Python SimpleVideoLoader Beispiele, loaders.video_loader.SimpleVideoLoader Python Beispiele

Beispiel #1

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    def test_join_elimination(self, verbose=False):
        meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
        video1 = SimpleVideoLoader(video_metadata=meta1)

        meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
        video2 = SimpleVideoLoader(video_metadata=meta2)

        projection_output = ['v1.1', 'v2.2']
        root = LogicalProjectionPlan(videos=[video1, video2],
                                     column_ids=projection_output,
                                     foreign_column_ids=['v2.2'])

        # Creating Expression for Select: Expression is basically where v1.1 == v2.2
        # Also creating a foreign key constraint for v1 where it requires v2.2
        # hence join elimination should delete the join node and just return all of v1.1 for select
        tup1 = TupleValueExpression(col_idx=1)
        tup2 = TupleValueExpression(col_idx=2)
        expression = ComparisonExpression(
            exp_type=ExpressionType.COMPARE_EQUAL, left=tup1, right=tup2)

        # used both videos because purposely placed BEFORE the join
        s1 = SeqScanPlan(predicate=expression,
                         column_ids=['v1.1', 'v2.2'],
                         videos=[video1, video2],
                         foreign_column_ids=['v2.2'])
        s1.parent = root

        j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                                  join_ids=['v1.1', 'v2.2'])
        j1.parent = s1

        t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
        t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))
        t1.parent = j1
        t2.parent = j1

        root.set_children([s1])
        s1.set_children([j1])
        j1.set_children([t1, t2])

        rule_list = [Rules.JOIN_ELIMINATION]

        if verbose:
            print('Original Plan Tree')
            print(root)
        qo = RuleQueryOptimizer()
        new_tree = qo.run(root, rule_list)
        if verbose:
            print('New Plan Tree')
            print(new_tree)

        self.assertIsNone(root.parent)
        self.assertEqual(type(t1.parent), SeqScanPlan)
        self.assertEqual(type(s1.children[0]), TableRef)
        self.assertEqual(len(s1.children), 1)
        self.assertEqual(len(s1.foreign_column_ids), 0)
        self.assertTrue('v1.2' in root.column_ids)
        self.assertEqual(len(root.column_ids), 2)
        self.assertEqual(len(root.foreign_column_ids), 0)
        self.assertEqual(type(root.children[0]), SeqScanPlan)

Beispiel #2

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    def test_simple_predicate_pushdown(self, verbose=False):
        # Creating the videos
        meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
        video1 = SimpleVideoLoader(video_metadata=meta1)

        meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
        video2 = SimpleVideoLoader(video_metadata=meta2)

        projection_output = ['v1.1', 'v2.2']
        root = LogicalProjectionPlan(videos=[video1, video2],
                                     column_ids=projection_output,
                                     foreign_column_ids=[])

        # Creating Expression for Select: Expression is basically where v1.1 == 4
        const = ConstantValueExpression(value=4)
        tup = TupleValueExpression(
            col_idx=int(projection_output[0].split('.')[1]))
        expression = ComparisonExpression(
            exp_type=ExpressionType.COMPARE_EQUAL, left=tup, right=const)

        # used both videos because purposely placed BEFORE the join
        s1 = SeqScanPlan(predicate=expression,
                         column_ids=['v1.1'],
                         videos=[video1, video2],
                         foreign_column_ids=[])
        s1.parent = root

        j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                                  join_ids=['v1.3', 'v2.3'])
        j1.parent = s1

        t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
        t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))

        s1.set_children([j1])
        t1.parent = j1
        t2.parent = j1

        j1.set_children([t1, t2])
        root.set_children([s1])

        rule_list = [Rules.PREDICATE_PUSHDOWN]
        if verbose:
            print('Original Plan Tree')
            print(root)
        qo = RuleQueryOptimizer()
        new_tree = qo.run(root, rule_list)
        if verbose:
            print('New Plan Tree')
            print(new_tree)

        self.assertIsNone(root.parent, None)
        self.assertEqual(root.children, [j1])
        self.assertEqual(j1.parent, root)
        self.assertEqual(j1.children, [s1, t2])
        self.assertEqual(s1.parent, j1)
        self.assertEqual(s1.videos, [video1])
        self.assertEqual(t2.parent, j1)
        self.assertEqual(s1.children, [t1])
        self.assertEqual(t1.parent, s1)

Beispiel #3

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def test_simple_projection_pushdown_join(verbose=False):
    # Creating the videos
    meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
    video1 = SimpleVideoLoader(video_metadata=meta1)

    meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
    video2 = SimpleVideoLoader(video_metadata=meta2)

    projection_output = ['v1.3', 'v2.4']
    root = LogicalProjectionPlan(videos=[video1, video2],
                                 column_ids=projection_output,
                                 foreign_column_ids=[])

    j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                              join_ids=['v1.1', 'v2.1'])
    j1.parent = root

    t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
    t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))

    t1.parent = j1
    t2.parent = j1

    j1.set_children([t1, t2])
    root.set_children([j1])

    rule_list = [Rules.PROJECTION_PUSHDOWN_JOIN]
    if verbose:
        print('Original Plan Tree')
        print(root)
    qo = RuleQueryOptimizer()
    new_tree = qo.run(root, rule_list)
    if verbose:
        print('New Plan Tree')
        print(new_tree)

    assert root.parent is None
    assert root.children == [j1]
    assert j1.parent == root
    assert type(j1.children[0]) == LogicalProjectionPlan
    assert type(j1.children[1]) == LogicalProjectionPlan
    assert 'v1.1' in j1.children[0].column_ids
    assert 'v1.3' in j1.children[0].column_ids
    assert 'v2.1' in j1.children[1].column_ids
    assert 'v2.4' in j1.children[1].column_ids
    assert type(t2.parent) == LogicalProjectionPlan
    assert type(t1.parent) == LogicalProjectionPlan
    assert j1.children[0].children == [t1]
    assert j1.children[1].children == [t2]
    print('Simple Projection Pushdown Join Test Successful!')

Beispiel #4

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def test_shouldnot_simply_predicate(verbose=False):
    meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
    video1 = SimpleVideoLoader(video_metadata=meta1)

    # Creating Expression for Select: Expression is basically where v1.7 == 4
    const = ConstantValueExpression(value=4)
    tup = TupleValueExpression(col_idx=int(7))
    expression = ComparisonExpression(exp_type=ExpressionType.COMPARE_EQUAL,
                                      left=tup,
                                      right=const)
    s1 = SeqScanPlan(predicate=expression,
                     column_ids=['v1.7'],
                     videos=[video1],
                     foreign_column_ids=[])

    projection_output = ['v1.3', 'v1.4']
    root = LogicalProjectionPlan(videos=[video1],
                                 column_ids=projection_output,
                                 foreign_column_ids=[])

    t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))

    root.set_children([s1])
    s1.parent = root
    s1.set_children([t1])
    t1.parent = s1
    rule_list = [Rules.SIMPLIFY_PREDICATE]
    if verbose:
        print('Original Plan Tree')
        print(root)
    qo = RuleQueryOptimizer()
    new_tree = qo.run(root, rule_list)
    if verbose:
        print('New Plan Tree')
        print(new_tree)

Beispiel #5

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def test_simple_projection_pushdown_select(verbose=False):
    meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
    video1 = SimpleVideoLoader(video_metadata=meta1)

    # Creating Expression for Select: Expression is basically where v2.7 == 4
    const = ConstantValueExpression(value=4)
    tup = TupleValueExpression(col_idx=int(7))
    expression = ComparisonExpression(exp_type=ExpressionType.COMPARE_EQUAL,
                                      left=tup,
                                      right=const)
    s1 = SeqScanPlan(predicate=expression,
                     column_ids=['v1.7'],
                     videos=[video1],
                     foreign_column_ids=[])

    projection_output = ['v1.3', 'v1.4']
    root = LogicalProjectionPlan(videos=[video1],
                                 column_ids=projection_output,
                                 foreign_column_ids=[])

    t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))

    root.set_children([s1])
    s1.parent = root
    s1.set_children([t1])
    t1.parent = s1

    rule_list = [Rules.PROJECTION_PUSHDOWN_SELECT]
    if verbose:
        print('Original Plan Tree')
        print(root)
    qo = RuleQueryOptimizer()
    new_tree = qo.run(root, rule_list)
    if verbose:
        print('New Plan Tree')
        print(new_tree)

    assert root.parent is None
    assert root.children == [s1]
    assert s1.parent == root
    assert len(s1.children) == 1
    assert type(s1.children[0]) == LogicalProjectionPlan
    assert 'v1.7' in s1.children[0].column_ids
    assert 'v1.3' in s1.children[0].column_ids
    assert 'v1.4' in s1.children[0].column_ids
    assert type(t1.parent) == LogicalProjectionPlan
    assert s1.children[0].children == [t1]
    print('Simple Projection Pushdown Select Test Successful!')

Beispiel #6

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    def test_should_simply_predicate(self, verbose=False):
        meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
        video1 = SimpleVideoLoader(video_metadata=meta1)

        # Creating Expression for Select: Expression is basically where 0==1
        const1 = ConstantValueExpression(value=0)
        const2 = ConstantValueExpression(value=1)
        expression = ComparisonExpression(
            exp_type=ExpressionType.COMPARE_EQUAL, left=const1, right=const2)
        s1 = SeqScanPlan(predicate=expression,
                         column_ids=[],
                         videos=[],
                         foreign_column_ids=[])

        projection_output = ['v1.3', 'v1.4']
        root = LogicalProjectionPlan(videos=[video1],
                                     column_ids=projection_output,
                                     foreign_column_ids=[])

        t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))

        root.set_children([s1])
        s1.parent = root
        s1.set_children([t1])
        t1.parent = s1
        rule_list = [Rules.SIMPLIFY_PREDICATE]
        if verbose:
            print('Original Plan Tree')
            print(root)
        qo = RuleQueryOptimizer()
        new_tree = qo.run(root, rule_list)
        if verbose:
            print('New Plan Tree')
            print(new_tree)

        self.assertIsNone(root.parent)
        self.assertEqual(root.children, [t1])
        self.assertEqual(t1.parent, root)
        self.assertEqual(len(root.children), 1)
        self.assertTrue('v1.3' in root.children[0].column_ids)
        self.assertTrue('v1.4' in root.children[0].column_ids)
        self.assertEqual(type(t1.parent), LogicalProjectionPlan)
        self.assertEqual(root.children[0].children, [t1])

Beispiel #7

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    def test_transitive_closure(self, verbose=False):
        meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
        video1 = SimpleVideoLoader(video_metadata=meta1)

        meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
        video2 = SimpleVideoLoader(video_metadata=meta2)

        projection_output = ['v1.1', 'v1.2', 'v2.2']
        root = LogicalProjectionPlan(videos=[video1, video2],
                                     column_ids=projection_output,
                                     foreign_column_ids=[])

        # Creating Expression for Select: Expression is basically where v1.1 == 43
        const = ConstantValueExpression(value=43)
        tup = TupleValueExpression(
            col_idx=int(projection_output[0].split('.')[1]))
        expression = ComparisonExpression(
            exp_type=ExpressionType.COMPARE_EQUAL, left=tup, right=const)
        s1 = SeqScanPlan(
            predicate=expression,
            column_ids=['v1.1'],
            videos=[video1],
            foreign_column_ids=[]
        )  # For later Check if videos should also contain video2
        s1.parent = root
        root.set_children([s1])

        # Declaring the join node
        j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                                  join_ids=['v1.1', 'v2.1'])
        j1.parent = s1
        s1.set_children([j1])

        t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
        t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))

        # adding parent and children pointers
        t1.parent = j1
        t2.parent = j1
        j1.set_children([t1, t2])

        rule_list = [Rules.TRANSITIVE_CLOSURE]
        if verbose:
            print('Original Plan Tree')
            print(root)

        qo = RuleQueryOptimizer()
        new_tree = qo.run(root, rule_list)
        if verbose:
            print('New Plan Tree')
            print(new_tree)

        self.assertIsNone(root.parent)
        self.assertTrue(root.children, [j1])
        self.assertTrue(j1.parent, root)
        self.assertTrue(type(j1.parent), LogicalProjectionPlan)
        self.assertEqual(len(j1.children), 2)
        self.assertTrue(type(j1.children[0]), SeqScanPlan)
        self.assertTrue(type(j1.children[1]), SeqScanPlan)
        self.assertTrue(t1.parent in j1.children)
        self.assertTrue(t2.parent in j1.children)

Beispiel #8

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    def test_double_join_projection_pushdown(self, verbose=False):
        meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
        video1 = SimpleVideoLoader(video_metadata=meta1)

        meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
        video2 = SimpleVideoLoader(video_metadata=meta2)

        meta3 = VideoMetaInfo(file='v3', c_format=VideoFormat.MOV, fps=30)
        video3 = SimpleVideoLoader(video_metadata=meta3)

        projection_output = ['v1.1', 'v2.2', 'v3.4']
        root = LogicalProjectionPlan(videos=[video1, video2, video3],
                                     column_ids=projection_output,
                                     foreign_column_ids=[])

        j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                                  join_ids=['v1.3', 'v2.3'])
        j2 = LogicalInnerJoinPlan(videos=[video1, video2, video3],
                                  join_ids=['v1.3', 'v2.3', 'v3.3'])
        j1.parent = j2
        j2.parent = root
        t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
        t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))
        t3 = TableRef(video=video3, table_info=TableInfo(table_name='v3'))

        t1.parent = j1
        t2.parent = j1
        j2.set_children([t3, j1])
        t3.parent = j2
        j1.set_children([t1, t2])
        root.set_children([j2])

        rule_list = [Rules.PROJECTION_PUSHDOWN_JOIN]
        if verbose:
            print('Original Plan Tree')
            print(root)
        qo = RuleQueryOptimizer()
        new_tree = qo.run(root, rule_list)
        if verbose:
            print('New Plan Tree')
            print(new_tree)

        self.assertIsNone(root.parent)
        self.assertTrue('v1.1' in root.column_ids)
        self.assertTrue('v2.2' in root.column_ids)
        self.assertTrue('v3.4' in root.column_ids)
        self.assertEqual(len(root.children), 1)
        self.assertEqual(root.children[0], j2)
        self.assertEqual(j2.parent, root)
        self.assertEqual(len(j2.videos), 3)
        self.assertTrue(video1 in j2.videos)
        self.assertTrue(video2 in j2.videos)
        self.assertTrue(video3 in j2.videos)
        self.assertEqual(len(j2.children), 2)
        self.assertTrue(j1 in j2.children)
        j1_ix = j2.children.index(j1)
        pix = 1 - j1_ix
        self.assertEqual(type(j2.children[pix]), LogicalProjectionPlan)
        self.assertEqual(len(j2.children[pix].column_ids), 2)
        self.assertTrue('v3.4' in j2.children[pix].column_ids)
        self.assertTrue('v3.3' in j2.children[pix].column_ids)
        self.assertEqual(j2.children[pix].parent, j2)
        self.assertEqual(len(j2.children[pix].children), 1)
        self.assertEqual(j2.children[pix].children[0], t3)
        self.assertEqual(len(j1.videos), 2)
        self.assertTrue(video1 in j1.videos)
        self.assertTrue(video2 in j1.videos)
        self.assertEqual(len(j1.children), 2)
        self.assertEqual(type(j1.children[0]), LogicalProjectionPlan)
        self.assertEqual(type(j1.children[1]), LogicalProjectionPlan)
        self.assertEqual(len(j1.children[0].column_ids), 2)
        self.assertEqual(len(j1.children[0].children), 1)
        self.assertEqual(j1.children[0].children[0], t1)
        self.assertEqual(len(j1.children[1].children), 1)
        self.assertEqual(j1.children[1].children[0], t2)
        self.assertTrue('v1.3' in j1.children[0].column_ids)
        self.assertTrue('v1.1' in j1.children[0].column_ids)
        self.assertEqual(len(j1.children[1].column_ids), 2)
        self.assertTrue('v2.3' in j1.children[1].column_ids)
        self.assertTrue('v2.2' in j1.children[1].column_ids)
        self.assertEqual(j1.children[0].parent, j1)
        self.assertEqual(j1.children[1].parent, j1)

Beispiel #9

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    def test_combined_projection_pushdown(self, verbose=False):
        # Creating the videos
        meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
        video1 = SimpleVideoLoader(video_metadata=meta1)

        meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
        video2 = SimpleVideoLoader(video_metadata=meta2)

        projection_output = ['v1.3', 'v2.4']
        root = LogicalProjectionPlan(videos=[video1, video2],
                                     column_ids=projection_output,
                                     foreign_column_ids=[])

        j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                                  join_ids=['v1.1', 'v2.1'])
        j1.parent = root

        const = ConstantValueExpression(value=4)
        tup = TupleValueExpression(col_idx=int(7))
        expression = ComparisonExpression(
            exp_type=ExpressionType.COMPARE_EQUAL, left=tup, right=const)
        s1 = SeqScanPlan(predicate=expression,
                         column_ids=['v2.7'],
                         videos=[video1],
                         foreign_column_ids=[])
        s1.parent = j1

        t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
        t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))
        s1.set_children([t2])
        t1.parent = j1
        t2.parent = s1

        j1.set_children([t1, s1])
        root.set_children([j1])

        rule_list = [
            Rules.PROJECTION_PUSHDOWN_JOIN, Rules.PROJECTION_PUSHDOWN_SELECT
        ]
        if verbose:
            print('Original Plan Tree')
            print(root)
        qo = RuleQueryOptimizer()
        new_tree = qo.run(root, rule_list)
        if verbose:
            print('New Plan Tree')
            print(new_tree)

        self.assertIsNone(root.parent)
        self.assertEqual(root.children, [j1])
        self.assertEqual(j1.parent, root)
        self.assertEqual(type(j1.children[0]), LogicalProjectionPlan)
        self.assertEqual(type(j1.children[1]), LogicalProjectionPlan)
        self.assertEqual(type(s1.parent), LogicalProjectionPlan)
        self.assertTrue('v2.1' in s1.parent.column_ids)
        self.assertTrue('v2.4' in s1.parent.column_ids)
        self.assertTrue(s1.parent in j1.children)
        self.assertEqual(len(s1.children), 1)
        self.assertEqual(type(s1.children[0]), LogicalProjectionPlan)
        self.assertTrue('v2.7' in s1.children[0].column_ids)
        self.assertTrue('v2.1' in s1.children[0].column_ids)
        self.assertTrue('v2.4' in s1.children[0].column_ids)
        self.assertEqual(type(t1.parent), LogicalProjectionPlan)
        self.assertTrue('v1.1' in t1.parent.column_ids)
        self.assertTrue('v1.3' in t1.parent.column_ids)
        self.assertTrue(t1.parent in j1.children)
        self.assertEqual(s1.children[0].children, [t2])

Beispiel #10

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def test_double_join_projection_pushdown(verbose=False):
    meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
    video1 = SimpleVideoLoader(video_metadata=meta1)

    meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
    video2 = SimpleVideoLoader(video_metadata=meta2)

    meta3 = VideoMetaInfo(file='v3', c_format=VideoFormat.MOV, fps=30)
    video3 = SimpleVideoLoader(video_metadata=meta3)

    projection_output = ['v1.1', 'v2.2', 'v3.4']
    root = LogicalProjectionPlan(videos=[video1, video2, video3],
                                 column_ids=projection_output,
                                 foreign_column_ids=[])

    j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                              join_ids=['v1.3', 'v2.3'])
    j2 = LogicalInnerJoinPlan(videos=[video1, video2, video3],
                              join_ids=['v1.3', 'v2.3', 'v3.3'])
    j1.parent = j2
    j2.parent = root
    t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
    t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))
    t3 = TableRef(video=video3, table_info=TableInfo(table_name='v3'))

    t1.parent = j1
    t2.parent = j1
    j2.set_children([t3, j1])
    t3.parent = j2
    j1.set_children([t1, t2])
    root.set_children([j2])

    rule_list = [Rules.PROJECTION_PUSHDOWN_JOIN]
    if verbose:
        print('Original Plan Tree')
        print(root)
    qo = RuleQueryOptimizer()
    new_tree = qo.run(root, rule_list)
    if verbose:
        print('New Plan Tree')
        print(new_tree)

    assert root.parent is None
    assert 'v1.1' in root.column_ids
    assert 'v2.2' in root.column_ids
    assert 'v3.4' in root.column_ids
    assert len(root.children) == 1
    assert root.children[0] == j2
    assert j2.parent == root
    assert len(j2.videos) == 3
    assert video1 in j2.videos
    assert video2 in j2.videos
    assert video3 in j2.videos
    assert len(j2.children) == 2
    assert j1 in j2.children
    j1_ix = j2.children.index(j1)
    pix = 1 - j1_ix
    assert type(j2.children[pix]) == LogicalProjectionPlan
    assert len(j2.children[pix].column_ids) == 2
    assert 'v3.4' in j2.children[pix].column_ids
    assert 'v3.3' in j2.children[pix].column_ids
    assert j2.children[pix].parent == j2
    assert len(j2.children[pix].children) == 1
    assert j2.children[pix].children[0] == t3
    assert len(j1.videos) == 2
    assert video1 in j1.videos
    assert video2 in j1.videos
    assert len(j1.children) == 2
    assert type(j1.children[0]) == LogicalProjectionPlan
    assert type(j1.children[1]) == LogicalProjectionPlan
    assert len(j1.children[0].column_ids) == 2
    assert len(j1.children[0].children) == 1
    assert j1.children[0].children[0] == t1
    assert len(j1.children[1].children) == 1
    assert j1.children[1].children[0] == t2
    assert 'v1.3' in j1.children[0].column_ids
    assert 'v1.1' in j1.children[0].column_ids
    assert len(j1.children[1].column_ids) == 2
    assert 'v2.3' in j1.children[1].column_ids
    assert 'v2.2' in j1.children[1].column_ids
    assert j1.children[0].parent == j1
    assert j1.children[1].parent == j1
    print('Double join Projection Pushdown Successful!')

Beispiel #11

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Datei anzeigen

def test_double_join_predicate_pushdown(verbose=False):
    meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
    video1 = SimpleVideoLoader(video_metadata=meta1)

    meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
    video2 = SimpleVideoLoader(video_metadata=meta2)

    meta3 = VideoMetaInfo(file='v3', c_format=VideoFormat.MOV, fps=30)
    video3 = SimpleVideoLoader(video_metadata=meta3)

    projection_output = ['v1.1', 'v2.2', 'v3.4']
    root = LogicalProjectionPlan(videos=[video1, video2, video3],
                                 column_ids=projection_output,
                                 foreign_column_ids=[])

    # Creating Expression for Select: Expression is basically where v3.3 == 4
    const = ConstantValueExpression(value=4)
    tup = TupleValueExpression(col_idx=int(projection_output[2].split('.')[1]))
    expression = ComparisonExpression(exp_type=ExpressionType.COMPARE_EQUAL,
                                      left=tup,
                                      right=const)

    # used both videos because purposely placed BEFORE the join
    s1 = SeqScanPlan(predicate=expression,
                     column_ids=['v3.3'],
                     videos=[video1, video2, video3],
                     foreign_column_ids=[])
    s1.parent = root

    j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                              join_ids=['v1.3', 'v2.3'])
    j2 = LogicalInnerJoinPlan(videos=[video1, video2, video3],
                              join_ids=['v1.3', 'v2.3', 'v3.3'])
    j1.parent = j2

    t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
    t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))
    t3 = TableRef(video=video3, table_info=TableInfo(table_name='v3'))

    s1.set_children([j2])
    t1.parent = j1
    t2.parent = j1
    j2.set_children([j1, t3])
    t3.parent = j2
    j1.set_children([t1, t2])
    root.set_children([s1])

    rule_list = [Rules.PREDICATE_PUSHDOWN]
    if verbose:
        print('Original Plan Tree')
        print(root)
    qo = RuleQueryOptimizer()
    new_tree = qo.run(root, rule_list)
    if verbose:
        print('New Plan Tree')
        print(new_tree)

    assert root.parent is None
    assert len(root.children) == 1
    assert root.children[0].parent == root
    assert j2.parent == root
    assert len(j2.children) == 2
    assert j2.children[0] == j1
    assert j2.children[1] == s1
    assert s1.parent == j2
    assert j1.parent == j2
    assert len(s1.videos) == 1
    assert s1.videos[0] == video3
    assert len(s1.children) == 1
    assert s1.children[0] == t3
    assert t3.parent == s1
    assert len(j1.children) == 2
    assert j1.children[0] == t1
    assert j1.children[1] == t2
    assert t1.parent == j1
    assert t2.parent == j1
    print('Double join predicate Pushdown Successful!')

Beispiel #12

0

Datei anzeigen

def test_both_projection_pushdown_and_predicate_pushdown(verbose=False):
    meta1 = VideoMetaInfo(file='v1', c_format=VideoFormat.MOV, fps=30)
    video1 = SimpleVideoLoader(video_metadata=meta1)

    meta2 = VideoMetaInfo(file='v2', c_format=VideoFormat.MOV, fps=30)
    video2 = SimpleVideoLoader(video_metadata=meta2)

    projection_output = ['v1.1', 'v2.2']
    root = LogicalProjectionPlan(videos=[video1, video2],
                                 column_ids=projection_output,
                                 foreign_column_ids=[])

    # Creating Expression for Select: Expression is basically where v1.1 == 4
    const = ConstantValueExpression(value=4)
    tup = TupleValueExpression(col_idx=int(projection_output[0].split('.')[1]))
    expression = ComparisonExpression(exp_type=ExpressionType.COMPARE_EQUAL,
                                      left=tup,
                                      right=const)

    # used both videos because purposely placed BEFORE the join
    s1 = SeqScanPlan(predicate=expression,
                     column_ids=['v1.1'],
                     videos=[video1, video2],
                     foreign_column_ids=[])
    s1.parent = root

    j1 = LogicalInnerJoinPlan(videos=[video1, video2],
                              join_ids=['v1.3', 'v2.3'])
    j1.parent = s1

    t1 = TableRef(video=video1, table_info=TableInfo(table_name='v1'))
    t2 = TableRef(video=video2, table_info=TableInfo(table_name='v2'))

    s1.set_children([j1])
    t1.parent = j1
    t2.parent = j1

    j1.set_children([t1, t2])
    root.set_children([s1])

    rule_list = [
        Rules.PREDICATE_PUSHDOWN, Rules.PROJECTION_PUSHDOWN_JOIN,
        Rules.PROJECTION_PUSHDOWN_SELECT
    ]
    if verbose:
        print('Original Plan Tree')
        print(root)
    qo = RuleQueryOptimizer()
    new_tree = qo.run(root, rule_list)
    if verbose:
        print('New Plan Tree')
        print(new_tree)

    assert root.parent is None
    assert root.children == [j1]
    assert j1.parent == root
    assert len(j1.children) == 2
    assert s1 in j1.children
    assert s1.parent == j1
    assert s1.videos == [video1]
    assert len(s1.children) == 1
    assert type(s1.children[0]) == LogicalProjectionPlan
    assert 'v1.1' in s1.children[0].column_ids
    assert 'v1.3' in s1.children[0].column_ids
    assert s1.children[0].children == [t1]
    assert t1.parent == s1.children[0]
    s1_ix = j1.children.index(s1)
    if s1_ix == 0:
        proj_ix = 1
    else:
        proj_ix = 0
    assert type(j1.children[proj_ix]) == LogicalProjectionPlan
    assert j1.children[proj_ix].parent == j1
    assert 'v2.3' in j1.children[proj_ix].column_ids
    assert 'v2.2' in j1.children[proj_ix].column_ids
    assert t2.parent == j1.children[proj_ix]
    print(
        'Combined Projection Pushdown and Predicate Pushdown Test Successful!')