""" Test scalar buffer interface adheres to PEP 3118 """ import numpy as np from numpy.core._rational_tests import rational from numpy.core._multiarray_tests import get_buffer_info import pytest from numpy.testing import assert_, assert_equal, assert_raises # PEP3118 format strings for native (standard alignment and byteorder) types scalars_and_codes = [ (np.bool_, '?'), (np.byte, 'b'), (np.short, 'h'), (np.intc, 'i'), (np.int_, 'l'), (np.longlong, 'q'), (np.ubyte, 'B'), (np.ushort, 'H'), (np.uintc, 'I'), (np.uint, 'L'), (np.ulonglong, 'Q'), (np.half, 'e'), (np.single, 'f'), (np.double, 'd'), (np.longdouble, 'g'), (np.csingle, 'Zf'), (np.cdouble, 'Zd'), (np.clongdouble, 'Zg'), ] scalars_only, codes_only = zip(*scalars_and_codes) class TestScalarPEP3118: @pytest.mark.parametrize('scalar', scalars_only, ids=codes_only) def test_scalar_match_array(self, scalar): x = scalar() a = np.array([], dtype=np.dtype(scalar)) mv_x = memoryview(x) mv_a = memoryview(a) assert_equal(mv_x.format, mv_a.format) @pytest.mark.parametrize('scalar', scalars_only, ids=codes_only) def test_scalar_dim(self, scalar): x = scalar() mv_x = memoryview(x) assert_equal(mv_x.itemsize, np.dtype(scalar).itemsize) assert_equal(mv_x.ndim, 0) assert_equal(mv_x.shape, ()) assert_equal(mv_x.strides, ()) assert_equal(mv_x.suboffsets, ()) @pytest.mark.parametrize('scalar, code', scalars_and_codes, ids=codes_only) def test_scalar_code_and_properties(self, scalar, code): x = scalar() expected = dict(strides=(), itemsize=x.dtype.itemsize, ndim=0, shape=(), format=code, readonly=True) mv_x = memoryview(x) assert self._as_dict(mv_x) == expected @pytest.mark.parametrize('scalar', scalars_only, ids=codes_only) def test_scalar_buffers_readonly(self, scalar): x = scalar() with pytest.raises(BufferError, match="scalar buffer is readonly"): get_buffer_info(x, ["WRITABLE"]) def test_void_scalar_structured_data(self): dt = np.dtype([('name', np.str_, 16), ('grades', np.float64, (2,))]) x = np.array(('ndarray_scalar', (1.2, 3.0)), dtype=dt)[()] assert_(isinstance(x, np.void)) mv_x = memoryview(x) expected_size = 16 * np.dtype((np.str_, 1)).itemsize expected_size += 2 * np.dtype(np.float64).itemsize assert_equal(mv_x.itemsize, expected_size) assert_equal(mv_x.ndim, 0) assert_equal(mv_x.shape, ()) assert_equal(mv_x.strides, ()) assert_equal(mv_x.suboffsets, ()) # check scalar format string against ndarray format string a = np.array([('Sarah', (8.0, 7.0)), ('John', (6.0, 7.0))], dtype=dt) assert_(isinstance(a, np.ndarray)) mv_a = memoryview(a) assert_equal(mv_x.itemsize, mv_a.itemsize) assert_equal(mv_x.format, mv_a.format) # Check that we do not allow writeable buffer export (technically # we could allow it sometimes here...) with pytest.raises(BufferError, match="scalar buffer is readonly"): get_buffer_info(x, ["WRITABLE"]) def _as_dict(self, m): return dict(strides=m.strides, shape=m.shape, itemsize=m.itemsize, ndim=m.ndim, format=m.format, readonly=m.readonly) def test_datetime_memoryview(self): # gh-11656 # Values verified with v1.13.3, shape is not () as in test_scalar_dim dt1 = np.datetime64('2016-01-01') dt2 = np.datetime64('2017-01-01') expected = dict(strides=(1,), itemsize=1, ndim=1, shape=(8,), format='B', readonly=True) v = memoryview(dt1) assert self._as_dict(v) == expected v = memoryview(dt2 - dt1) assert self._as_dict(v) == expected dt = np.dtype([('a', 'uint16'), ('b', 'M8[s]')]) a = np.empty(1, dt) # Fails to create a PEP 3118 valid buffer assert_raises((ValueError, BufferError), memoryview, a[0]) # Check that we do not allow writeable buffer export with pytest.raises(BufferError, match="scalar buffer is readonly"): get_buffer_info(dt1, ["WRITABLE"]) @pytest.mark.parametrize('s', [ pytest.param("\x32\x32", id="ascii"), pytest.param("\uFE0F\uFE0F", id="basic multilingual"), pytest.param("\U0001f4bb\U0001f4bb", id="non-BMP"), ]) def test_str_ucs4(self, s): s = np.str_(s) # only our subclass implements the buffer protocol # all the same, characters always encode as ucs4 expected = dict(strides=(), itemsize=8, ndim=0, shape=(), format='2w', readonly=True) v = memoryview(s) assert self._as_dict(v) == expected # integers of the paltform-appropriate endianness code_points = np.frombuffer(v, dtype='i4') assert_equal(code_points, [ord(c) for c in s]) # Check that we do not allow writeable buffer export with pytest.raises(BufferError, match="scalar buffer is readonly"): get_buffer_info(s, ["WRITABLE"]) def test_user_scalar_fails_buffer(self): r = rational(1) with assert_raises(TypeError): memoryview(r) # Check that we do not allow writeable buffer export with pytest.raises(BufferError, match="scalar buffer is readonly"): get_buffer_info(r, ["WRITABLE"])