Exemple #1
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    def testDelete(self):
        for e, expected in self.DELETE:
            f = functional.avltree(t[0] for t in self.INSERT)
            self.assertEqual(f, self.INSERT[-1][1])

            f = functional.delete(f, e)
            self.assertEqual(f, expected)

            r = recursive.AVLTree(t[0] for t in self.INSERT)
            self.assertEqual(r.toTuple(), self.INSERT[-1][1])

            r.delete(e)
            self.assertEqual(r.toTuple(), expected)

            i = iterative.AVLTree(t[0] for t in self.INSERT)
            self.assertEqual(i.to_tuple(), self.INSERT[-1][1])

            i.delete(e)
            self.assertEqual(i.to_tuple(), expected)

            c = cavltree.AVLTree(t[0] for t in self.INSERT)
            self.assertEqual(c.to_tuple(), self.INSERT[-1][1])

            c.delete(e)
            self.assertEqual(c.to_tuple(), expected)
Exemple #2
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    def testInsert(self):
        f = None
        r = recursive.AVLTree()
        i = iterative.AVLTree()
        c = cavltree.AVLTree()

        for e, expected in self.INSERT:
            f = functional.insert(f, e)
            self.assertEqual(f, expected)

            r.insert(e)
            self.assertEqual(r.toTuple(), expected)

            i.insert(e)
            self.assertEqual(i.to_tuple(), expected)

            c.insert(e)
            self.assertEqual(c.to_tuple(), expected)
Exemple #3
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    def testInsert(self):
        """
        First fill a tree to a given height such that the bottom
        layer is half full, then measure the time it takes to
        insert another quarter.
        """
        result = []
        output = {
            'test': 'insert',
            'operation': 'insert',
            'types': self.TYPES,
            'result': result
        }

        for height in self.HEIGHTS:
            bottom = layer(height)
            initial = capacity(height - 1) + (bottom // 2)
            count = bottom // 4

            d = {'height': height, 'count': count}

            for k in output['types']:
                d[k] = []

            result.append(d)

            for n in range(1, self.TRIES + 1):
                logging.debug('height: %d, count: %d, try: %d', height, count,
                              n)

                source = list(randints(initial))
                extend = list(randints(count))

                # Built-in list
                v = []
                insort(v, source)

                with Stopwatch() as sw:
                    insort(v, extend)

                d['list'].append(sw.total)

                # Functional
                ftree = functional.avltree(source)

                with Stopwatch() as sw:
                    ftree = functional.avltree(extend, ftree)

                d['functional'].append(sw.total)

                # Recursive
                rtree = recursive.AVLTree(source)

                with Stopwatch() as sw:
                    for e in extend:
                        rtree.insert(e)

                d['recursive'].append(sw.total)

                # Iterative
                itree = iterative.AVLTree(source)

                with Stopwatch() as sw:
                    for e in extend:
                        itree.insert(e)

                d['iterative'].append(sw.total)

                # Extension
                etree = cavltree.AVLTree(source)

                with Stopwatch() as sw:
                    for e in extend:
                        etree.insert(e)

                d['extension'].append(sw.total)

                # Check correctness
                f = list(functional.inorder(ftree))
                r = list(rtree)
                i = list(itree)
                e = list(etree)

                source = sorted(set(source + extend))

                self.assertEqual(v, source)
                self.assertEqual(f, source)
                self.assertEqual(r, source)
                self.assertEqual(i, source)
                self.assertEqual(e, source)

        with open(os.path.join(self.OUTPUT, 'insert.json'), 'w') as fp:
            json.dump(output, fp, indent=4)
Exemple #4
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    def testDelete(self):
        """
        First fill a tree to a given height such that the bottom
        layer is half full, then measure the time it takes to
        remove random elements until it is quarter full.
        """
        result = []
        output = {
            'test': 'delete',
            'operation': 'delete',
            'types': self.TYPES,
            'result': result
        }

        for height in self.HEIGHTS:
            bottom = layer(height)
            initial = capacity(height - 1) + (bottom // 2)
            count = bottom // 4

            d = {'height': height, 'count': count}

            for k in output['types']:
                d[k] = []

            result.append(d)

            for n in range(1, self.TRIES + 1):
                logging.debug('height: %d, count: %d, try: %d', height, count,
                              n)

                source = list(randints(initial))
                remove = list(choices(source, count))

                # Built-in list
                v = []
                insort(v, source)

                with Stopwatch() as sw:
                    for e in remove:
                        i = bisect.bisect_left(v, e)
                        del v[i]

                d['list'].append(sw.total)

                # Functional
                ftree = functional.avltree(source)

                with Stopwatch() as sw:
                    for e in remove:
                        ftree = functional.delete(ftree, e)

                d['functional'].append(sw.total)

                # Recursive
                rtree = recursive.AVLTree(source)

                with Stopwatch() as sw:
                    for e in remove:
                        rtree.delete(e)

                d['recursive'].append(sw.total)

                # Iterative
                itree = iterative.AVLTree(source)

                with Stopwatch() as sw:
                    for e in remove:
                        itree.delete(e)

                d['iterative'].append(sw.total)

                # Extension
                ctree = cavltree.AVLTree(source)

                with Stopwatch() as sw:
                    for e in remove:
                        ctree.delete(e)

                d['extension'].append(sw.total)

                # Check correctness
                f = list(functional.inorder(ftree))
                r = list(rtree)
                i = list(itree)
                c = list(ctree)

                source.sort()

                for e in remove:
                    source.remove(e)

                self.assertEqual(v, source)
                self.assertEqual(f, source)
                self.assertEqual(r, source)
                self.assertEqual(i, source)
                self.assertEqual(c, source)

        with open(os.path.join(self.OUTPUT, 'delete.json'), 'w') as fp:
            json.dump(output, fp, indent=4)
Exemple #5
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    def testFill(self):
        """
        Measure the time it takes to fill a tree to a given height.
        """
        result = []
        output = {
            'test': 'fill',
            'operation': 'insert',
            'types': self.TYPES,
            'result': result
        }

        for height in self.HEIGHTS:
            count = capacity(height)

            d = {'height': height, 'count': count}

            for k in output['types']:
                d[k] = []

            result.append(d)

            for n in range(1, self.TRIES + 1):
                logging.debug('height: %d, count: %d, try: %d', height, count,
                              n)

                source = list(randints(count))

                # Built-in list
                v = []

                with Stopwatch() as sw:
                    insort(v, source)

                d['list'].append(sw.total)

                # Functional
                with Stopwatch() as sw:
                    ftree = functional.avltree(source)

                d['functional'].append(sw.total)

                # Recursive
                with Stopwatch() as sw:
                    rtree = recursive.AVLTree(source)

                d['recursive'].append(sw.total)

                # Iterative
                with Stopwatch() as sw:
                    itree = iterative.AVLTree(source)

                d['iterative'].append(sw.total)

                # Extension
                with Stopwatch() as sw:
                    etree = cavltree.AVLTree(source)

                d['extension'].append(sw.total)

                # Check correctness
                f = list(functional.inorder(ftree))
                r = list(rtree)
                i = list(itree)
                e = list(etree)

                source = sorted(set(source))

                self.assertEqual(v, source)
                self.assertEqual(f, source)
                self.assertEqual(r, source)
                self.assertEqual(i, source)
                self.assertEqual(e, source)

        with open(os.path.join(self.OUTPUT, 'fill.json'), 'w') as fp:
            json.dump(output, fp, indent=4)