def test_default_fit_transform_no_selected_variables():
selection_criteria = {"quality_score": {"min": 0.99}}
process = BinningProcess(variable_names,
selection_criteria=selection_criteria)
X_transform = process.fit_transform(X, y, metric="event_rate")
assert X_transform == approx(np.empty(0).reshape((X.shape[0], 0)))
def test_incorrect_target_type():
variable_names = ["var_{}".format(i) for i in range(2)]
X = np.zeros((2, 2))
y = np.array([[1, 2], [3, 1]])
process = BinningProcess(variable_names)
with raises(ValueError):
process.fit(X, y)
def test_default_fit_transform():
process = BinningProcess(variable_names)
X_transform = process.fit_transform(X, y, metric="event_rate")
optb = OptimalBinning()
x = X[:, 5]
optb.fit(x, y)
assert optb.transform(x, metric="event_rate") == approx(X_transform[:, 5],
rel=1e-6)
def test_fit_params():
binning_fit_params = {"mean radius": {"max_n_bins": 4}}
process = BinningProcess(variable_names=variable_names,
binning_fit_params=binning_fit_params)
process.fit(X, y)
optb = process.get_binned_variable("mean radius")
assert optb.status == "OPTIMAL"
assert len(optb.splits) <= 4
def test_categorical_variables():
data = load_boston()
variable_names = data.feature_names
X = data.data
y = data.target
process = BinningProcess(variable_names, categorical_variables=["CHAS"])
process.fit(X, y, check_input=True)
df_summary = process.summary()
assert df_summary[df_summary.name ==
"CHAS"]["dtype"].values[0] == "categorical"
def test_scaling_params():
data = load_breast_cancer()
variable_names = data.feature_names
df = pd.DataFrame(data.data, columns=variable_names)
df["target"] = data.target
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
with raises(ValueError):
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator, scaling_method="pdo_odds",
scaling_method_params={"pdo": 20})
scorecard.fit(df)
with raises(ValueError):
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator, scaling_method="pdo_odds",
scaling_method_params={"pdo": 20, "odds": -2,
"scorecard_points": -22})
scorecard.fit(df)
with raises(ValueError):
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator, scaling_method="min_max",
scaling_method_params={"min": "a", "max": 600})
scorecard.fit(df)
with raises(ValueError):
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator, scaling_method="min_max",
scaling_method_params={"min": 900, "max": 600})
scorecard.fit(df)
def test_params():
with raises(TypeError):
cf = Counterfactual(scorecard=None)
cf.fit(X_binary)
with raises(NotFittedError):
binning_process = BinningProcess(feature_names_binary)
estimator = LogisticRegression()
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator)
cf = Counterfactual(scorecard=scorecard)
cf.fit(X_binary)
with raises(TypeError):
cf = Counterfactual(scorecard_binary, special_missing=1)
cf.fit(X_binary)
with raises(ValueError):
cf = Counterfactual(scorecard_binary, n_jobs=-1)
cf.fit(X_binary)
with raises(TypeError):
cf = Counterfactual(scorecard_binary, verbose=1)
cf.fit(X_binary)
def test_information():
data = load_breast_cancer()
variable_names = data.feature_names
X = data.data
y = data.target
process = BinningProcess(variable_names)
process.fit(X, y, check_input=True)
with raises(ValueError):
process.information(print_level=-1)
with open("tests/test_binning_process_information.txt", "w") as f:
with redirect_stdout(f):
process.information(print_level=0)
process.information(print_level=1)
process.information(print_level=2)
def test_params():
data = load_breast_cancer()
variable_names = data.feature_names
X = pd.DataFrame(data.data, columns=variable_names)
y = data.target
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
with raises(TypeError):
scorecard = Scorecard(binning_process=estimator,
estimator=estimator)
scorecard.fit(X, y)
with raises(TypeError):
scorecard = Scorecard(binning_process=binning_process,
estimator=binning_process)
scorecard.fit(X, y)
with raises(ValueError):
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, scaling_method="new_method",
scaling_method_params=dict())
scorecard.fit(X, y)
with raises(ValueError):
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, scaling_method="min_max",
scaling_method_params=None)
scorecard.fit(X, y)
with raises(TypeError):
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, scaling_method="min_max",
scaling_method_params=[])
scorecard.fit(X, y)
with raises(TypeError):
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, intercept_based=1)
scorecard.fit(X, y)
with raises(TypeError):
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, reverse_scorecard=1)
scorecard.fit(X, y)
with raises(TypeError):
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, rounding=1)
scorecard.fit(X, y)
with raises(TypeError):
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, verbose=1)
scorecard.fit(X, y)
def _fit_scorecard(target_dtype, X_train, y_train):
if target_dtype == "binary":
estimator = LogisticRegression()
else:
estimator = LinearRegression()
variable_names = list(X_train.columns)
binning_process = BinningProcess(variable_names)
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator).fit(X_train, y_train)
return scorecard
def test_default():
process = BinningProcess(variable_names)
process.fit(X, y, check_input=True)
with raises(TypeError):
process.get_binned_variable(1)
with raises(ValueError):
process.get_binned_variable("new_variable")
optb = process.get_binned_variable("mean radius")
assert optb.status == "OPTIMAL"
assert optb.splits == approx([11.42500019, 12.32999992, 13.09499979,
13.70499992, 15.04500008, 16.92500019],
rel=1e-6)
optb.binning_table.build()
assert optb.binning_table.iv == approx(5.04392547, rel=1e-6)
def test_input():
data = load_breast_cancer()
variable_names = data.feature_names
X = pd.DataFrame(data.data, columns=variable_names)
y = data.target
y[0] = 4
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
with raises(ValueError):
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator)
scorecard.fit(X, y)
def test_scaling_method_params_continuous_pdo_odds():
data = load_boston()
variable_names = data.feature_names
df = pd.DataFrame(data.data, columns=variable_names)
df["target"] = data.target
with raises(ValueError):
estimator = LinearRegression()
binning_process = BinningProcess(variable_names)
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator, scaling_method="pdo_odds",
scaling_method_params={})
scorecard.fit(df)
def test_verbose():
data = load_breast_cancer()
variable_names = data.feature_names
df = pd.DataFrame(data.data, columns=variable_names)
df["target"] = data.target
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator, verbose=True)
with open("tests/test_scorecard_verbose.txt", "w") as f:
with redirect_stdout(f):
scorecard.fit(df)
def test_default_transform():
process = BinningProcess(variable_names)
with raises(NotFittedError):
process.transform(X)
process.fit(X, y)
X_transform = process.transform(X)
optb = OptimalBinning()
x = X[:, 5]
optb.fit(x, y)
assert optb.transform(x) == approx(X_transform[:, 5], rel=1e-6)
def test_input():
data = load_breast_cancer()
variable_names = data.feature_names
df = pd.DataFrame(data.data, columns=variable_names)
target = data.target
target[0] = 4
df["target"] = target
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
with raises(ValueError):
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator)
scorecard.fit(df)
def test_estimator_not_coef():
from sklearn.ensemble import RandomForestClassifier
data = load_breast_cancer()
variable_names = data.feature_names
X = pd.DataFrame(data.data, columns=variable_names)
y = data.target
binning_process = BinningProcess(variable_names)
estimator = RandomForestClassifier()
scorecard = Scorecard(binning_process=binning_process, estimator=estimator)
with raises(RuntimeError):
scorecard.fit(X, y)
def test_transform_some_variables():
process = BinningProcess(variable_names)
process.fit(X, y)
with raises(TypeError):
process.transform(X, {})
with raises(ValueError):
process.transform(X, ["new_1", "new_2"])
selected_variables = [
'mean area', 'mean smoothness', 'mean compactness', 'mean concavity'
]
X_transform = process.transform(X, selected_variables)
assert X_transform.shape[1] == 4
for i in range(3, 7):
optb = OptimalBinning()
x = X[:, i]
optb.fit(x, y)
assert optb.transform(x) == approx(X_transform[:, i - 3], rel=1e-6)
def test_default_continuous():
data = load_boston()
variable_names = data.feature_names
df = pd.DataFrame(data.data, columns=variable_names)
df["target"] = data.target
binning_process = BinningProcess(variable_names)
estimator = LinearRegression()
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator).fit(df)
sct = scorecard.table(style="detailed")
sc_min, sc_max = sct.groupby("Variable").agg(
{'Points': [np.min, np.max]}).sum()
assert sc_min == approx(-15.813545796848476, rel=1e-6)
assert sc_max == approx(85.08156623609487, rel=1e-6)
def buildScoreCard(df, features, labelCol):
binning_process = BinningProcess(features)
estimator = HuberRegressor(max_iter=200)
scorecard = Scorecard(binning_process=binning_process, target=labelCol,
estimator=estimator, scaling_method=None,
scaling_method_params={"min": 0, "max": 100},
reverse_scorecard=True)
scorecard.verbose = True
scorecard.fit(df, check_input=False)
scorecard.information(print_level=2)
print(scorecard.table(style="summary"))
score = scorecard.score(df)
y_pred = scorecard.predict(df)
plt.scatter(score, df[labelCol], alpha=0.01, label="Average profit")
plt.plot(score, y_pred, label="Huber regression", linewidth=2, color="orange")
plt.ylabel("Average profit value (unit=100,000)")
plt.xlabel("Score")
plt.legend()
plt.show()
def test_default_pandas():
df = pd.DataFrame(data.data, columns=data.feature_names)
process = BinningProcess(variable_names)
with raises(TypeError):
process.fit(df.to_dict(), y, check_input=True)
process.fit(df, y, check_input=True)
optb = process.get_binned_variable("mean radius")
assert optb.status == "OPTIMAL"
assert optb.splits == approx([11.42500019, 12.32999992, 13.09499979,
13.70499992, 15.04500008, 16.92500019],
rel=1e-6)
optb.binning_table.build()
assert optb.binning_table.iv == approx(5.04392547, rel=1e-6)
def test_scaling_method_min_max():
data = load_breast_cancer()
variable_names = data.feature_names
df = pd.DataFrame(data.data, columns=variable_names)
df["target"] = data.target
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
scaling_method_params = {"min": 300, "max": 850}
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator, scaling_method="min_max",
scaling_method_params=scaling_method_params).fit(df)
sct = scorecard.table(style="summary")
sc_min, sc_max = sct.groupby("Variable").agg(
{'Points': [np.min, np.max]}).sum()
assert sc_min == approx(300, rel=1e-6)
assert sc_max == approx(850, rel=1e-6)
def test_default():
data = load_breast_cancer()
variable_names = data.feature_names
df = pd.DataFrame(data.data, columns=variable_names)
df["target"] = data.target
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator).fit(df)
with raises(ValueError):
sct = scorecard.table(style="new")
sct = scorecard.table(style="summary")
sc_min, sc_max = sct.groupby("Variable").agg(
{'Points': [np.min, np.max]}).sum()
assert sc_min == approx(-43.65762593147646, rel=1e-6)
assert sc_max == approx(42.69694657427327, rel=1e-6)
def test_default_transform_pandas():
df = pd.DataFrame(data.data, columns=data.feature_names)
process = BinningProcess(variable_names)
process.fit(df, y)
with raises(TypeError):
X_transform = process.transform(df.to_dict())
with raises(ValueError):
X_transform = process.transform(df)
X_transform = process.transform(df, data.feature_names)
optb = OptimalBinning()
x = X[:, 5]
optb.fit(x, y)
assert optb.transform(x) == approx(X_transform[:, 5], rel=1e-6)
def test_scaling_method_pdo_odd():
data = load_breast_cancer()
variable_names = data.feature_names
df = pd.DataFrame(data.data, columns=variable_names)
df["target"] = data.target
odds = 1 / data.target.mean()
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
scaling_method_params = {"pdo": 20, "odds": odds, "scorecard_points": 600}
scorecard = Scorecard(target="target", binning_process=binning_process,
estimator=estimator, scaling_method="pdo_odds",
scaling_method_params=scaling_method_params).fit(df)
sct = scorecard.table(style="summary")
sc_min, sc_max = sct.groupby("Variable").agg(
{'Points': [np.min, np.max]}).sum()
assert sc_min == approx(-612.2266586867094, rel=1e-6)
assert sc_max == approx(1879.4396115559216, rel=1e-6)
def test_rounding():
data = load_breast_cancer()
variable_names = data.feature_names
X = pd.DataFrame(data.data, columns=variable_names)
y = data.target
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
scaling_method_params = {"min": 200.52, "max": 850.66}
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, scaling_method="min_max",
scaling_method_params=scaling_method_params,
rounding=True).fit(X, y)
sct = scorecard.table(style="summary")
sc_min, sc_max = sct.groupby("Variable").agg(
{'Points': [np.min, np.max]}).sum()
assert sc_min == approx(201, rel=1e-6)
assert sc_max == approx(851, rel=1e-6)
def test_default_transform_multiclass():
data = load_wine()
variable_names = data.feature_names
X = data.data
y = data.target
process = BinningProcess(variable_names)
process.fit(X, y)
X_transform = process.transform(X)
optb = process.get_binned_variable(variable_names[0])
assert isinstance(optb, MulticlassOptimalBinning)
optb = MulticlassOptimalBinning()
x = X[:, 5]
optb.fit(x, y)
assert optb.transform(x) == approx(X_transform[:, 5], rel=1e-6)
def test_rounding_pdo_odds():
data = load_breast_cancer()
variable_names = data.feature_names
X = pd.DataFrame(data.data, columns=variable_names)
y = data.target
odds = 1 / data.target.mean()
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
scaling_method_params = {"pdo": 20, "odds": odds, "scorecard_points": 600}
scorecard = Scorecard(binning_process=binning_process,
estimator=estimator, scaling_method="pdo_odds",
scaling_method_params=scaling_method_params,
rounding=True).fit(X, y)
sct = scorecard.table(style="summary")
sc_min, sc_max = sct.groupby("Variable").agg(
{'Points': [np.min, np.max]}).sum()
assert sc_min == approx(-612, rel=1e-6)
assert sc_max == approx(1880, rel=1e-6)
def test_information():
data = load_breast_cancer()
variable_names = data.feature_names
X = pd.DataFrame(data.data, columns=variable_names)
y = data.target
binning_process = BinningProcess(variable_names)
estimator = LogisticRegression()
scorecard = Scorecard(binning_process=binning_process, estimator=estimator)
with raises(NotFittedError):
scorecard.information()
scorecard.fit(X, y)
with raises(ValueError):
scorecard.information(print_level=-1)
with open("tests/test_scorecard_information.txt", "w") as f:
with redirect_stdout(f):
scorecard.information(print_level=0)
scorecard.information(print_level=1)
scorecard.information(print_level=2)
def test_default_transform_continuous():
data = load_boston()
variable_names = data.feature_names
X = data.data
y = data.target
process = BinningProcess(variable_names)
process.fit(X, y)
X_transform = process.transform(X, metric="mean")
optb = process.get_binned_variable(variable_names[0])
assert isinstance(optb, ContinuousOptimalBinning)
optb = ContinuousOptimalBinning()
x = X[:, 5]
optb.fit(x, y)
assert optb.transform(x, metric="mean") == approx(
X_transform[:, 5], rel=1e-6)
