def test_calibration_read_failures():
"""Test miscellaneous HDF5 reading failures."""
fname = os.path.join(TEST_OUTPUTS, "calibration__read_failures.h5")
cal = Calibration.from_linear([2.0, 3.0])
cal.add_points([0, 1000, 2000], [0, 1000, 2000])
# remove datasets from the file and show that read raises an error
for dset_name in ["params", "expression", "domain", "range"]:
cal.write(fname)
with h5.open_h5(fname, "r+") as f:
del f[dset_name]
with pytest.raises(CalibrationError):
Calibration.read(fname)
# remove datasets from the file and show that read does *not* raise error
for dset_name in ["points_x", "points_y"]:
cal.write(fname)
with h5.open_h5(fname, "r+") as f:
del f[dset_name]
Calibration.read(fname)
# add unexpected dataset to the file and show that read raises an error
cal.write(fname)
with h5.open_h5(fname, "r+") as f:
f.create_dataset("unexpected", data=[0, 1, 2])
with pytest.raises(CalibrationError):
Calibration.read(fname)
def test_calibration_misc():
"""Miscellaneous tests to increase test coverage."""
cal1 = Calibration.from_linear([2.0, 3.0])
cal2 = Calibration.from_polynomial([2.0, 3.0, 7.0])
with pytest.raises(CalibrationError):
cal1 != 0
assert cal1 != cal2
# bad number of arguments
with pytest.raises(CalibrationError):
Calibration.from_linear([2.0])
Calibration.from_linear([2.0, 3.0])
with pytest.raises(CalibrationError):
Calibration.from_linear([2.0, 3.0, 4.0])
# bad number of arguments
with pytest.raises(CalibrationError):
Calibration.from_polynomial([2.0])
Calibration.from_polynomial([2.0, 3.0])
Calibration.from_polynomial([2.0, 3.0, 4.0])
# bad number of arguments
with pytest.raises(CalibrationError):
Calibration.from_sqrt_polynomial([2.0])
Calibration.from_sqrt_polynomial([2.0, 3.0])
Calibration.from_sqrt_polynomial([2.0, 3.0, 4.0])
def make_calibration(name, args):
"""Make an instance of the desired Calibration type."""
attrs = {"comment": "Test of Calibration class", "name": name}
if name.startswith("lin"):
cal = Calibration.from_linear(*args, **attrs, domain=domain)
elif name.startswith("poly"):
cal = Calibration.from_polynomial(*args, **attrs, domain=domain)
elif name.startswith("sqrt"):
cal = Calibration.from_sqrt_polynomial(*args, **attrs, domain=domain)
elif name.startswith("interp"):
cal = Calibration.from_interpolation(points_x, points_y, **attrs, domain=domain)
else:
cal = Calibration(*args, **attrs, domain=domain)
return cal