Пример #1
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  def testPathsNotInvalidatedByOtherDestroys(self):
    """ Creates segments and synapses, then destroys segments and synapses on
        either side of them and verifies that existing Segment and Synapse
        instances still point to the same segment / synapse as before.
    """
    connections = Connections(1024)
    segment1 = connections.createSegment(11)
    connections.createSegment(12)
    segment3 = connections.createSegment(13)
    connections.createSegment(14)
    segment5 = connections.createSegment(15)

    synapse1 = connections.createSynapse(segment3, 201, .85)
    synapse2 = connections.createSynapse(segment3, 202, .85)
    synapse3 = connections.createSynapse(segment3, 203, .85)
    synapse4 = connections.createSynapse(segment3, 204, .85)
    synapse5 = connections.createSynapse(segment3, 205, .85)

    self.assertEqual(203, synapse3.presynapticCell)
    connections.destroySynapse(synapse1)
    self.assertEqual(203, synapse3.presynapticCell)
    connections.destroySynapse(synapse5)
    self.assertEqual(203, synapse3.presynapticCell)

    connections.destroySegment(segment1)
    self.assertEqual(set([synapse2, synapse3, synapse4]),
                     connections.synapsesForSegment(segment3))
    connections.destroySegment(segment5)
    self.assertEqual(set([synapse2, synapse3, synapse4]),
                     connections.synapsesForSegment(segment3))
    self.assertEqual(203, synapse3.presynapticCell)
Пример #2
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    def testPathsNotInvalidatedByOtherDestroys(self):
        """ Creates segments and synapses, then destroys segments and synapses on
        either side of them and verifies that existing Segment and Synapse
        instances still point to the same segment / synapse as before.
    """
        connections = Connections(1024)
        segment1 = connections.createSegment(11)
        connections.createSegment(12)
        segment3 = connections.createSegment(13)
        connections.createSegment(14)
        segment5 = connections.createSegment(15)

        synapse1 = connections.createSynapse(segment3, 201, .85)
        synapse2 = connections.createSynapse(segment3, 202, .85)
        synapse3 = connections.createSynapse(segment3, 203, .85)
        synapse4 = connections.createSynapse(segment3, 204, .85)
        synapse5 = connections.createSynapse(segment3, 205, .85)

        self.assertEqual(203, synapse3.presynapticCell)
        connections.destroySynapse(synapse1)
        self.assertEqual(203, synapse3.presynapticCell)
        connections.destroySynapse(synapse5)
        self.assertEqual(203, synapse3.presynapticCell)

        connections.destroySegment(segment1)
        self.assertEqual(set([synapse2, synapse3, synapse4]),
                         connections.synapsesForSegment(segment3))
        connections.destroySegment(segment5)
        self.assertEqual(set([synapse2, synapse3, synapse4]),
                         connections.synapsesForSegment(segment3))
        self.assertEqual(203, synapse3.presynapticCell)
Пример #3
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    def testCreateSegmentReuse(self):
        connections = Connections(1024, 2)

        segment1 = connections.createSegment(42)
        connections.createSynapse(segment1, 1, .5)
        connections.createSynapse(segment1, 2, .5)

        # Let some time pass.
        connections.startNewIteration()
        connections.startNewIteration()
        connections.startNewIteration()

        # Create a segment with 3 synapse.
        segment2 = connections.createSegment(42)
        connections.createSynapse(segment2, 1, .5)
        connections.createSynapse(segment2, 2, .5)
        connections.createSynapse(segment2, 3, .5)
        connections.startNewIteration()

        # Give the first segment some activity.
        connections.recordSegmentActivity(segment1)

        # Create a new segment with 1 synapse.
        segment3 = connections.createSegment(42)
        connections.createSynapse(segment3, 1, .5)

        segments = connections.segmentsForCell(42)
        self.assertEqual(2, len(segments))

        # Verify first segment is still there with the same synapses.
        self.assertEqual(
            set([1, 2]),
            set(synapse.presynapticCell
                for synapse in connections.synapsesForSegment(segments[0])))

        # Verify second segment has been replaced.
        self.assertEqual(
            set([1]),
            set(synapse.presynapticCell
                for synapse in connections.synapsesForSegment(segments[1])))

        # Verify the flatIdxs were properly reused.
        self.assertLess(segment1.flatIdx, 2)
        self.assertLess(segment3.flatIdx, 2)
        self.assertTrue(
            segment1 is connections.segmentForFlatIdx(segment1.flatIdx))
        self.assertTrue(
            segment3 is connections.segmentForFlatIdx(segment3.flatIdx))
Пример #4
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  def testCreateSegmentReuse(self):
    connections = Connections(1024, 2)

    segment1 = connections.createSegment(42)
    connections.createSynapse(segment1, 1, .5)
    connections.createSynapse(segment1, 2, .5)

    # Let some time pass.
    connections.startNewIteration()
    connections.startNewIteration()
    connections.startNewIteration()

    # Create a segment with 3 synapse.
    segment2 = connections.createSegment(42)
    connections.createSynapse(segment2, 1, .5)
    connections.createSynapse(segment2, 2, .5)
    connections.createSynapse(segment2, 3, .5)
    connections.startNewIteration()

    # Give the first segment some activity.
    connections.recordSegmentActivity(segment1)

    # Create a new segment with 1 synapse.
    segment3 = connections.createSegment(42)
    connections.createSynapse(segment3, 1, .5)

    segments = connections.segmentsForCell(42)
    self.assertEqual(2, len(segments))

    # Verify first segment is still there with the same synapses.
    self.assertEqual(set([1, 2]),
                     set(synapse.presynapticCell for synapse in
                         connections.synapsesForSegment(segments[0])))

    # Verify second segment has been replaced.
    self.assertEqual(set([1]),
                     set(synapse.presynapticCell for synapse in
                         connections.synapsesForSegment(segments[1])))

    # Verify the flatIdxs were properly reused.
    self.assertLess(segment1.flatIdx, 2)
    self.assertLess(segment3.flatIdx, 2)
    self.assertTrue(segment1 is connections.segmentForFlatIdx(segment1.flatIdx))
    self.assertTrue(segment3 is connections.segmentForFlatIdx(segment3.flatIdx))
Пример #5
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  def testSynapseReuse(self):
    """ Creates a synapse over the synapses per segment limit, and verifies
        that the lowest permanence synapse is removed to make room for the new
        synapse.
    """
    connections = Connections(1024, 1024, 2)
    segment = connections.createSegment(10)

    synapse1 = connections.createSynapse(segment, 50, .34)
    synapse2 = connections.createSynapse(segment, 51, .48)

    synapses = connections.synapsesForSegment(segment)
    self.assertEqual(set([synapse1, synapse2]), synapses)

    # Add an additional synapse to force it over the limit of num synapses
    # per segment.
    connections.createSynapse(segment, 52, .52)

    # Ensure lower permanence synapse was removed.
    self.assertEqual(set([51, 52]),
                     set(synapse.presynapticCell
                         for synapse in
                         connections.synapsesForSegment(segment)))
Пример #6
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    def testSynapseReuse(self):
        """ Creates a synapse over the synapses per segment limit, and verifies
        that the lowest permanence synapse is removed to make room for the new
        synapse.
    """
        connections = Connections(1024, 1024, 2)
        segment = connections.createSegment(10)

        synapse1 = connections.createSynapse(segment, 50, .34)
        synapse2 = connections.createSynapse(segment, 51, .48)

        synapses = connections.synapsesForSegment(segment)
        self.assertEqual(set([synapse1, synapse2]), synapses)

        # Add an additional synapse to force it over the limit of num synapses
        # per segment.
        connections.createSynapse(segment, 52, .52)

        # Ensure lower permanence synapse was removed.
        self.assertEqual(
            set([51, 52]),
            set(synapse.presynapticCell
                for synapse in connections.synapsesForSegment(segment)))
Пример #7
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  def testReuseSegmentWithDestroyedSynapses(self):
    """ Destroy a segment that has a destroyed synapse and a non-destroyed
        synapse. Create a new segment in the same place. Make sure its synapse
        count is correct.
    """
    connections = Connections(1024)

    segment = connections.createSegment(11)

    synapse1 = connections.createSynapse(segment, 201, .85)
    connections.createSynapse(segment, 202, .85)

    connections.destroySynapse(synapse1)

    self.assertEqual(1, connections.numSynapses(segment))

    connections.destroySegment(segment)

    reincarnated = connections.createSegment(11)

    self.assertEqual(0, connections.numSynapses(reincarnated))
    self.assertEqual(0, len(connections.synapsesForSegment(reincarnated)))
Пример #8
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    def testReuseSegmentWithDestroyedSynapses(self):
        """ Destroy a segment that has a destroyed synapse and a non-destroyed
        synapse. Create a new segment in the same place. Make sure its synapse
        count is correct.
    """
        connections = Connections(1024)

        segment = connections.createSegment(11)

        synapse1 = connections.createSynapse(segment, 201, .85)
        connections.createSynapse(segment, 202, .85)

        connections.destroySynapse(synapse1)

        self.assertEqual(1, connections.numSynapses(segment))

        connections.destroySegment(segment)

        reincarnated = connections.createSegment(11)

        self.assertEqual(0, connections.numSynapses(reincarnated))
        self.assertEqual(0, len(connections.synapsesForSegment(reincarnated)))
Пример #9
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  def testDestroySynapse(self):
    """ Creates a segment, creates a number of synapses on it, destroys a
        synapse, and makes sure it got destroyed.
    """
    connections = Connections(1024)

    segment = connections.createSegment(20)
    synapse1 = connections.createSynapse(segment, 80, .85)
    synapse2 = connections.createSynapse(segment, 81, .85)
    synapse3 = connections.createSynapse(segment, 82, .15)

    self.assertEqual(3, connections.numSynapses())

    connections.destroySynapse(synapse2)

    self.assertEqual(2, connections.numSynapses())
    self.assertEqual(set([synapse1, synapse3]),
                     connections.synapsesForSegment(segment))
    (numActiveConnected,
     numActivePotential) = connections.computeActivity([80, 81, 82], .5)

    self.assertEqual(1, numActiveConnected[segment.flatIdx])
    self.assertEqual(2, numActivePotential[segment.flatIdx])
Пример #10
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    def testDestroySynapse(self):
        """ Creates a segment, creates a number of synapses on it, destroys a
        synapse, and makes sure it got destroyed.
    """
        connections = Connections(1024)

        segment = connections.createSegment(20)
        synapse1 = connections.createSynapse(segment, 80, .85)
        synapse2 = connections.createSynapse(segment, 81, .85)
        synapse3 = connections.createSynapse(segment, 82, .15)

        self.assertEqual(3, connections.numSynapses())

        connections.destroySynapse(synapse2)

        self.assertEqual(2, connections.numSynapses())
        self.assertEqual(set([synapse1, synapse3]),
                         connections.synapsesForSegment(segment))
        (numActiveConnected,
         numActivePotential) = connections.computeActivity([80, 81, 82], .5)

        self.assertEqual(1, numActiveConnected[segment.flatIdx])
        self.assertEqual(2, numActivePotential[segment.flatIdx])