453 lines
15 KiB
Python
453 lines
15 KiB
Python
import importlib
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from collections import namedtuple
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import numpy as np
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import pytest
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from numpy.testing import assert_array_equal
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from sklearn._config import config_context, get_config
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from sklearn.preprocessing import StandardScaler
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from sklearn.utils._set_output import (
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ADAPTERS_MANAGER,
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ContainerAdapterProtocol,
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_get_output_config,
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_safe_set_output,
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_SetOutputMixin,
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_wrap_data_with_container,
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check_library_installed,
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)
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from sklearn.utils.fixes import CSR_CONTAINERS
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def test_pandas_adapter():
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"""Check pandas adapter has expected behavior."""
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pd = pytest.importorskip("pandas")
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X_np = np.asarray([[1, 0, 3], [0, 0, 1]])
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columns = np.asarray(["f0", "f1", "f2"], dtype=object)
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index = np.asarray([0, 1])
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X_df_orig = pd.DataFrame([[1, 2], [1, 3]], index=index)
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adapter = ADAPTERS_MANAGER.adapters["pandas"]
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X_container = adapter.create_container(X_np, X_df_orig, columns=lambda: columns)
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assert isinstance(X_container, pd.DataFrame)
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assert_array_equal(X_container.columns, columns)
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assert_array_equal(X_container.index, index)
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# Input dataframe's index does not change
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new_columns = np.asarray(["f0", "f1"], dtype=object)
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X_df = pd.DataFrame([[1, 2], [1, 3]], index=[10, 12])
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new_df = adapter.create_container(X_df, X_df_orig, columns=new_columns)
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assert_array_equal(new_df.columns, new_columns)
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assert_array_equal(new_df.index, X_df.index)
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assert adapter.is_supported_container(X_df)
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assert not adapter.is_supported_container(X_np)
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# adapter.update_columns updates the columns
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new_columns = np.array(["a", "c"], dtype=object)
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new_df = adapter.rename_columns(X_df, new_columns)
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assert_array_equal(new_df.columns, new_columns)
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# adapter.hstack stacks the dataframes horizontally.
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X_df_1 = pd.DataFrame([[1, 2, 5], [3, 4, 6]], columns=["a", "b", "e"])
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X_df_2 = pd.DataFrame([[4], [5]], columns=["c"])
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X_stacked = adapter.hstack([X_df_1, X_df_2])
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expected_df = pd.DataFrame(
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[[1, 2, 5, 4], [3, 4, 6, 5]], columns=["a", "b", "e", "c"]
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)
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pd.testing.assert_frame_equal(X_stacked, expected_df)
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# check that we update properly the columns even with duplicate column names
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# this use-case potentially happen when using ColumnTransformer
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# non-regression test for gh-28260
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X_df = pd.DataFrame([[1, 2], [1, 3]], columns=["a", "a"])
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new_columns = np.array(["x__a", "y__a"], dtype=object)
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new_df = adapter.rename_columns(X_df, new_columns)
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assert_array_equal(new_df.columns, new_columns)
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# check the behavior of the inplace parameter in `create_container`
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# we should trigger a copy
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X_df = pd.DataFrame([[1, 2], [1, 3]], index=index)
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X_output = adapter.create_container(X_df, X_df, columns=["a", "b"], inplace=False)
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assert X_output is not X_df
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assert list(X_df.columns) == [0, 1]
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assert list(X_output.columns) == ["a", "b"]
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# the operation is inplace
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X_df = pd.DataFrame([[1, 2], [1, 3]], index=index)
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X_output = adapter.create_container(X_df, X_df, columns=["a", "b"], inplace=True)
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assert X_output is X_df
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assert list(X_df.columns) == ["a", "b"]
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assert list(X_output.columns) == ["a", "b"]
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def test_polars_adapter():
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"""Check Polars adapter has expected behavior."""
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pl = pytest.importorskip("polars")
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X_np = np.array([[1, 0, 3], [0, 0, 1]])
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columns = ["f1", "f2", "f3"]
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X_df_orig = pl.DataFrame(X_np, schema=columns, orient="row")
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adapter = ADAPTERS_MANAGER.adapters["polars"]
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X_container = adapter.create_container(X_np, X_df_orig, columns=lambda: columns)
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assert isinstance(X_container, pl.DataFrame)
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assert_array_equal(X_container.columns, columns)
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# Update columns with create_container
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new_columns = np.asarray(["a", "b", "c"], dtype=object)
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new_df = adapter.create_container(X_df_orig, X_df_orig, columns=new_columns)
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assert_array_equal(new_df.columns, new_columns)
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assert adapter.is_supported_container(X_df_orig)
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assert not adapter.is_supported_container(X_np)
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# adapter.update_columns updates the columns
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new_columns = np.array(["a", "c", "g"], dtype=object)
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new_df = adapter.rename_columns(X_df_orig, new_columns)
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assert_array_equal(new_df.columns, new_columns)
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# adapter.hstack stacks the dataframes horizontally.
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X_df_1 = pl.DataFrame([[1, 2, 5], [3, 4, 6]], schema=["a", "b", "e"], orient="row")
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X_df_2 = pl.DataFrame([[4], [5]], schema=["c"], orient="row")
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X_stacked = adapter.hstack([X_df_1, X_df_2])
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expected_df = pl.DataFrame(
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[[1, 2, 5, 4], [3, 4, 6, 5]], schema=["a", "b", "e", "c"], orient="row"
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)
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from polars.testing import assert_frame_equal
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assert_frame_equal(X_stacked, expected_df)
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# check the behavior of the inplace parameter in `create_container`
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# we should trigger a copy
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X_df = pl.DataFrame([[1, 2], [1, 3]], schema=["a", "b"], orient="row")
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X_output = adapter.create_container(X_df, X_df, columns=["c", "d"], inplace=False)
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assert X_output is not X_df
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assert list(X_df.columns) == ["a", "b"]
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assert list(X_output.columns) == ["c", "d"]
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# the operation is inplace
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X_df = pl.DataFrame([[1, 2], [1, 3]], schema=["a", "b"], orient="row")
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X_output = adapter.create_container(X_df, X_df, columns=["c", "d"], inplace=True)
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assert X_output is X_df
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assert list(X_df.columns) == ["c", "d"]
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assert list(X_output.columns) == ["c", "d"]
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@pytest.mark.parametrize("csr_container", CSR_CONTAINERS)
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def test__container_error_validation(csr_container):
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"""Check errors in _wrap_data_with_container."""
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X = np.asarray([[1, 0, 3], [0, 0, 1]])
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X_csr = csr_container(X)
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match = "The transformer outputs a scipy sparse matrix."
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with config_context(transform_output="pandas"):
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with pytest.raises(ValueError, match=match):
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_wrap_data_with_container("transform", X_csr, X, StandardScaler())
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class EstimatorWithoutSetOutputAndWithoutTransform:
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pass
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class EstimatorNoSetOutputWithTransform:
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def transform(self, X, y=None):
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return X # pragma: no cover
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class EstimatorWithSetOutput(_SetOutputMixin):
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def fit(self, X, y=None):
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self.n_features_in_ = X.shape[1]
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return self
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def transform(self, X, y=None):
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return X
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def get_feature_names_out(self, input_features=None):
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return np.asarray([f"X{i}" for i in range(self.n_features_in_)], dtype=object)
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def test__safe_set_output():
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"""Check _safe_set_output works as expected."""
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# Estimator without transform will not raise when setting set_output for transform.
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est = EstimatorWithoutSetOutputAndWithoutTransform()
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_safe_set_output(est, transform="pandas")
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# Estimator with transform but without set_output will raise
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est = EstimatorNoSetOutputWithTransform()
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with pytest.raises(ValueError, match="Unable to configure output"):
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_safe_set_output(est, transform="pandas")
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est = EstimatorWithSetOutput().fit(np.asarray([[1, 2, 3]]))
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_safe_set_output(est, transform="pandas")
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config = _get_output_config("transform", est)
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assert config["dense"] == "pandas"
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_safe_set_output(est, transform="default")
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config = _get_output_config("transform", est)
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assert config["dense"] == "default"
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# transform is None is a no-op, so the config remains "default"
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_safe_set_output(est, transform=None)
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config = _get_output_config("transform", est)
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assert config["dense"] == "default"
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class EstimatorNoSetOutputWithTransformNoFeatureNamesOut(_SetOutputMixin):
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def transform(self, X, y=None):
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return X # pragma: no cover
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def test_set_output_mixin():
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"""Estimator without get_feature_names_out does not define `set_output`."""
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est = EstimatorNoSetOutputWithTransformNoFeatureNamesOut()
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assert not hasattr(est, "set_output")
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def test__safe_set_output_error():
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"""Check transform with invalid config."""
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X = np.asarray([[1, 0, 3], [0, 0, 1]])
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est = EstimatorWithSetOutput()
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_safe_set_output(est, transform="bad")
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msg = "output config must be in"
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with pytest.raises(ValueError, match=msg):
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est.transform(X)
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@pytest.mark.parametrize("dataframe_lib", ["pandas", "polars"])
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def test_set_output_method(dataframe_lib):
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"""Check that the output is a dataframe."""
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lib = pytest.importorskip(dataframe_lib)
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X = np.asarray([[1, 0, 3], [0, 0, 1]])
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est = EstimatorWithSetOutput().fit(X)
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# transform=None is a no-op
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est2 = est.set_output(transform=None)
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assert est2 is est
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X_trans_np = est2.transform(X)
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assert isinstance(X_trans_np, np.ndarray)
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est.set_output(transform=dataframe_lib)
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X_trans_pd = est.transform(X)
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assert isinstance(X_trans_pd, lib.DataFrame)
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def test_set_output_method_error():
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"""Check transform fails with invalid transform."""
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X = np.asarray([[1, 0, 3], [0, 0, 1]])
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est = EstimatorWithSetOutput().fit(X)
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est.set_output(transform="bad")
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msg = "output config must be in"
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with pytest.raises(ValueError, match=msg):
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est.transform(X)
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@pytest.mark.parametrize("transform_output", ["pandas", "polars"])
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def test__get_output_config(transform_output):
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"""Check _get_output_config works as expected."""
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# Without a configuration set, the global config is used
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global_config = get_config()["transform_output"]
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config = _get_output_config("transform")
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assert config["dense"] == global_config
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with config_context(transform_output=transform_output):
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# with estimator=None, the global config is used
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config = _get_output_config("transform")
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assert config["dense"] == transform_output
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est = EstimatorNoSetOutputWithTransform()
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config = _get_output_config("transform", est)
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assert config["dense"] == transform_output
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est = EstimatorWithSetOutput()
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# If estimator has not config, use global config
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config = _get_output_config("transform", est)
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assert config["dense"] == transform_output
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# If estimator has a config, use local config
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est.set_output(transform="default")
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config = _get_output_config("transform", est)
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assert config["dense"] == "default"
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est.set_output(transform=transform_output)
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config = _get_output_config("transform", est)
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assert config["dense"] == transform_output
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class EstimatorWithSetOutputNoAutoWrap(_SetOutputMixin, auto_wrap_output_keys=None):
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def transform(self, X, y=None):
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return X
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def test_get_output_auto_wrap_false():
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"""Check that auto_wrap_output_keys=None does not wrap."""
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est = EstimatorWithSetOutputNoAutoWrap()
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assert not hasattr(est, "set_output")
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X = np.asarray([[1, 0, 3], [0, 0, 1]])
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assert X is est.transform(X)
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def test_auto_wrap_output_keys_errors_with_incorrect_input():
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msg = "auto_wrap_output_keys must be None or a tuple of keys."
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with pytest.raises(ValueError, match=msg):
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class BadEstimator(_SetOutputMixin, auto_wrap_output_keys="bad_parameter"):
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pass
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class AnotherMixin:
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def __init_subclass__(cls, custom_parameter, **kwargs):
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super().__init_subclass__(**kwargs)
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cls.custom_parameter = custom_parameter
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def test_set_output_mixin_custom_mixin():
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"""Check that multiple init_subclasses passes parameters up."""
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class BothMixinEstimator(_SetOutputMixin, AnotherMixin, custom_parameter=123):
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def transform(self, X, y=None):
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return X
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def get_feature_names_out(self, input_features=None):
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return input_features
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est = BothMixinEstimator()
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assert est.custom_parameter == 123
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assert hasattr(est, "set_output")
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def test_set_output_mro():
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"""Check that multi-inheritance resolves to the correct class method.
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Non-regression test gh-25293.
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"""
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class Base(_SetOutputMixin):
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def transform(self, X):
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return "Base" # noqa
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class A(Base):
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pass
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class B(Base):
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def transform(self, X):
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return "B"
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class C(A, B):
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pass
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assert C().transform(None) == "B"
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class EstimatorWithSetOutputIndex(_SetOutputMixin):
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def fit(self, X, y=None):
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self.n_features_in_ = X.shape[1]
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return self
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def transform(self, X, y=None):
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import pandas as pd
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# transform by giving output a new index.
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return pd.DataFrame(X.to_numpy(), index=[f"s{i}" for i in range(X.shape[0])])
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def get_feature_names_out(self, input_features=None):
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return np.asarray([f"X{i}" for i in range(self.n_features_in_)], dtype=object)
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def test_set_output_pandas_keep_index():
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"""Check that set_output does not override index.
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Non-regression test for gh-25730.
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"""
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pd = pytest.importorskip("pandas")
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X = pd.DataFrame([[1, 2, 3], [4, 5, 6]], index=[0, 1])
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est = EstimatorWithSetOutputIndex().set_output(transform="pandas")
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est.fit(X)
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X_trans = est.transform(X)
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assert_array_equal(X_trans.index, ["s0", "s1"])
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class EstimatorReturnTuple(_SetOutputMixin):
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def __init__(self, OutputTuple):
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self.OutputTuple = OutputTuple
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def transform(self, X, y=None):
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return self.OutputTuple(X, 2 * X)
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def test_set_output_named_tuple_out():
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"""Check that namedtuples are kept by default."""
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Output = namedtuple("Output", "X, Y")
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X = np.asarray([[1, 2, 3]])
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est = EstimatorReturnTuple(OutputTuple=Output)
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X_trans = est.transform(X)
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assert isinstance(X_trans, Output)
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assert_array_equal(X_trans.X, X)
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assert_array_equal(X_trans.Y, 2 * X)
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class EstimatorWithListInput(_SetOutputMixin):
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def fit(self, X, y=None):
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assert isinstance(X, list)
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self.n_features_in_ = len(X[0])
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return self
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def transform(self, X, y=None):
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return X
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def get_feature_names_out(self, input_features=None):
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return np.asarray([f"X{i}" for i in range(self.n_features_in_)], dtype=object)
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@pytest.mark.parametrize("dataframe_lib", ["pandas", "polars"])
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def test_set_output_list_input(dataframe_lib):
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"""Check set_output for list input.
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Non-regression test for #27037.
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"""
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lib = pytest.importorskip(dataframe_lib)
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X = [[0, 1, 2, 3], [4, 5, 6, 7]]
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est = EstimatorWithListInput()
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est.set_output(transform=dataframe_lib)
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X_out = est.fit(X).transform(X)
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assert isinstance(X_out, lib.DataFrame)
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assert_array_equal(X_out.columns, ["X0", "X1", "X2", "X3"])
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@pytest.mark.parametrize("name", sorted(ADAPTERS_MANAGER.adapters))
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def test_adapter_class_has_interface(name):
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"""Check adapters have the correct interface."""
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assert isinstance(ADAPTERS_MANAGER.adapters[name], ContainerAdapterProtocol)
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def test_check_library_installed(monkeypatch):
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"""Check import error changed."""
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orig_import_module = importlib.import_module
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def patched_import_module(name):
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if name == "pandas":
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raise ImportError()
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orig_import_module(name, package=None)
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monkeypatch.setattr(importlib, "import_module", patched_import_module)
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msg = "Setting output container to 'pandas' requires"
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with pytest.raises(ImportError, match=msg):
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check_library_installed("pandas")
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