132 lines
3.6 KiB
Python
132 lines
3.6 KiB
Python
import pytest
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import networkx as nx
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from networkx.utils import BinaryHeap, PairingHeap
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class X:
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def __eq__(self, other):
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raise self is other
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def __ne__(self, other):
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raise self is not other
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def __lt__(self, other):
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raise TypeError("cannot compare")
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def __le__(self, other):
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raise TypeError("cannot compare")
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def __ge__(self, other):
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raise TypeError("cannot compare")
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def __gt__(self, other):
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raise TypeError("cannot compare")
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def __hash__(self):
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return hash(id(self))
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x = X()
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data = [ # min should not invent an element.
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("min", nx.NetworkXError),
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# Popping an empty heap should fail.
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("pop", nx.NetworkXError),
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# Getting nonexisting elements should return None.
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("get", 0, None),
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("get", x, None),
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("get", None, None),
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# Inserting a new key should succeed.
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("insert", x, 1, True),
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("get", x, 1),
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("min", (x, 1)),
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# min should not pop the top element.
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("min", (x, 1)),
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# Inserting a new key of different type should succeed.
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("insert", 1, -2.0, True),
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# int and float values should interop.
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("min", (1, -2.0)),
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# pop removes minimum-valued element.
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("insert", 3, -(10**100), True),
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("insert", 4, 5, True),
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("pop", (3, -(10**100))),
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("pop", (1, -2.0)),
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# Decrease-insert should succeed.
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("insert", 4, -50, True),
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("insert", 4, -60, False, True),
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# Decrease-insert should not create duplicate keys.
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("pop", (4, -60)),
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("pop", (x, 1)),
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# Popping all elements should empty the heap.
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("min", nx.NetworkXError),
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("pop", nx.NetworkXError),
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# Non-value-changing insert should fail.
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("insert", x, 0, True),
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("insert", x, 0, False, False),
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("min", (x, 0)),
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("insert", x, 0, True, False),
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("min", (x, 0)),
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# Failed insert should not create duplicate keys.
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("pop", (x, 0)),
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("pop", nx.NetworkXError),
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# Increase-insert should succeed when allowed.
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("insert", None, 0, True),
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("insert", 2, -1, True),
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("min", (2, -1)),
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("insert", 2, 1, True, False),
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("min", (None, 0)),
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# Increase-insert should fail when disallowed.
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("insert", None, 2, False, False),
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("min", (None, 0)),
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# Failed increase-insert should not create duplicate keys.
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("pop", (None, 0)),
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("pop", (2, 1)),
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("min", nx.NetworkXError),
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("pop", nx.NetworkXError),
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]
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def _test_heap_class(cls, *args, **kwargs):
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heap = cls(*args, **kwargs)
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# Basic behavioral test
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for op in data:
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if op[-1] is not nx.NetworkXError:
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assert op[-1] == getattr(heap, op[0])(*op[1:-1])
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else:
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pytest.raises(op[-1], getattr(heap, op[0]), *op[1:-1])
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# Coverage test.
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for i in range(99, -1, -1):
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assert heap.insert(i, i)
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for i in range(50):
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assert heap.pop() == (i, i)
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for i in range(100):
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assert heap.insert(i, i) == (i < 50)
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for i in range(100):
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assert not heap.insert(i, i + 1)
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for i in range(50):
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assert heap.pop() == (i, i)
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for i in range(100):
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assert heap.insert(i, i + 1) == (i < 50)
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for i in range(49):
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assert heap.pop() == (i, i + 1)
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assert sorted([heap.pop(), heap.pop()]) == [(49, 50), (50, 50)]
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for i in range(51, 100):
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assert not heap.insert(i, i + 1, True)
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for i in range(51, 70):
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assert heap.pop() == (i, i + 1)
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for i in range(100):
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assert heap.insert(i, i)
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for i in range(100):
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assert heap.pop() == (i, i)
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pytest.raises(nx.NetworkXError, heap.pop)
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def test_PairingHeap():
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_test_heap_class(PairingHeap)
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def test_BinaryHeap():
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_test_heap_class(BinaryHeap)
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