def test_init(wind_timeseries): "" rq = wind_timeseries["rq"] uv = wind_timeseries["uv"] ts = Timeseries(rq, format="r-theta") assert np.all(ts.get_timeseries()["time"] == rq["time"]) assert np.allclose(ts.get_timeseries(format="r-theta")["value"], rq["value"], atol=1e-10) assert np.allclose(ts.get_timeseries()["value"], uv["value"], atol=1e-10)
def test_init(wind_timeseries): '' rq = wind_timeseries['rq'] uv = wind_timeseries['uv'] ts = Timeseries(rq, format='r-theta') assert np.all(ts.get_timeseries()['time'] == rq['time']) assert np.allclose(ts.get_timeseries(format='r-theta')['value'], rq['value'], atol=1e-10) assert np.allclose(ts.get_timeseries()['value'], uv['value'], atol=1e-10)
def test_set_timeseries_prop(): ''' following operation requires a numpy array ''' ts = Timeseries(filename=wind_file) # Following is a 0-D array, make sure it gets # converted to a 1-D array correctly x = (datetime.now().replace(microsecond=0, second=0), (4, 5)) ts.set_timeseries(x) assert ts.get_timeseries()['time'] == x[0] assert np.allclose(ts.get_timeseries()['value'], x[1], atol=1e-6)
def test_init(wind_timeseries): '' rq = wind_timeseries['rq'] uv = wind_timeseries['uv'] ts = Timeseries(rq, format='r-theta') assert np.all(ts.get_timeseries()['time'] == rq['time']) assert np.allclose(ts.get_timeseries(format='r-theta')['value'], rq['value'], atol=1e-10) assert np.allclose(ts.get_timeseries()['value'], uv['value'], atol=1e-10)
def test_set_timeseries_prop(): ''' following operation requires a numpy array ''' ts = Timeseries(filename=wind_file) # Following is a 0-D array, make sure it gets # converted to a 1-D array correctly x = (datetime.now().replace(microsecond=0, second=0), (4, 5)) ts.set_timeseries(x) assert ts.get_timeseries()['time'] == x[0] assert np.allclose(ts.get_timeseries()['value'], x[1], atol=1e-6)
def test_ne(): ''' change timeseries ''' ts1 = Timeseries(filename=wind_file) ts = ts1.get_timeseries() ts[0]['value'] += (1, 1) ts2 = Timeseries(timeseries=ts) assert ts1 != ts2
def test_ne(): ''' change timeseries ''' ts1 = Timeseries(filename=wind_file) ts = ts1.get_timeseries() ts[0]['value'] += (1, 1) ts2 = Timeseries(timeseries=ts) assert ts1 != ts2
def test_ne(): """ change timeseries """ ts1 = Timeseries(filename=wind_file) ts = ts1.get_timeseries() ts[0]["value"] += (1, 1) ts2 = Timeseries(timeseries=ts) assert ts1 != ts2
def test_get_timeseries(wind_timeseries): uv = wind_timeseries['uv'] ts = Timeseries(uv, format='uv') result = ts.get_timeseries() assert len(result) == 6 for dt, value in result: assert type(dt) is np.datetime64 assert len(value) == 2
def test_get_timeseries(wind_timeseries): uv = wind_timeseries['uv'] ts = Timeseries(uv, format='uv') result = ts.get_timeseries() assert len(result) == 6 for dt, value in result: assert type(dt) is np.datetime64 assert len(value) == 2
def test_empty(): """ can you create one with no data FixMe: why would you want to do this?? """ ts = Timeseries() arr = ts.get_timeseries() assert len(arr) == 1 assert arr[0][1][0] == 0.0 assert arr[0][1][1] == 0.0
def test_empty(): """ can you create one with no data FixMe: why would you want to do this?? """ ts = Timeseries() arr = ts.get_timeseries() assert len(arr) == 1 assert arr[0][1][0] == 0.0 assert arr[0][1][1] == 0.0
def test_get_timeseries_multiple(wind_timeseries): uv = wind_timeseries['uv'] ts = Timeseries(uv, format='uv') dts = [datetime(2012, 11, 6, 20, 12), datetime(2012, 11, 6, 20, 14)] result = ts.get_timeseries(dts) assert len(result) == 2 assert result[0][1][0] == -1.0 assert result[0][1][1] == 0.0 assert result[1][1][0] == 0.0 assert result[1][1][1] == 1.0
def test_get_timeseries_multiple(wind_timeseries): uv = wind_timeseries['uv'] ts = Timeseries(uv, format='uv') dts = [datetime(2012, 11, 6, 20, 12), datetime(2012, 11, 6, 20, 14)] result = ts.get_timeseries(dts) assert len(result) == 2 assert result[0][1][0] == -1.0 assert result[0][1][1] == 0.0 assert result[1][1][0] == 0.0 assert result[1][1][1] == 1.0
def test__eq(): ''' only checks timeseries values match ''' ts1 = Timeseries(filename=wind_file) ts2 = Timeseries(timeseries=ts1.get_timeseries()) assert ts1 == ts2
def test__eq(): ''' only checks timeseries values match ''' ts1 = Timeseries(filename=wind_file) ts2 = Timeseries(timeseries=ts1.get_timeseries()) assert ts1 == ts2