示例#1
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    def test_complex(self):
        """
        Test complex pairs
        """
        r = RangeTree(min=-10, max=11)
        # 2 passes on the same data structure.
        for _ in range(2):
            self.assertEqual(r.is_empty(), True)
            for i in (-10, 10, 11):
                r.take(i)
            self.assertEqual(r.is_empty(), False)

            self.assertEqual(list(r.range_iter()), [(-10, -10), (10, 11)])
            for i in (-8, -7, 8):
                r.take(i)
            self.assertEqual(list(r.range_iter()), [(-10, -10), (-8, -7),
                                                    (8, 8), (10, 11)])
            for i in (-9, 9):
                r.take(i)
            self.assertEqual(list(r.range_iter()), [(-10, -7), (8, 11)])
            for i in (-9, 9):
                r.release(i)
            self.assertEqual(list(r.range_iter()), [(-10, -10), (-8, -7),
                                                    (8, 8), (10, 11)])
            for i in (8, 10, 11):
                r.release(i)
            self.assertEqual(list(r.range_iter()), [(-10, -10), (-8, -7)])
            for i in (-10, -8, -7):
                r.release(i)
            # empty for next pass
            self.assertEqual(list(r.range_iter()), [])
示例#2
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 def test_take_all(self):
     r = RangeTree(min=0, max=255)
     self.assertEqual(r.is_empty(), True)
     for i in range(255):
         self.assertEqual(i, r.take_any())
     self.assertEqual(r.is_empty(), False)
     for i in range(255):
         r.release(i)
示例#3
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    def test_many(self):
        r = RangeTree(min=0, max=9)

        # 2 passes to be sure
        for _ in range(2):
            self.assertEqual(r.is_empty(), True)
            ls = list(range(0, 10, 2))
            for i in ls:
                r.take(i)
            self.assertEqual(r.is_empty(), False)

            self.assertEqual(r.has(ls[0] - 0), True)
            self.assertEqual(r.has(ls[0] - 1), False)

            self.assertEqual(r.has(ls[-1] + 0), True)
            self.assertEqual(r.has(ls[-1] + 1), False)

            self.assertEqual(
                list(r.range_iter()),
                [(0, 0), (2, 2), (4, 4), (6, 6), (8, 8)],
            )

            r.release(ls.pop(0))
            r.release(ls.pop(-1))
            r.take(3)
            r.take(5)
            self.assertEqual(list(r.range_iter()), [(2, 6)])
            r.release(2)
            r.release(6)
            self.assertEqual(list(r.range_iter()), [(3, 5)])
            r.release(4)
            self.assertEqual(list(r.range_iter()), [(3, 3), (5, 5)])

            for i in (3, 5):
                r.release(i)

            self.assertEqual(list(r.range_iter()), [])
示例#4
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    def assertRandomItems(self, *, total, take_factor, seed):
        import random

        ls = list(range(total))
        rng = random.Random(seed)
        rng.shuffle(ls)
        ls_all = ls[:]
        del ls[int(total * take_factor):]

        r = RangeTree(min=0, max=total - 1)

        for pass_nr in range(4):
            self.assertEqual(r.is_empty(), True)

            if pass_nr == 0:
                pass
            elif pass_nr == 1:
                ls.reverse()
            elif pass_nr == 2:
                ls.sort()
            elif pass_nr == 3:
                ls.reverse()

            for i in ls:
                r.take(i)

            items_a = set(ls)
            items_b = set(range(1, total + 1)) - items_a

            for i in sorted(items_a):
                self.assertEqual(r.has(i), True)

            for i in sorted(items_b):
                self.assertEqual(r.has(i), False)

            # test retake
            for i in ls_all:
                test = r.retake(i)
                self.assertEqual(test, i not in ls)

            for i in ls_all:
                r.release(i)