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import inspect import sys import pytest import numpy as np from numpy.core import arange from numpy.testing import assert_, assert_equal, assert_raises_regex from numpy.lib import deprecate, deprecate_with_doc import numpy.lib.utils as utils from io import StringIO @pytest.mark.skipif(sys.flags.optimize == 2, reason="Python running -OO") @pytest.mark.skipif( sys.version_info == (3, 10, 0, "candidate", 1), reason="Broken as of bpo-44524", ) def test_lookfor(): out = StringIO() utils.lookfor('eigenvalue', module='numpy', output=out, import_modules=False) out = out.getvalue() assert_('numpy.linalg.eig' in out) @deprecate def old_func(self, x): return x @deprecate(message="Rather use new_func2") def old_func2(self, x): return x def old_func3(self, x): return x new_func3 = deprecate(old_func3, old_name="old_func3", new_name="new_func3") def old_func4(self, x): """Summary. Further info. """ return x new_func4 = deprecate(old_func4) def old_func5(self, x): """Summary. Bizarre indentation. """ return x new_func5 = deprecate(old_func5, message="This function is\ndeprecated.") def old_func6(self, x): """ Also in PEP-257. """ return x new_func6 = deprecate(old_func6) @deprecate_with_doc(msg="Rather use new_func7") def old_func7(self,x): return x def test_deprecate_decorator(): assert_('deprecated' in old_func.__doc__) def test_deprecate_decorator_message(): assert_('Rather use new_func2' in old_func2.__doc__) def test_deprecate_fn(): assert_('old_func3' in new_func3.__doc__) assert_('new_func3' in new_func3.__doc__) def test_deprecate_with_doc_decorator_message(): assert_('Rather use new_func7' in old_func7.__doc__) @pytest.mark.skipif(sys.flags.optimize == 2, reason="-OO discards docstrings") @pytest.mark.parametrize('old_func, new_func', [ (old_func4, new_func4), (old_func5, new_func5), (old_func6, new_func6), ]) def test_deprecate_help_indentation(old_func, new_func): _compare_docs(old_func, new_func) # Ensure we don't mess up the indentation for knd, func in (('old', old_func), ('new', new_func)): for li, line in enumerate(func.__doc__.split('\n')): if li == 0: assert line.startswith(' ') or not line.startswith(' '), knd elif line: assert line.startswith(' '), knd def _compare_docs(old_func, new_func): old_doc = inspect.getdoc(old_func) new_doc = inspect.getdoc(new_func) index = new_doc.index('\n\n') + 2 assert_equal(new_doc[index:], old_doc) @pytest.mark.skipif(sys.flags.optimize == 2, reason="-OO discards docstrings") def test_deprecate_preserve_whitespace(): assert_('\n Bizarre' in new_func5.__doc__) def test_deprecate_module(): assert_(old_func.__module__ == __name__) def test_safe_eval_nameconstant(): # Test if safe_eval supports Python 3.4 _ast.NameConstant utils.safe_eval('None') class TestByteBounds: def test_byte_bounds(self): # pointer difference matches size * itemsize # due to contiguity a = arange(12).reshape(3, 4) low, high = utils.byte_bounds(a) assert_equal(high - low, a.size * a.itemsize) def test_unusual_order_positive_stride(self): a = arange(12).reshape(3, 4) b = a.T low, high = utils.byte_bounds(b) assert_equal(high - low, b.size * b.itemsize) def test_unusual_order_negative_stride(self): a = arange(12).reshape(3, 4) b = a.T[::-1] low, high = utils.byte_bounds(b) assert_equal(high - low, b.size * b.itemsize) def test_strided(self): a = arange(12) b = a[::2] low, high = utils.byte_bounds(b) # the largest pointer address is lost (even numbers only in the # stride), and compensate addresses for striding by 2 assert_equal(high - low, b.size * 2 * b.itemsize - b.itemsize) def test_assert_raises_regex_context_manager(): with assert_raises_regex(ValueError, 'no deprecation warning'): raise ValueError('no deprecation warning') def test_info_method_heading(): # info(class) should only print "Methods:" heading if methods exist class NoPublicMethods: pass class WithPublicMethods: def first_method(): pass def _has_method_heading(cls): out = StringIO() utils.info(cls, output=out) return 'Methods:' in out.getvalue() assert _has_method_heading(WithPublicMethods) assert not _has_method_heading(NoPublicMethods) def test_drop_metadata(): def _compare_dtypes(dt1, dt2): return np.can_cast(dt1, dt2, casting='no') # structured dtype dt = np.dtype([('l1', [('l2', np.dtype('S8', metadata={'msg': 'toto'}))])], metadata={'msg': 'titi'}) dt_m = utils.drop_metadata(dt) assert _compare_dtypes(dt, dt_m) is True assert dt_m.metadata is None assert dt_m['l1'].metadata is None assert dt_m['l1']['l2'].metadata is None # alignement dt = np.dtype([('x', '<f8'), ('y', '<i4')], align=True, metadata={'msg': 'toto'}) dt_m = utils.drop_metadata(dt) assert _compare_dtypes(dt, dt_m) is True assert dt_m.metadata is None # subdtype dt = np.dtype('8f', metadata={'msg': 'toto'}) dt_m = utils.drop_metadata(dt) assert _compare_dtypes(dt, dt_m) is True assert dt_m.metadata is None # scalar dt = np.dtype('uint32', metadata={'msg': 'toto'}) dt_m = utils.drop_metadata(dt) assert _compare_dtypes(dt, dt_m) is True assert dt_m.metadata is None @pytest.mark.parametrize("dtype", [np.dtype("i,i,i,i")[["f1", "f3"]], np.dtype("f8"), np.dtype("10i")]) def test_drop_metadata_identity_and_copy(dtype): # If there is no metadata, the identity is preserved: assert utils.drop_metadata(dtype) is dtype # If there is any, it is dropped (subforms are checked above) dtype = np.dtype(dtype, metadata={1: 2}) assert utils.drop_metadata(dtype).metadata is None