def test_get_image_quality_no_im_qc_cols():
x = [1,2,3,4]
y = [2,3,4,5]
df = pd.DataFrame(list(zip(x, y)))
df.columns = ["x", "y"]
with pytest.raises(ValueError):
utils.get_image_quality(df)
def test_get_image_quality_fails_non_dataframe():
# create simple dataframe with ImageQuality columns
x = [1, 2, 3]
y = [2, 4, 1]
z = [2, 5, 1]
df = pd.DataFrame(list(zip(x, y, z)))
df.columns = ["vals", "ImageQuality_test", "other"]
test_list = df["ImageQuality_test"].tolist()
with pytest.raises(ValueError):
utils.get_image_quality(test_list)
def test_get_image_quality():
# create simple dataframe with ImageQuality columns
x = [1, 2, 3]
y = [2, 4, 1]
z = [2, 5, 1]
df = pd.DataFrame(list(zip(x, y, z)))
df.columns = ["vals", "ImageQuality_test", "other"]
out = utils.get_image_quality(df)
print(out)
assert out == ["ImageQuality_test"]
def test_get_image_quality_not_beginning():
# column has ImageQuality in middle of string
# create simple dataframe with ImageQuality columns
x = [1, 2, 3]
y = [2, 4, 1]
z = [2, 5, 1]
df2 = pd.DataFrame(list(zip(x, y, z)))
df2.columns = ["vals", "ImageQuality_test", "Cells_ImageQuality"]
out = utils.get_image_quality(df2)
assert out == ["ImageQuality_test", "Cells_ImageQuality"]
def get_outlier_index(data, method="values", sigma=6, adjust=True, **kwargs):
"""
Returns index of outlying row(s)
Parameters
----------
data: pandas dataframe
DataFrame
method : string (default="values")
either 'simple' which is based on hampels robust outlier
test on feature values, or 'ImageQualty' which uses the
ImageQualty metrics - FocusScore and PowerLogLogSlope.
sigma : int (default=6)
number of median absolute deviations away from the sample median to
define an outlier.
adjust: boolean (default=True)
If true will adjust the sigma value to take into account multiple
measurements. `sigma_adj = sigma * n_feature_columns`
**kwargs: additional arguments to utils.get_featuredata
Returns
-------
bad_index : list
list of row index/indices to remove
"""
if not isinstance(data, pd.DataFrame):
raise ValueError("not a pandas DataFrame")
accepted_methods = ["values", "ImageQuality"]
if method not in accepted_methods:
raise ValueError("invalid argument. Options: values, ImageQuality")
if method == "values":
feature_cols = utils.get_featuredata(data, **kwargs)
# FIXME really crude correction
if adjust:
sigma = sigma * len(feature_cols)
hampel_out = data[feature_cols].apply(stats.hampel, sigma=sigma)
hampel_abs = hampel_out.apply(lambda x: sum(abs(x)), axis=1)
return hampel_abs[hampel_abs > 0].index.tolist()
if method == "ImageQuality":
qc_cols = utils.get_image_quality(data)
# find bad images with FocusScore
focus_cols = [col for col in qc_cols if "FocusScore" in col]
hampel_focus = data[focus_cols].apply(stats.hampel, sigma=sigma)
focus_sum = hampel_focus.apply(np.sum, axis=1)
focus_bad = focus_sum[focus_sum < 0].index.tolist()
# find bad images with PowerLogLogSlope
plls_cols = [col for col in qc_cols if "PowerLogLogSlope" in col]
hampel_plls = data[plls_cols].apply(stats.hampel, sigma=sigma)
plls_sum = hampel_plls.apply(np.sum, axis=1)
plls_bad = plls_sum[plls_sum < 0].index.tolist()
bad_index = list(set(focus_bad + plls_bad))
return bad_index
def get_outlier_index(data, method="values", sigma=6, adjust=True, **kwargs):
"""
Returns index of outlying row(s)
Parameters
----------
data: pandas dataframe
DataFrame
method : string (default="values")
either 'simple' which is based on hampels robust outlier
test on feature values, or 'ImageQualty' which uses the
ImageQualty metrics - FocusScore and PowerLogLogSlope.
sigma : int (default=6)
number of median absolute deviations away from the sample median to
define an outlier.
adjust: boolean (default=True)
If true will adjust the sigma value to take into account multiple
measurements. `sigma_adj = sigma * n_feature_columns`
**kwargs: additional arguments to utils.get_featuredata
Returns
-------
bad_index : list
list of row index/indices to remove
"""
if not isinstance(data, pd.DataFrame):
raise ValueError("not a pandas DataFrame")
accepted_methods = ["values", "ImageQuality"]
if method not in accepted_methods:
raise ValueError("invalid argument. Options: values, ImageQuality")
if method == "values":
feature_cols = utils.get_featuredata(data, **kwargs)
# FIXME really crude correction
if adjust:
sigma = sigma * len(feature_cols)
hampel_out = data[feature_cols].apply(stats.hampel, sigma=sigma)
hampel_abs = hampel_out.apply(lambda x: sum(abs(x)), axis=1)
return hampel_abs[hampel_abs > 0].index.tolist()
if method == "ImageQuality":
qc_cols = utils.get_image_quality(data)
# find bad images with FocusScore
focus_cols = [col for col in qc_cols if "FocusScore" in col]
hampel_focus = data[focus_cols].apply(stats.hampel, sigma=sigma)
focus_sum = hampel_focus.apply(np.sum, axis=1)
focus_bad = focus_sum[focus_sum < 0].index.tolist()
# find bad images with PowerLogLogSlope
plls_cols = [col for col in qc_cols if "PowerLogLogSlope" in col]
hampel_plls = data[plls_cols].apply(stats.hampel, sigma=sigma)
plls_sum = hampel_plls.apply(np.sum, axis=1)
plls_bad = plls_sum[plls_sum < 0].index.tolist()
bad_index = list(set(focus_bad + plls_bad))
return bad_index
