コード例 #1
0
def test_exponential_sleep_time(caplog, watchman_service):
    endpoint = _endpoint_metadata("t1", False)

    start, end = (
        isoparse("2016-01-01T00:00:00+00:00"),
        isoparse("2016-01-01T12:00:00+00:00"),
    )

    with caplog.at_level(logging.CRITICAL):
        with patch(
            "gordo_components.client.client.sleep", return_value=None
        ) as time_sleep:
            client = Client(project=tu.GORDO_PROJECT)
            loop = asyncio.get_event_loop()
            loop.run_until_complete(
                client._process_prediction_task(
                    X=pd.DataFrame([123]),
                    y=None,
                    chunk=slice(0, 1),
                    endpoint=endpoint,
                    start=start,
                    end=end,
                )
            )
            loop.close()

            expected_calls = [call(8), call(16), call(32), call(64), call(128)]
            time_sleep.assert_has_calls(expected_calls)
コード例 #2
0
def predict(
    ctx: click.Context,
    start: datetime,
    end: datetime,
    data_provider: providers.GordoBaseDataProvider,
    output_dir: str,
    influx_uri: str,
    influx_api_key: str,
    influx_recreate_db: bool,
    forward_resampled_sensors: bool,
    ignore_unhealthy_targets: bool,
    n_retries: int,
    parquet: bool,
):
    """
    Run some predictions against the target
    """
    ctx.obj["kwargs"].update({
        "data_provider": data_provider,
        "forward_resampled_sensors": forward_resampled_sensors,
        "ignore_unhealthy_targets": ignore_unhealthy_targets,
        "n_retries": n_retries,
        "use_parquet": parquet,
    })

    client = Client(*ctx.obj["args"], **ctx.obj["kwargs"])

    if influx_uri is not None:
        client.prediction_forwarder = ForwardPredictionsIntoInflux(
            destination_influx_uri=influx_uri,
            destination_influx_api_key=influx_api_key,
            destination_influx_recreate=influx_recreate_db,
            n_retries=n_retries,
        )

    # Fire off getting predictions
    predictions = client.predict(
        start, end
    )  # type: typing.Iterable[typing.Tuple[str, pd.DataFrame, typing.List[str]]]

    # Loop over all error messages for each result and log them
    click.secho(
        f"\n{'-' * 20} Summary of failed predictions (if any) {'-' * 20}")
    exit_code = 0
    for (_name, _df, error_messages) in predictions:
        for err_msg in error_messages:
            # Any error message indicates we encountered at least one error
            exit_code = 1
            click.secho(err_msg, fg="red")

    # Shall we write the predictions out?
    if output_dir is not None:
        for (name, prediction_df, _err_msgs) in predictions:
            prediction_df.to_csv(os.path.join(output_dir, f"{name}.csv.gz"),
                                 compression="gzip")
    sys.exit(exit_code)
コード例 #3
0
ファイル: client.py プロジェクト: tikyau/gordo-components
def metadata(ctx: click.Context, output_file: typing.Optional[typing.IO[str]]):
    """
    Get metadata from a given endpoint
    """
    client = Client(*ctx.obj["args"], **ctx.obj["kwargs"])
    metadata = client.get_metadata()
    if output_file:
        json.dump(metadata, output_file)
        click.secho(f"Saved metadata json to file: '{output_file}'")
    else:
        pprint(metadata)
    return metadata
コード例 #4
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def test_client_endpoint_filtering(
    endpoints: typing.List[EndpointMetadata],
    target: typing.Optional[str],
    ignore_unhealthy: typing.Optional[bool],
    expected: typing.List[EndpointMetadata],
):
    if not isinstance(expected, list):
        with pytest.raises(ValueError):
            Client._filter_endpoints(endpoints, target, ignore_unhealthy)
    else:
        filtered_endpoints = Client._filter_endpoints(endpoints, target,
                                                      ignore_unhealthy)
        assert (expected == filtered_endpoints
                ), f"Not equal: {expected} \n----\n {filtered_endpoints}"
コード例 #5
0
ファイル: client.py プロジェクト: tikyau/gordo-components
def download_model(ctx: click.Context, output_dir: str):
    """
    Download the actual model from the target and write to an output directory
    """
    client = Client(*ctx.obj["args"], **ctx.obj["kwargs"])
    models = client.download_model()

    # Iterate over mapping of models and save into their own sub dirs of the output_dir
    for target, model in models.items():
        model_out_dir = os.path.join(output_dir, target)
        os.mkdir(model_out_dir)
        click.secho(
            f"Writing model '{target}' to directory: '{model_out_dir}'...",
            nl=False)
        serializer.dump(model, model_out_dir)
        click.secho(f"done")

    click.secho(f"Wrote all models to directory: {output_dir}", fg="green")
コード例 #6
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def test_client_get_metadata(watchman_service):
    """
    Test client's ability to get metadata from some target
    """
    client = Client(project=tu.GORDO_PROJECT)

    metadata = client.get_metadata()
    assert isinstance(metadata, dict)

    # Can't get metadata for non-existent target
    with pytest.raises(ValueError):
        client = Client(project=tu.GORDO_PROJECT, target="no-such-target")
        client.get_metadata()
コード例 #7
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def test_client_download_model(watchman_service):
    """
    Test client's ability to download the model
    """
    client = Client(project=tu.GORDO_PROJECT, target=tu.GORDO_SINGLE_TARGET)

    models = client.download_model()
    assert isinstance(models, dict)
    assert isinstance(models[tu.GORDO_SINGLE_TARGET], BaseEstimator)

    # Can't download model for non-existent target
    with pytest.raises(ValueError):
        client = Client(project=tu.GORDO_PROJECT, target="non-existent-target")
        client.download_model()
コード例 #8
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def test_client_predictions_diff_batch_sizes_and_toggle_data_provider(
    influxdb, watchman_service, use_data_provider: bool, batch_size: int
):
    """
    Run the prediction client with different batch-sizes and whether to use
    a data provider or not.
    """
    # Time range used in this test
    start, end = (
        isoparse("2016-01-01T00:00:00+00:00"),
        isoparse("2016-01-01T12:00:00+00:00"),
    )

    # Client only used within the this test
    test_client = client_utils.influx_client_from_uri(tu.INFLUXDB_URI)

    # Created measurements by prediction client with dest influx
    query = f"""
    SELECT *
    FROM "model-output"
    WHERE("machine" =~ /^{tu.GORDO_SINGLE_TARGET}$/)
    """

    # Before predicting, influx destination db should be empty for 'predictions' measurement
    vals = test_client.query(query)
    assert len(vals) == 0

    data_provider = (
        providers.InfluxDataProvider(
            measurement=tu.INFLUXDB_MEASUREMENT,
            value_name="Value",
            client=client_utils.influx_client_from_uri(
                uri=tu.INFLUXDB_URI, dataframe_client=True
            ),
        )
        if use_data_provider
        else None
    )

    prediction_client = Client(
        project=tu.GORDO_PROJECT,
        data_provider=data_provider,
        prediction_forwarder=ForwardPredictionsIntoInflux(
            destination_influx_uri=tu.INFLUXDB_URI
        ),
        batch_size=batch_size,
    )

    # Should have discovered machine-1
    assert len(prediction_client.endpoints) == 1

    # All endpoints should be healthy
    assert all(ep.healthy for ep in prediction_client.endpoints)

    # Get predictions
    predictions = prediction_client.predict(start=start, end=end)
    assert isinstance(predictions, list)
    assert len(predictions) == 1

    name, predictions, error_messages = predictions[0]  # First dict of predictions
    assert isinstance(name, str)
    assert isinstance(predictions, pd.DataFrame)
    assert isinstance(error_messages, list)

    assert isinstance(predictions.index, pd.core.indexes.datetimes.DatetimeIndex)

    # This should have resulted in writting predictions to influx
    # Before predicting, influx destination db should be empty
    vals = test_client.query(query)
    assert (
        len(vals) > 0
    ), f"Expected new values in 'predictions' measurement, but found {vals}"