Example #1
0
 def test_set_sub(self):
     t = TSet(INT)
     s1 = Bag((0, 1))
     s2 = Bag((1, 0))
     e = EEq(EBinOp(EVar("s1").with_type(t), "-", EVar("s2").with_type(t)), EEmptyList().with_type(t))
     assert retypecheck(e)
     assert eval(e, {"s1": s1, "s2": s2}) is True
Example #2
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 def test_heap_equality(self):
     t = TMinHeap(BOOL, INT)
     env = {
         "h1": Bag(((False, 7), (False, 13), (False, 13))),
         "h2": Bag(((False, 13), (False, 13), (False, 7))),
     }
     assert eval(EEq(EVar("h1").with_type(t), EVar("h2").with_type(t)), env)
Example #3
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def random_value(t):
    """
    Construct a stream of values in type t
    """
    if isinstance(t, TBag):
        yield Bag()
        for v in random_value(t.elem_type):
            yield Bag((v, ))
        for v1 in random_value(t.elem_type):
            for v2 in random_value(t.elem_type):
                yield Bag((v1, v2))
    elif isinstance(t, TInt):
        yield random.randint(0, 100)
        yield 0
    elif isinstance(t, TNative):
        yield (t.name, 0)
    elif isinstance(t, TFloat):
        yield random.randint(0, 100) / 100.0
        yield 0.0
    elif isinstance(t, TBool):
        yield True
        yield False
    elif isinstance(t, TString):
        yield ''.join(random.choice(string.ascii_letters) for _ in range(8))
    elif isinstance(t, TRecord):
        iterables = [random_value(ty) for _, ty in t.fields]
        for vs in product(*iterables):
            yield FrozenDict({field[0]: v for v, field in zip(vs, t.fields)})
    else:
        raise Exception(
            "Unknown type for random value construction: {}".format(t))
Example #4
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 def test_distinct_order(self):
     env = {
         "xs": Bag([0, 1, 0]),
     }
     e = EUnaryOp(UOp.Distinct,
                  EVar("xs").with_type(INT_BAG)).with_type(INT_BAG)
     self.assertEqual(eval(e, env), Bag([0, 1]))
Example #5
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    def test_heap_enumeration(self):
        xs = EVar("xs").with_type(INT_BAG)
        context = RootCtx(state_vars=[xs])
        cost_model = CostModel()

        def not_min_or_max(e, *args, **kwargs):
            # forbid min/max to ensure that heap operations get cached
            if isinstance(e, EArgMin) or isinstance(e, EArgMax):
                return False
            return True

        enumerator = Enumerator(examples=[{
            "xs": Bag(())
        }, {
            "xs": Bag((1, 2))
        }, {
            "xs": Bag((1, 1))
        }],
                                cost_model=cost_model,
                                check_wf=not_min_or_max)

        with save_property(accelerate, "value"):
            accelerate.value = False

            print("-" * 20 + " Looking for xs...")
            found_xs = False
            for e in enumerator.enumerate(context, 0, STATE_POOL):
                print(pprint(e))
                if e == xs:
                    assert retypecheck(deep_copy(e))
                    found_xs = True
                    print("^^^ FOUND")
            assert found_xs

            print("-" * 20 + " Looking for heap construction...")
            found_make_heap = False
            for e in enumerator.enumerate(context, 1, STATE_POOL):
                print(pprint(e))
                if isinstance(e, EMakeMinHeap) or isinstance(e, EMakeMaxHeap):
                    assert retypecheck(deep_copy(e))
                    found_make_heap = True
                    print("^^^ FOUND")
            assert found_make_heap

            print("-" * 20 + " Looking for heap usage...")
            found_heap_peek = False
            for e in enumerator.enumerate(context, 2, RUNTIME_POOL):
                print(pprint(e))
                if isinstance(e, EHeapPeek) or isinstance(e, EHeapPeek2):
                    assert retypecheck(deep_copy(e))
                    found_heap_peek = True
                    print("^^^ FOUND")
            assert found_heap_peek
Example #6
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    def test_deep_eq(self):
        t = THandle("H", INT)

        h1 = Handle(address=0, value=0)
        h2 = Handle(address=0, value=1)
        assert h1 != h2
        assert values_equal(t, h1, h2)

        h3 = Handle(address=1, value=0)
        b1 = Bag((h1, h3, h3))
        b2 = Bag((h3, h2, h3))
        assert b1 != b2
        assert values_equal(TBag(t), b1, b2)
Example #7
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 def unaryop_distinct(stk):
     v = stk.pop()
     res = []
     for x in v:
         if not any(values_equal(elem_type, x, y) for y in res):
             res.append(x)
     stk.append(Bag(res))
Example #8
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 def test_fingerprint_subset(self):
     inp = {"x": Bag([1])}
     e1 = EVar("x").with_type(INT_BAG)
     e2 = EEmptyList().with_type(e1.type)
     fp1 = Fingerprint.of(e1, [inp])
     fp2 = Fingerprint.of(e2, [inp])
     self.assertNotEqual(fp1, fp2)
     assert not fp1.subset_of(fp2)
     assert fp2.subset_of(fp1)
Example #9
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 def binaryop_sub_bags(stk):
     v2 = stk.pop()
     v1 = stk.pop()
     elems = list(v1)
     for x in v2:
         for i in range(len(elems)):
             if values_equal(elem_type, x, elems[i]):
                 del elems[i]
                 break
     stk.append(Bag(elems))
Example #10
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    def test_state_pool_boundary(self):
        """
        When enumerating expressions, we shouldn't ever enumerate state
        expressions in a context where some binders are runtime variables.
        """
        class TestEnumerator(Enumerator):
            def __init__(self, *args, **kwargs):
                super().__init__(*args, **kwargs)
                self.state_enumerations = 0

            def _enumerate_core(self, context, size, pool):
                print("_enumerate_core({}, {}, {})".format(
                    context, size, pool))
                if pool == STATE_POOL:
                    self.state_enumerations += 1
                return super()._enumerate_core(context, size, pool)

        state_bag = EVar("state").with_type(INT_BAG)
        context = RootCtx(state_vars=[state_bag],
                          args=[EVar("arg").with_type(INT)])

        enumerator = TestEnumerator(examples=[{
            "state": Bag([10]),
            "arg": 10
        }, {
            "state": Bag([20]),
            "arg": 30
        }],
                                    cost_model=CostModel())

        for e in enumerator.enumerate(context, 1, RUNTIME_POOL):
            pass

        for e in enumerator.enumerate(
                UnderBinder(context,
                            EVar("x").with_type(INT),
                            EStateVar(state_bag).with_type(state_bag.type),
                            RUNTIME_POOL), 1, RUNTIME_POOL):
            pass

        assert enumerator.state_enumerations == 1
Example #11
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def do_concat(stk):
    v = stk.pop()
    stk.append(Bag(elem for bag in v for elem in bag))
Example #12
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def binaryop_add_sets(stk):
    v2 = stk.pop()
    v1 = stk.pop()
    stk.append(Bag(unique(itertools.chain(v1, v2))))
Example #13
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def binaryop_add_collections(stk):
    v2 = stk.pop()
    v1 = stk.pop()
    stk.append(Bag(itertools.chain(v1, v2)))
Example #14
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def read_map_keys(stk):
    stk.append(Bag(stk.pop().keys()))
Example #15
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def iterable_to_bag(stk):
    stk.append(Bag(stk.pop()))
Example #16
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def make_singleton_bag(stk):
    stk.append(Bag((stk.pop(),)))
Example #17
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def list_index(default):
    def _list_index(stk):
        i = stk.pop()
        l = stk.pop()
        stk.append(
            l[i] if i >= 0 and i < len(l) else
            default)
    return _list_index

def list_slice(stk):
    end   = max(stk.pop(), 0)
    start = max(stk.pop(), 0)
    l = stk.pop()
    stk.append(l[start:end])

_EMPTY_BAG = Bag()
def _compile(e, env : {str:int}, out):
    if isinstance(e, EVar):
        i = env[e.id]
        if isinstance(i, int):
            def load_var(stk):
                stk.append(stk[i])
            out.append(load_var)
        else:
            def load_bound(stk):
                stk.append(i())
            out.append(load_bound)
    elif isinstance(e, EBool):
        out.append(push_true if e.val else push_false)
    elif isinstance(e, ENum):
        s = e.val
Example #18
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 def test_bag_equality(self):
     b1 = Bag(((False, 10), (False, 12), (False, 6)))
     b2 = Bag(((False, 6), (False, 12), (False, 10)))
     assert b1 != b2
Example #19
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 def test_bag_equality_with_tuple(self):
     assert (0, 1, 2) == Bag((0, 1, 2))
     assert Bag((0, 1, 2)) == (0, 1, 2)