)
    b.unify(Callable.build("hallo"), heap)
    py.test.raises(UnificationFailed, b.unify, Callable.build("bye"), heap)
Ejemplo n.º 16
0
def test_copy_standardize_apart_ground_term():
    heap = Heap()
    t = Callable.build("f", [Number(1), Callable.build("g")])
    t2, f2 = t.copy_standardize_apart(heap, [None])
    assert f2
    assert t2 is t