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from guppy.heapy.test import support


class TestCase(support.TestCase):
    def setUp(self):
        support.TestCase.setUp(self)
        self.types = self.heapy.UniSet.types


class FirstCase(TestCase):
    def test_cal_hiding(self):
        V = self.View
        iso = self.iso

        # Tests that our workspace nodesets are hidden.

        a = []
        b = []
        as_ = iso(a)
        bs = iso(b)
        ab = as_ | bs
        # Make sure hiding is carried on with set operations
        self.assertTrue(ab.referrers.kind == self.types.FrameType)
        self.assertTrue((as_ | bs).referrers.kind == self.types.FrameType)
        self.assertTrue(V.referrers(iso(a)).kind == self.types.FrameType)
        self.assertTrue(V.referrers(iso(b)).kind == self.types.FrameType)

        # Test that we can still see nodesets created with other hiding_tag

        c = []
        chold = self.guppy.sets.immnodeset(
            [c],
            hiding_tag=[]     # Make sure we see it whether or not View uses default or not
        )
        cs = iso(c)
        del c

        self.assertTrue(cs.referrers.kind == type(
            self.guppy.sets.immnodeset()))

        h = self.View.heap()
        self.aseq(h & self.iso(self.Use), self.Use.Nothing)
        self.aseq(h & self.iso(self.Use.__dict__), self.Use.Nothing)

    def test_dominos(self):
        # Test dominos and domisize
        iso = self.iso
        x = []
        y = [x, []]
        z = [y]
        self.aseq(iso(y).dominos, iso(y, y[1]))
        self.aseq(iso(y).domisize, iso(y, y[1]).indisize)
        self.aseq(iso(z).dominos, iso(z))
        del y
        self.aseq(iso(z).dominos, iso(z, z[0], z[0][1]))

    def test_exports(self):
        # Test a few exports; the other defined in _unp_exports use the same mechanism
        iso = self.iso
        x = []
        y = [x, []]
        z = [y]
        p = iso(z).referents.indisize
        self.aseq(p, iso(y).indisize)

    def test_horizon(self):
        iso = self.iso
        h = self.View.horizon()
        x = []
        hn = h.news()
        self.aseq(hn, iso(x))
        del hn
        hn = h.news()
        self.aseq(hn, iso(x))
        del x, hn
        hn = h.news()
        self.aseq(hn, iso())

    def test_imdom(self):
        iso = self.iso
        x = []
        y = [x, []]
        z = [x, y]
        del x, y
        self.aseq(iso(z[0]).imdom, iso(z))

    def test_referents(self):
        iso = self.iso
        x = []
        y = [x, []]
        z = [y]
        self.aseq(iso(x).referents, iso())
        self.aseq(iso(y).referents, iso(x, y[1]))
        self.aseq(iso(z).referents, iso(y))
        self.aseq(iso(y, z).referents, iso(x, y, y[1]))

    def test_root(self):
        old_root = self.View.root
        self.assertIs(self.View.root, old_root)
        self.assertIs(self.Use.View.root, old_root)
        self.assertIs(self.View.hv.root, old_root)

        obj = object()
        self.View.root = obj
        self.assertIs(self.View.root, obj)
        self.assertIs(self.Use.View.root, obj)
        self.assertIs(self.View.hv.root, obj)

        self.View.root = old_root
        self.assertIs(self.View.root, old_root)
        self.assertIs(self.Use.View.root, old_root)
        self.assertIs(self.View.hv.root, old_root)


class GCCase(TestCase):
    def test_gc_mechanism(self):
        # Test the underlying GC system for having the properties that
        # support the method of automatic reclamation of nodegraphs
        # that is relied on in other tests. Failure here, dependent on
        # changed GC behaviour, would explain the other failures.

        from weakref import ref
        import gc

        class C:
            pass

        c = C()
        cbs = []

        def cb(wr):
            cbs.append(wr)

        wr = ref(c, cb)

        c.x = c
        gc.collect()
        strc = str(c)
        self.aseq(str(wr()), strc)
        self.asis(wr(), c)
        c = None
        self.aseq(str(wr()), strc)
        self.aseq(cbs, [])
        gc.collect()
        self.asis(wr(), None)
        self.aseq(cbs, [wr])

    def test_gc_hook(self):
        # Test the GC hook as implemented in View

        hos = []

        def ho():
            hos.append(1)

        import gc
        gc.collect()
        hook = self.heapy.View.gchook(ho)
        self.aseq(hos, [])
        gc.collect()
        self.aseq(hos, [1])
        hook = None
        gc.collect()
        self.aseq(hos, [1])

    def test_gc_drg(self):
        # Test automatic reclamation issues for dict owner nodegraph
        # This mechanism changed so the old test here is
        # not valid anymore
        # FIXME MAKE NEW TEST
        return

        import gc
        View = self.View
        hv = View.hv
        drg = View.nodegraph()

        def clear_drg():
            if drg.is_sorted:
                drg.clear()
            else:
                pass
        _clear_drg_hook = View.gchook(clear_drg)

        hv.update_dictowners(drg)
        gc.collect()
        lendrg = len(drg)
        self.assertTrue(lendrg > 0)    # Before any use, it will not be cleared
        # Now it is used by taking its length
        gc.collect()
        self.aseq(len(drg), 0)

        byclodo = hv.cli_clodo(drg, {})

        class C:
            pass
        c = C()

        byclodo.partition([c.__dict__])
        self.assertTrue(len(drg) > 0)
        gc.collect()
        self.assertTrue(len(drg) == 0)

    def test_gc_rg(self):
        # Test automatic reclamation issues for referrer nodegraph
        iso = self.iso
        immnodeset = self.guppy.sets.immnodeset
        self.View.is_rg_update_all = False
        import gc

        gc.collect()

        dst = []

        gc.collect()
        self.assertTrue(len(self.View.rg) == 0)

        # Test that rg is automatically updated with the set target(s)

        a = [dst]
        b = [dst]
        c = [a, b]

        class T:
            def __init__(self, set):
                self.set = set

        ta = T(iso(a))
        self.View.referrers_add_target(ta)
        tb = T(iso(b))
        self.View.referrers_add_target(tb)

        self.View.referrers(iso(c))
        self.assertTrue(c in immnodeset(self.View.rg[a]))
        self.assertTrue(c in immnodeset(self.View.rg[b]))

        # Test that a referrers target is automatically collected when not referenced

        tb = None
        gc.collect()
        self.View.referrers(iso(c))
        self.assertTrue(c in immnodeset(self.View.rg[a]))
        self.assertTrue(c not in immnodeset(self.View.rg[b]))

        # Test that adding a source automatically updates rg
        # even though domain of rg already includes its target
        # This requires gc collection

        d = [c]
        self.assertTrue(d not in self.View.referrers(iso(c)))
        gc.collect()
        self.assertTrue(d in self.View.referrers(iso(c)))


class AltHeapCase(TestCase):
    # Tests for support of alternative heap as implemented around 27 Oct 2005
    # and discussed in Notes at that time.

    def test_observation_containers(self):
        # Test the View.observation_containers method

        iso = self.iso
        idset = self.idset

        # These are to be included
        a = iso([], {})
        b = self.ImpSet.mutnodeset()
        c = self.View.observation_list()

        # These are not to be included - have another hiding tag

        excla = self.guppy.sets.mutnodeset()
        exclb = self.guppy.sets.immnodeset()

        # Get possible containers

        oc = idset(self.View.observation_containers())

        self.assertTrue(iso(a.nodes, b, c) <= oc)
        self.assertTrue(not (iso(excla, exclb) & oc))


class SpecialTypesCase(TestCase):
    # Some tests for special types

    def test_array(self):
        iso = self.iso
        import array
        a = array.array('b', b'asdf')
        iso(a).size


def test_main(debug=0):
    from guppy.heapy.Remote import off
    off()
    support.run_unittest(FirstCase, debug)
    support.run_unittest(GCCase, debug)
    support.run_unittest(AltHeapCase, debug)
    support.run_unittest(SpecialTypesCase, debug)


if __name__ == "__main__":
    test_main()

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