def test_row_noheader_datalabels():
data = read_csv(data_dir.joinpath("row no header data labels.csv"))
expected_array = unyt_array([0, 1, 2], "s")
assert allclose_units(data.R0, expected_array)
expected_array = unyt_array([3, 4, 5], "V/m")
assert allclose_units(data.R1, expected_array)
assert data.header == ""
def test_prefixes():
data = read_csv(
data_dir.joinpath("column header data labels units prefixes.csv"))
expected_array = unyt_array([0.0, 1.0e-6, 3.0e6], "s")
assert allclose_units(data.Time, expected_array)
expected_array = unyt_array([0.001, 2000.0, 4.0e9], "V")
assert allclose_units(data.Voltage, expected_array)
def test_column_header_datalabels():
data = read_csv(data_dir.joinpath("column header data labels.csv"))
expected_array = unyt_array(np.arange(10), "s")
assert allclose_units(data.Time, expected_array)
expected_array = unyt_array(np.arange(10)**2, "V")
assert allclose_units(data.Voltage, expected_array)
assert (
data.header ==
"Some data generated in LabVIEW\nPartioned into columns of Time, Voltage"
)
def test_frequency_reim():
with TemporaryFile(mode="w+t", encoding="utf-8") as file:
file.write("""Freq.\tV(out)
0.0e+0\t0.0e+0,0.0e+0
1.0e+0\t2.0e+0,3.0e+0""")
file.seek(0)
data = read_ltxt(file)
assert data.header == "frequency\tV(out)"
expected = unyt_array([0.0, 1.0], "Hz")
assert allclose_units(data.frequency, expected)
expected = unyt_array([0.0, 2.0], "V")
assert allclose_units(data.V_out[0], expected)
expected = unyt_array([0.0, 3.0], "V")
assert allclose_units(data.V_out[1], expected)
def test_frequency_dBdeg():
with TemporaryFile(mode="w+t", encoding="utf-8") as file:
file.write("""Freq.\tV(out)
0.0e+0\t(0.0e+0dB,0.0e+0°)
1.0e+0\t(-3.0e+0dB,-9.0e+1°)""")
file.seek(0)
data = read_ltxt(file)
assert data.header == "frequency\tV(out)"
expected = unyt_array([0.0, 1.0], "Hz")
assert allclose_units(data.frequency, expected)
expected = unyt_array([0.0, -3.0], "dB")
assert allclose_units(data.V_out[0], expected)
expected = unyt_array([0.0, -90.0], "degree")
assert allclose_units(data.V_out[1], expected)
def test_vsource():
sim = read_ltraw(data_dir.joinpath("vsource.raw"))
assert sim.variables == [
"time",
"V(v1)",
"V(v2)",
"I(R2)",
"I(R1)",
"I(V2)",
"I(V1)",
]
assert allclose_units(sim.time[-1], unyt_array(0.001, "s"))
assert allclose_units(sim["V(v1)"], unyt_array(4 * [1.0], "V"))
assert allclose_units(sim["I(R1)"], unyt_array(4 * [2.0], "A"))
assert allclose_units(sim["V(v2)"], unyt_array(4 * [3.0], "V"))
assert allclose_units(sim["I(R2)"], unyt_array(4 * [4.0], "A"))
def test_column_noheader_datalabelsnounits():
data = read_csv(
data_dir.joinpath("column no header data labels no units.csv"))
assert isinstance(data, DataContainer)
expected_array = unyt_array(np.arange(10), "dimensionless")
assert allclose_units(data[0], expected_array)
assert allclose_units(data["Time"], expected_array)
assert allclose_units(data["Time - Plot 0"], expected_array)
expected_array = unyt_array(np.arange(10)**2, "dimensionless")
assert allclose_units(data[1], expected_array)
assert allclose_units(data["Amplitude"], expected_array)
assert allclose_units(data["Amplitude - Plot 0"], expected_array)
assert data.header == ""
assert data.legends == ["Plot 0", "Plot 0"]
def test_time():
with TemporaryFile(mode="w+t", encoding="utf-8") as file:
file.write("time\tV(out)\n0.0e+0\t1.0e+0\n1.0e+0\t2.0e+0")
file.seek(0)
data = read_ltxt(file)
assert data.header == "time\tV(out)"
assert data.legends == ["time", "V(out)"]
expected = unyt_array([0.0, 1.0], "s")
assert allclose_units(data.time, expected)
assert allclose_units(data["time"], expected)
assert allclose_units(data[0], expected)
expected = unyt_array([1.0, 2.0], "V")
assert allclose_units(data.V_out, expected)
assert allclose_units(data["V(out)"], expected)
assert allclose_units(data[1], expected)
def test_vsourceac():
sim = read_ltraw(data_dir.joinpath("vsource ac.raw"))
assert sim.variables == ["frequency", "V(v1)", "I(C1)", "I(V1)"]
assert allclose_units(sim.frequency, unyt_array([1, 2, 3], "Hz"))
assert allclose_units(sim["V(v1)"], unyt_array(3 * [complex(1, 0)], "V"))
assert allclose_units(sim["I(C1)"].imag, unyt_array([1, 2, 3], "A"))
def test_column_noheader_datalabels():
data = read_csv(data_dir.joinpath("column no header data labels.csv"))
expected_array = unyt_array(np.arange(10), "s")
assert allclose_units(data["Time (s) - Plot 0"], expected_array)
expected_array = unyt_array(np.arange(10)**3, "V")
assert allclose_units(data["Amplitude (V) - Plot 1"], expected_array)
def test_singlecolumn_header_datalabel():
data = read_csv(data_dir.joinpath("single column header data label.csv"))
expected_array = unyt_array(np.arange(10), "dimensionless")
assert allclose_units(data.Time, expected_array)
assert read_csv.header == "My data"
def test_singlerow_header_datalabel():
data = read_csv(data_dir.joinpath("single row header data label.csv"))
assert allclose_units(data.Time, unyt_array(np.arange(10), "s"))
assert data.header == "My data"
def test_extraspaceinname():
data = read_csv(data_dir.joinpath("extra space in name.csv"))
assert allclose_units(data.I_bat[0], unyt_quantity(10e-6, "A"))
def test_file():
file = StringIO("My data\nTime (s),1p,2u,3k")
data = read_csv(file)
file.close()
assert data.header == "My data"
assert allclose_units(data.Time, unyt_array([1e-12, 2e-6, 3e3], "s"))
