wangb
/
flexmeasures-main


			
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							import pytest

import pandas as pd
import timely_beliefs as tb
from sqlalchemy import select

from flexmeasures.cli.tests.utils import check_command_ran_without_error, to_flags
from flexmeasures.data.models.audit_log import AssetAuditLog
from flexmeasures.data.models.time_series import TimedBelief
from flexmeasures.cli.tests.utils import get_click_commands
from flexmeasures.tests.utils import get_test_sensor


@pytest.mark.skip_github
def test_add_one_sensor_attribute(app, db, setup_markets):
    from flexmeasures.cli.data_edit import edit_attribute

    # Load sensor from database and count attributes
    sensor = get_test_sensor(db)
    n_attributes_before = len(sensor.attributes)

    cli_input = {
        "sensor": sensor.id,
        "attribute": "some new attribute",
        "float": 3,
    }
    runner = app.test_cli_runner()
    result = runner.invoke(edit_attribute, to_flags(cli_input))
    check_command_ran_without_error(result)
    assert "Success" in result.output, result.exception

    event = f"Updated sensor '{sensor.name}': {sensor.id}; Attr 'some new attribute' To 3.0 From None"
    assert db.session.execute(
        select(AssetAuditLog).filter_by(
            affected_asset_id=sensor.generic_asset_id,
            event=event,
            active_user_id=None,
            active_user_name=None,
        )
    ).scalar_one_or_none()

    # Reload sensor from database and count attributes
    sensor = get_test_sensor(db)
    n_attributes_after = len(sensor.attributes)

    assert n_attributes_after == n_attributes_before + 1


@pytest.mark.skip_github
def test_update_one_asset_attribute(app, db, setup_generic_assets):
    from flexmeasures.cli.data_edit import edit_attribute

    db.session.flush()
    asset = setup_generic_assets["test_battery"]
    cli_input = {
        "asset": asset.id,
        "attribute": "some-attribute",
        "str": "some-new-value",
    }

    runner = app.test_cli_runner()
    result = runner.invoke(edit_attribute, to_flags(cli_input))
    check_command_ran_without_error(result)
    assert "Success" in result.output, result.exception

    event = f"Updated asset '{asset.name}': {asset.id}; Attr 'some-attribute' To some-new-value From some-value"
    assert db.session.execute(
        select(AssetAuditLog).filter_by(
            affected_asset_id=asset.id,
            event=event,
            active_user_id=None,
            active_user_name=None,
        )
    ).scalar_one_or_none()


@pytest.mark.skip_github
@pytest.mark.parametrize(
    "event_starts_after, event_ends_before",
    (
        ["", ""],
        ["2021-03-28 15:00:00+00:00", "2021-03-28 16:00:00+00:00"],
    ),
)
def test_resample_sensor_data(
    app, db, setup_beliefs, event_starts_after: str, event_ends_before: str
):
    """Check resampling market data from hourly to 30 minute resolution and back."""

    from flexmeasures.cli.data_edit import resample_sensor_data

    sensor = get_test_sensor(db)
    event_starts_after = pd.Timestamp(event_starts_after)
    event_ends_before = pd.Timestamp(event_ends_before)
    beliefs_before = sensor.search_beliefs(
        most_recent_beliefs_only=False,
        event_starts_after=event_starts_after,
        event_ends_before=event_ends_before,
    )

    # Check whether fixtures have flushed
    assert sensor.id is not None

    # Check whether we have all desired beliefs
    query = select(TimedBelief).filter(TimedBelief.sensor_id == sensor.id)
    if not pd.isnull(event_starts_after):
        query = query.filter(TimedBelief.event_start >= event_starts_after)
    if not pd.isnull(event_ends_before):
        query = query.filter(
            TimedBelief.event_start + sensor.event_resolution <= event_ends_before
        )
    all_beliefs_for_given_sensor = db.session.scalars(query).all()
    pd.testing.assert_frame_equal(
        tb.BeliefsDataFrame(all_beliefs_for_given_sensor), beliefs_before
    )

    cli_input = {
        "sensor": sensor.id,
        "event-resolution": sensor.event_resolution.seconds / 60 / 2,
    }
    runner = app.test_cli_runner()
    result = runner.invoke(
        resample_sensor_data, to_flags(cli_input) + ["--skip-integrity-check"]
    )

    # Check result for success
    assert "Successfully resampled" in result.output

    # Check that we now have twice as much data for this sensor
    sensor = get_test_sensor(db)
    beliefs_after = sensor.search_beliefs(
        most_recent_beliefs_only=False,
        event_starts_after=event_starts_after,
        event_ends_before=event_ends_before,
    )
    assert len(beliefs_after) == 2 * len(beliefs_before)

    # Checksum
    assert beliefs_after["event_value"].sum() == 2 * beliefs_before["event_value"].sum()

    assert db.session.execute(
        select(AssetAuditLog).filter_by(
            affected_asset_id=sensor.generic_asset_id,
            event=f"Resampled sensor data for sensor '{sensor.name}': {sensor.id} to 0:30:00 from 1:00:00",
            active_user_id=None,
            active_user_name=None,
        )
    ).scalar_one_or_none()

    # Resample back to original resolution (on behalf of the next test case)
    cli_input["event-resolution"] = sensor.event_resolution.seconds / 60
    result = runner.invoke(
        resample_sensor_data, to_flags(cli_input) + ["--skip-integrity-check"]
    )
    assert "Successfully resampled" in result.output


def test_cli_help(app):
    """Test that showing help does not throw an error."""
    from flexmeasures.cli import data_edit

    runner = app.test_cli_runner()
    for cmd in get_click_commands(data_edit):
        result = runner.invoke(cmd, ["--help"])
        check_command_ran_without_error(result)
        assert "Usage" in result.output


def test_transfer_ownership(app, db, add_asset_with_children, add_alternative_account):
    """
    Test that the parent and its children change their ownership from the old account
    to the new one.
    """

    from flexmeasures.cli.data_edit import transfer_ownership

    parent = add_asset_with_children["Supplier"]["parent"]
    old_account = parent.owner
    new_account = add_alternative_account

    # assert that the children belong to the same account as the parent
    for child in parent.child_assets:
        assert child.owner == old_account

    cli_input_params = {
        "asset": parent.id,
        "new_owner": new_account.id,
    }

    cli_input = to_flags(cli_input_params)

    runner = app.test_cli_runner()
    result = runner.invoke(transfer_ownership, cli_input)
    check_command_ran_without_error(result)

    # assert that the parent and its children now belong to the new account
    assert parent.owner == new_account
    for child in parent.child_assets:
        assert child.owner == new_account

    for child_asset in (parent, *parent.child_assets):
        event = f"Transferred ownership for asset '{child_asset.name}': {child_asset.id} from '{old_account.name}': {old_account.id} to '{new_account.name}': {new_account.id}"
        assert db.session.execute(
            select(AssetAuditLog).filter_by(
                affected_asset_id=child_asset.id,
                event=event,
                active_user_id=None,
                active_user_name=None,
            )
        ).scalar_one_or_none()