def select_participant(event):
    """
    Indicates selection of a participant by the wheel.  This will cause updates to the weights for all participants
    or removal of rigging if the wheel is rigged.

    :param event: Lambda event containing the API Gateway request path parameters wheel_id and participant_id
    {
      "pathParameters":
      {
        "wheel_id": string ID of the wheel to rig (DDB Hash Key)
        "participant_id": string ID of the participant to rig (DDB Hash Key)
      },
    }
    :return: response dictionary
    """
    wheel_id = event['pathParameters']['wheel_id']
    participant_id = event['pathParameters']['participant_id']
    wheel = Wheel.get_existing_item(Key={'id': wheel_id})
    participant = WheelParticipant.get_existing_item(Key={
        'id': participant_id,
        'wheel_id': wheel_id
    })
    choice_algorithm.select_participant(wheel, participant)

    # Undo any rigging that has been set up
    Wheel.update_item(Key={'id': wheel['id']},
                      UpdateExpression='remove rigging')
Beispiel #2
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def test_selection_cycle(mock_dynamodb, setup_data, mock_participant_table):
    def get_participant_with_id(participants, target_id):
        for p in participants:
            if p['id'] == target_id:
                return p
        return None

    rngstate = random.getstate()
    random.seed(0)  # Make the (otherwise pseudorandom) test repeatable.

    participants = WheelParticipant.scan({})['Items']
    wheel = setup_data['wheel']
    total_weight_of_chosens = 0
    num_iterations = 200

    distro = {}
    for participant in participants:
        distro[participant['name']] = 0

    for _ in range(0, num_iterations):

        chosen_id = choice_algorithm.suggest_participant(wheel)

        chosen_was = get_participant_with_id(participants, chosen_id)
        chosen_was_weight = chosen_was['weight']

        distro[chosen_was['name']] = distro[chosen_was['name']] + 1

        choice_algorithm.select_participant(wheel, chosen_was)

        participants = WheelParticipant.scan({})['Items']

        chosen_now = get_participant_with_id(participants, chosen_id)
        chosen_now_weight = chosen_now['weight']

        assert chosen_was_weight > 0.0
        assert chosen_now_weight == 0
        total_weight_of_chosens += chosen_was_weight

        total_weight = sum(
            [participant['weight'] for participant in participants])
        assert abs(total_weight - len(participants)) < epsilon

    # Must match human-inspected reasonable values for the RNG seed defined
    # above for number of times each participant was chosen, and the total
    # weight of participants selected. These are a rough equivalent to
    # ensuring that the sequence of chosen participants matches the observed
    #  test run.
    dv = list(distro.values())
    list.sort(dv)
    human_observed_selection_counts = [26, 27, 27, 29, 29, 31, 31]
    human_observed_total_weight = 317.8786415239279
    assert dv == human_observed_selection_counts
    assert abs(float(total_weight_of_chosens) -
               human_observed_total_weight) < epsilon

    # Put things back the way they were.
    random.setstate(rngstate)
def test_reset_wheel(mock_dynamodb, setup_data, mock_participant_table):
    choice_algorithm.select_participant(setup_data['wheel'],
                                        setup_data['participants'][0])
    choice_algorithm.reset_wheel(setup_data['wheel'])

    updated_participants = mock_participant_table.query(
        KeyConditionExpression=Key('wheel_id').eq(setup_data['wheel']
                                                  ['id']))['Items']
    participant_weights = [
        participant['weight'] for participant in updated_participants
    ]

    for weight in participant_weights:
        assert weight == 1
Beispiel #4
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def test_select_participant(mock_dynamodb, setup_data, mock_participant_table):
    participant_to_select = setup_data['participants'][0]
    choice_algorithm.select_participant(setup_data['wheel'],
                                        participant_to_select)

    participants = mock_participant_table.query(KeyConditionExpression=Key(
        'wheel_id').eq(setup_data['wheel']['id']))['Items']
    selected_participant = [
        participant for participant in participants
        if participant['id'] == participant_to_select['id']
    ][0]

    assert selected_participant['weight'] == 0
    assert abs(
        sum([participant['weight']
             for participant in participants]) - len(participants)) < epsilon
Beispiel #5
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def test_rebalance_wheel(setup_data, mock_participant_table):
    def set_up_test(setup_data, mock_participant_table):
        #  Select a participant to take everyone off their 1.0 scores.
        choice_algorithm.select_participant(setup_data['wheel'],
                                            setup_data['participants'][0])

        # Adjust participants to different weights to take the wheel out of balance.
        participants = mock_participant_table.query(KeyConditionExpression=Key(
            'wheel_id').eq(setup_data['wheel']['id']))['Items']
        with WheelParticipant.batch_writer() as batch:
            for p in participants:
                p['weight'] += Decimal(.15)
                batch.put_item(Item=p)

        # Confirm that the wheel is out of balance.
        participants = mock_participant_table.query(KeyConditionExpression=Key(
            'wheel_id').eq(setup_data['wheel']['id']))['Items']
        participant_weights = [
            participant['weight'] for participant in participants
        ]

        total_weight = Decimal(0)
        for weight in participant_weights:
            total_weight += weight
        assert abs(total_weight - Decimal(8.05)) < epsilon

    def complete_test(setup_data, mock_participant_table):
        # Confirm that rebalancing has taken place.
        participants = mock_participant_table.query(KeyConditionExpression=Key(
            'wheel_id').eq(setup_data['wheel']['id']))['Items']

        participant_weights = [
            participant['weight'] for participant in participants
        ]

        total_weight = Decimal(0)
        for weight in participant_weights:
            total_weight += weight

        assert abs(total_weight - len(participants)) < epsilon

    set_up_test(setup_data, mock_participant_table)
    # Select a participant to cause rebalancing to take place.
    participants = mock_participant_table.query(KeyConditionExpression=Key(
        'wheel_id').eq(setup_data['wheel']['id']))['Items']
    choice_algorithm.select_participant(setup_data['wheel'], participants[3])
    complete_test(setup_data, mock_participant_table)
def test_select_participant(mock_dynamodb, setup_data, mock_participant_table):
    participant_to_select = setup_data['participants'][0]
    choice_algorithm.select_participant(setup_data['wheel'],
                                        participant_to_select)

    updated_participants = mock_participant_table.query(
        KeyConditionExpression=Key('wheel_id').eq(setup_data['wheel']
                                                  ['id']))['Items']
    selected_participant = [
        participant for participant in updated_participants
        if participant['id'] == participant_to_select['id']
    ][0]
    other_participants_weights = [
        participant['weight'] for participant in updated_participants
        if participant['id'] != participant_to_select['id']
    ]

    assert selected_participant['weight'] == 0
    for weight in other_participants_weights:
        assert weight == 1.5
Beispiel #7
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def test_fix_incorrect_participant_count(mock_dynamodb, setup_data,
                                         mock_wheel_table):
    out_of_whack = 999
    wheel = setup_data['wheel']
    wheel_id = wheel['id']
    proper_participant_count = wheel['participant_count']

    # # # # We will first test this on a select_participant operation.

    #  Throw the participant count way out of whack.
    mock_wheel_table.update_item(Key={'id': wheel['id']},
                                 **to_update_kwargs(
                                     {'participant_count': out_of_whack}))

    participant_count = mock_wheel_table.query(KeyConditionExpression=Key(
        'id').eq(wheel['id']))['Items'][0].get('participant_count')

    # #  Ensure it's out of whack.
    assert abs(out_of_whack - participant_count) < epsilon

    #  Select a participant to cause correction of participant count.
    wheel = Wheel.get_existing_item(Key={'id': wheel_id})
    choice_algorithm.select_participant(wheel, setup_data['participants'][0])

    #  ...and ensure it's back into whack.
    participant_count = mock_wheel_table.query(KeyConditionExpression=Key(
        'id').eq(wheel['id']))['Items'][0].get('participant_count')

    assert abs(Decimal(proper_participant_count) - participant_count) < epsilon

    # # # # We will next test this on a delete_participant operation.

    #  Throw the participant count way out of whack.
    mock_wheel_table.update_item(Key={'id': wheel['id']},
                                 **to_update_kwargs(
                                     {'participant_count': out_of_whack}))

    participant_count = mock_wheel_table.query(KeyConditionExpression=Key(
        'id').eq(wheel['id']))['Items'][0].get('participant_count')

    # #  Ensure it's out of whack.
    assert abs(out_of_whack - participant_count) < epsilon

    #  Delete a participant to cause correction of participant count.
    event = {
        'body': {},
        'pathParameters': {
            'wheel_id': wheel_id,
            'participant_id': setup_data['participants'][0]['id']
        }
    }
    wheel_participant.delete_participant(event)

    # #  ...and ensure it's back into whack.
    participant_count = mock_wheel_table.query(KeyConditionExpression=Key(
        'id').eq(wheel['id']))['Items'][0].get('participant_count')

    assert abs((Decimal(proper_participant_count) - 1) -
               participant_count) < epsilon

    # # # # We will next test this on a create_participant operation.

    #  Throw the participant count way out of whack.
    mock_wheel_table.update_item(Key={'id': wheel['id']},
                                 **to_update_kwargs(
                                     {'participant_count': out_of_whack}))

    participant_count = mock_wheel_table.query(KeyConditionExpression=Key(
        'id').eq(wheel['id']))['Items'][0].get('participant_count')

    # #  Ensure it's out of whack.
    assert abs(out_of_whack - participant_count) < epsilon

    #  Add a participant to cause correction of participant count.
    event = {
        'pathParameters': {
            'wheel_id': wheel_id
        },
        'body': {
            'name': 'Ishmael-on-the-Sea',
            'url': 'https://amazon.com'
        }
    }
    wheel_participant.create_participant(event)

    # #  ...and ensure it's back into whack.
    participant_count = mock_wheel_table.query(KeyConditionExpression=Key(
        'id').eq(wheel['id']))['Items'][0].get('participant_count')

    assert abs((Decimal(proper_participant_count)) -
               participant_count) < epsilon