def test_check_array(): # accept_sparse == None # raise error on sparse inputs X = [[1, 2], [3, 4]] X_csr = sp.csr_matrix(X) assert_raises(TypeError, check_array, X_csr) # ensure_2d X_array = check_array([0, 1, 2]) assert_equal(X_array.ndim, 2) X_array = check_array([0, 1, 2], ensure_2d=False) assert_equal(X_array.ndim, 1) # don't allow ndim > 3 X_ndim = np.arange(8).reshape(2, 2, 2) assert_raises(ValueError, check_array, X_ndim) check_array(X_ndim, allow_nd=True) # doesn't raise # force_all_finite X_inf = np.arange(4).reshape(2, 2).astype(np.float) X_inf[0, 0] = np.inf assert_raises(ValueError, check_array, X_inf) check_array(X_inf, force_all_finite=False) # no raise # nan check X_nan = np.arange(4).reshape(2, 2).astype(np.float) X_nan[0, 0] = np.nan assert_raises(ValueError, check_array, X_nan) check_array(X_inf, force_all_finite=False) # no raise # dtype and order enforcement. X_C = np.arange(4).reshape(2, 2).copy("C") X_F = X_C.copy("F") X_int = X_C.astype(np.int) X_float = X_C.astype(np.float) Xs = [X_C, X_F, X_int, X_float] dtypes = [np.int32, np.int, np.float, np.float32, None, np.bool, object] orders = ['C', 'F', None] copys = [True, False] for X, dtype, order, copy in product(Xs, dtypes, orders, copys): X_checked = check_array(X, dtype=dtype, order=order, copy=copy) if dtype is not None: assert_equal(X_checked.dtype, dtype) else: assert_equal(X_checked.dtype, X.dtype) if order == 'C': assert_true(X_checked.flags['C_CONTIGUOUS']) assert_false(X_checked.flags['F_CONTIGUOUS']) elif order == 'F': assert_true(X_checked.flags['F_CONTIGUOUS']) assert_false(X_checked.flags['C_CONTIGUOUS']) if copy: assert_false(X is X_checked) else: # doesn't copy if it was already good if (X.dtype == X_checked.dtype and X_checked.flags['C_CONTIGUOUS'] == X.flags['C_CONTIGUOUS'] and X_checked.flags['F_CONTIGUOUS'] == X.flags['F_CONTIGUOUS']): assert_true(X is X_checked) # allowed sparse != None X_csc = sp.csc_matrix(X_C) X_coo = X_csc.tocoo() X_dok = X_csc.todok() X_int = X_csc.astype(np.int) X_float = X_csc.astype(np.float) Xs = [X_csc, X_coo, X_dok, X_int, X_float] accept_sparses = [['csr', 'coo'], ['coo', 'dok']] for X, dtype, accept_sparse, copy in product(Xs, dtypes, accept_sparses, copys): with warnings.catch_warnings(record=True) as w: X_checked = check_array(X, dtype=dtype, accept_sparse=accept_sparse, copy=copy) if (dtype is object or sp.isspmatrix_dok(X)) and len(w): message = str(w[0].message) messages = ["object dtype is not supported by sparse matrices", "Can't check dok sparse matrix for nan or inf."] assert_true(message in messages) else: assert_equal(len(w), 0) if dtype is not None: assert_equal(X_checked.dtype, dtype) else: assert_equal(X_checked.dtype, X.dtype) if X.format in accept_sparse: # no change if allowed assert_equal(X.format, X_checked.format) else: # got converted assert_equal(X_checked.format, accept_sparse[0]) if copy: assert_false(X is X_checked) else: # doesn't copy if it was already good if (X.dtype == X_checked.dtype and X.format == X_checked.format): assert_true(X is X_checked) # other input formats # convert lists to arrays X_dense = check_array([[1, 2], [3, 4]]) assert_true(isinstance(X_dense, np.ndarray)) # raise on too deep lists assert_raises(ValueError, check_array, X_ndim.tolist()) check_array(X_ndim.tolist(), allow_nd=True) # doesn't raise # convert weird stuff to arrays X_no_array = NotAnArray(X_dense) result = check_array(X_no_array) assert_true(isinstance(result, np.ndarray))
def test_notanarray(): with pytest.warns(DeprecationWarning, match="removed in version 0.24"): NotAnArray([1, 2])
def test_check_array(): # accept_sparse == None # raise error on sparse inputs X = [[1, 2], [3, 4]] X_csr = sp.csr_matrix(X) assert_raises(TypeError, check_array, X_csr) # ensure_2d=False X_array = check_array([0, 1, 2], ensure_2d=False) assert_equal(X_array.ndim, 1) # ensure_2d=True with 1d array assert_raise_message(ValueError, 'Expected 2D array, got 1D array instead', check_array, [0, 1, 2], ensure_2d=True) # ensure_2d=True with scalar array assert_raise_message(ValueError, 'Expected 2D array, got scalar array instead', check_array, 10, ensure_2d=True) # don't allow ndim > 3 X_ndim = np.arange(8).reshape(2, 2, 2) assert_raises(ValueError, check_array, X_ndim) check_array(X_ndim, allow_nd=True) # doesn't raise # dtype and order enforcement. X_C = np.arange(4).reshape(2, 2).copy("C") X_F = X_C.copy("F") X_int = X_C.astype(np.int) X_float = X_C.astype(np.float) Xs = [X_C, X_F, X_int, X_float] dtypes = [np.int32, np.int, np.float, np.float32, None, np.bool, object] orders = ['C', 'F', None] copys = [True, False] for X, dtype, order, copy in product(Xs, dtypes, orders, copys): X_checked = check_array(X, dtype=dtype, order=order, copy=copy) if dtype is not None: assert_equal(X_checked.dtype, dtype) else: assert_equal(X_checked.dtype, X.dtype) if order == 'C': assert X_checked.flags['C_CONTIGUOUS'] assert not X_checked.flags['F_CONTIGUOUS'] elif order == 'F': assert X_checked.flags['F_CONTIGUOUS'] assert not X_checked.flags['C_CONTIGUOUS'] if copy: assert X is not X_checked else: # doesn't copy if it was already good if (X.dtype == X_checked.dtype and X_checked.flags['C_CONTIGUOUS'] == X.flags['C_CONTIGUOUS'] and X_checked.flags['F_CONTIGUOUS'] == X.flags['F_CONTIGUOUS']): assert X is X_checked # allowed sparse != None X_csc = sp.csc_matrix(X_C) X_coo = X_csc.tocoo() X_dok = X_csc.todok() X_int = X_csc.astype(np.int) X_float = X_csc.astype(np.float) Xs = [X_csc, X_coo, X_dok, X_int, X_float] accept_sparses = [['csr', 'coo'], ['coo', 'dok']] for X, dtype, accept_sparse, copy in product(Xs, dtypes, accept_sparses, copys): with warnings.catch_warnings(record=True) as w: X_checked = check_array(X, dtype=dtype, accept_sparse=accept_sparse, copy=copy) if (dtype is object or sp.isspmatrix_dok(X)) and len(w): message = str(w[0].message) messages = [ "object dtype is not supported by sparse matrices", "Can't check dok sparse matrix for nan or inf." ] assert message in messages else: assert_equal(len(w), 0) if dtype is not None: assert_equal(X_checked.dtype, dtype) else: assert_equal(X_checked.dtype, X.dtype) if X.format in accept_sparse: # no change if allowed assert_equal(X.format, X_checked.format) else: # got converted assert_equal(X_checked.format, accept_sparse[0]) if copy: assert X is not X_checked else: # doesn't copy if it was already good if X.dtype == X_checked.dtype and X.format == X_checked.format: assert X is X_checked # other input formats # convert lists to arrays X_dense = check_array([[1, 2], [3, 4]]) assert isinstance(X_dense, np.ndarray) # raise on too deep lists assert_raises(ValueError, check_array, X_ndim.tolist()) check_array(X_ndim.tolist(), allow_nd=True) # doesn't raise # convert weird stuff to arrays X_no_array = NotAnArray(X_dense) result = check_array(X_no_array) assert isinstance(result, np.ndarray) # deprecation warning if string-like array with dtype="numeric" expected_warn_regex = r"converted to decimal numbers if dtype='numeric'" X_str = [['11', '12'], ['13', 'xx']] for X in [X_str, np.array(X_str, dtype='U'), np.array(X_str, dtype='S')]: with pytest.warns(FutureWarning, match=expected_warn_regex): check_array(X, dtype="numeric") # deprecation warning if byte-like array with dtype="numeric" X_bytes = [[b'a', b'b'], [b'c', b'd']] for X in [X_bytes, np.array(X_bytes, dtype='V1')]: with pytest.warns(FutureWarning, match=expected_warn_regex): check_array(X, dtype="numeric")
def test_check_array(setup): # accept_sparse == False # raise error on sparse inputs X = [[1, 2], [3, 4]] X_csr = sp.csr_matrix(X) with pytest.raises(TypeError): check_array(X_csr) X_csr = mt.tensor(sp.csr_matrix(X)) with pytest.raises(TypeError): check_array(X_csr) # ensure_2d=False X_array = check_array([0, 1, 2], ensure_2d=False) assert X_array.ndim == 1 # ensure_2d=True with 1d array assert_raise_message(ValueError, 'Expected 2D array, got 1D array instead', check_array, [0, 1, 2], ensure_2d=True) assert_raise_message(ValueError, 'Expected 2D array, got 1D array instead', check_array, mt.tensor([0, 1, 2]), ensure_2d=True) # ensure_2d=True with scalar array assert_raise_message(ValueError, 'Expected 2D array, got scalar array instead', check_array, 10, ensure_2d=True) # don't allow ndim > 3 X_ndim = mt.arange(8).reshape(2, 2, 2) with pytest.raises(ValueError): check_array(X_ndim) check_array(X_ndim, allow_nd=True) # doesn't raise # dtype and order enforcement. X_C = mt.arange(4).reshape(2, 2).copy("C") X_F = X_C.copy("F") X_int = X_C.astype(mt.int) X_float = X_C.astype(mt.float) Xs = [X_C, X_F, X_int, X_float] dtypes = [mt.int32, mt.int, mt.float, mt.float32, None, mt.bool, object] orders = ['C', 'F', None] copys = [True, False] for X, dtype, order, copy in product(Xs, dtypes, orders, copys): X_checked = check_array(X, dtype=dtype, order=order, copy=copy, force_all_finite=False) if dtype is not None: assert X_checked.dtype == dtype else: assert X_checked.dtype == X.dtype if order == 'C': assert X_checked.flags['C_CONTIGUOUS'] assert not X_checked.flags['F_CONTIGUOUS'] elif order == 'F': assert X_checked.flags['F_CONTIGUOUS'] assert not X_checked.flags['C_CONTIGUOUS'] if copy: assert X is not X_checked else: # doesn't copy if it was already good if (X.dtype == X_checked.dtype and X_checked.flags['C_CONTIGUOUS'] == X.flags['C_CONTIGUOUS'] and X_checked.flags['F_CONTIGUOUS'] == X.flags['F_CONTIGUOUS']): assert X is X_checked # other input formats # convert lists to arrays X_dense = check_array([[1, 2], [3, 4]]) assert isinstance(X_dense, Tensor) # raise on too deep lists with pytest.raises(ValueError): check_array(X_ndim.to_numpy().tolist()) check_array(X_ndim.to_numpy().tolist(), allow_nd=True) # doesn't raise # convert weird stuff to arrays X_no_array = NotAnArray(X_dense.to_numpy()) result = check_array(X_no_array) assert isinstance(result, Tensor) # deprecation warning if string-like array with dtype="numeric" expected_warn_regex = r"converted to decimal numbers if dtype='numeric'" X_str = [['11', '12'], ['13', 'xx']] for X in [X_str, mt.array(X_str, dtype='U'), mt.array(X_str, dtype='S')]: with pytest.warns(FutureWarning, match=expected_warn_regex): check_array(X, dtype="numeric") # deprecation warning if byte-like array with dtype="numeric" X_bytes = [[b'a', b'b'], [b'c', b'd']] for X in [X_bytes, mt.array(X_bytes, dtype='V1')]: with pytest.warns(FutureWarning, match=expected_warn_regex): check_array(X, dtype="numeric") # test finite X = [[1.0, np.nan], [2.0, 3.0]] with pytest.raises(ValueError): _ = check_array(X).execute()