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diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/data/win64python2.npy b/wemm/lib/python3.10/site-packages/numpy/lib/tests/data/win64python2.npy new file mode 100644 index 0000000000000000000000000000000000000000..46edfc4d6869ed05b8438bc5bfa5d77d9ec3e9ba --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/data/win64python2.npy @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:6a039c807558149ad5fa7ad12436c69d49c5e194cf617b92785f8cb60ec63297 +size 96 diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test__iotools.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test__iotools.py new file mode 100644 index 0000000000000000000000000000000000000000..a5b78702525e279ac81f5027523792bff2eb8677 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test__iotools.py @@ -0,0 +1,353 @@ +import time +from datetime import date + +import numpy as np +from numpy.testing import ( + assert_, assert_equal, assert_allclose, assert_raises, + ) +from numpy.lib._iotools import ( + LineSplitter, NameValidator, StringConverter, + has_nested_fields, easy_dtype, flatten_dtype + ) + + +class TestLineSplitter: + "Tests the LineSplitter class." + + def test_no_delimiter(self): + "Test LineSplitter w/o delimiter" + strg = " 1 2 3 4 5 # test" + test = LineSplitter()(strg) + assert_equal(test, ['1', '2', '3', '4', '5']) + test = LineSplitter('')(strg) + assert_equal(test, ['1', '2', '3', '4', '5']) + + def test_space_delimiter(self): + "Test space delimiter" + strg = " 1 2 3 4 5 # test" + test = LineSplitter(' ')(strg) + assert_equal(test, ['1', '2', '3', '4', '', '5']) + test = LineSplitter(' ')(strg) + assert_equal(test, ['1 2 3 4', '5']) + + def test_tab_delimiter(self): + "Test tab delimiter" + strg = " 1\t 2\t 3\t 4\t 5 6" + test = LineSplitter('\t')(strg) + assert_equal(test, ['1', '2', '3', '4', '5 6']) + strg = " 1 2\t 3 4\t 5 6" + test = LineSplitter('\t')(strg) + assert_equal(test, ['1 2', '3 4', '5 6']) + + def test_other_delimiter(self): + "Test LineSplitter on delimiter" + strg = "1,2,3,4,,5" + test = LineSplitter(',')(strg) + assert_equal(test, ['1', '2', '3', '4', '', '5']) + # + strg = " 1,2,3,4,,5 # test" + test = LineSplitter(',')(strg) + assert_equal(test, ['1', '2', '3', '4', '', '5']) + + # gh-11028 bytes comment/delimiters should get encoded + strg = b" 1,2,3,4,,5 % test" + test = LineSplitter(delimiter=b',', comments=b'%')(strg) + assert_equal(test, ['1', '2', '3', '4', '', '5']) + + def test_constant_fixed_width(self): + "Test LineSplitter w/ fixed-width fields" + strg = " 1 2 3 4 5 # test" + test = LineSplitter(3)(strg) + assert_equal(test, ['1', '2', '3', '4', '', '5', '']) + # + strg = " 1 3 4 5 6# test" + test = LineSplitter(20)(strg) + assert_equal(test, ['1 3 4 5 6']) + # + strg = " 1 3 4 5 6# test" + test = LineSplitter(30)(strg) + assert_equal(test, ['1 3 4 5 6']) + + def test_variable_fixed_width(self): + strg = " 1 3 4 5 6# test" + test = LineSplitter((3, 6, 6, 3))(strg) + assert_equal(test, ['1', '3', '4 5', '6']) + # + strg = " 1 3 4 5 6# test" + test = LineSplitter((6, 6, 9))(strg) + assert_equal(test, ['1', '3 4', '5 6']) + +# ----------------------------------------------------------------------------- + + +class TestNameValidator: + + def test_case_sensitivity(self): + "Test case sensitivity" + names = ['A', 'a', 'b', 'c'] + test = NameValidator().validate(names) + assert_equal(test, ['A', 'a', 'b', 'c']) + test = NameValidator(case_sensitive=False).validate(names) + assert_equal(test, ['A', 'A_1', 'B', 'C']) + test = NameValidator(case_sensitive='upper').validate(names) + assert_equal(test, ['A', 'A_1', 'B', 'C']) + test = NameValidator(case_sensitive='lower').validate(names) + assert_equal(test, ['a', 'a_1', 'b', 'c']) + + # check exceptions + assert_raises(ValueError, NameValidator, case_sensitive='foobar') + + def test_excludelist(self): + "Test excludelist" + names = ['dates', 'data', 'Other Data', 'mask'] + validator = NameValidator(excludelist=['dates', 'data', 'mask']) + test = validator.validate(names) + assert_equal(test, ['dates_', 'data_', 'Other_Data', 'mask_']) + + def test_missing_names(self): + "Test validate missing names" + namelist = ('a', 'b', 'c') + validator = NameValidator() + assert_equal(validator(namelist), ['a', 'b', 'c']) + namelist = ('', 'b', 'c') + assert_equal(validator(namelist), ['f0', 'b', 'c']) + namelist = ('a', 'b', '') + assert_equal(validator(namelist), ['a', 'b', 'f0']) + namelist = ('', 'f0', '') + assert_equal(validator(namelist), ['f1', 'f0', 'f2']) + + def test_validate_nb_names(self): + "Test validate nb names" + namelist = ('a', 'b', 'c') + validator = NameValidator() + assert_equal(validator(namelist, nbfields=1), ('a',)) + assert_equal(validator(namelist, nbfields=5, defaultfmt="g%i"), + ['a', 'b', 'c', 'g0', 'g1']) + + def test_validate_wo_names(self): + "Test validate no names" + namelist = None + validator = NameValidator() + assert_(validator(namelist) is None) + assert_equal(validator(namelist, nbfields=3), ['f0', 'f1', 'f2']) + +# ----------------------------------------------------------------------------- + + +def _bytes_to_date(s): + return date(*time.strptime(s, "%Y-%m-%d")[:3]) + + +class TestStringConverter: + "Test StringConverter" + + def test_creation(self): + "Test creation of a StringConverter" + converter = StringConverter(int, -99999) + assert_equal(converter._status, 1) + assert_equal(converter.default, -99999) + + def test_upgrade(self): + "Tests the upgrade method." + + converter = StringConverter() + assert_equal(converter._status, 0) + + # test int + assert_equal(converter.upgrade('0'), 0) + assert_equal(converter._status, 1) + + # On systems where long defaults to 32-bit, the statuses will be + # offset by one, so we check for this here. + import numpy.core.numeric as nx + status_offset = int(nx.dtype(nx.int_).itemsize < nx.dtype(nx.int64).itemsize) + + # test int > 2**32 + assert_equal(converter.upgrade('17179869184'), 17179869184) + assert_equal(converter._status, 1 + status_offset) + + # test float + assert_allclose(converter.upgrade('0.'), 0.0) + assert_equal(converter._status, 2 + status_offset) + + # test complex + assert_equal(converter.upgrade('0j'), complex('0j')) + assert_equal(converter._status, 3 + status_offset) + + # test str + # note that the longdouble type has been skipped, so the + # _status increases by 2. Everything should succeed with + # unicode conversion (8). + for s in ['a', b'a']: + res = converter.upgrade(s) + assert_(type(res) is str) + assert_equal(res, 'a') + assert_equal(converter._status, 8 + status_offset) + + def test_missing(self): + "Tests the use of missing values." + converter = StringConverter(missing_values=('missing', + 'missed')) + converter.upgrade('0') + assert_equal(converter('0'), 0) + assert_equal(converter(''), converter.default) + assert_equal(converter('missing'), converter.default) + assert_equal(converter('missed'), converter.default) + try: + converter('miss') + except ValueError: + pass + + def test_upgrademapper(self): + "Tests updatemapper" + dateparser = _bytes_to_date + _original_mapper = StringConverter._mapper[:] + try: + StringConverter.upgrade_mapper(dateparser, date(2000, 1, 1)) + convert = StringConverter(dateparser, date(2000, 1, 1)) + test = convert('2001-01-01') + assert_equal(test, date(2001, 1, 1)) + test = convert('2009-01-01') + assert_equal(test, date(2009, 1, 1)) + test = convert('') + assert_equal(test, date(2000, 1, 1)) + finally: + StringConverter._mapper = _original_mapper + + def test_string_to_object(self): + "Make sure that string-to-object functions are properly recognized" + old_mapper = StringConverter._mapper[:] # copy of list + conv = StringConverter(_bytes_to_date) + assert_equal(conv._mapper, old_mapper) + assert_(hasattr(conv, 'default')) + + def test_keep_default(self): + "Make sure we don't lose an explicit default" + converter = StringConverter(None, missing_values='', + default=-999) + converter.upgrade('3.14159265') + assert_equal(converter.default, -999) + assert_equal(converter.type, np.dtype(float)) + # + converter = StringConverter( + None, missing_values='', default=0) + converter.upgrade('3.14159265') + assert_equal(converter.default, 0) + assert_equal(converter.type, np.dtype(float)) + + def test_keep_default_zero(self): + "Check that we don't lose a default of 0" + converter = StringConverter(int, default=0, + missing_values="N/A") + assert_equal(converter.default, 0) + + def test_keep_missing_values(self): + "Check that we're not losing missing values" + converter = StringConverter(int, default=0, + missing_values="N/A") + assert_equal( + converter.missing_values, {'', 'N/A'}) + + def test_int64_dtype(self): + "Check that int64 integer types can be specified" + converter = StringConverter(np.int64, default=0) + val = "-9223372036854775807" + assert_(converter(val) == -9223372036854775807) + val = "9223372036854775807" + assert_(converter(val) == 9223372036854775807) + + def test_uint64_dtype(self): + "Check that uint64 integer types can be specified" + converter = StringConverter(np.uint64, default=0) + val = "9223372043271415339" + assert_(converter(val) == 9223372043271415339) + + +class TestMiscFunctions: + + def test_has_nested_dtype(self): + "Test has_nested_dtype" + ndtype = np.dtype(float) + assert_equal(has_nested_fields(ndtype), False) + ndtype = np.dtype([('A', '|S3'), ('B', float)]) + assert_equal(has_nested_fields(ndtype), False) + ndtype = np.dtype([('A', int), ('B', [('BA', float), ('BB', '|S1')])]) + assert_equal(has_nested_fields(ndtype), True) + + def test_easy_dtype(self): + "Test ndtype on dtypes" + # Simple case + ndtype = float + assert_equal(easy_dtype(ndtype), np.dtype(float)) + # As string w/o names + ndtype = "i4, f8" + assert_equal(easy_dtype(ndtype), + np.dtype([('f0', "i4"), ('f1', "f8")])) + # As string w/o names but different default format + assert_equal(easy_dtype(ndtype, defaultfmt="field_%03i"), + np.dtype([('field_000', "i4"), ('field_001', "f8")])) + # As string w/ names + ndtype = "i4, f8" + assert_equal(easy_dtype(ndtype, names="a, b"), + np.dtype([('a', "i4"), ('b', "f8")])) + # As string w/ names (too many) + ndtype = "i4, f8" + assert_equal(easy_dtype(ndtype, names="a, b, c"), + np.dtype([('a', "i4"), ('b', "f8")])) + # As string w/ names (not enough) + ndtype = "i4, f8" + assert_equal(easy_dtype(ndtype, names=", b"), + np.dtype([('f0', "i4"), ('b', "f8")])) + # ... (with different default format) + assert_equal(easy_dtype(ndtype, names="a", defaultfmt="f%02i"), + np.dtype([('a', "i4"), ('f00', "f8")])) + # As list of tuples w/o names + ndtype = [('A', int), ('B', float)] + assert_equal(easy_dtype(ndtype), np.dtype([('A', int), ('B', float)])) + # As list of tuples w/ names + assert_equal(easy_dtype(ndtype, names="a,b"), + np.dtype([('a', int), ('b', float)])) + # As list of tuples w/ not enough names + assert_equal(easy_dtype(ndtype, names="a"), + np.dtype([('a', int), ('f0', float)])) + # As list of tuples w/ too many names + assert_equal(easy_dtype(ndtype, names="a,b,c"), + np.dtype([('a', int), ('b', float)])) + # As list of types w/o names + ndtype = (int, float, float) + assert_equal(easy_dtype(ndtype), + np.dtype([('f0', int), ('f1', float), ('f2', float)])) + # As list of types w names + ndtype = (int, float, float) + assert_equal(easy_dtype(ndtype, names="a, b, c"), + np.dtype([('a', int), ('b', float), ('c', float)])) + # As simple dtype w/ names + ndtype = np.dtype(float) + assert_equal(easy_dtype(ndtype, names="a, b, c"), + np.dtype([(_, float) for _ in ('a', 'b', 'c')])) + # As simple dtype w/o names (but multiple fields) + ndtype = np.dtype(float) + assert_equal( + easy_dtype(ndtype, names=['', '', ''], defaultfmt="f%02i"), + np.dtype([(_, float) for _ in ('f00', 'f01', 'f02')])) + + def test_flatten_dtype(self): + "Testing flatten_dtype" + # Standard dtype + dt = np.dtype([("a", "f8"), ("b", "f8")]) + dt_flat = flatten_dtype(dt) + assert_equal(dt_flat, [float, float]) + # Recursive dtype + dt = np.dtype([("a", [("aa", '|S1'), ("ab", '|S2')]), ("b", int)]) + dt_flat = flatten_dtype(dt) + assert_equal(dt_flat, [np.dtype('|S1'), np.dtype('|S2'), int]) + # dtype with shaped fields + dt = np.dtype([("a", (float, 2)), ("b", (int, 3))]) + dt_flat = flatten_dtype(dt) + assert_equal(dt_flat, [float, int]) + dt_flat = flatten_dtype(dt, True) + assert_equal(dt_flat, [float] * 2 + [int] * 3) + # dtype w/ titles + dt = np.dtype([(("a", "A"), "f8"), (("b", "B"), "f8")]) + dt_flat = flatten_dtype(dt) + assert_equal(dt_flat, [float, float]) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_arraypad.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_arraypad.py new file mode 100644 index 0000000000000000000000000000000000000000..ca3c35335a386779e766f4f5eb4db9c543af2f86 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_arraypad.py @@ -0,0 +1,1364 @@ +"""Tests for the array padding functions. + +""" +import pytest + +import numpy as np +from numpy.testing import assert_array_equal, assert_allclose, assert_equal +from numpy.lib.arraypad import _as_pairs + + +_numeric_dtypes = ( + np.sctypes["uint"] + + np.sctypes["int"] + + np.sctypes["float"] + + np.sctypes["complex"] +) +_all_modes = { + 'constant': {'constant_values': 0}, + 'edge': {}, + 'linear_ramp': {'end_values': 0}, + 'maximum': {'stat_length': None}, + 'mean': {'stat_length': None}, + 'median': {'stat_length': None}, + 'minimum': {'stat_length': None}, + 'reflect': {'reflect_type': 'even'}, + 'symmetric': {'reflect_type': 'even'}, + 'wrap': {}, + 'empty': {} +} + + +class TestAsPairs: + def test_single_value(self): + """Test casting for a single value.""" + expected = np.array([[3, 3]] * 10) + for x in (3, [3], [[3]]): + result = _as_pairs(x, 10) + assert_equal(result, expected) + # Test with dtype=object + obj = object() + assert_equal( + _as_pairs(obj, 10), + np.array([[obj, obj]] * 10) + ) + + def test_two_values(self): + """Test proper casting for two different values.""" + # Broadcasting in the first dimension with numbers + expected = np.array([[3, 4]] * 10) + for x in ([3, 4], [[3, 4]]): + result = _as_pairs(x, 10) + assert_equal(result, expected) + # and with dtype=object + obj = object() + assert_equal( + _as_pairs(["a", obj], 10), + np.array([["a", obj]] * 10) + ) + + # Broadcasting in the second / last dimension with numbers + assert_equal( + _as_pairs([[3], [4]], 2), + np.array([[3, 3], [4, 4]]) + ) + # and with dtype=object + assert_equal( + _as_pairs([["a"], [obj]], 2), + np.array([["a", "a"], [obj, obj]]) + ) + + def test_with_none(self): + expected = ((None, None), (None, None), (None, None)) + assert_equal( + _as_pairs(None, 3, as_index=False), + expected + ) + assert_equal( + _as_pairs(None, 3, as_index=True), + expected + ) + + def test_pass_through(self): + """Test if `x` already matching desired output are passed through.""" + expected = np.arange(12).reshape((6, 2)) + assert_equal( + _as_pairs(expected, 6), + expected + ) + + def test_as_index(self): + """Test results if `as_index=True`.""" + assert_equal( + _as_pairs([2.6, 3.3], 10, as_index=True), + np.array([[3, 3]] * 10, dtype=np.intp) + ) + assert_equal( + _as_pairs([2.6, 4.49], 10, as_index=True), + np.array([[3, 4]] * 10, dtype=np.intp) + ) + for x in (-3, [-3], [[-3]], [-3, 4], [3, -4], [[-3, 4]], [[4, -3]], + [[1, 2]] * 9 + [[1, -2]]): + with pytest.raises(ValueError, match="negative values"): + _as_pairs(x, 10, as_index=True) + + def test_exceptions(self): + """Ensure faulty usage is discovered.""" + with pytest.raises(ValueError, match="more dimensions than allowed"): + _as_pairs([[[3]]], 10) + with pytest.raises(ValueError, match="could not be broadcast"): + _as_pairs([[1, 2], [3, 4]], 3) + with pytest.raises(ValueError, match="could not be broadcast"): + _as_pairs(np.ones((2, 3)), 3) + + +class TestConditionalShortcuts: + @pytest.mark.parametrize("mode", _all_modes.keys()) + def test_zero_padding_shortcuts(self, mode): + test = np.arange(120).reshape(4, 5, 6) + pad_amt = [(0, 0) for _ in test.shape] + assert_array_equal(test, np.pad(test, pad_amt, mode=mode)) + + @pytest.mark.parametrize("mode", ['maximum', 'mean', 'median', 'minimum',]) + def test_shallow_statistic_range(self, mode): + test = np.arange(120).reshape(4, 5, 6) + pad_amt = [(1, 1) for _ in test.shape] + assert_array_equal(np.pad(test, pad_amt, mode='edge'), + np.pad(test, pad_amt, mode=mode, stat_length=1)) + + @pytest.mark.parametrize("mode", ['maximum', 'mean', 'median', 'minimum',]) + def test_clip_statistic_range(self, mode): + test = np.arange(30).reshape(5, 6) + pad_amt = [(3, 3) for _ in test.shape] + assert_array_equal(np.pad(test, pad_amt, mode=mode), + np.pad(test, pad_amt, mode=mode, stat_length=30)) + + +class TestStatistic: + def test_check_mean_stat_length(self): + a = np.arange(100).astype('f') + a = np.pad(a, ((25, 20), ), 'mean', stat_length=((2, 3), )) + b = np.array( + [0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, + 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, 0.5, + 0.5, 0.5, 0.5, 0.5, 0.5, + + 0., 1., 2., 3., 4., 5., 6., 7., 8., 9., + 10., 11., 12., 13., 14., 15., 16., 17., 18., 19., + 20., 21., 22., 23., 24., 25., 26., 27., 28., 29., + 30., 31., 32., 33., 34., 35., 36., 37., 38., 39., + 40., 41., 42., 43., 44., 45., 46., 47., 48., 49., + 50., 51., 52., 53., 54., 55., 56., 57., 58., 59., + 60., 61., 62., 63., 64., 65., 66., 67., 68., 69., + 70., 71., 72., 73., 74., 75., 76., 77., 78., 79., + 80., 81., 82., 83., 84., 85., 86., 87., 88., 89., + 90., 91., 92., 93., 94., 95., 96., 97., 98., 99., + + 98., 98., 98., 98., 98., 98., 98., 98., 98., 98., + 98., 98., 98., 98., 98., 98., 98., 98., 98., 98. + ]) + assert_array_equal(a, b) + + def test_check_maximum_1(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'maximum') + b = np.array( + [99, 99, 99, 99, 99, 99, 99, 99, 99, 99, + 99, 99, 99, 99, 99, 99, 99, 99, 99, 99, + 99, 99, 99, 99, 99, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 99, 99, 99, 99, 99, 99, 99, 99, 99, 99, + 99, 99, 99, 99, 99, 99, 99, 99, 99, 99] + ) + assert_array_equal(a, b) + + def test_check_maximum_2(self): + a = np.arange(100) + 1 + a = np.pad(a, (25, 20), 'maximum') + b = np.array( + [100, 100, 100, 100, 100, 100, 100, 100, 100, 100, + 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, + 100, 100, 100, 100, 100, + + 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, + 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, + 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, + 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, + 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, + 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, + 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, + 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, + 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, + 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, + + 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, + 100, 100, 100, 100, 100, 100, 100, 100, 100, 100] + ) + assert_array_equal(a, b) + + def test_check_maximum_stat_length(self): + a = np.arange(100) + 1 + a = np.pad(a, (25, 20), 'maximum', stat_length=10) + b = np.array( + [10, 10, 10, 10, 10, 10, 10, 10, 10, 10, + 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, + 10, 10, 10, 10, 10, + + 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, + 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, + 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, + 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, + 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, + 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, + 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, + 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, + 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, + 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, + + 100, 100, 100, 100, 100, 100, 100, 100, 100, 100, + 100, 100, 100, 100, 100, 100, 100, 100, 100, 100] + ) + assert_array_equal(a, b) + + def test_check_minimum_1(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'minimum') + b = np.array( + [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] + ) + assert_array_equal(a, b) + + def test_check_minimum_2(self): + a = np.arange(100) + 2 + a = np.pad(a, (25, 20), 'minimum') + b = np.array( + [2, 2, 2, 2, 2, 2, 2, 2, 2, 2, + 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, + 2, 2, 2, 2, 2, + + 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, + 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, + 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, + 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, + 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, + 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, + 62, 63, 64, 65, 66, 67, 68, 69, 70, 71, + 72, 73, 74, 75, 76, 77, 78, 79, 80, 81, + 82, 83, 84, 85, 86, 87, 88, 89, 90, 91, + 92, 93, 94, 95, 96, 97, 98, 99, 100, 101, + + 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, + 2, 2, 2, 2, 2, 2, 2, 2, 2, 2] + ) + assert_array_equal(a, b) + + def test_check_minimum_stat_length(self): + a = np.arange(100) + 1 + a = np.pad(a, (25, 20), 'minimum', stat_length=10) + b = np.array( + [ 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, + + 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, + 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, + 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, + 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, + 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, + 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, + 61, 62, 63, 64, 65, 66, 67, 68, 69, 70, + 71, 72, 73, 74, 75, 76, 77, 78, 79, 80, + 81, 82, 83, 84, 85, 86, 87, 88, 89, 90, + 91, 92, 93, 94, 95, 96, 97, 98, 99, 100, + + 91, 91, 91, 91, 91, 91, 91, 91, 91, 91, + 91, 91, 91, 91, 91, 91, 91, 91, 91, 91] + ) + assert_array_equal(a, b) + + def test_check_median(self): + a = np.arange(100).astype('f') + a = np.pad(a, (25, 20), 'median') + b = np.array( + [49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, + 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, + 49.5, 49.5, 49.5, 49.5, 49.5, + + 0., 1., 2., 3., 4., 5., 6., 7., 8., 9., + 10., 11., 12., 13., 14., 15., 16., 17., 18., 19., + 20., 21., 22., 23., 24., 25., 26., 27., 28., 29., + 30., 31., 32., 33., 34., 35., 36., 37., 38., 39., + 40., 41., 42., 43., 44., 45., 46., 47., 48., 49., + 50., 51., 52., 53., 54., 55., 56., 57., 58., 59., + 60., 61., 62., 63., 64., 65., 66., 67., 68., 69., + 70., 71., 72., 73., 74., 75., 76., 77., 78., 79., + 80., 81., 82., 83., 84., 85., 86., 87., 88., 89., + 90., 91., 92., 93., 94., 95., 96., 97., 98., 99., + + 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, + 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5] + ) + assert_array_equal(a, b) + + def test_check_median_01(self): + a = np.array([[3, 1, 4], [4, 5, 9], [9, 8, 2]]) + a = np.pad(a, 1, 'median') + b = np.array( + [[4, 4, 5, 4, 4], + + [3, 3, 1, 4, 3], + [5, 4, 5, 9, 5], + [8, 9, 8, 2, 8], + + [4, 4, 5, 4, 4]] + ) + assert_array_equal(a, b) + + def test_check_median_02(self): + a = np.array([[3, 1, 4], [4, 5, 9], [9, 8, 2]]) + a = np.pad(a.T, 1, 'median').T + b = np.array( + [[5, 4, 5, 4, 5], + + [3, 3, 1, 4, 3], + [5, 4, 5, 9, 5], + [8, 9, 8, 2, 8], + + [5, 4, 5, 4, 5]] + ) + assert_array_equal(a, b) + + def test_check_median_stat_length(self): + a = np.arange(100).astype('f') + a[1] = 2. + a[97] = 96. + a = np.pad(a, (25, 20), 'median', stat_length=(3, 5)) + b = np.array( + [ 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., + 2., 2., 2., 2., 2., 2., 2., 2., 2., 2., + 2., 2., 2., 2., 2., + + 0., 2., 2., 3., 4., 5., 6., 7., 8., 9., + 10., 11., 12., 13., 14., 15., 16., 17., 18., 19., + 20., 21., 22., 23., 24., 25., 26., 27., 28., 29., + 30., 31., 32., 33., 34., 35., 36., 37., 38., 39., + 40., 41., 42., 43., 44., 45., 46., 47., 48., 49., + 50., 51., 52., 53., 54., 55., 56., 57., 58., 59., + 60., 61., 62., 63., 64., 65., 66., 67., 68., 69., + 70., 71., 72., 73., 74., 75., 76., 77., 78., 79., + 80., 81., 82., 83., 84., 85., 86., 87., 88., 89., + 90., 91., 92., 93., 94., 95., 96., 96., 98., 99., + + 96., 96., 96., 96., 96., 96., 96., 96., 96., 96., + 96., 96., 96., 96., 96., 96., 96., 96., 96., 96.] + ) + assert_array_equal(a, b) + + def test_check_mean_shape_one(self): + a = [[4, 5, 6]] + a = np.pad(a, (5, 7), 'mean', stat_length=2) + b = np.array( + [[4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6], + [4, 4, 4, 4, 4, 4, 5, 6, 6, 6, 6, 6, 6, 6, 6]] + ) + assert_array_equal(a, b) + + def test_check_mean_2(self): + a = np.arange(100).astype('f') + a = np.pad(a, (25, 20), 'mean') + b = np.array( + [49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, + 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, + 49.5, 49.5, 49.5, 49.5, 49.5, + + 0., 1., 2., 3., 4., 5., 6., 7., 8., 9., + 10., 11., 12., 13., 14., 15., 16., 17., 18., 19., + 20., 21., 22., 23., 24., 25., 26., 27., 28., 29., + 30., 31., 32., 33., 34., 35., 36., 37., 38., 39., + 40., 41., 42., 43., 44., 45., 46., 47., 48., 49., + 50., 51., 52., 53., 54., 55., 56., 57., 58., 59., + 60., 61., 62., 63., 64., 65., 66., 67., 68., 69., + 70., 71., 72., 73., 74., 75., 76., 77., 78., 79., + 80., 81., 82., 83., 84., 85., 86., 87., 88., 89., + 90., 91., 92., 93., 94., 95., 96., 97., 98., 99., + + 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, + 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5, 49.5] + ) + assert_array_equal(a, b) + + @pytest.mark.parametrize("mode", [ + "mean", + "median", + "minimum", + "maximum" + ]) + def test_same_prepend_append(self, mode): + """ Test that appended and prepended values are equal """ + # This test is constructed to trigger floating point rounding errors in + # a way that caused gh-11216 for mode=='mean' + a = np.array([-1, 2, -1]) + np.array([0, 1e-12, 0], dtype=np.float64) + a = np.pad(a, (1, 1), mode) + assert_equal(a[0], a[-1]) + + @pytest.mark.parametrize("mode", ["mean", "median", "minimum", "maximum"]) + @pytest.mark.parametrize( + "stat_length", [-2, (-2,), (3, -1), ((5, 2), (-2, 3)), ((-4,), (2,))] + ) + def test_check_negative_stat_length(self, mode, stat_length): + arr = np.arange(30).reshape((6, 5)) + match = "index can't contain negative values" + with pytest.raises(ValueError, match=match): + np.pad(arr, 2, mode, stat_length=stat_length) + + def test_simple_stat_length(self): + a = np.arange(30) + a = np.reshape(a, (6, 5)) + a = np.pad(a, ((2, 3), (3, 2)), mode='mean', stat_length=(3,)) + b = np.array( + [[6, 6, 6, 5, 6, 7, 8, 9, 8, 8], + [6, 6, 6, 5, 6, 7, 8, 9, 8, 8], + + [1, 1, 1, 0, 1, 2, 3, 4, 3, 3], + [6, 6, 6, 5, 6, 7, 8, 9, 8, 8], + [11, 11, 11, 10, 11, 12, 13, 14, 13, 13], + [16, 16, 16, 15, 16, 17, 18, 19, 18, 18], + [21, 21, 21, 20, 21, 22, 23, 24, 23, 23], + [26, 26, 26, 25, 26, 27, 28, 29, 28, 28], + + [21, 21, 21, 20, 21, 22, 23, 24, 23, 23], + [21, 21, 21, 20, 21, 22, 23, 24, 23, 23], + [21, 21, 21, 20, 21, 22, 23, 24, 23, 23]] + ) + assert_array_equal(a, b) + + @pytest.mark.filterwarnings("ignore:Mean of empty slice:RuntimeWarning") + @pytest.mark.filterwarnings( + "ignore:invalid value encountered in (divide|double_scalars):" + "RuntimeWarning" + ) + @pytest.mark.parametrize("mode", ["mean", "median"]) + def test_zero_stat_length_valid(self, mode): + arr = np.pad([1., 2.], (1, 2), mode, stat_length=0) + expected = np.array([np.nan, 1., 2., np.nan, np.nan]) + assert_equal(arr, expected) + + @pytest.mark.parametrize("mode", ["minimum", "maximum"]) + def test_zero_stat_length_invalid(self, mode): + match = "stat_length of 0 yields no value for padding" + with pytest.raises(ValueError, match=match): + np.pad([1., 2.], 0, mode, stat_length=0) + with pytest.raises(ValueError, match=match): + np.pad([1., 2.], 0, mode, stat_length=(1, 0)) + with pytest.raises(ValueError, match=match): + np.pad([1., 2.], 1, mode, stat_length=0) + with pytest.raises(ValueError, match=match): + np.pad([1., 2.], 1, mode, stat_length=(1, 0)) + + +class TestConstant: + def test_check_constant(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'constant', constant_values=(10, 20)) + b = np.array( + [10, 10, 10, 10, 10, 10, 10, 10, 10, 10, + 10, 10, 10, 10, 10, 10, 10, 10, 10, 10, + 10, 10, 10, 10, 10, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, + 20, 20, 20, 20, 20, 20, 20, 20, 20, 20] + ) + assert_array_equal(a, b) + + def test_check_constant_zeros(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'constant') + b = np.array( + [ 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0] + ) + assert_array_equal(a, b) + + def test_check_constant_float(self): + # If input array is int, but constant_values are float, the dtype of + # the array to be padded is kept + arr = np.arange(30).reshape(5, 6) + test = np.pad(arr, (1, 2), mode='constant', + constant_values=1.1) + expected = np.array( + [[ 1, 1, 1, 1, 1, 1, 1, 1, 1], + + [ 1, 0, 1, 2, 3, 4, 5, 1, 1], + [ 1, 6, 7, 8, 9, 10, 11, 1, 1], + [ 1, 12, 13, 14, 15, 16, 17, 1, 1], + [ 1, 18, 19, 20, 21, 22, 23, 1, 1], + [ 1, 24, 25, 26, 27, 28, 29, 1, 1], + + [ 1, 1, 1, 1, 1, 1, 1, 1, 1], + [ 1, 1, 1, 1, 1, 1, 1, 1, 1]] + ) + assert_allclose(test, expected) + + def test_check_constant_float2(self): + # If input array is float, and constant_values are float, the dtype of + # the array to be padded is kept - here retaining the float constants + arr = np.arange(30).reshape(5, 6) + arr_float = arr.astype(np.float64) + test = np.pad(arr_float, ((1, 2), (1, 2)), mode='constant', + constant_values=1.1) + expected = np.array( + [[ 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1], + + [ 1.1, 0. , 1. , 2. , 3. , 4. , 5. , 1.1, 1.1], + [ 1.1, 6. , 7. , 8. , 9. , 10. , 11. , 1.1, 1.1], + [ 1.1, 12. , 13. , 14. , 15. , 16. , 17. , 1.1, 1.1], + [ 1.1, 18. , 19. , 20. , 21. , 22. , 23. , 1.1, 1.1], + [ 1.1, 24. , 25. , 26. , 27. , 28. , 29. , 1.1, 1.1], + + [ 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1], + [ 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1, 1.1]] + ) + assert_allclose(test, expected) + + def test_check_constant_float3(self): + a = np.arange(100, dtype=float) + a = np.pad(a, (25, 20), 'constant', constant_values=(-1.1, -1.2)) + b = np.array( + [-1.1, -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, + -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, -1.1, + -1.1, -1.1, -1.1, -1.1, -1.1, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, + -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, -1.2, -1.2] + ) + assert_allclose(a, b) + + def test_check_constant_odd_pad_amount(self): + arr = np.arange(30).reshape(5, 6) + test = np.pad(arr, ((1,), (2,)), mode='constant', + constant_values=3) + expected = np.array( + [[ 3, 3, 3, 3, 3, 3, 3, 3, 3, 3], + + [ 3, 3, 0, 1, 2, 3, 4, 5, 3, 3], + [ 3, 3, 6, 7, 8, 9, 10, 11, 3, 3], + [ 3, 3, 12, 13, 14, 15, 16, 17, 3, 3], + [ 3, 3, 18, 19, 20, 21, 22, 23, 3, 3], + [ 3, 3, 24, 25, 26, 27, 28, 29, 3, 3], + + [ 3, 3, 3, 3, 3, 3, 3, 3, 3, 3]] + ) + assert_allclose(test, expected) + + def test_check_constant_pad_2d(self): + arr = np.arange(4).reshape(2, 2) + test = np.lib.pad(arr, ((1, 2), (1, 3)), mode='constant', + constant_values=((1, 2), (3, 4))) + expected = np.array( + [[3, 1, 1, 4, 4, 4], + [3, 0, 1, 4, 4, 4], + [3, 2, 3, 4, 4, 4], + [3, 2, 2, 4, 4, 4], + [3, 2, 2, 4, 4, 4]] + ) + assert_allclose(test, expected) + + def test_check_large_integers(self): + uint64_max = 2 ** 64 - 1 + arr = np.full(5, uint64_max, dtype=np.uint64) + test = np.pad(arr, 1, mode="constant", constant_values=arr.min()) + expected = np.full(7, uint64_max, dtype=np.uint64) + assert_array_equal(test, expected) + + int64_max = 2 ** 63 - 1 + arr = np.full(5, int64_max, dtype=np.int64) + test = np.pad(arr, 1, mode="constant", constant_values=arr.min()) + expected = np.full(7, int64_max, dtype=np.int64) + assert_array_equal(test, expected) + + def test_check_object_array(self): + arr = np.empty(1, dtype=object) + obj_a = object() + arr[0] = obj_a + obj_b = object() + obj_c = object() + arr = np.pad(arr, pad_width=1, mode='constant', + constant_values=(obj_b, obj_c)) + + expected = np.empty((3,), dtype=object) + expected[0] = obj_b + expected[1] = obj_a + expected[2] = obj_c + + assert_array_equal(arr, expected) + + def test_pad_empty_dimension(self): + arr = np.zeros((3, 0, 2)) + result = np.pad(arr, [(0,), (2,), (1,)], mode="constant") + assert result.shape == (3, 4, 4) + + +class TestLinearRamp: + def test_check_simple(self): + a = np.arange(100).astype('f') + a = np.pad(a, (25, 20), 'linear_ramp', end_values=(4, 5)) + b = np.array( + [4.00, 3.84, 3.68, 3.52, 3.36, 3.20, 3.04, 2.88, 2.72, 2.56, + 2.40, 2.24, 2.08, 1.92, 1.76, 1.60, 1.44, 1.28, 1.12, 0.96, + 0.80, 0.64, 0.48, 0.32, 0.16, + + 0.00, 1.00, 2.00, 3.00, 4.00, 5.00, 6.00, 7.00, 8.00, 9.00, + 10.0, 11.0, 12.0, 13.0, 14.0, 15.0, 16.0, 17.0, 18.0, 19.0, + 20.0, 21.0, 22.0, 23.0, 24.0, 25.0, 26.0, 27.0, 28.0, 29.0, + 30.0, 31.0, 32.0, 33.0, 34.0, 35.0, 36.0, 37.0, 38.0, 39.0, + 40.0, 41.0, 42.0, 43.0, 44.0, 45.0, 46.0, 47.0, 48.0, 49.0, + 50.0, 51.0, 52.0, 53.0, 54.0, 55.0, 56.0, 57.0, 58.0, 59.0, + 60.0, 61.0, 62.0, 63.0, 64.0, 65.0, 66.0, 67.0, 68.0, 69.0, + 70.0, 71.0, 72.0, 73.0, 74.0, 75.0, 76.0, 77.0, 78.0, 79.0, + 80.0, 81.0, 82.0, 83.0, 84.0, 85.0, 86.0, 87.0, 88.0, 89.0, + 90.0, 91.0, 92.0, 93.0, 94.0, 95.0, 96.0, 97.0, 98.0, 99.0, + + 94.3, 89.6, 84.9, 80.2, 75.5, 70.8, 66.1, 61.4, 56.7, 52.0, + 47.3, 42.6, 37.9, 33.2, 28.5, 23.8, 19.1, 14.4, 9.7, 5.] + ) + assert_allclose(a, b, rtol=1e-5, atol=1e-5) + + def test_check_2d(self): + arr = np.arange(20).reshape(4, 5).astype(np.float64) + test = np.pad(arr, (2, 2), mode='linear_ramp', end_values=(0, 0)) + expected = np.array( + [[0., 0., 0., 0., 0., 0., 0., 0., 0.], + [0., 0., 0., 0.5, 1., 1.5, 2., 1., 0.], + [0., 0., 0., 1., 2., 3., 4., 2., 0.], + [0., 2.5, 5., 6., 7., 8., 9., 4.5, 0.], + [0., 5., 10., 11., 12., 13., 14., 7., 0.], + [0., 7.5, 15., 16., 17., 18., 19., 9.5, 0.], + [0., 3.75, 7.5, 8., 8.5, 9., 9.5, 4.75, 0.], + [0., 0., 0., 0., 0., 0., 0., 0., 0.]]) + assert_allclose(test, expected) + + @pytest.mark.xfail(exceptions=(AssertionError,)) + def test_object_array(self): + from fractions import Fraction + arr = np.array([Fraction(1, 2), Fraction(-1, 2)]) + actual = np.pad(arr, (2, 3), mode='linear_ramp', end_values=0) + + # deliberately chosen to have a non-power-of-2 denominator such that + # rounding to floats causes a failure. + expected = np.array([ + Fraction( 0, 12), + Fraction( 3, 12), + Fraction( 6, 12), + Fraction(-6, 12), + Fraction(-4, 12), + Fraction(-2, 12), + Fraction(-0, 12), + ]) + assert_equal(actual, expected) + + def test_end_values(self): + """Ensure that end values are exact.""" + a = np.pad(np.ones(10).reshape(2, 5), (223, 123), mode="linear_ramp") + assert_equal(a[:, 0], 0.) + assert_equal(a[:, -1], 0.) + assert_equal(a[0, :], 0.) + assert_equal(a[-1, :], 0.) + + @pytest.mark.parametrize("dtype", _numeric_dtypes) + def test_negative_difference(self, dtype): + """ + Check correct behavior of unsigned dtypes if there is a negative + difference between the edge to pad and `end_values`. Check both cases + to be independent of implementation. Test behavior for all other dtypes + in case dtype casting interferes with complex dtypes. See gh-14191. + """ + x = np.array([3], dtype=dtype) + result = np.pad(x, 3, mode="linear_ramp", end_values=0) + expected = np.array([0, 1, 2, 3, 2, 1, 0], dtype=dtype) + assert_equal(result, expected) + + x = np.array([0], dtype=dtype) + result = np.pad(x, 3, mode="linear_ramp", end_values=3) + expected = np.array([3, 2, 1, 0, 1, 2, 3], dtype=dtype) + assert_equal(result, expected) + + +class TestReflect: + def test_check_simple(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'reflect') + b = np.array( + [25, 24, 23, 22, 21, 20, 19, 18, 17, 16, + 15, 14, 13, 12, 11, 10, 9, 8, 7, 6, + 5, 4, 3, 2, 1, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 98, 97, 96, 95, 94, 93, 92, 91, 90, 89, + 88, 87, 86, 85, 84, 83, 82, 81, 80, 79] + ) + assert_array_equal(a, b) + + def test_check_odd_method(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'reflect', reflect_type='odd') + b = np.array( + [-25, -24, -23, -22, -21, -20, -19, -18, -17, -16, + -15, -14, -13, -12, -11, -10, -9, -8, -7, -6, + -5, -4, -3, -2, -1, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 100, 101, 102, 103, 104, 105, 106, 107, 108, 109, + 110, 111, 112, 113, 114, 115, 116, 117, 118, 119] + ) + assert_array_equal(a, b) + + def test_check_large_pad(self): + a = [[4, 5, 6], [6, 7, 8]] + a = np.pad(a, (5, 7), 'reflect') + b = np.array( + [[7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7], + + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7], + + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7, 8, 7, 6, 7], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5]] + ) + assert_array_equal(a, b) + + def test_check_shape(self): + a = [[4, 5, 6]] + a = np.pad(a, (5, 7), 'reflect') + b = np.array( + [[5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5], + [5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5, 6, 5, 4, 5]] + ) + assert_array_equal(a, b) + + def test_check_01(self): + a = np.pad([1, 2, 3], 2, 'reflect') + b = np.array([3, 2, 1, 2, 3, 2, 1]) + assert_array_equal(a, b) + + def test_check_02(self): + a = np.pad([1, 2, 3], 3, 'reflect') + b = np.array([2, 3, 2, 1, 2, 3, 2, 1, 2]) + assert_array_equal(a, b) + + def test_check_03(self): + a = np.pad([1, 2, 3], 4, 'reflect') + b = np.array([1, 2, 3, 2, 1, 2, 3, 2, 1, 2, 3]) + assert_array_equal(a, b) + + +class TestEmptyArray: + """Check how padding behaves on arrays with an empty dimension.""" + + @pytest.mark.parametrize( + # Keep parametrization ordered, otherwise pytest-xdist might believe + # that different tests were collected during parallelization + "mode", sorted(_all_modes.keys() - {"constant", "empty"}) + ) + def test_pad_empty_dimension(self, mode): + match = ("can't extend empty axis 0 using modes other than 'constant' " + "or 'empty'") + with pytest.raises(ValueError, match=match): + np.pad([], 4, mode=mode) + with pytest.raises(ValueError, match=match): + np.pad(np.ndarray(0), 4, mode=mode) + with pytest.raises(ValueError, match=match): + np.pad(np.zeros((0, 3)), ((1,), (0,)), mode=mode) + + @pytest.mark.parametrize("mode", _all_modes.keys()) + def test_pad_non_empty_dimension(self, mode): + result = np.pad(np.ones((2, 0, 2)), ((3,), (0,), (1,)), mode=mode) + assert result.shape == (8, 0, 4) + + +class TestSymmetric: + def test_check_simple(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'symmetric') + b = np.array( + [24, 23, 22, 21, 20, 19, 18, 17, 16, 15, + 14, 13, 12, 11, 10, 9, 8, 7, 6, 5, + 4, 3, 2, 1, 0, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 99, 98, 97, 96, 95, 94, 93, 92, 91, 90, + 89, 88, 87, 86, 85, 84, 83, 82, 81, 80] + ) + assert_array_equal(a, b) + + def test_check_odd_method(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'symmetric', reflect_type='odd') + b = np.array( + [-24, -23, -22, -21, -20, -19, -18, -17, -16, -15, + -14, -13, -12, -11, -10, -9, -8, -7, -6, -5, + -4, -3, -2, -1, 0, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 99, 100, 101, 102, 103, 104, 105, 106, 107, 108, + 109, 110, 111, 112, 113, 114, 115, 116, 117, 118] + ) + assert_array_equal(a, b) + + def test_check_large_pad(self): + a = [[4, 5, 6], [6, 7, 8]] + a = np.pad(a, (5, 7), 'symmetric') + b = np.array( + [[5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [7, 8, 8, 7, 6, 6, 7, 8, 8, 7, 6, 6, 7, 8, 8], + [7, 8, 8, 7, 6, 6, 7, 8, 8, 7, 6, 6, 7, 8, 8], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [7, 8, 8, 7, 6, 6, 7, 8, 8, 7, 6, 6, 7, 8, 8], + + [7, 8, 8, 7, 6, 6, 7, 8, 8, 7, 6, 6, 7, 8, 8], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [7, 8, 8, 7, 6, 6, 7, 8, 8, 7, 6, 6, 7, 8, 8], + [7, 8, 8, 7, 6, 6, 7, 8, 8, 7, 6, 6, 7, 8, 8], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6]] + ) + + assert_array_equal(a, b) + + def test_check_large_pad_odd(self): + a = [[4, 5, 6], [6, 7, 8]] + a = np.pad(a, (5, 7), 'symmetric', reflect_type='odd') + b = np.array( + [[-3, -2, -2, -1, 0, 0, 1, 2, 2, 3, 4, 4, 5, 6, 6], + [-3, -2, -2, -1, 0, 0, 1, 2, 2, 3, 4, 4, 5, 6, 6], + [-1, 0, 0, 1, 2, 2, 3, 4, 4, 5, 6, 6, 7, 8, 8], + [-1, 0, 0, 1, 2, 2, 3, 4, 4, 5, 6, 6, 7, 8, 8], + [ 1, 2, 2, 3, 4, 4, 5, 6, 6, 7, 8, 8, 9, 10, 10], + + [ 1, 2, 2, 3, 4, 4, 5, 6, 6, 7, 8, 8, 9, 10, 10], + [ 3, 4, 4, 5, 6, 6, 7, 8, 8, 9, 10, 10, 11, 12, 12], + + [ 3, 4, 4, 5, 6, 6, 7, 8, 8, 9, 10, 10, 11, 12, 12], + [ 5, 6, 6, 7, 8, 8, 9, 10, 10, 11, 12, 12, 13, 14, 14], + [ 5, 6, 6, 7, 8, 8, 9, 10, 10, 11, 12, 12, 13, 14, 14], + [ 7, 8, 8, 9, 10, 10, 11, 12, 12, 13, 14, 14, 15, 16, 16], + [ 7, 8, 8, 9, 10, 10, 11, 12, 12, 13, 14, 14, 15, 16, 16], + [ 9, 10, 10, 11, 12, 12, 13, 14, 14, 15, 16, 16, 17, 18, 18], + [ 9, 10, 10, 11, 12, 12, 13, 14, 14, 15, 16, 16, 17, 18, 18]] + ) + assert_array_equal(a, b) + + def test_check_shape(self): + a = [[4, 5, 6]] + a = np.pad(a, (5, 7), 'symmetric') + b = np.array( + [[5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6], + [5, 6, 6, 5, 4, 4, 5, 6, 6, 5, 4, 4, 5, 6, 6]] + ) + assert_array_equal(a, b) + + def test_check_01(self): + a = np.pad([1, 2, 3], 2, 'symmetric') + b = np.array([2, 1, 1, 2, 3, 3, 2]) + assert_array_equal(a, b) + + def test_check_02(self): + a = np.pad([1, 2, 3], 3, 'symmetric') + b = np.array([3, 2, 1, 1, 2, 3, 3, 2, 1]) + assert_array_equal(a, b) + + def test_check_03(self): + a = np.pad([1, 2, 3], 6, 'symmetric') + b = np.array([1, 2, 3, 3, 2, 1, 1, 2, 3, 3, 2, 1, 1, 2, 3]) + assert_array_equal(a, b) + + +class TestWrap: + def test_check_simple(self): + a = np.arange(100) + a = np.pad(a, (25, 20), 'wrap') + b = np.array( + [75, 76, 77, 78, 79, 80, 81, 82, 83, 84, + 85, 86, 87, 88, 89, 90, 91, 92, 93, 94, + 95, 96, 97, 98, 99, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, + 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, + 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, + 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, + 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, + 60, 61, 62, 63, 64, 65, 66, 67, 68, 69, + 70, 71, 72, 73, 74, 75, 76, 77, 78, 79, + 80, 81, 82, 83, 84, 85, 86, 87, 88, 89, + 90, 91, 92, 93, 94, 95, 96, 97, 98, 99, + + 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, + 10, 11, 12, 13, 14, 15, 16, 17, 18, 19] + ) + assert_array_equal(a, b) + + def test_check_large_pad(self): + a = np.arange(12) + a = np.reshape(a, (3, 4)) + a = np.pad(a, (10, 12), 'wrap') + b = np.array( + [[10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11], + [2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, + 3, 0, 1, 2, 3, 0, 1, 2, 3], + [6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, + 7, 4, 5, 6, 7, 4, 5, 6, 7], + [10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11], + [2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, + 3, 0, 1, 2, 3, 0, 1, 2, 3], + [6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, + 7, 4, 5, 6, 7, 4, 5, 6, 7], + [10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11], + [2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, + 3, 0, 1, 2, 3, 0, 1, 2, 3], + [6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, + 7, 4, 5, 6, 7, 4, 5, 6, 7], + [10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11], + + [2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, + 3, 0, 1, 2, 3, 0, 1, 2, 3], + [6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, + 7, 4, 5, 6, 7, 4, 5, 6, 7], + [10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11], + + [2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, + 3, 0, 1, 2, 3, 0, 1, 2, 3], + [6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, + 7, 4, 5, 6, 7, 4, 5, 6, 7], + [10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11], + [2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, + 3, 0, 1, 2, 3, 0, 1, 2, 3], + [6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, + 7, 4, 5, 6, 7, 4, 5, 6, 7], + [10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11], + [2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, + 3, 0, 1, 2, 3, 0, 1, 2, 3], + [6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, + 7, 4, 5, 6, 7, 4, 5, 6, 7], + [10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11], + [2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, 3, 0, 1, 2, + 3, 0, 1, 2, 3, 0, 1, 2, 3], + [6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, 7, 4, 5, 6, + 7, 4, 5, 6, 7, 4, 5, 6, 7], + [10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, 11, 8, 9, 10, + 11, 8, 9, 10, 11, 8, 9, 10, 11]] + ) + assert_array_equal(a, b) + + def test_check_01(self): + a = np.pad([1, 2, 3], 3, 'wrap') + b = np.array([1, 2, 3, 1, 2, 3, 1, 2, 3]) + assert_array_equal(a, b) + + def test_check_02(self): + a = np.pad([1, 2, 3], 4, 'wrap') + b = np.array([3, 1, 2, 3, 1, 2, 3, 1, 2, 3, 1]) + assert_array_equal(a, b) + + def test_pad_with_zero(self): + a = np.ones((3, 5)) + b = np.pad(a, (0, 5), mode="wrap") + assert_array_equal(a, b[:-5, :-5]) + + def test_repeated_wrapping(self): + """ + Check wrapping on each side individually if the wrapped area is longer + than the original array. + """ + a = np.arange(5) + b = np.pad(a, (12, 0), mode="wrap") + assert_array_equal(np.r_[a, a, a, a][3:], b) + + a = np.arange(5) + b = np.pad(a, (0, 12), mode="wrap") + assert_array_equal(np.r_[a, a, a, a][:-3], b) + + +class TestEdge: + def test_check_simple(self): + a = np.arange(12) + a = np.reshape(a, (4, 3)) + a = np.pad(a, ((2, 3), (3, 2)), 'edge') + b = np.array( + [[0, 0, 0, 0, 1, 2, 2, 2], + [0, 0, 0, 0, 1, 2, 2, 2], + + [0, 0, 0, 0, 1, 2, 2, 2], + [3, 3, 3, 3, 4, 5, 5, 5], + [6, 6, 6, 6, 7, 8, 8, 8], + [9, 9, 9, 9, 10, 11, 11, 11], + + [9, 9, 9, 9, 10, 11, 11, 11], + [9, 9, 9, 9, 10, 11, 11, 11], + [9, 9, 9, 9, 10, 11, 11, 11]] + ) + assert_array_equal(a, b) + + def test_check_width_shape_1_2(self): + # Check a pad_width of the form ((1, 2),). + # Regression test for issue gh-7808. + a = np.array([1, 2, 3]) + padded = np.pad(a, ((1, 2),), 'edge') + expected = np.array([1, 1, 2, 3, 3, 3]) + assert_array_equal(padded, expected) + + a = np.array([[1, 2, 3], [4, 5, 6]]) + padded = np.pad(a, ((1, 2),), 'edge') + expected = np.pad(a, ((1, 2), (1, 2)), 'edge') + assert_array_equal(padded, expected) + + a = np.arange(24).reshape(2, 3, 4) + padded = np.pad(a, ((1, 2),), 'edge') + expected = np.pad(a, ((1, 2), (1, 2), (1, 2)), 'edge') + assert_array_equal(padded, expected) + + +class TestEmpty: + def test_simple(self): + arr = np.arange(24).reshape(4, 6) + result = np.pad(arr, [(2, 3), (3, 1)], mode="empty") + assert result.shape == (9, 10) + assert_equal(arr, result[2:-3, 3:-1]) + + def test_pad_empty_dimension(self): + arr = np.zeros((3, 0, 2)) + result = np.pad(arr, [(0,), (2,), (1,)], mode="empty") + assert result.shape == (3, 4, 4) + + +def test_legacy_vector_functionality(): + def _padwithtens(vector, pad_width, iaxis, kwargs): + vector[:pad_width[0]] = 10 + vector[-pad_width[1]:] = 10 + + a = np.arange(6).reshape(2, 3) + a = np.pad(a, 2, _padwithtens) + b = np.array( + [[10, 10, 10, 10, 10, 10, 10], + [10, 10, 10, 10, 10, 10, 10], + + [10, 10, 0, 1, 2, 10, 10], + [10, 10, 3, 4, 5, 10, 10], + + [10, 10, 10, 10, 10, 10, 10], + [10, 10, 10, 10, 10, 10, 10]] + ) + assert_array_equal(a, b) + + +def test_unicode_mode(): + a = np.pad([1], 2, mode=u'constant') + b = np.array([0, 0, 1, 0, 0]) + assert_array_equal(a, b) + + +@pytest.mark.parametrize("mode", ["edge", "symmetric", "reflect", "wrap"]) +def test_object_input(mode): + # Regression test for issue gh-11395. + a = np.full((4, 3), fill_value=None) + pad_amt = ((2, 3), (3, 2)) + b = np.full((9, 8), fill_value=None) + assert_array_equal(np.pad(a, pad_amt, mode=mode), b) + + +class TestPadWidth: + @pytest.mark.parametrize("pad_width", [ + (4, 5, 6, 7), + ((1,), (2,), (3,)), + ((1, 2), (3, 4), (5, 6)), + ((3, 4, 5), (0, 1, 2)), + ]) + @pytest.mark.parametrize("mode", _all_modes.keys()) + def test_misshaped_pad_width(self, pad_width, mode): + arr = np.arange(30).reshape((6, 5)) + match = "operands could not be broadcast together" + with pytest.raises(ValueError, match=match): + np.pad(arr, pad_width, mode) + + @pytest.mark.parametrize("mode", _all_modes.keys()) + def test_misshaped_pad_width_2(self, mode): + arr = np.arange(30).reshape((6, 5)) + match = ("input operand has more dimensions than allowed by the axis " + "remapping") + with pytest.raises(ValueError, match=match): + np.pad(arr, (((3,), (4,), (5,)), ((0,), (1,), (2,))), mode) + + @pytest.mark.parametrize( + "pad_width", [-2, (-2,), (3, -1), ((5, 2), (-2, 3)), ((-4,), (2,))]) + @pytest.mark.parametrize("mode", _all_modes.keys()) + def test_negative_pad_width(self, pad_width, mode): + arr = np.arange(30).reshape((6, 5)) + match = "index can't contain negative values" + with pytest.raises(ValueError, match=match): + np.pad(arr, pad_width, mode) + + @pytest.mark.parametrize("pad_width, dtype", [ + ("3", None), + ("word", None), + (None, None), + (object(), None), + (3.4, None), + (((2, 3, 4), (3, 2)), object), + (complex(1, -1), None), + (((-2.1, 3), (3, 2)), None), + ]) + @pytest.mark.parametrize("mode", _all_modes.keys()) + def test_bad_type(self, pad_width, dtype, mode): + arr = np.arange(30).reshape((6, 5)) + match = "`pad_width` must be of integral type." + if dtype is not None: + # avoid DeprecationWarning when not specifying dtype + with pytest.raises(TypeError, match=match): + np.pad(arr, np.array(pad_width, dtype=dtype), mode) + else: + with pytest.raises(TypeError, match=match): + np.pad(arr, pad_width, mode) + with pytest.raises(TypeError, match=match): + np.pad(arr, np.array(pad_width), mode) + + def test_pad_width_as_ndarray(self): + a = np.arange(12) + a = np.reshape(a, (4, 3)) + a = np.pad(a, np.array(((2, 3), (3, 2))), 'edge') + b = np.array( + [[0, 0, 0, 0, 1, 2, 2, 2], + [0, 0, 0, 0, 1, 2, 2, 2], + + [0, 0, 0, 0, 1, 2, 2, 2], + [3, 3, 3, 3, 4, 5, 5, 5], + [6, 6, 6, 6, 7, 8, 8, 8], + [9, 9, 9, 9, 10, 11, 11, 11], + + [9, 9, 9, 9, 10, 11, 11, 11], + [9, 9, 9, 9, 10, 11, 11, 11], + [9, 9, 9, 9, 10, 11, 11, 11]] + ) + assert_array_equal(a, b) + + @pytest.mark.parametrize("pad_width", [0, (0, 0), ((0, 0), (0, 0))]) + @pytest.mark.parametrize("mode", _all_modes.keys()) + def test_zero_pad_width(self, pad_width, mode): + arr = np.arange(30).reshape(6, 5) + assert_array_equal(arr, np.pad(arr, pad_width, mode=mode)) + + +@pytest.mark.parametrize("mode", _all_modes.keys()) +def test_kwargs(mode): + """Test behavior of pad's kwargs for the given mode.""" + allowed = _all_modes[mode] + not_allowed = {} + for kwargs in _all_modes.values(): + if kwargs != allowed: + not_allowed.update(kwargs) + # Test if allowed keyword arguments pass + np.pad([1, 2, 3], 1, mode, **allowed) + # Test if prohibited keyword arguments of other modes raise an error + for key, value in not_allowed.items(): + match = "unsupported keyword arguments for mode '{}'".format(mode) + with pytest.raises(ValueError, match=match): + np.pad([1, 2, 3], 1, mode, **{key: value}) + + +def test_constant_zero_default(): + arr = np.array([1, 1]) + assert_array_equal(np.pad(arr, 2), [0, 0, 1, 1, 0, 0]) + + +@pytest.mark.parametrize("mode", [1, "const", object(), None, True, False]) +def test_unsupported_mode(mode): + match= "mode '{}' is not supported".format(mode) + with pytest.raises(ValueError, match=match): + np.pad([1, 2, 3], 4, mode=mode) + + +@pytest.mark.parametrize("mode", _all_modes.keys()) +def test_non_contiguous_array(mode): + arr = np.arange(24).reshape(4, 6)[::2, ::2] + result = np.pad(arr, (2, 3), mode) + assert result.shape == (7, 8) + assert_equal(result[2:-3, 2:-3], arr) + + +@pytest.mark.parametrize("mode", _all_modes.keys()) +def test_memory_layout_persistence(mode): + """Test if C and F order is preserved for all pad modes.""" + x = np.ones((5, 10), order='C') + assert np.pad(x, 5, mode).flags["C_CONTIGUOUS"] + x = np.ones((5, 10), order='F') + assert np.pad(x, 5, mode).flags["F_CONTIGUOUS"] + + +@pytest.mark.parametrize("dtype", _numeric_dtypes) +@pytest.mark.parametrize("mode", _all_modes.keys()) +def test_dtype_persistence(dtype, mode): + arr = np.zeros((3, 2, 1), dtype=dtype) + result = np.pad(arr, 1, mode=mode) + assert result.dtype == dtype diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_financial_expired.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_financial_expired.py new file mode 100644 index 0000000000000000000000000000000000000000..838f999a61e6d8345c8bf348dbafa5619ec420e0 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_financial_expired.py @@ -0,0 +1,11 @@ +import sys +import pytest +import numpy as np + + +def test_financial_expired(): + match = 'NEP 32' + with pytest.warns(DeprecationWarning, match=match): + func = np.fv + with pytest.raises(RuntimeError, match=match): + func(1, 2, 3) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_function_base.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_function_base.py new file mode 100644 index 0000000000000000000000000000000000000000..f4370e5ff22db312848e84301252aa0a659b75c8 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_function_base.py @@ -0,0 +1,3918 @@ +import operator +import warnings +import sys +import decimal +from fractions import Fraction +import math +import pytest +import hypothesis +from hypothesis.extra.numpy import arrays +import hypothesis.strategies as st + + +import numpy as np +from numpy import ma +from numpy.testing import ( + assert_, assert_equal, assert_array_equal, assert_almost_equal, + assert_array_almost_equal, assert_raises, assert_allclose, IS_PYPY, + assert_warns, assert_raises_regex, suppress_warnings, HAS_REFCOUNT, + ) +import numpy.lib.function_base as nfb +from numpy.random import rand +from numpy.lib import ( + add_newdoc_ufunc, angle, average, bartlett, blackman, corrcoef, cov, + delete, diff, digitize, extract, flipud, gradient, hamming, hanning, + i0, insert, interp, kaiser, meshgrid, msort, piecewise, place, rot90, + select, setxor1d, sinc, trapz, trim_zeros, unwrap, unique, vectorize + ) + + +def get_mat(n): + data = np.arange(n) + data = np.add.outer(data, data) + return data + + +def _make_complex(real, imag): + """ + Like real + 1j * imag, but behaves as expected when imag contains non-finite + values + """ + ret = np.zeros(np.broadcast(real, imag).shape, np.complex_) + ret.real = real + ret.imag = imag + return ret + + +class TestRot90: + def test_basic(self): + assert_raises(ValueError, rot90, np.ones(4)) + assert_raises(ValueError, rot90, np.ones((2,2,2)), axes=(0,1,2)) + assert_raises(ValueError, rot90, np.ones((2,2)), axes=(0,2)) + assert_raises(ValueError, rot90, np.ones((2,2)), axes=(1,1)) + assert_raises(ValueError, rot90, np.ones((2,2,2)), axes=(-2,1)) + + a = [[0, 1, 2], + [3, 4, 5]] + b1 = [[2, 5], + [1, 4], + [0, 3]] + b2 = [[5, 4, 3], + [2, 1, 0]] + b3 = [[3, 0], + [4, 1], + [5, 2]] + b4 = [[0, 1, 2], + [3, 4, 5]] + + for k in range(-3, 13, 4): + assert_equal(rot90(a, k=k), b1) + for k in range(-2, 13, 4): + assert_equal(rot90(a, k=k), b2) + for k in range(-1, 13, 4): + assert_equal(rot90(a, k=k), b3) + for k in range(0, 13, 4): + assert_equal(rot90(a, k=k), b4) + + assert_equal(rot90(rot90(a, axes=(0,1)), axes=(1,0)), a) + assert_equal(rot90(a, k=1, axes=(1,0)), rot90(a, k=-1, axes=(0,1))) + + def test_axes(self): + a = np.ones((50, 40, 3)) + assert_equal(rot90(a).shape, (40, 50, 3)) + assert_equal(rot90(a, axes=(0,2)), rot90(a, axes=(0,-1))) + assert_equal(rot90(a, axes=(1,2)), rot90(a, axes=(-2,-1))) + + def test_rotation_axes(self): + a = np.arange(8).reshape((2,2,2)) + + a_rot90_01 = [[[2, 3], + [6, 7]], + [[0, 1], + [4, 5]]] + a_rot90_12 = [[[1, 3], + [0, 2]], + [[5, 7], + [4, 6]]] + a_rot90_20 = [[[4, 0], + [6, 2]], + [[5, 1], + [7, 3]]] + a_rot90_10 = [[[4, 5], + [0, 1]], + [[6, 7], + [2, 3]]] + + assert_equal(rot90(a, axes=(0, 1)), a_rot90_01) + assert_equal(rot90(a, axes=(1, 0)), a_rot90_10) + assert_equal(rot90(a, axes=(1, 2)), a_rot90_12) + + for k in range(1,5): + assert_equal(rot90(a, k=k, axes=(2, 0)), + rot90(a_rot90_20, k=k-1, axes=(2, 0))) + + +class TestFlip: + + def test_axes(self): + assert_raises(np.AxisError, np.flip, np.ones(4), axis=1) + assert_raises(np.AxisError, np.flip, np.ones((4, 4)), axis=2) + assert_raises(np.AxisError, np.flip, np.ones((4, 4)), axis=-3) + assert_raises(np.AxisError, np.flip, np.ones((4, 4)), axis=(0, 3)) + + def test_basic_lr(self): + a = get_mat(4) + b = a[:, ::-1] + assert_equal(np.flip(a, 1), b) + a = [[0, 1, 2], + [3, 4, 5]] + b = [[2, 1, 0], + [5, 4, 3]] + assert_equal(np.flip(a, 1), b) + + def test_basic_ud(self): + a = get_mat(4) + b = a[::-1, :] + assert_equal(np.flip(a, 0), b) + a = [[0, 1, 2], + [3, 4, 5]] + b = [[3, 4, 5], + [0, 1, 2]] + assert_equal(np.flip(a, 0), b) + + def test_3d_swap_axis0(self): + a = np.array([[[0, 1], + [2, 3]], + [[4, 5], + [6, 7]]]) + + b = np.array([[[4, 5], + [6, 7]], + [[0, 1], + [2, 3]]]) + + assert_equal(np.flip(a, 0), b) + + def test_3d_swap_axis1(self): + a = np.array([[[0, 1], + [2, 3]], + [[4, 5], + [6, 7]]]) + + b = np.array([[[2, 3], + [0, 1]], + [[6, 7], + [4, 5]]]) + + assert_equal(np.flip(a, 1), b) + + def test_3d_swap_axis2(self): + a = np.array([[[0, 1], + [2, 3]], + [[4, 5], + [6, 7]]]) + + b = np.array([[[1, 0], + [3, 2]], + [[5, 4], + [7, 6]]]) + + assert_equal(np.flip(a, 2), b) + + def test_4d(self): + a = np.arange(2 * 3 * 4 * 5).reshape(2, 3, 4, 5) + for i in range(a.ndim): + assert_equal(np.flip(a, i), + np.flipud(a.swapaxes(0, i)).swapaxes(i, 0)) + + def test_default_axis(self): + a = np.array([[1, 2, 3], + [4, 5, 6]]) + b = np.array([[6, 5, 4], + [3, 2, 1]]) + assert_equal(np.flip(a), b) + + def test_multiple_axes(self): + a = np.array([[[0, 1], + [2, 3]], + [[4, 5], + [6, 7]]]) + + assert_equal(np.flip(a, axis=()), a) + + b = np.array([[[5, 4], + [7, 6]], + [[1, 0], + [3, 2]]]) + + assert_equal(np.flip(a, axis=(0, 2)), b) + + c = np.array([[[3, 2], + [1, 0]], + [[7, 6], + [5, 4]]]) + + assert_equal(np.flip(a, axis=(1, 2)), c) + + +class TestAny: + + def test_basic(self): + y1 = [0, 0, 1, 0] + y2 = [0, 0, 0, 0] + y3 = [1, 0, 1, 0] + assert_(np.any(y1)) + assert_(np.any(y3)) + assert_(not np.any(y2)) + + def test_nd(self): + y1 = [[0, 0, 0], [0, 1, 0], [1, 1, 0]] + assert_(np.any(y1)) + assert_array_equal(np.sometrue(y1, axis=0), [1, 1, 0]) + assert_array_equal(np.sometrue(y1, axis=1), [0, 1, 1]) + + +class TestAll: + + def test_basic(self): + y1 = [0, 1, 1, 0] + y2 = [0, 0, 0, 0] + y3 = [1, 1, 1, 1] + assert_(not np.all(y1)) + assert_(np.all(y3)) + assert_(not np.all(y2)) + assert_(np.all(~np.array(y2))) + + def test_nd(self): + y1 = [[0, 0, 1], [0, 1, 1], [1, 1, 1]] + assert_(not np.all(y1)) + assert_array_equal(np.alltrue(y1, axis=0), [0, 0, 1]) + assert_array_equal(np.alltrue(y1, axis=1), [0, 0, 1]) + + +class TestCopy: + + def test_basic(self): + a = np.array([[1, 2], [3, 4]]) + a_copy = np.copy(a) + assert_array_equal(a, a_copy) + a_copy[0, 0] = 10 + assert_equal(a[0, 0], 1) + assert_equal(a_copy[0, 0], 10) + + def test_order(self): + # It turns out that people rely on np.copy() preserving order by + # default; changing this broke scikit-learn: + # github.com/scikit-learn/scikit-learn/commit/7842748cf777412c506a8c0ed28090711d3a3783 # noqa + a = np.array([[1, 2], [3, 4]]) + assert_(a.flags.c_contiguous) + assert_(not a.flags.f_contiguous) + a_fort = np.array([[1, 2], [3, 4]], order="F") + assert_(not a_fort.flags.c_contiguous) + assert_(a_fort.flags.f_contiguous) + a_copy = np.copy(a) + assert_(a_copy.flags.c_contiguous) + assert_(not a_copy.flags.f_contiguous) + a_fort_copy = np.copy(a_fort) + assert_(not a_fort_copy.flags.c_contiguous) + assert_(a_fort_copy.flags.f_contiguous) + + def test_subok(self): + mx = ma.ones(5) + assert_(not ma.isMaskedArray(np.copy(mx, subok=False))) + assert_(ma.isMaskedArray(np.copy(mx, subok=True))) + # Default behavior + assert_(not ma.isMaskedArray(np.copy(mx))) + + +class TestAverage: + + def test_basic(self): + y1 = np.array([1, 2, 3]) + assert_(average(y1, axis=0) == 2.) + y2 = np.array([1., 2., 3.]) + assert_(average(y2, axis=0) == 2.) + y3 = [0., 0., 0.] + assert_(average(y3, axis=0) == 0.) + + y4 = np.ones((4, 4)) + y4[0, 1] = 0 + y4[1, 0] = 2 + assert_almost_equal(y4.mean(0), average(y4, 0)) + assert_almost_equal(y4.mean(1), average(y4, 1)) + + y5 = rand(5, 5) + assert_almost_equal(y5.mean(0), average(y5, 0)) + assert_almost_equal(y5.mean(1), average(y5, 1)) + + @pytest.mark.parametrize( + 'x, axis, expected_avg, weights, expected_wavg, expected_wsum', + [([1, 2, 3], None, [2.0], [3, 4, 1], [1.75], [8.0]), + ([[1, 2, 5], [1, 6, 11]], 0, [[1.0, 4.0, 8.0]], + [1, 3], [[1.0, 5.0, 9.5]], [[4, 4, 4]])], + ) + def test_basic_keepdims(self, x, axis, expected_avg, + weights, expected_wavg, expected_wsum): + avg = np.average(x, axis=axis, keepdims=True) + assert avg.shape == np.shape(expected_avg) + assert_array_equal(avg, expected_avg) + + wavg = np.average(x, axis=axis, weights=weights, keepdims=True) + assert wavg.shape == np.shape(expected_wavg) + assert_array_equal(wavg, expected_wavg) + + wavg, wsum = np.average(x, axis=axis, weights=weights, returned=True, + keepdims=True) + assert wavg.shape == np.shape(expected_wavg) + assert_array_equal(wavg, expected_wavg) + assert wsum.shape == np.shape(expected_wsum) + assert_array_equal(wsum, expected_wsum) + + def test_weights(self): + y = np.arange(10) + w = np.arange(10) + actual = average(y, weights=w) + desired = (np.arange(10) ** 2).sum() * 1. / np.arange(10).sum() + assert_almost_equal(actual, desired) + + y1 = np.array([[1, 2, 3], [4, 5, 6]]) + w0 = [1, 2] + actual = average(y1, weights=w0, axis=0) + desired = np.array([3., 4., 5.]) + assert_almost_equal(actual, desired) + + w1 = [0, 0, 1] + actual = average(y1, weights=w1, axis=1) + desired = np.array([3., 6.]) + assert_almost_equal(actual, desired) + + # This should raise an error. Can we test for that ? + # assert_equal(average(y1, weights=w1), 9./2.) + + # 2D Case + w2 = [[0, 0, 1], [0, 0, 2]] + desired = np.array([3., 6.]) + assert_array_equal(average(y1, weights=w2, axis=1), desired) + assert_equal(average(y1, weights=w2), 5.) + + y3 = rand(5).astype(np.float32) + w3 = rand(5).astype(np.float64) + + assert_(np.average(y3, weights=w3).dtype == np.result_type(y3, w3)) + + # test weights with `keepdims=False` and `keepdims=True` + x = np.array([2, 3, 4]).reshape(3, 1) + w = np.array([4, 5, 6]).reshape(3, 1) + + actual = np.average(x, weights=w, axis=1, keepdims=False) + desired = np.array([2., 3., 4.]) + assert_array_equal(actual, desired) + + actual = np.average(x, weights=w, axis=1, keepdims=True) + desired = np.array([[2.], [3.], [4.]]) + assert_array_equal(actual, desired) + + def test_returned(self): + y = np.array([[1, 2, 3], [4, 5, 6]]) + + # No weights + avg, scl = average(y, returned=True) + assert_equal(scl, 6.) + + avg, scl = average(y, 0, returned=True) + assert_array_equal(scl, np.array([2., 2., 2.])) + + avg, scl = average(y, 1, returned=True) + assert_array_equal(scl, np.array([3., 3.])) + + # With weights + w0 = [1, 2] + avg, scl = average(y, weights=w0, axis=0, returned=True) + assert_array_equal(scl, np.array([3., 3., 3.])) + + w1 = [1, 2, 3] + avg, scl = average(y, weights=w1, axis=1, returned=True) + assert_array_equal(scl, np.array([6., 6.])) + + w2 = [[0, 0, 1], [1, 2, 3]] + avg, scl = average(y, weights=w2, axis=1, returned=True) + assert_array_equal(scl, np.array([1., 6.])) + + def test_subclasses(self): + class subclass(np.ndarray): + pass + a = np.array([[1,2],[3,4]]).view(subclass) + w = np.array([[1,2],[3,4]]).view(subclass) + + assert_equal(type(np.average(a)), subclass) + assert_equal(type(np.average(a, weights=w)), subclass) + + def test_upcasting(self): + typs = [('i4', 'i4', 'f8'), ('i4', 'f4', 'f8'), ('f4', 'i4', 'f8'), + ('f4', 'f4', 'f4'), ('f4', 'f8', 'f8')] + for at, wt, rt in typs: + a = np.array([[1,2],[3,4]], dtype=at) + w = np.array([[1,2],[3,4]], dtype=wt) + assert_equal(np.average(a, weights=w).dtype, np.dtype(rt)) + + def test_object_dtype(self): + a = np.array([decimal.Decimal(x) for x in range(10)]) + w = np.array([decimal.Decimal(1) for _ in range(10)]) + w /= w.sum() + assert_almost_equal(a.mean(0), average(a, weights=w)) + +class TestSelect: + choices = [np.array([1, 2, 3]), + np.array([4, 5, 6]), + np.array([7, 8, 9])] + conditions = [np.array([False, False, False]), + np.array([False, True, False]), + np.array([False, False, True])] + + def _select(self, cond, values, default=0): + output = [] + for m in range(len(cond)): + output += [V[m] for V, C in zip(values, cond) if C[m]] or [default] + return output + + def test_basic(self): + choices = self.choices + conditions = self.conditions + assert_array_equal(select(conditions, choices, default=15), + self._select(conditions, choices, default=15)) + + assert_equal(len(choices), 3) + assert_equal(len(conditions), 3) + + def test_broadcasting(self): + conditions = [np.array(True), np.array([False, True, False])] + choices = [1, np.arange(12).reshape(4, 3)] + assert_array_equal(select(conditions, choices), np.ones((4, 3))) + # default can broadcast too: + assert_equal(select([True], [0], default=[0]).shape, (1,)) + + def test_return_dtype(self): + assert_equal(select(self.conditions, self.choices, 1j).dtype, + np.complex_) + # But the conditions need to be stronger then the scalar default + # if it is scalar. + choices = [choice.astype(np.int8) for choice in self.choices] + assert_equal(select(self.conditions, choices).dtype, np.int8) + + d = np.array([1, 2, 3, np.nan, 5, 7]) + m = np.isnan(d) + assert_equal(select([m], [d]), [0, 0, 0, np.nan, 0, 0]) + + def test_deprecated_empty(self): + assert_raises(ValueError, select, [], [], 3j) + assert_raises(ValueError, select, [], []) + + def test_non_bool_deprecation(self): + choices = self.choices + conditions = self.conditions[:] + conditions[0] = conditions[0].astype(np.int_) + assert_raises(TypeError, select, conditions, choices) + conditions[0] = conditions[0].astype(np.uint8) + assert_raises(TypeError, select, conditions, choices) + assert_raises(TypeError, select, conditions, choices) + + def test_many_arguments(self): + # This used to be limited by NPY_MAXARGS == 32 + conditions = [np.array([False])] * 100 + choices = [np.array([1])] * 100 + select(conditions, choices) + + +class TestInsert: + + def test_basic(self): + a = [1, 2, 3] + assert_equal(insert(a, 0, 1), [1, 1, 2, 3]) + assert_equal(insert(a, 3, 1), [1, 2, 3, 1]) + assert_equal(insert(a, [1, 1, 1], [1, 2, 3]), [1, 1, 2, 3, 2, 3]) + assert_equal(insert(a, 1, [1, 2, 3]), [1, 1, 2, 3, 2, 3]) + assert_equal(insert(a, [1, -1, 3], 9), [1, 9, 2, 9, 3, 9]) + assert_equal(insert(a, slice(-1, None, -1), 9), [9, 1, 9, 2, 9, 3]) + assert_equal(insert(a, [-1, 1, 3], [7, 8, 9]), [1, 8, 2, 7, 3, 9]) + b = np.array([0, 1], dtype=np.float64) + assert_equal(insert(b, 0, b[0]), [0., 0., 1.]) + assert_equal(insert(b, [], []), b) + # Bools will be treated differently in the future: + # assert_equal(insert(a, np.array([True]*4), 9), [9, 1, 9, 2, 9, 3, 9]) + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', FutureWarning) + assert_equal( + insert(a, np.array([True] * 4), 9), [1, 9, 9, 9, 9, 2, 3]) + assert_(w[0].category is FutureWarning) + + def test_multidim(self): + a = [[1, 1, 1]] + r = [[2, 2, 2], + [1, 1, 1]] + assert_equal(insert(a, 0, [1]), [1, 1, 1, 1]) + assert_equal(insert(a, 0, [2, 2, 2], axis=0), r) + assert_equal(insert(a, 0, 2, axis=0), r) + assert_equal(insert(a, 2, 2, axis=1), [[1, 1, 2, 1]]) + + a = np.array([[1, 1], [2, 2], [3, 3]]) + b = np.arange(1, 4).repeat(3).reshape(3, 3) + c = np.concatenate( + (a[:, 0:1], np.arange(1, 4).repeat(3).reshape(3, 3).T, + a[:, 1:2]), axis=1) + assert_equal(insert(a, [1], [[1], [2], [3]], axis=1), b) + assert_equal(insert(a, [1], [1, 2, 3], axis=1), c) + # scalars behave differently, in this case exactly opposite: + assert_equal(insert(a, 1, [1, 2, 3], axis=1), b) + assert_equal(insert(a, 1, [[1], [2], [3]], axis=1), c) + + a = np.arange(4).reshape(2, 2) + assert_equal(insert(a[:, :1], 1, a[:, 1], axis=1), a) + assert_equal(insert(a[:1,:], 1, a[1,:], axis=0), a) + + # negative axis value + a = np.arange(24).reshape((2, 3, 4)) + assert_equal(insert(a, 1, a[:,:, 3], axis=-1), + insert(a, 1, a[:,:, 3], axis=2)) + assert_equal(insert(a, 1, a[:, 2,:], axis=-2), + insert(a, 1, a[:, 2,:], axis=1)) + + # invalid axis value + assert_raises(np.AxisError, insert, a, 1, a[:, 2, :], axis=3) + assert_raises(np.AxisError, insert, a, 1, a[:, 2, :], axis=-4) + + # negative axis value + a = np.arange(24).reshape((2, 3, 4)) + assert_equal(insert(a, 1, a[:, :, 3], axis=-1), + insert(a, 1, a[:, :, 3], axis=2)) + assert_equal(insert(a, 1, a[:, 2, :], axis=-2), + insert(a, 1, a[:, 2, :], axis=1)) + + def test_0d(self): + a = np.array(1) + with pytest.raises(np.AxisError): + insert(a, [], 2, axis=0) + with pytest.raises(TypeError): + insert(a, [], 2, axis="nonsense") + + def test_subclass(self): + class SubClass(np.ndarray): + pass + a = np.arange(10).view(SubClass) + assert_(isinstance(np.insert(a, 0, [0]), SubClass)) + assert_(isinstance(np.insert(a, [], []), SubClass)) + assert_(isinstance(np.insert(a, [0, 1], [1, 2]), SubClass)) + assert_(isinstance(np.insert(a, slice(1, 2), [1, 2]), SubClass)) + assert_(isinstance(np.insert(a, slice(1, -2, -1), []), SubClass)) + # This is an error in the future: + a = np.array(1).view(SubClass) + assert_(isinstance(np.insert(a, 0, [0]), SubClass)) + + def test_index_array_copied(self): + x = np.array([1, 1, 1]) + np.insert([0, 1, 2], x, [3, 4, 5]) + assert_equal(x, np.array([1, 1, 1])) + + def test_structured_array(self): + a = np.array([(1, 'a'), (2, 'b'), (3, 'c')], + dtype=[('foo', 'i'), ('bar', 'a1')]) + val = (4, 'd') + b = np.insert(a, 0, val) + assert_array_equal(b[0], np.array(val, dtype=b.dtype)) + val = [(4, 'd')] * 2 + b = np.insert(a, [0, 2], val) + assert_array_equal(b[[0, 3]], np.array(val, dtype=b.dtype)) + + def test_index_floats(self): + with pytest.raises(IndexError): + np.insert([0, 1, 2], np.array([1.0, 2.0]), [10, 20]) + with pytest.raises(IndexError): + np.insert([0, 1, 2], np.array([], dtype=float), []) + + @pytest.mark.parametrize('idx', [4, -4]) + def test_index_out_of_bounds(self, idx): + with pytest.raises(IndexError, match='out of bounds'): + np.insert([0, 1, 2], [idx], [3, 4]) + + +class TestAmax: + + def test_basic(self): + a = [3, 4, 5, 10, -3, -5, 6.0] + assert_equal(np.amax(a), 10.0) + b = [[3, 6.0, 9.0], + [4, 10.0, 5.0], + [8, 3.0, 2.0]] + assert_equal(np.amax(b, axis=0), [8.0, 10.0, 9.0]) + assert_equal(np.amax(b, axis=1), [9.0, 10.0, 8.0]) + + +class TestAmin: + + def test_basic(self): + a = [3, 4, 5, 10, -3, -5, 6.0] + assert_equal(np.amin(a), -5.0) + b = [[3, 6.0, 9.0], + [4, 10.0, 5.0], + [8, 3.0, 2.0]] + assert_equal(np.amin(b, axis=0), [3.0, 3.0, 2.0]) + assert_equal(np.amin(b, axis=1), [3.0, 4.0, 2.0]) + + +class TestPtp: + + def test_basic(self): + a = np.array([3, 4, 5, 10, -3, -5, 6.0]) + assert_equal(a.ptp(axis=0), 15.0) + b = np.array([[3, 6.0, 9.0], + [4, 10.0, 5.0], + [8, 3.0, 2.0]]) + assert_equal(b.ptp(axis=0), [5.0, 7.0, 7.0]) + assert_equal(b.ptp(axis=-1), [6.0, 6.0, 6.0]) + + assert_equal(b.ptp(axis=0, keepdims=True), [[5.0, 7.0, 7.0]]) + assert_equal(b.ptp(axis=(0,1), keepdims=True), [[8.0]]) + + +class TestCumsum: + + def test_basic(self): + ba = [1, 2, 10, 11, 6, 5, 4] + ba2 = [[1, 2, 3, 4], [5, 6, 7, 9], [10, 3, 4, 5]] + for ctype in [np.int8, np.uint8, np.int16, np.uint16, np.int32, + np.uint32, np.float32, np.float64, np.complex64, + np.complex128]: + a = np.array(ba, ctype) + a2 = np.array(ba2, ctype) + + tgt = np.array([1, 3, 13, 24, 30, 35, 39], ctype) + assert_array_equal(np.cumsum(a, axis=0), tgt) + + tgt = np.array( + [[1, 2, 3, 4], [6, 8, 10, 13], [16, 11, 14, 18]], ctype) + assert_array_equal(np.cumsum(a2, axis=0), tgt) + + tgt = np.array( + [[1, 3, 6, 10], [5, 11, 18, 27], [10, 13, 17, 22]], ctype) + assert_array_equal(np.cumsum(a2, axis=1), tgt) + + +class TestProd: + + def test_basic(self): + ba = [1, 2, 10, 11, 6, 5, 4] + ba2 = [[1, 2, 3, 4], [5, 6, 7, 9], [10, 3, 4, 5]] + for ctype in [np.int16, np.uint16, np.int32, np.uint32, + np.float32, np.float64, np.complex64, np.complex128]: + a = np.array(ba, ctype) + a2 = np.array(ba2, ctype) + if ctype in ['1', 'b']: + assert_raises(ArithmeticError, np.prod, a) + assert_raises(ArithmeticError, np.prod, a2, 1) + else: + assert_equal(a.prod(axis=0), 26400) + assert_array_equal(a2.prod(axis=0), + np.array([50, 36, 84, 180], ctype)) + assert_array_equal(a2.prod(axis=-1), + np.array([24, 1890, 600], ctype)) + + +class TestCumprod: + + def test_basic(self): + ba = [1, 2, 10, 11, 6, 5, 4] + ba2 = [[1, 2, 3, 4], [5, 6, 7, 9], [10, 3, 4, 5]] + for ctype in [np.int16, np.uint16, np.int32, np.uint32, + np.float32, np.float64, np.complex64, np.complex128]: + a = np.array(ba, ctype) + a2 = np.array(ba2, ctype) + if ctype in ['1', 'b']: + assert_raises(ArithmeticError, np.cumprod, a) + assert_raises(ArithmeticError, np.cumprod, a2, 1) + assert_raises(ArithmeticError, np.cumprod, a) + else: + assert_array_equal(np.cumprod(a, axis=-1), + np.array([1, 2, 20, 220, + 1320, 6600, 26400], ctype)) + assert_array_equal(np.cumprod(a2, axis=0), + np.array([[1, 2, 3, 4], + [5, 12, 21, 36], + [50, 36, 84, 180]], ctype)) + assert_array_equal(np.cumprod(a2, axis=-1), + np.array([[1, 2, 6, 24], + [5, 30, 210, 1890], + [10, 30, 120, 600]], ctype)) + + +class TestDiff: + + def test_basic(self): + x = [1, 4, 6, 7, 12] + out = np.array([3, 2, 1, 5]) + out2 = np.array([-1, -1, 4]) + out3 = np.array([0, 5]) + assert_array_equal(diff(x), out) + assert_array_equal(diff(x, n=2), out2) + assert_array_equal(diff(x, n=3), out3) + + x = [1.1, 2.2, 3.0, -0.2, -0.1] + out = np.array([1.1, 0.8, -3.2, 0.1]) + assert_almost_equal(diff(x), out) + + x = [True, True, False, False] + out = np.array([False, True, False]) + out2 = np.array([True, True]) + assert_array_equal(diff(x), out) + assert_array_equal(diff(x, n=2), out2) + + def test_axis(self): + x = np.zeros((10, 20, 30)) + x[:, 1::2, :] = 1 + exp = np.ones((10, 19, 30)) + exp[:, 1::2, :] = -1 + assert_array_equal(diff(x), np.zeros((10, 20, 29))) + assert_array_equal(diff(x, axis=-1), np.zeros((10, 20, 29))) + assert_array_equal(diff(x, axis=0), np.zeros((9, 20, 30))) + assert_array_equal(diff(x, axis=1), exp) + assert_array_equal(diff(x, axis=-2), exp) + assert_raises(np.AxisError, diff, x, axis=3) + assert_raises(np.AxisError, diff, x, axis=-4) + + x = np.array(1.11111111111, np.float64) + assert_raises(ValueError, diff, x) + + def test_nd(self): + x = 20 * rand(10, 20, 30) + out1 = x[:, :, 1:] - x[:, :, :-1] + out2 = out1[:, :, 1:] - out1[:, :, :-1] + out3 = x[1:, :, :] - x[:-1, :, :] + out4 = out3[1:, :, :] - out3[:-1, :, :] + assert_array_equal(diff(x), out1) + assert_array_equal(diff(x, n=2), out2) + assert_array_equal(diff(x, axis=0), out3) + assert_array_equal(diff(x, n=2, axis=0), out4) + + def test_n(self): + x = list(range(3)) + assert_raises(ValueError, diff, x, n=-1) + output = [diff(x, n=n) for n in range(1, 5)] + expected = [[1, 1], [0], [], []] + assert_(diff(x, n=0) is x) + for n, (expected, out) in enumerate(zip(expected, output), start=1): + assert_(type(out) is np.ndarray) + assert_array_equal(out, expected) + assert_equal(out.dtype, np.int_) + assert_equal(len(out), max(0, len(x) - n)) + + def test_times(self): + x = np.arange('1066-10-13', '1066-10-16', dtype=np.datetime64) + expected = [ + np.array([1, 1], dtype='timedelta64[D]'), + np.array([0], dtype='timedelta64[D]'), + ] + expected.extend([np.array([], dtype='timedelta64[D]')] * 3) + for n, exp in enumerate(expected, start=1): + out = diff(x, n=n) + assert_array_equal(out, exp) + assert_equal(out.dtype, exp.dtype) + + def test_subclass(self): + x = ma.array([[1, 2], [3, 4], [5, 6], [7, 8], [9, 10]], + mask=[[False, False], [True, False], + [False, True], [True, True], [False, False]]) + out = diff(x) + assert_array_equal(out.data, [[1], [1], [1], [1], [1]]) + assert_array_equal(out.mask, [[False], [True], + [True], [True], [False]]) + assert_(type(out) is type(x)) + + out3 = diff(x, n=3) + assert_array_equal(out3.data, [[], [], [], [], []]) + assert_array_equal(out3.mask, [[], [], [], [], []]) + assert_(type(out3) is type(x)) + + def test_prepend(self): + x = np.arange(5) + 1 + assert_array_equal(diff(x, prepend=0), np.ones(5)) + assert_array_equal(diff(x, prepend=[0]), np.ones(5)) + assert_array_equal(np.cumsum(np.diff(x, prepend=0)), x) + assert_array_equal(diff(x, prepend=[-1, 0]), np.ones(6)) + + x = np.arange(4).reshape(2, 2) + result = np.diff(x, axis=1, prepend=0) + expected = [[0, 1], [2, 1]] + assert_array_equal(result, expected) + result = np.diff(x, axis=1, prepend=[[0], [0]]) + assert_array_equal(result, expected) + + result = np.diff(x, axis=0, prepend=0) + expected = [[0, 1], [2, 2]] + assert_array_equal(result, expected) + result = np.diff(x, axis=0, prepend=[[0, 0]]) + assert_array_equal(result, expected) + + assert_raises(ValueError, np.diff, x, prepend=np.zeros((3,3))) + + assert_raises(np.AxisError, diff, x, prepend=0, axis=3) + + def test_append(self): + x = np.arange(5) + result = diff(x, append=0) + expected = [1, 1, 1, 1, -4] + assert_array_equal(result, expected) + result = diff(x, append=[0]) + assert_array_equal(result, expected) + result = diff(x, append=[0, 2]) + expected = expected + [2] + assert_array_equal(result, expected) + + x = np.arange(4).reshape(2, 2) + result = np.diff(x, axis=1, append=0) + expected = [[1, -1], [1, -3]] + assert_array_equal(result, expected) + result = np.diff(x, axis=1, append=[[0], [0]]) + assert_array_equal(result, expected) + + result = np.diff(x, axis=0, append=0) + expected = [[2, 2], [-2, -3]] + assert_array_equal(result, expected) + result = np.diff(x, axis=0, append=[[0, 0]]) + assert_array_equal(result, expected) + + assert_raises(ValueError, np.diff, x, append=np.zeros((3,3))) + + assert_raises(np.AxisError, diff, x, append=0, axis=3) + + +class TestDelete: + + def setup_method(self): + self.a = np.arange(5) + self.nd_a = np.arange(5).repeat(2).reshape(1, 5, 2) + + def _check_inverse_of_slicing(self, indices): + a_del = delete(self.a, indices) + nd_a_del = delete(self.nd_a, indices, axis=1) + msg = 'Delete failed for obj: %r' % indices + assert_array_equal(setxor1d(a_del, self.a[indices, ]), self.a, + err_msg=msg) + xor = setxor1d(nd_a_del[0,:, 0], self.nd_a[0, indices, 0]) + assert_array_equal(xor, self.nd_a[0,:, 0], err_msg=msg) + + def test_slices(self): + lims = [-6, -2, 0, 1, 2, 4, 5] + steps = [-3, -1, 1, 3] + for start in lims: + for stop in lims: + for step in steps: + s = slice(start, stop, step) + self._check_inverse_of_slicing(s) + + def test_fancy(self): + self._check_inverse_of_slicing(np.array([[0, 1], [2, 1]])) + with pytest.raises(IndexError): + delete(self.a, [100]) + with pytest.raises(IndexError): + delete(self.a, [-100]) + + self._check_inverse_of_slicing([0, -1, 2, 2]) + + self._check_inverse_of_slicing([True, False, False, True, False]) + + # not legal, indexing with these would change the dimension + with pytest.raises(ValueError): + delete(self.a, True) + with pytest.raises(ValueError): + delete(self.a, False) + + # not enough items + with pytest.raises(ValueError): + delete(self.a, [False]*4) + + def test_single(self): + self._check_inverse_of_slicing(0) + self._check_inverse_of_slicing(-4) + + def test_0d(self): + a = np.array(1) + with pytest.raises(np.AxisError): + delete(a, [], axis=0) + with pytest.raises(TypeError): + delete(a, [], axis="nonsense") + + def test_subclass(self): + class SubClass(np.ndarray): + pass + a = self.a.view(SubClass) + assert_(isinstance(delete(a, 0), SubClass)) + assert_(isinstance(delete(a, []), SubClass)) + assert_(isinstance(delete(a, [0, 1]), SubClass)) + assert_(isinstance(delete(a, slice(1, 2)), SubClass)) + assert_(isinstance(delete(a, slice(1, -2)), SubClass)) + + def test_array_order_preserve(self): + # See gh-7113 + k = np.arange(10).reshape(2, 5, order='F') + m = delete(k, slice(60, None), axis=1) + + # 'k' is Fortran ordered, and 'm' should have the + # same ordering as 'k' and NOT become C ordered + assert_equal(m.flags.c_contiguous, k.flags.c_contiguous) + assert_equal(m.flags.f_contiguous, k.flags.f_contiguous) + + def test_index_floats(self): + with pytest.raises(IndexError): + np.delete([0, 1, 2], np.array([1.0, 2.0])) + with pytest.raises(IndexError): + np.delete([0, 1, 2], np.array([], dtype=float)) + + @pytest.mark.parametrize("indexer", [np.array([1]), [1]]) + def test_single_item_array(self, indexer): + a_del_int = delete(self.a, 1) + a_del = delete(self.a, indexer) + assert_equal(a_del_int, a_del) + + nd_a_del_int = delete(self.nd_a, 1, axis=1) + nd_a_del = delete(self.nd_a, np.array([1]), axis=1) + assert_equal(nd_a_del_int, nd_a_del) + + def test_single_item_array_non_int(self): + # Special handling for integer arrays must not affect non-integer ones. + # If `False` was cast to `0` it would delete the element: + res = delete(np.ones(1), np.array([False])) + assert_array_equal(res, np.ones(1)) + + # Test the more complicated (with axis) case from gh-21840 + x = np.ones((3, 1)) + false_mask = np.array([False], dtype=bool) + true_mask = np.array([True], dtype=bool) + + res = delete(x, false_mask, axis=-1) + assert_array_equal(res, x) + res = delete(x, true_mask, axis=-1) + assert_array_equal(res, x[:, :0]) + + # Object or e.g. timedeltas should *not* be allowed + with pytest.raises(IndexError): + delete(np.ones(2), np.array([0], dtype=object)) + + with pytest.raises(IndexError): + # timedeltas are sometimes "integral, but clearly not allowed: + delete(np.ones(2), np.array([0], dtype="m8[ns]")) + + +class TestGradient: + + def test_basic(self): + v = [[1, 1], [3, 4]] + x = np.array(v) + dx = [np.array([[2., 3.], [2., 3.]]), + np.array([[0., 0.], [1., 1.]])] + assert_array_equal(gradient(x), dx) + assert_array_equal(gradient(v), dx) + + def test_args(self): + dx = np.cumsum(np.ones(5)) + dx_uneven = [1., 2., 5., 9., 11.] + f_2d = np.arange(25).reshape(5, 5) + + # distances must be scalars or have size equal to gradient[axis] + gradient(np.arange(5), 3.) + gradient(np.arange(5), np.array(3.)) + gradient(np.arange(5), dx) + # dy is set equal to dx because scalar + gradient(f_2d, 1.5) + gradient(f_2d, np.array(1.5)) + + gradient(f_2d, dx_uneven, dx_uneven) + # mix between even and uneven spaces and + # mix between scalar and vector + gradient(f_2d, dx, 2) + + # 2D but axis specified + gradient(f_2d, dx, axis=1) + + # 2d coordinate arguments are not yet allowed + assert_raises_regex(ValueError, '.*scalars or 1d', + gradient, f_2d, np.stack([dx]*2, axis=-1), 1) + + def test_badargs(self): + f_2d = np.arange(25).reshape(5, 5) + x = np.cumsum(np.ones(5)) + + # wrong sizes + assert_raises(ValueError, gradient, f_2d, x, np.ones(2)) + assert_raises(ValueError, gradient, f_2d, 1, np.ones(2)) + assert_raises(ValueError, gradient, f_2d, np.ones(2), np.ones(2)) + # wrong number of arguments + assert_raises(TypeError, gradient, f_2d, x) + assert_raises(TypeError, gradient, f_2d, x, axis=(0,1)) + assert_raises(TypeError, gradient, f_2d, x, x, x) + assert_raises(TypeError, gradient, f_2d, 1, 1, 1) + assert_raises(TypeError, gradient, f_2d, x, x, axis=1) + assert_raises(TypeError, gradient, f_2d, 1, 1, axis=1) + + def test_datetime64(self): + # Make sure gradient() can handle special types like datetime64 + x = np.array( + ['1910-08-16', '1910-08-11', '1910-08-10', '1910-08-12', + '1910-10-12', '1910-12-12', '1912-12-12'], + dtype='datetime64[D]') + dx = np.array( + [-5, -3, 0, 31, 61, 396, 731], + dtype='timedelta64[D]') + assert_array_equal(gradient(x), dx) + assert_(dx.dtype == np.dtype('timedelta64[D]')) + + def test_masked(self): + # Make sure that gradient supports subclasses like masked arrays + x = np.ma.array([[1, 1], [3, 4]], + mask=[[False, False], [False, False]]) + out = gradient(x)[0] + assert_equal(type(out), type(x)) + # And make sure that the output and input don't have aliased mask + # arrays + assert_(x._mask is not out._mask) + # Also check that edge_order=2 doesn't alter the original mask + x2 = np.ma.arange(5) + x2[2] = np.ma.masked + np.gradient(x2, edge_order=2) + assert_array_equal(x2.mask, [False, False, True, False, False]) + + def test_second_order_accurate(self): + # Testing that the relative numerical error is less that 3% for + # this example problem. This corresponds to second order + # accurate finite differences for all interior and boundary + # points. + x = np.linspace(0, 1, 10) + dx = x[1] - x[0] + y = 2 * x ** 3 + 4 * x ** 2 + 2 * x + analytical = 6 * x ** 2 + 8 * x + 2 + num_error = np.abs((np.gradient(y, dx, edge_order=2) / analytical) - 1) + assert_(np.all(num_error < 0.03) == True) + + # test with unevenly spaced + np.random.seed(0) + x = np.sort(np.random.random(10)) + y = 2 * x ** 3 + 4 * x ** 2 + 2 * x + analytical = 6 * x ** 2 + 8 * x + 2 + num_error = np.abs((np.gradient(y, x, edge_order=2) / analytical) - 1) + assert_(np.all(num_error < 0.03) == True) + + def test_spacing(self): + f = np.array([0, 2., 3., 4., 5., 5.]) + f = np.tile(f, (6,1)) + f.reshape(-1, 1) + x_uneven = np.array([0., 0.5, 1., 3., 5., 7.]) + x_even = np.arange(6.) + + fdx_even_ord1 = np.tile([2., 1.5, 1., 1., 0.5, 0.], (6,1)) + fdx_even_ord2 = np.tile([2.5, 1.5, 1., 1., 0.5, -0.5], (6,1)) + fdx_uneven_ord1 = np.tile([4., 3., 1.7, 0.5, 0.25, 0.], (6,1)) + fdx_uneven_ord2 = np.tile([5., 3., 1.7, 0.5, 0.25, -0.25], (6,1)) + + # evenly spaced + for edge_order, exp_res in [(1, fdx_even_ord1), (2, fdx_even_ord2)]: + res1 = gradient(f, 1., axis=(0,1), edge_order=edge_order) + res2 = gradient(f, x_even, x_even, + axis=(0,1), edge_order=edge_order) + res3 = gradient(f, x_even, x_even, + axis=None, edge_order=edge_order) + assert_array_equal(res1, res2) + assert_array_equal(res2, res3) + assert_almost_equal(res1[0], exp_res.T) + assert_almost_equal(res1[1], exp_res) + + res1 = gradient(f, 1., axis=0, edge_order=edge_order) + res2 = gradient(f, x_even, axis=0, edge_order=edge_order) + assert_(res1.shape == res2.shape) + assert_almost_equal(res2, exp_res.T) + + res1 = gradient(f, 1., axis=1, edge_order=edge_order) + res2 = gradient(f, x_even, axis=1, edge_order=edge_order) + assert_(res1.shape == res2.shape) + assert_array_equal(res2, exp_res) + + # unevenly spaced + for edge_order, exp_res in [(1, fdx_uneven_ord1), (2, fdx_uneven_ord2)]: + res1 = gradient(f, x_uneven, x_uneven, + axis=(0,1), edge_order=edge_order) + res2 = gradient(f, x_uneven, x_uneven, + axis=None, edge_order=edge_order) + assert_array_equal(res1, res2) + assert_almost_equal(res1[0], exp_res.T) + assert_almost_equal(res1[1], exp_res) + + res1 = gradient(f, x_uneven, axis=0, edge_order=edge_order) + assert_almost_equal(res1, exp_res.T) + + res1 = gradient(f, x_uneven, axis=1, edge_order=edge_order) + assert_almost_equal(res1, exp_res) + + # mixed + res1 = gradient(f, x_even, x_uneven, axis=(0,1), edge_order=1) + res2 = gradient(f, x_uneven, x_even, axis=(1,0), edge_order=1) + assert_array_equal(res1[0], res2[1]) + assert_array_equal(res1[1], res2[0]) + assert_almost_equal(res1[0], fdx_even_ord1.T) + assert_almost_equal(res1[1], fdx_uneven_ord1) + + res1 = gradient(f, x_even, x_uneven, axis=(0,1), edge_order=2) + res2 = gradient(f, x_uneven, x_even, axis=(1,0), edge_order=2) + assert_array_equal(res1[0], res2[1]) + assert_array_equal(res1[1], res2[0]) + assert_almost_equal(res1[0], fdx_even_ord2.T) + assert_almost_equal(res1[1], fdx_uneven_ord2) + + def test_specific_axes(self): + # Testing that gradient can work on a given axis only + v = [[1, 1], [3, 4]] + x = np.array(v) + dx = [np.array([[2., 3.], [2., 3.]]), + np.array([[0., 0.], [1., 1.]])] + assert_array_equal(gradient(x, axis=0), dx[0]) + assert_array_equal(gradient(x, axis=1), dx[1]) + assert_array_equal(gradient(x, axis=-1), dx[1]) + assert_array_equal(gradient(x, axis=(1, 0)), [dx[1], dx[0]]) + + # test axis=None which means all axes + assert_almost_equal(gradient(x, axis=None), [dx[0], dx[1]]) + # and is the same as no axis keyword given + assert_almost_equal(gradient(x, axis=None), gradient(x)) + + # test vararg order + assert_array_equal(gradient(x, 2, 3, axis=(1, 0)), + [dx[1]/2.0, dx[0]/3.0]) + # test maximal number of varargs + assert_raises(TypeError, gradient, x, 1, 2, axis=1) + + assert_raises(np.AxisError, gradient, x, axis=3) + assert_raises(np.AxisError, gradient, x, axis=-3) + # assert_raises(TypeError, gradient, x, axis=[1,]) + + def test_timedelta64(self): + # Make sure gradient() can handle special types like timedelta64 + x = np.array( + [-5, -3, 10, 12, 61, 321, 300], + dtype='timedelta64[D]') + dx = np.array( + [2, 7, 7, 25, 154, 119, -21], + dtype='timedelta64[D]') + assert_array_equal(gradient(x), dx) + assert_(dx.dtype == np.dtype('timedelta64[D]')) + + def test_inexact_dtypes(self): + for dt in [np.float16, np.float32, np.float64]: + # dtypes should not be promoted in a different way to what diff does + x = np.array([1, 2, 3], dtype=dt) + assert_equal(gradient(x).dtype, np.diff(x).dtype) + + def test_values(self): + # needs at least 2 points for edge_order ==1 + gradient(np.arange(2), edge_order=1) + # needs at least 3 points for edge_order ==1 + gradient(np.arange(3), edge_order=2) + + assert_raises(ValueError, gradient, np.arange(0), edge_order=1) + assert_raises(ValueError, gradient, np.arange(0), edge_order=2) + assert_raises(ValueError, gradient, np.arange(1), edge_order=1) + assert_raises(ValueError, gradient, np.arange(1), edge_order=2) + assert_raises(ValueError, gradient, np.arange(2), edge_order=2) + + @pytest.mark.parametrize('f_dtype', [np.uint8, np.uint16, + np.uint32, np.uint64]) + def test_f_decreasing_unsigned_int(self, f_dtype): + f = np.array([5, 4, 3, 2, 1], dtype=f_dtype) + g = gradient(f) + assert_array_equal(g, [-1]*len(f)) + + @pytest.mark.parametrize('f_dtype', [np.int8, np.int16, + np.int32, np.int64]) + def test_f_signed_int_big_jump(self, f_dtype): + maxint = np.iinfo(f_dtype).max + x = np.array([1, 3]) + f = np.array([-1, maxint], dtype=f_dtype) + dfdx = gradient(f, x) + assert_array_equal(dfdx, [(maxint + 1) // 2]*2) + + @pytest.mark.parametrize('x_dtype', [np.uint8, np.uint16, + np.uint32, np.uint64]) + def test_x_decreasing_unsigned(self, x_dtype): + x = np.array([3, 2, 1], dtype=x_dtype) + f = np.array([0, 2, 4]) + dfdx = gradient(f, x) + assert_array_equal(dfdx, [-2]*len(x)) + + @pytest.mark.parametrize('x_dtype', [np.int8, np.int16, + np.int32, np.int64]) + def test_x_signed_int_big_jump(self, x_dtype): + minint = np.iinfo(x_dtype).min + maxint = np.iinfo(x_dtype).max + x = np.array([-1, maxint], dtype=x_dtype) + f = np.array([minint // 2, 0]) + dfdx = gradient(f, x) + assert_array_equal(dfdx, [0.5, 0.5]) + + +class TestAngle: + + def test_basic(self): + x = [1 + 3j, np.sqrt(2) / 2.0 + 1j * np.sqrt(2) / 2, + 1, 1j, -1, -1j, 1 - 3j, -1 + 3j] + y = angle(x) + yo = [ + np.arctan(3.0 / 1.0), + np.arctan(1.0), 0, np.pi / 2, np.pi, -np.pi / 2.0, + -np.arctan(3.0 / 1.0), np.pi - np.arctan(3.0 / 1.0)] + z = angle(x, deg=True) + zo = np.array(yo) * 180 / np.pi + assert_array_almost_equal(y, yo, 11) + assert_array_almost_equal(z, zo, 11) + + def test_subclass(self): + x = np.ma.array([1 + 3j, 1, np.sqrt(2)/2 * (1 + 1j)]) + x[1] = np.ma.masked + expected = np.ma.array([np.arctan(3.0 / 1.0), 0, np.arctan(1.0)]) + expected[1] = np.ma.masked + actual = angle(x) + assert_equal(type(actual), type(expected)) + assert_equal(actual.mask, expected.mask) + assert_equal(actual, expected) + + +class TestTrimZeros: + + a = np.array([0, 0, 1, 0, 2, 3, 4, 0]) + b = a.astype(float) + c = a.astype(complex) + d = a.astype(object) + + def values(self): + attr_names = ('a', 'b', 'c', 'd') + return (getattr(self, name) for name in attr_names) + + def test_basic(self): + slc = np.s_[2:-1] + for arr in self.values(): + res = trim_zeros(arr) + assert_array_equal(res, arr[slc]) + + def test_leading_skip(self): + slc = np.s_[:-1] + for arr in self.values(): + res = trim_zeros(arr, trim='b') + assert_array_equal(res, arr[slc]) + + def test_trailing_skip(self): + slc = np.s_[2:] + for arr in self.values(): + res = trim_zeros(arr, trim='F') + assert_array_equal(res, arr[slc]) + + def test_all_zero(self): + for _arr in self.values(): + arr = np.zeros_like(_arr, dtype=_arr.dtype) + + res1 = trim_zeros(arr, trim='B') + assert len(res1) == 0 + + res2 = trim_zeros(arr, trim='f') + assert len(res2) == 0 + + def test_size_zero(self): + arr = np.zeros(0) + res = trim_zeros(arr) + assert_array_equal(arr, res) + + @pytest.mark.parametrize( + 'arr', + [np.array([0, 2**62, 0]), + np.array([0, 2**63, 0]), + np.array([0, 2**64, 0])] + ) + def test_overflow(self, arr): + slc = np.s_[1:2] + res = trim_zeros(arr) + assert_array_equal(res, arr[slc]) + + def test_no_trim(self): + arr = np.array([None, 1, None]) + res = trim_zeros(arr) + assert_array_equal(arr, res) + + def test_list_to_list(self): + res = trim_zeros(self.a.tolist()) + assert isinstance(res, list) + + +class TestExtins: + + def test_basic(self): + a = np.array([1, 3, 2, 1, 2, 3, 3]) + b = extract(a > 1, a) + assert_array_equal(b, [3, 2, 2, 3, 3]) + + def test_place(self): + # Make sure that non-np.ndarray objects + # raise an error instead of doing nothing + assert_raises(TypeError, place, [1, 2, 3], [True, False], [0, 1]) + + a = np.array([1, 4, 3, 2, 5, 8, 7]) + place(a, [0, 1, 0, 1, 0, 1, 0], [2, 4, 6]) + assert_array_equal(a, [1, 2, 3, 4, 5, 6, 7]) + + place(a, np.zeros(7), []) + assert_array_equal(a, np.arange(1, 8)) + + place(a, [1, 0, 1, 0, 1, 0, 1], [8, 9]) + assert_array_equal(a, [8, 2, 9, 4, 8, 6, 9]) + assert_raises_regex(ValueError, "Cannot insert from an empty array", + lambda: place(a, [0, 0, 0, 0, 0, 1, 0], [])) + + # See Issue #6974 + a = np.array(['12', '34']) + place(a, [0, 1], '9') + assert_array_equal(a, ['12', '9']) + + def test_both(self): + a = rand(10) + mask = a > 0.5 + ac = a.copy() + c = extract(mask, a) + place(a, mask, 0) + place(a, mask, c) + assert_array_equal(a, ac) + + +# _foo1 and _foo2 are used in some tests in TestVectorize. + +def _foo1(x, y=1.0): + return y*math.floor(x) + + +def _foo2(x, y=1.0, z=0.0): + return y*math.floor(x) + z + + +class TestVectorize: + + def test_simple(self): + def addsubtract(a, b): + if a > b: + return a - b + else: + return a + b + + f = vectorize(addsubtract) + r = f([0, 3, 6, 9], [1, 3, 5, 7]) + assert_array_equal(r, [1, 6, 1, 2]) + + def test_scalar(self): + def addsubtract(a, b): + if a > b: + return a - b + else: + return a + b + + f = vectorize(addsubtract) + r = f([0, 3, 6, 9], 5) + assert_array_equal(r, [5, 8, 1, 4]) + + def test_large(self): + x = np.linspace(-3, 2, 10000) + f = vectorize(lambda x: x) + y = f(x) + assert_array_equal(y, x) + + def test_ufunc(self): + f = vectorize(math.cos) + args = np.array([0, 0.5 * np.pi, np.pi, 1.5 * np.pi, 2 * np.pi]) + r1 = f(args) + r2 = np.cos(args) + assert_array_almost_equal(r1, r2) + + def test_keywords(self): + + def foo(a, b=1): + return a + b + + f = vectorize(foo) + args = np.array([1, 2, 3]) + r1 = f(args) + r2 = np.array([2, 3, 4]) + assert_array_equal(r1, r2) + r1 = f(args, 2) + r2 = np.array([3, 4, 5]) + assert_array_equal(r1, r2) + + def test_keywords_with_otypes_order1(self): + # gh-1620: The second call of f would crash with + # `ValueError: invalid number of arguments`. + f = vectorize(_foo1, otypes=[float]) + # We're testing the caching of ufuncs by vectorize, so the order + # of these function calls is an important part of the test. + r1 = f(np.arange(3.0), 1.0) + r2 = f(np.arange(3.0)) + assert_array_equal(r1, r2) + + def test_keywords_with_otypes_order2(self): + # gh-1620: The second call of f would crash with + # `ValueError: non-broadcastable output operand with shape () + # doesn't match the broadcast shape (3,)`. + f = vectorize(_foo1, otypes=[float]) + # We're testing the caching of ufuncs by vectorize, so the order + # of these function calls is an important part of the test. + r1 = f(np.arange(3.0)) + r2 = f(np.arange(3.0), 1.0) + assert_array_equal(r1, r2) + + def test_keywords_with_otypes_order3(self): + # gh-1620: The third call of f would crash with + # `ValueError: invalid number of arguments`. + f = vectorize(_foo1, otypes=[float]) + # We're testing the caching of ufuncs by vectorize, so the order + # of these function calls is an important part of the test. + r1 = f(np.arange(3.0)) + r2 = f(np.arange(3.0), y=1.0) + r3 = f(np.arange(3.0)) + assert_array_equal(r1, r2) + assert_array_equal(r1, r3) + + def test_keywords_with_otypes_several_kwd_args1(self): + # gh-1620 Make sure different uses of keyword arguments + # don't break the vectorized function. + f = vectorize(_foo2, otypes=[float]) + # We're testing the caching of ufuncs by vectorize, so the order + # of these function calls is an important part of the test. + r1 = f(10.4, z=100) + r2 = f(10.4, y=-1) + r3 = f(10.4) + assert_equal(r1, _foo2(10.4, z=100)) + assert_equal(r2, _foo2(10.4, y=-1)) + assert_equal(r3, _foo2(10.4)) + + def test_keywords_with_otypes_several_kwd_args2(self): + # gh-1620 Make sure different uses of keyword arguments + # don't break the vectorized function. + f = vectorize(_foo2, otypes=[float]) + # We're testing the caching of ufuncs by vectorize, so the order + # of these function calls is an important part of the test. + r1 = f(z=100, x=10.4, y=-1) + r2 = f(1, 2, 3) + assert_equal(r1, _foo2(z=100, x=10.4, y=-1)) + assert_equal(r2, _foo2(1, 2, 3)) + + def test_keywords_no_func_code(self): + # This needs to test a function that has keywords but + # no func_code attribute, since otherwise vectorize will + # inspect the func_code. + import random + try: + vectorize(random.randrange) # Should succeed + except Exception: + raise AssertionError() + + def test_keywords2_ticket_2100(self): + # Test kwarg support: enhancement ticket 2100 + + def foo(a, b=1): + return a + b + + f = vectorize(foo) + args = np.array([1, 2, 3]) + r1 = f(a=args) + r2 = np.array([2, 3, 4]) + assert_array_equal(r1, r2) + r1 = f(b=1, a=args) + assert_array_equal(r1, r2) + r1 = f(args, b=2) + r2 = np.array([3, 4, 5]) + assert_array_equal(r1, r2) + + def test_keywords3_ticket_2100(self): + # Test excluded with mixed positional and kwargs: ticket 2100 + def mypolyval(x, p): + _p = list(p) + res = _p.pop(0) + while _p: + res = res * x + _p.pop(0) + return res + + vpolyval = np.vectorize(mypolyval, excluded=['p', 1]) + ans = [3, 6] + assert_array_equal(ans, vpolyval(x=[0, 1], p=[1, 2, 3])) + assert_array_equal(ans, vpolyval([0, 1], p=[1, 2, 3])) + assert_array_equal(ans, vpolyval([0, 1], [1, 2, 3])) + + def test_keywords4_ticket_2100(self): + # Test vectorizing function with no positional args. + @vectorize + def f(**kw): + res = 1.0 + for _k in kw: + res *= kw[_k] + return res + + assert_array_equal(f(a=[1, 2], b=[3, 4]), [3, 8]) + + def test_keywords5_ticket_2100(self): + # Test vectorizing function with no kwargs args. + @vectorize + def f(*v): + return np.prod(v) + + assert_array_equal(f([1, 2], [3, 4]), [3, 8]) + + def test_coverage1_ticket_2100(self): + def foo(): + return 1 + + f = vectorize(foo) + assert_array_equal(f(), 1) + + def test_assigning_docstring(self): + def foo(x): + """Original documentation""" + return x + + f = vectorize(foo) + assert_equal(f.__doc__, foo.__doc__) + + doc = "Provided documentation" + f = vectorize(foo, doc=doc) + assert_equal(f.__doc__, doc) + + def test_UnboundMethod_ticket_1156(self): + # Regression test for issue 1156 + class Foo: + b = 2 + + def bar(self, a): + return a ** self.b + + assert_array_equal(vectorize(Foo().bar)(np.arange(9)), + np.arange(9) ** 2) + assert_array_equal(vectorize(Foo.bar)(Foo(), np.arange(9)), + np.arange(9) ** 2) + + def test_execution_order_ticket_1487(self): + # Regression test for dependence on execution order: issue 1487 + f1 = vectorize(lambda x: x) + res1a = f1(np.arange(3)) + res1b = f1(np.arange(0.1, 3)) + f2 = vectorize(lambda x: x) + res2b = f2(np.arange(0.1, 3)) + res2a = f2(np.arange(3)) + assert_equal(res1a, res2a) + assert_equal(res1b, res2b) + + def test_string_ticket_1892(self): + # Test vectorization over strings: issue 1892. + f = np.vectorize(lambda x: x) + s = '0123456789' * 10 + assert_equal(s, f(s)) + + def test_cache(self): + # Ensure that vectorized func called exactly once per argument. + _calls = [0] + + @vectorize + def f(x): + _calls[0] += 1 + return x ** 2 + + f.cache = True + x = np.arange(5) + assert_array_equal(f(x), x * x) + assert_equal(_calls[0], len(x)) + + def test_otypes(self): + f = np.vectorize(lambda x: x) + f.otypes = 'i' + x = np.arange(5) + assert_array_equal(f(x), x) + + def test_parse_gufunc_signature(self): + assert_equal(nfb._parse_gufunc_signature('(x)->()'), ([('x',)], [()])) + assert_equal(nfb._parse_gufunc_signature('(x,y)->()'), + ([('x', 'y')], [()])) + assert_equal(nfb._parse_gufunc_signature('(x),(y)->()'), + ([('x',), ('y',)], [()])) + assert_equal(nfb._parse_gufunc_signature('(x)->(y)'), + ([('x',)], [('y',)])) + assert_equal(nfb._parse_gufunc_signature('(x)->(y),()'), + ([('x',)], [('y',), ()])) + assert_equal(nfb._parse_gufunc_signature('(),(a,b,c),(d)->(d,e)'), + ([(), ('a', 'b', 'c'), ('d',)], [('d', 'e')])) + + # Tests to check if whitespaces are ignored + assert_equal(nfb._parse_gufunc_signature('(x )->()'), ([('x',)], [()])) + assert_equal(nfb._parse_gufunc_signature('( x , y )->( )'), + ([('x', 'y')], [()])) + assert_equal(nfb._parse_gufunc_signature('(x),( y) ->()'), + ([('x',), ('y',)], [()])) + assert_equal(nfb._parse_gufunc_signature('( x)-> (y ) '), + ([('x',)], [('y',)])) + assert_equal(nfb._parse_gufunc_signature(' (x)->( y),( )'), + ([('x',)], [('y',), ()])) + assert_equal(nfb._parse_gufunc_signature( + '( ), ( a, b,c ) ,( d) -> (d , e)'), + ([(), ('a', 'b', 'c'), ('d',)], [('d', 'e')])) + + with assert_raises(ValueError): + nfb._parse_gufunc_signature('(x)(y)->()') + with assert_raises(ValueError): + nfb._parse_gufunc_signature('(x),(y)->') + with assert_raises(ValueError): + nfb._parse_gufunc_signature('((x))->(x)') + + def test_signature_simple(self): + def addsubtract(a, b): + if a > b: + return a - b + else: + return a + b + + f = vectorize(addsubtract, signature='(),()->()') + r = f([0, 3, 6, 9], [1, 3, 5, 7]) + assert_array_equal(r, [1, 6, 1, 2]) + + def test_signature_mean_last(self): + def mean(a): + return a.mean() + + f = vectorize(mean, signature='(n)->()') + r = f([[1, 3], [2, 4]]) + assert_array_equal(r, [2, 3]) + + def test_signature_center(self): + def center(a): + return a - a.mean() + + f = vectorize(center, signature='(n)->(n)') + r = f([[1, 3], [2, 4]]) + assert_array_equal(r, [[-1, 1], [-1, 1]]) + + def test_signature_two_outputs(self): + f = vectorize(lambda x: (x, x), signature='()->(),()') + r = f([1, 2, 3]) + assert_(isinstance(r, tuple) and len(r) == 2) + assert_array_equal(r[0], [1, 2, 3]) + assert_array_equal(r[1], [1, 2, 3]) + + def test_signature_outer(self): + f = vectorize(np.outer, signature='(a),(b)->(a,b)') + r = f([1, 2], [1, 2, 3]) + assert_array_equal(r, [[1, 2, 3], [2, 4, 6]]) + + r = f([[[1, 2]]], [1, 2, 3]) + assert_array_equal(r, [[[[1, 2, 3], [2, 4, 6]]]]) + + r = f([[1, 0], [2, 0]], [1, 2, 3]) + assert_array_equal(r, [[[1, 2, 3], [0, 0, 0]], + [[2, 4, 6], [0, 0, 0]]]) + + r = f([1, 2], [[1, 2, 3], [0, 0, 0]]) + assert_array_equal(r, [[[1, 2, 3], [2, 4, 6]], + [[0, 0, 0], [0, 0, 0]]]) + + def test_signature_computed_size(self): + f = vectorize(lambda x: x[:-1], signature='(n)->(m)') + r = f([1, 2, 3]) + assert_array_equal(r, [1, 2]) + + r = f([[1, 2, 3], [2, 3, 4]]) + assert_array_equal(r, [[1, 2], [2, 3]]) + + def test_signature_excluded(self): + + def foo(a, b=1): + return a + b + + f = vectorize(foo, signature='()->()', excluded={'b'}) + assert_array_equal(f([1, 2, 3]), [2, 3, 4]) + assert_array_equal(f([1, 2, 3], b=0), [1, 2, 3]) + + def test_signature_otypes(self): + f = vectorize(lambda x: x, signature='(n)->(n)', otypes=['float64']) + r = f([1, 2, 3]) + assert_equal(r.dtype, np.dtype('float64')) + assert_array_equal(r, [1, 2, 3]) + + def test_signature_invalid_inputs(self): + f = vectorize(operator.add, signature='(n),(n)->(n)') + with assert_raises_regex(TypeError, 'wrong number of positional'): + f([1, 2]) + with assert_raises_regex( + ValueError, 'does not have enough dimensions'): + f(1, 2) + with assert_raises_regex( + ValueError, 'inconsistent size for core dimension'): + f([1, 2], [1, 2, 3]) + + f = vectorize(operator.add, signature='()->()') + with assert_raises_regex(TypeError, 'wrong number of positional'): + f(1, 2) + + def test_signature_invalid_outputs(self): + + f = vectorize(lambda x: x[:-1], signature='(n)->(n)') + with assert_raises_regex( + ValueError, 'inconsistent size for core dimension'): + f([1, 2, 3]) + + f = vectorize(lambda x: x, signature='()->(),()') + with assert_raises_regex(ValueError, 'wrong number of outputs'): + f(1) + + f = vectorize(lambda x: (x, x), signature='()->()') + with assert_raises_regex(ValueError, 'wrong number of outputs'): + f([1, 2]) + + def test_size_zero_output(self): + # see issue 5868 + f = np.vectorize(lambda x: x) + x = np.zeros([0, 5], dtype=int) + with assert_raises_regex(ValueError, 'otypes'): + f(x) + + f.otypes = 'i' + assert_array_equal(f(x), x) + + f = np.vectorize(lambda x: x, signature='()->()') + with assert_raises_regex(ValueError, 'otypes'): + f(x) + + f = np.vectorize(lambda x: x, signature='()->()', otypes='i') + assert_array_equal(f(x), x) + + f = np.vectorize(lambda x: x, signature='(n)->(n)', otypes='i') + assert_array_equal(f(x), x) + + f = np.vectorize(lambda x: x, signature='(n)->(n)') + assert_array_equal(f(x.T), x.T) + + f = np.vectorize(lambda x: [x], signature='()->(n)', otypes='i') + with assert_raises_regex(ValueError, 'new output dimensions'): + f(x) + + def test_subclasses(self): + class subclass(np.ndarray): + pass + + m = np.array([[1., 0., 0.], + [0., 0., 1.], + [0., 1., 0.]]).view(subclass) + v = np.array([[1., 2., 3.], [4., 5., 6.], [7., 8., 9.]]).view(subclass) + # generalized (gufunc) + matvec = np.vectorize(np.matmul, signature='(m,m),(m)->(m)') + r = matvec(m, v) + assert_equal(type(r), subclass) + assert_equal(r, [[1., 3., 2.], [4., 6., 5.], [7., 9., 8.]]) + + # element-wise (ufunc) + mult = np.vectorize(lambda x, y: x*y) + r = mult(m, v) + assert_equal(type(r), subclass) + assert_equal(r, m * v) + + +class TestLeaks: + class A: + iters = 20 + + def bound(self, *args): + return 0 + + @staticmethod + def unbound(*args): + return 0 + + @pytest.mark.skipif(not HAS_REFCOUNT, reason="Python lacks refcounts") + @pytest.mark.parametrize('name, incr', [ + ('bound', A.iters), + ('unbound', 0), + ]) + def test_frompyfunc_leaks(self, name, incr): + # exposed in gh-11867 as np.vectorized, but the problem stems from + # frompyfunc. + # class.attribute = np.frompyfunc() creates a + # reference cycle if is a bound class method. It requires a + # gc collection cycle to break the cycle (on CPython 3) + import gc + A_func = getattr(self.A, name) + gc.disable() + try: + refcount = sys.getrefcount(A_func) + for i in range(self.A.iters): + a = self.A() + a.f = np.frompyfunc(getattr(a, name), 1, 1) + out = a.f(np.arange(10)) + a = None + # A.func is part of a reference cycle if incr is non-zero + assert_equal(sys.getrefcount(A_func), refcount + incr) + for i in range(5): + gc.collect() + assert_equal(sys.getrefcount(A_func), refcount) + finally: + gc.enable() + + +class TestDigitize: + + def test_forward(self): + x = np.arange(-6, 5) + bins = np.arange(-5, 5) + assert_array_equal(digitize(x, bins), np.arange(11)) + + def test_reverse(self): + x = np.arange(5, -6, -1) + bins = np.arange(5, -5, -1) + assert_array_equal(digitize(x, bins), np.arange(11)) + + def test_random(self): + x = rand(10) + bin = np.linspace(x.min(), x.max(), 10) + assert_(np.all(digitize(x, bin) != 0)) + + def test_right_basic(self): + x = [1, 5, 4, 10, 8, 11, 0] + bins = [1, 5, 10] + default_answer = [1, 2, 1, 3, 2, 3, 0] + assert_array_equal(digitize(x, bins), default_answer) + right_answer = [0, 1, 1, 2, 2, 3, 0] + assert_array_equal(digitize(x, bins, True), right_answer) + + def test_right_open(self): + x = np.arange(-6, 5) + bins = np.arange(-6, 4) + assert_array_equal(digitize(x, bins, True), np.arange(11)) + + def test_right_open_reverse(self): + x = np.arange(5, -6, -1) + bins = np.arange(4, -6, -1) + assert_array_equal(digitize(x, bins, True), np.arange(11)) + + def test_right_open_random(self): + x = rand(10) + bins = np.linspace(x.min(), x.max(), 10) + assert_(np.all(digitize(x, bins, True) != 10)) + + def test_monotonic(self): + x = [-1, 0, 1, 2] + bins = [0, 0, 1] + assert_array_equal(digitize(x, bins, False), [0, 2, 3, 3]) + assert_array_equal(digitize(x, bins, True), [0, 0, 2, 3]) + bins = [1, 1, 0] + assert_array_equal(digitize(x, bins, False), [3, 2, 0, 0]) + assert_array_equal(digitize(x, bins, True), [3, 3, 2, 0]) + bins = [1, 1, 1, 1] + assert_array_equal(digitize(x, bins, False), [0, 0, 4, 4]) + assert_array_equal(digitize(x, bins, True), [0, 0, 0, 4]) + bins = [0, 0, 1, 0] + assert_raises(ValueError, digitize, x, bins) + bins = [1, 1, 0, 1] + assert_raises(ValueError, digitize, x, bins) + + def test_casting_error(self): + x = [1, 2, 3 + 1.j] + bins = [1, 2, 3] + assert_raises(TypeError, digitize, x, bins) + x, bins = bins, x + assert_raises(TypeError, digitize, x, bins) + + def test_return_type(self): + # Functions returning indices should always return base ndarrays + class A(np.ndarray): + pass + a = np.arange(5).view(A) + b = np.arange(1, 3).view(A) + assert_(not isinstance(digitize(b, a, False), A)) + assert_(not isinstance(digitize(b, a, True), A)) + + def test_large_integers_increasing(self): + # gh-11022 + x = 2**54 # loses precision in a float + assert_equal(np.digitize(x, [x - 1, x + 1]), 1) + + @pytest.mark.xfail( + reason="gh-11022: np.core.multiarray._monoticity loses precision") + def test_large_integers_decreasing(self): + # gh-11022 + x = 2**54 # loses precision in a float + assert_equal(np.digitize(x, [x + 1, x - 1]), 1) + + +class TestUnwrap: + + def test_simple(self): + # check that unwrap removes jumps greater that 2*pi + assert_array_equal(unwrap([1, 1 + 2 * np.pi]), [1, 1]) + # check that unwrap maintains continuity + assert_(np.all(diff(unwrap(rand(10) * 100)) < np.pi)) + + def test_period(self): + # check that unwrap removes jumps greater that 255 + assert_array_equal(unwrap([1, 1 + 256], period=255), [1, 2]) + # check that unwrap maintains continuity + assert_(np.all(diff(unwrap(rand(10) * 1000, period=255)) < 255)) + # check simple case + simple_seq = np.array([0, 75, 150, 225, 300]) + wrap_seq = np.mod(simple_seq, 255) + assert_array_equal(unwrap(wrap_seq, period=255), simple_seq) + # check custom discont value + uneven_seq = np.array([0, 75, 150, 225, 300, 430]) + wrap_uneven = np.mod(uneven_seq, 250) + no_discont = unwrap(wrap_uneven, period=250) + assert_array_equal(no_discont, [0, 75, 150, 225, 300, 180]) + sm_discont = unwrap(wrap_uneven, period=250, discont=140) + assert_array_equal(sm_discont, [0, 75, 150, 225, 300, 430]) + assert sm_discont.dtype == wrap_uneven.dtype + + +@pytest.mark.parametrize( + "dtype", "O" + np.typecodes["AllInteger"] + np.typecodes["Float"] +) +@pytest.mark.parametrize("M", [0, 1, 10]) +class TestFilterwindows: + + def test_hanning(self, dtype: str, M: int) -> None: + scalar = np.array(M, dtype=dtype)[()] + + w = hanning(scalar) + if dtype == "O": + ref_dtype = np.float64 + else: + ref_dtype = np.result_type(scalar.dtype, np.float64) + assert w.dtype == ref_dtype + + # check symmetry + assert_equal(w, flipud(w)) + + # check known value + if scalar < 1: + assert_array_equal(w, np.array([])) + elif scalar == 1: + assert_array_equal(w, np.ones(1)) + else: + assert_almost_equal(np.sum(w, axis=0), 4.500, 4) + + def test_hamming(self, dtype: str, M: int) -> None: + scalar = np.array(M, dtype=dtype)[()] + + w = hamming(scalar) + if dtype == "O": + ref_dtype = np.float64 + else: + ref_dtype = np.result_type(scalar.dtype, np.float64) + assert w.dtype == ref_dtype + + # check symmetry + assert_equal(w, flipud(w)) + + # check known value + if scalar < 1: + assert_array_equal(w, np.array([])) + elif scalar == 1: + assert_array_equal(w, np.ones(1)) + else: + assert_almost_equal(np.sum(w, axis=0), 4.9400, 4) + + def test_bartlett(self, dtype: str, M: int) -> None: + scalar = np.array(M, dtype=dtype)[()] + + w = bartlett(scalar) + if dtype == "O": + ref_dtype = np.float64 + else: + ref_dtype = np.result_type(scalar.dtype, np.float64) + assert w.dtype == ref_dtype + + # check symmetry + assert_equal(w, flipud(w)) + + # check known value + if scalar < 1: + assert_array_equal(w, np.array([])) + elif scalar == 1: + assert_array_equal(w, np.ones(1)) + else: + assert_almost_equal(np.sum(w, axis=0), 4.4444, 4) + + def test_blackman(self, dtype: str, M: int) -> None: + scalar = np.array(M, dtype=dtype)[()] + + w = blackman(scalar) + if dtype == "O": + ref_dtype = np.float64 + else: + ref_dtype = np.result_type(scalar.dtype, np.float64) + assert w.dtype == ref_dtype + + # check symmetry + assert_equal(w, flipud(w)) + + # check known value + if scalar < 1: + assert_array_equal(w, np.array([])) + elif scalar == 1: + assert_array_equal(w, np.ones(1)) + else: + assert_almost_equal(np.sum(w, axis=0), 3.7800, 4) + + def test_kaiser(self, dtype: str, M: int) -> None: + scalar = np.array(M, dtype=dtype)[()] + + w = kaiser(scalar, 0) + if dtype == "O": + ref_dtype = np.float64 + else: + ref_dtype = np.result_type(scalar.dtype, np.float64) + assert w.dtype == ref_dtype + + # check symmetry + assert_equal(w, flipud(w)) + + # check known value + if scalar < 1: + assert_array_equal(w, np.array([])) + elif scalar == 1: + assert_array_equal(w, np.ones(1)) + else: + assert_almost_equal(np.sum(w, axis=0), 10, 15) + + +class TestTrapz: + + def test_simple(self): + x = np.arange(-10, 10, .1) + r = trapz(np.exp(-.5 * x ** 2) / np.sqrt(2 * np.pi), dx=0.1) + # check integral of normal equals 1 + assert_almost_equal(r, 1, 7) + + def test_ndim(self): + x = np.linspace(0, 1, 3) + y = np.linspace(0, 2, 8) + z = np.linspace(0, 3, 13) + + wx = np.ones_like(x) * (x[1] - x[0]) + wx[0] /= 2 + wx[-1] /= 2 + wy = np.ones_like(y) * (y[1] - y[0]) + wy[0] /= 2 + wy[-1] /= 2 + wz = np.ones_like(z) * (z[1] - z[0]) + wz[0] /= 2 + wz[-1] /= 2 + + q = x[:, None, None] + y[None,:, None] + z[None, None,:] + + qx = (q * wx[:, None, None]).sum(axis=0) + qy = (q * wy[None, :, None]).sum(axis=1) + qz = (q * wz[None, None, :]).sum(axis=2) + + # n-d `x` + r = trapz(q, x=x[:, None, None], axis=0) + assert_almost_equal(r, qx) + r = trapz(q, x=y[None,:, None], axis=1) + assert_almost_equal(r, qy) + r = trapz(q, x=z[None, None,:], axis=2) + assert_almost_equal(r, qz) + + # 1-d `x` + r = trapz(q, x=x, axis=0) + assert_almost_equal(r, qx) + r = trapz(q, x=y, axis=1) + assert_almost_equal(r, qy) + r = trapz(q, x=z, axis=2) + assert_almost_equal(r, qz) + + def test_masked(self): + # Testing that masked arrays behave as if the function is 0 where + # masked + x = np.arange(5) + y = x * x + mask = x == 2 + ym = np.ma.array(y, mask=mask) + r = 13.0 # sum(0.5 * (0 + 1) * 1.0 + 0.5 * (9 + 16)) + assert_almost_equal(trapz(ym, x), r) + + xm = np.ma.array(x, mask=mask) + assert_almost_equal(trapz(ym, xm), r) + + xm = np.ma.array(x, mask=mask) + assert_almost_equal(trapz(y, xm), r) + + +class TestSinc: + + def test_simple(self): + assert_(sinc(0) == 1) + w = sinc(np.linspace(-1, 1, 100)) + # check symmetry + assert_array_almost_equal(w, flipud(w), 7) + + def test_array_like(self): + x = [0, 0.5] + y1 = sinc(np.array(x)) + y2 = sinc(list(x)) + y3 = sinc(tuple(x)) + assert_array_equal(y1, y2) + assert_array_equal(y1, y3) + + +class TestUnique: + + def test_simple(self): + x = np.array([4, 3, 2, 1, 1, 2, 3, 4, 0]) + assert_(np.all(unique(x) == [0, 1, 2, 3, 4])) + assert_(unique(np.array([1, 1, 1, 1, 1])) == np.array([1])) + x = ['widget', 'ham', 'foo', 'bar', 'foo', 'ham'] + assert_(np.all(unique(x) == ['bar', 'foo', 'ham', 'widget'])) + x = np.array([5 + 6j, 1 + 1j, 1 + 10j, 10, 5 + 6j]) + assert_(np.all(unique(x) == [1 + 1j, 1 + 10j, 5 + 6j, 10])) + + +class TestCheckFinite: + + def test_simple(self): + a = [1, 2, 3] + b = [1, 2, np.inf] + c = [1, 2, np.nan] + np.lib.asarray_chkfinite(a) + assert_raises(ValueError, np.lib.asarray_chkfinite, b) + assert_raises(ValueError, np.lib.asarray_chkfinite, c) + + def test_dtype_order(self): + # Regression test for missing dtype and order arguments + a = [1, 2, 3] + a = np.lib.asarray_chkfinite(a, order='F', dtype=np.float64) + assert_(a.dtype == np.float64) + + +class TestCorrCoef: + A = np.array( + [[0.15391142, 0.18045767, 0.14197213], + [0.70461506, 0.96474128, 0.27906989], + [0.9297531, 0.32296769, 0.19267156]]) + B = np.array( + [[0.10377691, 0.5417086, 0.49807457], + [0.82872117, 0.77801674, 0.39226705], + [0.9314666, 0.66800209, 0.03538394]]) + res1 = np.array( + [[1., 0.9379533, -0.04931983], + [0.9379533, 1., 0.30007991], + [-0.04931983, 0.30007991, 1.]]) + res2 = np.array( + [[1., 0.9379533, -0.04931983, 0.30151751, 0.66318558, 0.51532523], + [0.9379533, 1., 0.30007991, -0.04781421, 0.88157256, 0.78052386], + [-0.04931983, 0.30007991, 1., -0.96717111, 0.71483595, 0.83053601], + [0.30151751, -0.04781421, -0.96717111, 1., -0.51366032, -0.66173113], + [0.66318558, 0.88157256, 0.71483595, -0.51366032, 1., 0.98317823], + [0.51532523, 0.78052386, 0.83053601, -0.66173113, 0.98317823, 1.]]) + + def test_non_array(self): + assert_almost_equal(np.corrcoef([0, 1, 0], [1, 0, 1]), + [[1., -1.], [-1., 1.]]) + + def test_simple(self): + tgt1 = corrcoef(self.A) + assert_almost_equal(tgt1, self.res1) + assert_(np.all(np.abs(tgt1) <= 1.0)) + + tgt2 = corrcoef(self.A, self.B) + assert_almost_equal(tgt2, self.res2) + assert_(np.all(np.abs(tgt2) <= 1.0)) + + def test_ddof(self): + # ddof raises DeprecationWarning + with suppress_warnings() as sup: + warnings.simplefilter("always") + assert_warns(DeprecationWarning, corrcoef, self.A, ddof=-1) + sup.filter(DeprecationWarning) + # ddof has no or negligible effect on the function + assert_almost_equal(corrcoef(self.A, ddof=-1), self.res1) + assert_almost_equal(corrcoef(self.A, self.B, ddof=-1), self.res2) + assert_almost_equal(corrcoef(self.A, ddof=3), self.res1) + assert_almost_equal(corrcoef(self.A, self.B, ddof=3), self.res2) + + def test_bias(self): + # bias raises DeprecationWarning + with suppress_warnings() as sup: + warnings.simplefilter("always") + assert_warns(DeprecationWarning, corrcoef, self.A, self.B, 1, 0) + assert_warns(DeprecationWarning, corrcoef, self.A, bias=0) + sup.filter(DeprecationWarning) + # bias has no or negligible effect on the function + assert_almost_equal(corrcoef(self.A, bias=1), self.res1) + + def test_complex(self): + x = np.array([[1, 2, 3], [1j, 2j, 3j]]) + res = corrcoef(x) + tgt = np.array([[1., -1.j], [1.j, 1.]]) + assert_allclose(res, tgt) + assert_(np.all(np.abs(res) <= 1.0)) + + def test_xy(self): + x = np.array([[1, 2, 3]]) + y = np.array([[1j, 2j, 3j]]) + assert_allclose(np.corrcoef(x, y), np.array([[1., -1.j], [1.j, 1.]])) + + def test_empty(self): + with warnings.catch_warnings(record=True): + warnings.simplefilter('always', RuntimeWarning) + assert_array_equal(corrcoef(np.array([])), np.nan) + assert_array_equal(corrcoef(np.array([]).reshape(0, 2)), + np.array([]).reshape(0, 0)) + assert_array_equal(corrcoef(np.array([]).reshape(2, 0)), + np.array([[np.nan, np.nan], [np.nan, np.nan]])) + + def test_extreme(self): + x = [[1e-100, 1e100], [1e100, 1e-100]] + with np.errstate(all='raise'): + c = corrcoef(x) + assert_array_almost_equal(c, np.array([[1., -1.], [-1., 1.]])) + assert_(np.all(np.abs(c) <= 1.0)) + + @pytest.mark.parametrize("test_type", [np.half, np.single, np.double, np.longdouble]) + def test_corrcoef_dtype(self, test_type): + cast_A = self.A.astype(test_type) + res = corrcoef(cast_A, dtype=test_type) + assert test_type == res.dtype + + +class TestCov: + x1 = np.array([[0, 2], [1, 1], [2, 0]]).T + res1 = np.array([[1., -1.], [-1., 1.]]) + x2 = np.array([0.0, 1.0, 2.0], ndmin=2) + frequencies = np.array([1, 4, 1]) + x2_repeats = np.array([[0.0], [1.0], [1.0], [1.0], [1.0], [2.0]]).T + res2 = np.array([[0.4, -0.4], [-0.4, 0.4]]) + unit_frequencies = np.ones(3, dtype=np.int_) + weights = np.array([1.0, 4.0, 1.0]) + res3 = np.array([[2. / 3., -2. / 3.], [-2. / 3., 2. / 3.]]) + unit_weights = np.ones(3) + x3 = np.array([0.3942, 0.5969, 0.7730, 0.9918, 0.7964]) + + def test_basic(self): + assert_allclose(cov(self.x1), self.res1) + + def test_complex(self): + x = np.array([[1, 2, 3], [1j, 2j, 3j]]) + res = np.array([[1., -1.j], [1.j, 1.]]) + assert_allclose(cov(x), res) + assert_allclose(cov(x, aweights=np.ones(3)), res) + + def test_xy(self): + x = np.array([[1, 2, 3]]) + y = np.array([[1j, 2j, 3j]]) + assert_allclose(cov(x, y), np.array([[1., -1.j], [1.j, 1.]])) + + def test_empty(self): + with warnings.catch_warnings(record=True): + warnings.simplefilter('always', RuntimeWarning) + assert_array_equal(cov(np.array([])), np.nan) + assert_array_equal(cov(np.array([]).reshape(0, 2)), + np.array([]).reshape(0, 0)) + assert_array_equal(cov(np.array([]).reshape(2, 0)), + np.array([[np.nan, np.nan], [np.nan, np.nan]])) + + def test_wrong_ddof(self): + with warnings.catch_warnings(record=True): + warnings.simplefilter('always', RuntimeWarning) + assert_array_equal(cov(self.x1, ddof=5), + np.array([[np.inf, -np.inf], + [-np.inf, np.inf]])) + + def test_1D_rowvar(self): + assert_allclose(cov(self.x3), cov(self.x3, rowvar=False)) + y = np.array([0.0780, 0.3107, 0.2111, 0.0334, 0.8501]) + assert_allclose(cov(self.x3, y), cov(self.x3, y, rowvar=False)) + + def test_1D_variance(self): + assert_allclose(cov(self.x3, ddof=1), np.var(self.x3, ddof=1)) + + def test_fweights(self): + assert_allclose(cov(self.x2, fweights=self.frequencies), + cov(self.x2_repeats)) + assert_allclose(cov(self.x1, fweights=self.frequencies), + self.res2) + assert_allclose(cov(self.x1, fweights=self.unit_frequencies), + self.res1) + nonint = self.frequencies + 0.5 + assert_raises(TypeError, cov, self.x1, fweights=nonint) + f = np.ones((2, 3), dtype=np.int_) + assert_raises(RuntimeError, cov, self.x1, fweights=f) + f = np.ones(2, dtype=np.int_) + assert_raises(RuntimeError, cov, self.x1, fweights=f) + f = -1 * np.ones(3, dtype=np.int_) + assert_raises(ValueError, cov, self.x1, fweights=f) + + def test_aweights(self): + assert_allclose(cov(self.x1, aweights=self.weights), self.res3) + assert_allclose(cov(self.x1, aweights=3.0 * self.weights), + cov(self.x1, aweights=self.weights)) + assert_allclose(cov(self.x1, aweights=self.unit_weights), self.res1) + w = np.ones((2, 3)) + assert_raises(RuntimeError, cov, self.x1, aweights=w) + w = np.ones(2) + assert_raises(RuntimeError, cov, self.x1, aweights=w) + w = -1.0 * np.ones(3) + assert_raises(ValueError, cov, self.x1, aweights=w) + + def test_unit_fweights_and_aweights(self): + assert_allclose(cov(self.x2, fweights=self.frequencies, + aweights=self.unit_weights), + cov(self.x2_repeats)) + assert_allclose(cov(self.x1, fweights=self.frequencies, + aweights=self.unit_weights), + self.res2) + assert_allclose(cov(self.x1, fweights=self.unit_frequencies, + aweights=self.unit_weights), + self.res1) + assert_allclose(cov(self.x1, fweights=self.unit_frequencies, + aweights=self.weights), + self.res3) + assert_allclose(cov(self.x1, fweights=self.unit_frequencies, + aweights=3.0 * self.weights), + cov(self.x1, aweights=self.weights)) + assert_allclose(cov(self.x1, fweights=self.unit_frequencies, + aweights=self.unit_weights), + self.res1) + + @pytest.mark.parametrize("test_type", [np.half, np.single, np.double, np.longdouble]) + def test_cov_dtype(self, test_type): + cast_x1 = self.x1.astype(test_type) + res = cov(cast_x1, dtype=test_type) + assert test_type == res.dtype + + +class Test_I0: + + def test_simple(self): + assert_almost_equal( + i0(0.5), + np.array(1.0634833707413234)) + + # need at least one test above 8, as the implementation is piecewise + A = np.array([0.49842636, 0.6969809, 0.22011976, 0.0155549, 10.0]) + expected = np.array([1.06307822, 1.12518299, 1.01214991, 1.00006049, 2815.71662847]) + assert_almost_equal(i0(A), expected) + assert_almost_equal(i0(-A), expected) + + B = np.array([[0.827002, 0.99959078], + [0.89694769, 0.39298162], + [0.37954418, 0.05206293], + [0.36465447, 0.72446427], + [0.48164949, 0.50324519]]) + assert_almost_equal( + i0(B), + np.array([[1.17843223, 1.26583466], + [1.21147086, 1.03898290], + [1.03633899, 1.00067775], + [1.03352052, 1.13557954], + [1.05884290, 1.06432317]])) + # Regression test for gh-11205 + i0_0 = np.i0([0.]) + assert_equal(i0_0.shape, (1,)) + assert_array_equal(np.i0([0.]), np.array([1.])) + + def test_non_array(self): + a = np.arange(4) + + class array_like: + __array_interface__ = a.__array_interface__ + + def __array_wrap__(self, arr): + return self + + # E.g. pandas series survive ufunc calls through array-wrap: + assert isinstance(np.abs(array_like()), array_like) + exp = np.i0(a) + res = np.i0(array_like()) + + assert_array_equal(exp, res) + + def test_complex(self): + a = np.array([0, 1 + 2j]) + with pytest.raises(TypeError, match="i0 not supported for complex values"): + res = i0(a) + + +class TestKaiser: + + def test_simple(self): + assert_(np.isfinite(kaiser(1, 1.0))) + assert_almost_equal(kaiser(0, 1.0), + np.array([])) + assert_almost_equal(kaiser(2, 1.0), + np.array([0.78984831, 0.78984831])) + assert_almost_equal(kaiser(5, 1.0), + np.array([0.78984831, 0.94503323, 1., + 0.94503323, 0.78984831])) + assert_almost_equal(kaiser(5, 1.56789), + np.array([0.58285404, 0.88409679, 1., + 0.88409679, 0.58285404])) + + def test_int_beta(self): + kaiser(3, 4) + + +class TestMsort: + + def test_simple(self): + A = np.array([[0.44567325, 0.79115165, 0.54900530], + [0.36844147, 0.37325583, 0.96098397], + [0.64864341, 0.52929049, 0.39172155]]) + assert_almost_equal( + msort(A), + np.array([[0.36844147, 0.37325583, 0.39172155], + [0.44567325, 0.52929049, 0.54900530], + [0.64864341, 0.79115165, 0.96098397]])) + + +class TestMeshgrid: + + def test_simple(self): + [X, Y] = meshgrid([1, 2, 3], [4, 5, 6, 7]) + assert_array_equal(X, np.array([[1, 2, 3], + [1, 2, 3], + [1, 2, 3], + [1, 2, 3]])) + assert_array_equal(Y, np.array([[4, 4, 4], + [5, 5, 5], + [6, 6, 6], + [7, 7, 7]])) + + def test_single_input(self): + [X] = meshgrid([1, 2, 3, 4]) + assert_array_equal(X, np.array([1, 2, 3, 4])) + + def test_no_input(self): + args = [] + assert_array_equal([], meshgrid(*args)) + assert_array_equal([], meshgrid(*args, copy=False)) + + def test_indexing(self): + x = [1, 2, 3] + y = [4, 5, 6, 7] + [X, Y] = meshgrid(x, y, indexing='ij') + assert_array_equal(X, np.array([[1, 1, 1, 1], + [2, 2, 2, 2], + [3, 3, 3, 3]])) + assert_array_equal(Y, np.array([[4, 5, 6, 7], + [4, 5, 6, 7], + [4, 5, 6, 7]])) + + # Test expected shapes: + z = [8, 9] + assert_(meshgrid(x, y)[0].shape == (4, 3)) + assert_(meshgrid(x, y, indexing='ij')[0].shape == (3, 4)) + assert_(meshgrid(x, y, z)[0].shape == (4, 3, 2)) + assert_(meshgrid(x, y, z, indexing='ij')[0].shape == (3, 4, 2)) + + assert_raises(ValueError, meshgrid, x, y, indexing='notvalid') + + def test_sparse(self): + [X, Y] = meshgrid([1, 2, 3], [4, 5, 6, 7], sparse=True) + assert_array_equal(X, np.array([[1, 2, 3]])) + assert_array_equal(Y, np.array([[4], [5], [6], [7]])) + + def test_invalid_arguments(self): + # Test that meshgrid complains about invalid arguments + # Regression test for issue #4755: + # https://github.com/numpy/numpy/issues/4755 + assert_raises(TypeError, meshgrid, + [1, 2, 3], [4, 5, 6, 7], indices='ij') + + def test_return_type(self): + # Test for appropriate dtype in returned arrays. + # Regression test for issue #5297 + # https://github.com/numpy/numpy/issues/5297 + x = np.arange(0, 10, dtype=np.float32) + y = np.arange(10, 20, dtype=np.float64) + + X, Y = np.meshgrid(x,y) + + assert_(X.dtype == x.dtype) + assert_(Y.dtype == y.dtype) + + # copy + X, Y = np.meshgrid(x,y, copy=True) + + assert_(X.dtype == x.dtype) + assert_(Y.dtype == y.dtype) + + # sparse + X, Y = np.meshgrid(x,y, sparse=True) + + assert_(X.dtype == x.dtype) + assert_(Y.dtype == y.dtype) + + def test_writeback(self): + # Issue 8561 + X = np.array([1.1, 2.2]) + Y = np.array([3.3, 4.4]) + x, y = np.meshgrid(X, Y, sparse=False, copy=True) + + x[0, :] = 0 + assert_equal(x[0, :], 0) + assert_equal(x[1, :], X) + + def test_nd_shape(self): + a, b, c, d, e = np.meshgrid(*([0] * i for i in range(1, 6))) + expected_shape = (2, 1, 3, 4, 5) + assert_equal(a.shape, expected_shape) + assert_equal(b.shape, expected_shape) + assert_equal(c.shape, expected_shape) + assert_equal(d.shape, expected_shape) + assert_equal(e.shape, expected_shape) + + def test_nd_values(self): + a, b, c = np.meshgrid([0], [1, 2], [3, 4, 5]) + assert_equal(a, [[[0, 0, 0]], [[0, 0, 0]]]) + assert_equal(b, [[[1, 1, 1]], [[2, 2, 2]]]) + assert_equal(c, [[[3, 4, 5]], [[3, 4, 5]]]) + + def test_nd_indexing(self): + a, b, c = np.meshgrid([0], [1, 2], [3, 4, 5], indexing='ij') + assert_equal(a, [[[0, 0, 0], [0, 0, 0]]]) + assert_equal(b, [[[1, 1, 1], [2, 2, 2]]]) + assert_equal(c, [[[3, 4, 5], [3, 4, 5]]]) + + +class TestPiecewise: + + def test_simple(self): + # Condition is single bool list + x = piecewise([0, 0], [True, False], [1]) + assert_array_equal(x, [1, 0]) + + # List of conditions: single bool list + x = piecewise([0, 0], [[True, False]], [1]) + assert_array_equal(x, [1, 0]) + + # Conditions is single bool array + x = piecewise([0, 0], np.array([True, False]), [1]) + assert_array_equal(x, [1, 0]) + + # Condition is single int array + x = piecewise([0, 0], np.array([1, 0]), [1]) + assert_array_equal(x, [1, 0]) + + # List of conditions: int array + x = piecewise([0, 0], [np.array([1, 0])], [1]) + assert_array_equal(x, [1, 0]) + + x = piecewise([0, 0], [[False, True]], [lambda x:-1]) + assert_array_equal(x, [0, -1]) + + assert_raises_regex(ValueError, '1 or 2 functions are expected', + piecewise, [0, 0], [[False, True]], []) + assert_raises_regex(ValueError, '1 or 2 functions are expected', + piecewise, [0, 0], [[False, True]], [1, 2, 3]) + + def test_two_conditions(self): + x = piecewise([1, 2], [[True, False], [False, True]], [3, 4]) + assert_array_equal(x, [3, 4]) + + def test_scalar_domains_three_conditions(self): + x = piecewise(3, [True, False, False], [4, 2, 0]) + assert_equal(x, 4) + + def test_default(self): + # No value specified for x[1], should be 0 + x = piecewise([1, 2], [True, False], [2]) + assert_array_equal(x, [2, 0]) + + # Should set x[1] to 3 + x = piecewise([1, 2], [True, False], [2, 3]) + assert_array_equal(x, [2, 3]) + + def test_0d(self): + x = np.array(3) + y = piecewise(x, x > 3, [4, 0]) + assert_(y.ndim == 0) + assert_(y == 0) + + x = 5 + y = piecewise(x, [True, False], [1, 0]) + assert_(y.ndim == 0) + assert_(y == 1) + + # With 3 ranges (It was failing, before) + y = piecewise(x, [False, False, True], [1, 2, 3]) + assert_array_equal(y, 3) + + def test_0d_comparison(self): + x = 3 + y = piecewise(x, [x <= 3, x > 3], [4, 0]) # Should succeed. + assert_equal(y, 4) + + # With 3 ranges (It was failing, before) + x = 4 + y = piecewise(x, [x <= 3, (x > 3) * (x <= 5), x > 5], [1, 2, 3]) + assert_array_equal(y, 2) + + assert_raises_regex(ValueError, '2 or 3 functions are expected', + piecewise, x, [x <= 3, x > 3], [1]) + assert_raises_regex(ValueError, '2 or 3 functions are expected', + piecewise, x, [x <= 3, x > 3], [1, 1, 1, 1]) + + def test_0d_0d_condition(self): + x = np.array(3) + c = np.array(x > 3) + y = piecewise(x, [c], [1, 2]) + assert_equal(y, 2) + + def test_multidimensional_extrafunc(self): + x = np.array([[-2.5, -1.5, -0.5], + [0.5, 1.5, 2.5]]) + y = piecewise(x, [x < 0, x >= 2], [-1, 1, 3]) + assert_array_equal(y, np.array([[-1., -1., -1.], + [3., 3., 1.]])) + + def test_subclasses(self): + class subclass(np.ndarray): + pass + x = np.arange(5.).view(subclass) + r = piecewise(x, [x<2., x>=4], [-1., 1., 0.]) + assert_equal(type(r), subclass) + assert_equal(r, [-1., -1., 0., 0., 1.]) + + +class TestBincount: + + def test_simple(self): + y = np.bincount(np.arange(4)) + assert_array_equal(y, np.ones(4)) + + def test_simple2(self): + y = np.bincount(np.array([1, 5, 2, 4, 1])) + assert_array_equal(y, np.array([0, 2, 1, 0, 1, 1])) + + def test_simple_weight(self): + x = np.arange(4) + w = np.array([0.2, 0.3, 0.5, 0.1]) + y = np.bincount(x, w) + assert_array_equal(y, w) + + def test_simple_weight2(self): + x = np.array([1, 2, 4, 5, 2]) + w = np.array([0.2, 0.3, 0.5, 0.1, 0.2]) + y = np.bincount(x, w) + assert_array_equal(y, np.array([0, 0.2, 0.5, 0, 0.5, 0.1])) + + def test_with_minlength(self): + x = np.array([0, 1, 0, 1, 1]) + y = np.bincount(x, minlength=3) + assert_array_equal(y, np.array([2, 3, 0])) + x = [] + y = np.bincount(x, minlength=0) + assert_array_equal(y, np.array([])) + + def test_with_minlength_smaller_than_maxvalue(self): + x = np.array([0, 1, 1, 2, 2, 3, 3]) + y = np.bincount(x, minlength=2) + assert_array_equal(y, np.array([1, 2, 2, 2])) + y = np.bincount(x, minlength=0) + assert_array_equal(y, np.array([1, 2, 2, 2])) + + def test_with_minlength_and_weights(self): + x = np.array([1, 2, 4, 5, 2]) + w = np.array([0.2, 0.3, 0.5, 0.1, 0.2]) + y = np.bincount(x, w, 8) + assert_array_equal(y, np.array([0, 0.2, 0.5, 0, 0.5, 0.1, 0, 0])) + + def test_empty(self): + x = np.array([], dtype=int) + y = np.bincount(x) + assert_array_equal(x, y) + + def test_empty_with_minlength(self): + x = np.array([], dtype=int) + y = np.bincount(x, minlength=5) + assert_array_equal(y, np.zeros(5, dtype=int)) + + def test_with_incorrect_minlength(self): + x = np.array([], dtype=int) + assert_raises_regex(TypeError, + "'str' object cannot be interpreted", + lambda: np.bincount(x, minlength="foobar")) + assert_raises_regex(ValueError, + "must not be negative", + lambda: np.bincount(x, minlength=-1)) + + x = np.arange(5) + assert_raises_regex(TypeError, + "'str' object cannot be interpreted", + lambda: np.bincount(x, minlength="foobar")) + assert_raises_regex(ValueError, + "must not be negative", + lambda: np.bincount(x, minlength=-1)) + + @pytest.mark.skipif(not HAS_REFCOUNT, reason="Python lacks refcounts") + def test_dtype_reference_leaks(self): + # gh-6805 + intp_refcount = sys.getrefcount(np.dtype(np.intp)) + double_refcount = sys.getrefcount(np.dtype(np.double)) + + for j in range(10): + np.bincount([1, 2, 3]) + assert_equal(sys.getrefcount(np.dtype(np.intp)), intp_refcount) + assert_equal(sys.getrefcount(np.dtype(np.double)), double_refcount) + + for j in range(10): + np.bincount([1, 2, 3], [4, 5, 6]) + assert_equal(sys.getrefcount(np.dtype(np.intp)), intp_refcount) + assert_equal(sys.getrefcount(np.dtype(np.double)), double_refcount) + + @pytest.mark.parametrize("vals", [[[2, 2]], 2]) + def test_error_not_1d(self, vals): + # Test that values has to be 1-D (both as array and nested list) + vals_arr = np.asarray(vals) + with assert_raises(ValueError): + np.bincount(vals_arr) + with assert_raises(ValueError): + np.bincount(vals) + + +class TestInterp: + + def test_exceptions(self): + assert_raises(ValueError, interp, 0, [], []) + assert_raises(ValueError, interp, 0, [0], [1, 2]) + assert_raises(ValueError, interp, 0, [0, 1], [1, 2], period=0) + assert_raises(ValueError, interp, 0, [], [], period=360) + assert_raises(ValueError, interp, 0, [0], [1, 2], period=360) + + def test_basic(self): + x = np.linspace(0, 1, 5) + y = np.linspace(0, 1, 5) + x0 = np.linspace(0, 1, 50) + assert_almost_equal(np.interp(x0, x, y), x0) + + def test_right_left_behavior(self): + # Needs range of sizes to test different code paths. + # size ==1 is special cased, 1 < size < 5 is linear search, and + # size >= 5 goes through local search and possibly binary search. + for size in range(1, 10): + xp = np.arange(size, dtype=np.double) + yp = np.ones(size, dtype=np.double) + incpts = np.array([-1, 0, size - 1, size], dtype=np.double) + decpts = incpts[::-1] + + incres = interp(incpts, xp, yp) + decres = interp(decpts, xp, yp) + inctgt = np.array([1, 1, 1, 1], dtype=float) + dectgt = inctgt[::-1] + assert_equal(incres, inctgt) + assert_equal(decres, dectgt) + + incres = interp(incpts, xp, yp, left=0) + decres = interp(decpts, xp, yp, left=0) + inctgt = np.array([0, 1, 1, 1], dtype=float) + dectgt = inctgt[::-1] + assert_equal(incres, inctgt) + assert_equal(decres, dectgt) + + incres = interp(incpts, xp, yp, right=2) + decres = interp(decpts, xp, yp, right=2) + inctgt = np.array([1, 1, 1, 2], dtype=float) + dectgt = inctgt[::-1] + assert_equal(incres, inctgt) + assert_equal(decres, dectgt) + + incres = interp(incpts, xp, yp, left=0, right=2) + decres = interp(decpts, xp, yp, left=0, right=2) + inctgt = np.array([0, 1, 1, 2], dtype=float) + dectgt = inctgt[::-1] + assert_equal(incres, inctgt) + assert_equal(decres, dectgt) + + def test_scalar_interpolation_point(self): + x = np.linspace(0, 1, 5) + y = np.linspace(0, 1, 5) + x0 = 0 + assert_almost_equal(np.interp(x0, x, y), x0) + x0 = .3 + assert_almost_equal(np.interp(x0, x, y), x0) + x0 = np.float32(.3) + assert_almost_equal(np.interp(x0, x, y), x0) + x0 = np.float64(.3) + assert_almost_equal(np.interp(x0, x, y), x0) + x0 = np.nan + assert_almost_equal(np.interp(x0, x, y), x0) + + def test_non_finite_behavior_exact_x(self): + x = [1, 2, 2.5, 3, 4] + xp = [1, 2, 3, 4] + fp = [1, 2, np.inf, 4] + assert_almost_equal(np.interp(x, xp, fp), [1, 2, np.inf, np.inf, 4]) + fp = [1, 2, np.nan, 4] + assert_almost_equal(np.interp(x, xp, fp), [1, 2, np.nan, np.nan, 4]) + + @pytest.fixture(params=[ + lambda x: np.float_(x), + lambda x: _make_complex(x, 0), + lambda x: _make_complex(0, x), + lambda x: _make_complex(x, np.multiply(x, -2)) + ], ids=[ + 'real', + 'complex-real', + 'complex-imag', + 'complex-both' + ]) + def sc(self, request): + """ scale function used by the below tests """ + return request.param + + def test_non_finite_any_nan(self, sc): + """ test that nans are propagated """ + assert_equal(np.interp(0.5, [np.nan, 1], sc([ 0, 10])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, np.nan], sc([ 0, 10])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, 1], sc([np.nan, 10])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, 1], sc([ 0, np.nan])), sc(np.nan)) + + def test_non_finite_inf(self, sc): + """ Test that interp between opposite infs gives nan """ + assert_equal(np.interp(0.5, [-np.inf, +np.inf], sc([ 0, 10])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, 1], sc([-np.inf, +np.inf])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, 1], sc([+np.inf, -np.inf])), sc(np.nan)) + + # unless the y values are equal + assert_equal(np.interp(0.5, [-np.inf, +np.inf], sc([ 10, 10])), sc(10)) + + def test_non_finite_half_inf_xf(self, sc): + """ Test that interp where both axes have a bound at inf gives nan """ + assert_equal(np.interp(0.5, [-np.inf, 1], sc([-np.inf, 10])), sc(np.nan)) + assert_equal(np.interp(0.5, [-np.inf, 1], sc([+np.inf, 10])), sc(np.nan)) + assert_equal(np.interp(0.5, [-np.inf, 1], sc([ 0, -np.inf])), sc(np.nan)) + assert_equal(np.interp(0.5, [-np.inf, 1], sc([ 0, +np.inf])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, +np.inf], sc([-np.inf, 10])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, +np.inf], sc([+np.inf, 10])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, +np.inf], sc([ 0, -np.inf])), sc(np.nan)) + assert_equal(np.interp(0.5, [ 0, +np.inf], sc([ 0, +np.inf])), sc(np.nan)) + + def test_non_finite_half_inf_x(self, sc): + """ Test interp where the x axis has a bound at inf """ + assert_equal(np.interp(0.5, [-np.inf, -np.inf], sc([0, 10])), sc(10)) + assert_equal(np.interp(0.5, [-np.inf, 1 ], sc([0, 10])), sc(10)) + assert_equal(np.interp(0.5, [ 0, +np.inf], sc([0, 10])), sc(0)) + assert_equal(np.interp(0.5, [+np.inf, +np.inf], sc([0, 10])), sc(0)) + + def test_non_finite_half_inf_f(self, sc): + """ Test interp where the f axis has a bound at inf """ + assert_equal(np.interp(0.5, [0, 1], sc([ 0, -np.inf])), sc(-np.inf)) + assert_equal(np.interp(0.5, [0, 1], sc([ 0, +np.inf])), sc(+np.inf)) + assert_equal(np.interp(0.5, [0, 1], sc([-np.inf, 10])), sc(-np.inf)) + assert_equal(np.interp(0.5, [0, 1], sc([+np.inf, 10])), sc(+np.inf)) + assert_equal(np.interp(0.5, [0, 1], sc([-np.inf, -np.inf])), sc(-np.inf)) + assert_equal(np.interp(0.5, [0, 1], sc([+np.inf, +np.inf])), sc(+np.inf)) + + def test_complex_interp(self): + # test complex interpolation + x = np.linspace(0, 1, 5) + y = np.linspace(0, 1, 5) + (1 + np.linspace(0, 1, 5))*1.0j + x0 = 0.3 + y0 = x0 + (1+x0)*1.0j + assert_almost_equal(np.interp(x0, x, y), y0) + # test complex left and right + x0 = -1 + left = 2 + 3.0j + assert_almost_equal(np.interp(x0, x, y, left=left), left) + x0 = 2.0 + right = 2 + 3.0j + assert_almost_equal(np.interp(x0, x, y, right=right), right) + # test complex non finite + x = [1, 2, 2.5, 3, 4] + xp = [1, 2, 3, 4] + fp = [1, 2+1j, np.inf, 4] + y = [1, 2+1j, np.inf+0.5j, np.inf, 4] + assert_almost_equal(np.interp(x, xp, fp), y) + # test complex periodic + x = [-180, -170, -185, 185, -10, -5, 0, 365] + xp = [190, -190, 350, -350] + fp = [5+1.0j, 10+2j, 3+3j, 4+4j] + y = [7.5+1.5j, 5.+1.0j, 8.75+1.75j, 6.25+1.25j, 3.+3j, 3.25+3.25j, + 3.5+3.5j, 3.75+3.75j] + assert_almost_equal(np.interp(x, xp, fp, period=360), y) + + def test_zero_dimensional_interpolation_point(self): + x = np.linspace(0, 1, 5) + y = np.linspace(0, 1, 5) + x0 = np.array(.3) + assert_almost_equal(np.interp(x0, x, y), x0) + + xp = np.array([0, 2, 4]) + fp = np.array([1, -1, 1]) + + actual = np.interp(np.array(1), xp, fp) + assert_equal(actual, 0) + assert_(isinstance(actual, np.float64)) + + actual = np.interp(np.array(4.5), xp, fp, period=4) + assert_equal(actual, 0.5) + assert_(isinstance(actual, np.float64)) + + def test_if_len_x_is_small(self): + xp = np.arange(0, 10, 0.0001) + fp = np.sin(xp) + assert_almost_equal(np.interp(np.pi, xp, fp), 0.0) + + def test_period(self): + x = [-180, -170, -185, 185, -10, -5, 0, 365] + xp = [190, -190, 350, -350] + fp = [5, 10, 3, 4] + y = [7.5, 5., 8.75, 6.25, 3., 3.25, 3.5, 3.75] + assert_almost_equal(np.interp(x, xp, fp, period=360), y) + x = np.array(x, order='F').reshape(2, -1) + y = np.array(y, order='C').reshape(2, -1) + assert_almost_equal(np.interp(x, xp, fp, period=360), y) + + +class TestPercentile: + + def test_basic(self): + x = np.arange(8) * 0.5 + assert_equal(np.percentile(x, 0), 0.) + assert_equal(np.percentile(x, 100), 3.5) + assert_equal(np.percentile(x, 50), 1.75) + x[1] = np.nan + assert_equal(np.percentile(x, 0), np.nan) + assert_equal(np.percentile(x, 0, method='nearest'), np.nan) + + def test_fraction(self): + x = [Fraction(i, 2) for i in range(8)] + + p = np.percentile(x, Fraction(0)) + assert_equal(p, Fraction(0)) + assert_equal(type(p), Fraction) + + p = np.percentile(x, Fraction(100)) + assert_equal(p, Fraction(7, 2)) + assert_equal(type(p), Fraction) + + p = np.percentile(x, Fraction(50)) + assert_equal(p, Fraction(7, 4)) + assert_equal(type(p), Fraction) + + p = np.percentile(x, [Fraction(50)]) + assert_equal(p, np.array([Fraction(7, 4)])) + assert_equal(type(p), np.ndarray) + + def test_api(self): + d = np.ones(5) + np.percentile(d, 5, None, None, False) + np.percentile(d, 5, None, None, False, 'linear') + o = np.ones((1,)) + np.percentile(d, 5, None, o, False, 'linear') + + def test_2D(self): + x = np.array([[1, 1, 1], + [1, 1, 1], + [4, 4, 3], + [1, 1, 1], + [1, 1, 1]]) + assert_array_equal(np.percentile(x, 50, axis=0), [1, 1, 1]) + + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + def test_linear_nan_1D(self, dtype): + # METHOD 1 of H&F + arr = np.asarray([15.0, np.NAN, 35.0, 40.0, 50.0], dtype=dtype) + res = np.percentile( + arr, + 40.0, + method="linear") + np.testing.assert_equal(res, np.NAN) + np.testing.assert_equal(res.dtype, arr.dtype) + + H_F_TYPE_CODES = [(int_type, np.float64) + for int_type in np.typecodes["AllInteger"] + ] + [(np.float16, np.float64), + (np.float32, np.float64), + (np.float64, np.float64), + (np.longdouble, np.longdouble), + (np.complex64, np.complex128), + (np.complex128, np.complex128), + (np.clongdouble, np.clongdouble), + (np.dtype("O"), np.float64)] + + @pytest.mark.parametrize(["input_dtype", "expected_dtype"], H_F_TYPE_CODES) + @pytest.mark.parametrize(["method", "expected"], + [("inverted_cdf", 20), + ("averaged_inverted_cdf", 27.5), + ("closest_observation", 20), + ("interpolated_inverted_cdf", 20), + ("hazen", 27.5), + ("weibull", 26), + ("linear", 29), + ("median_unbiased", 27), + ("normal_unbiased", 27.125), + ]) + def test_linear_interpolation(self, + method, + expected, + input_dtype, + expected_dtype): + arr = np.asarray([15.0, 20.0, 35.0, 40.0, 50.0], dtype=input_dtype) + actual = np.percentile(arr, 40.0, method=method) + + np.testing.assert_almost_equal(actual, expected, 14) + + if method in ["inverted_cdf", "closest_observation"]: + if input_dtype == "O": + np.testing.assert_equal(np.asarray(actual).dtype, np.float64) + else: + np.testing.assert_equal(np.asarray(actual).dtype, + np.dtype(input_dtype)) + else: + np.testing.assert_equal(np.asarray(actual).dtype, + np.dtype(expected_dtype)) + + TYPE_CODES = np.typecodes["AllInteger"] + np.typecodes["AllFloat"] + "O" + + @pytest.mark.parametrize("dtype", TYPE_CODES) + def test_lower_higher(self, dtype): + assert_equal(np.percentile(np.arange(10, dtype=dtype), 50, + method='lower'), 4) + assert_equal(np.percentile(np.arange(10, dtype=dtype), 50, + method='higher'), 5) + + @pytest.mark.parametrize("dtype", TYPE_CODES) + def test_midpoint(self, dtype): + assert_equal(np.percentile(np.arange(10, dtype=dtype), 51, + method='midpoint'), 4.5) + assert_equal(np.percentile(np.arange(9, dtype=dtype) + 1, 50, + method='midpoint'), 5) + assert_equal(np.percentile(np.arange(11, dtype=dtype), 51, + method='midpoint'), 5.5) + assert_equal(np.percentile(np.arange(11, dtype=dtype), 50, + method='midpoint'), 5) + + @pytest.mark.parametrize("dtype", TYPE_CODES) + def test_nearest(self, dtype): + assert_equal(np.percentile(np.arange(10, dtype=dtype), 51, + method='nearest'), 5) + assert_equal(np.percentile(np.arange(10, dtype=dtype), 49, + method='nearest'), 4) + + def test_linear_interpolation_extrapolation(self): + arr = np.random.rand(5) + + actual = np.percentile(arr, 100) + np.testing.assert_equal(actual, arr.max()) + + actual = np.percentile(arr, 0) + np.testing.assert_equal(actual, arr.min()) + + def test_sequence(self): + x = np.arange(8) * 0.5 + assert_equal(np.percentile(x, [0, 100, 50]), [0, 3.5, 1.75]) + + def test_axis(self): + x = np.arange(12).reshape(3, 4) + + assert_equal(np.percentile(x, (25, 50, 100)), [2.75, 5.5, 11.0]) + + r0 = [[2, 3, 4, 5], [4, 5, 6, 7], [8, 9, 10, 11]] + assert_equal(np.percentile(x, (25, 50, 100), axis=0), r0) + + r1 = [[0.75, 1.5, 3], [4.75, 5.5, 7], [8.75, 9.5, 11]] + assert_equal(np.percentile(x, (25, 50, 100), axis=1), np.array(r1).T) + + # ensure qth axis is always first as with np.array(old_percentile(..)) + x = np.arange(3 * 4 * 5 * 6).reshape(3, 4, 5, 6) + assert_equal(np.percentile(x, (25, 50)).shape, (2,)) + assert_equal(np.percentile(x, (25, 50, 75)).shape, (3,)) + assert_equal(np.percentile(x, (25, 50), axis=0).shape, (2, 4, 5, 6)) + assert_equal(np.percentile(x, (25, 50), axis=1).shape, (2, 3, 5, 6)) + assert_equal(np.percentile(x, (25, 50), axis=2).shape, (2, 3, 4, 6)) + assert_equal(np.percentile(x, (25, 50), axis=3).shape, (2, 3, 4, 5)) + assert_equal( + np.percentile(x, (25, 50, 75), axis=1).shape, (3, 3, 5, 6)) + assert_equal(np.percentile(x, (25, 50), + method="higher").shape, (2,)) + assert_equal(np.percentile(x, (25, 50, 75), + method="higher").shape, (3,)) + assert_equal(np.percentile(x, (25, 50), axis=0, + method="higher").shape, (2, 4, 5, 6)) + assert_equal(np.percentile(x, (25, 50), axis=1, + method="higher").shape, (2, 3, 5, 6)) + assert_equal(np.percentile(x, (25, 50), axis=2, + method="higher").shape, (2, 3, 4, 6)) + assert_equal(np.percentile(x, (25, 50), axis=3, + method="higher").shape, (2, 3, 4, 5)) + assert_equal(np.percentile(x, (25, 50, 75), axis=1, + method="higher").shape, (3, 3, 5, 6)) + + def test_scalar_q(self): + # test for no empty dimensions for compatibility with old percentile + x = np.arange(12).reshape(3, 4) + assert_equal(np.percentile(x, 50), 5.5) + assert_(np.isscalar(np.percentile(x, 50))) + r0 = np.array([4., 5., 6., 7.]) + assert_equal(np.percentile(x, 50, axis=0), r0) + assert_equal(np.percentile(x, 50, axis=0).shape, r0.shape) + r1 = np.array([1.5, 5.5, 9.5]) + assert_almost_equal(np.percentile(x, 50, axis=1), r1) + assert_equal(np.percentile(x, 50, axis=1).shape, r1.shape) + + out = np.empty(1) + assert_equal(np.percentile(x, 50, out=out), 5.5) + assert_equal(out, 5.5) + out = np.empty(4) + assert_equal(np.percentile(x, 50, axis=0, out=out), r0) + assert_equal(out, r0) + out = np.empty(3) + assert_equal(np.percentile(x, 50, axis=1, out=out), r1) + assert_equal(out, r1) + + # test for no empty dimensions for compatibility with old percentile + x = np.arange(12).reshape(3, 4) + assert_equal(np.percentile(x, 50, method='lower'), 5.) + assert_(np.isscalar(np.percentile(x, 50))) + r0 = np.array([4., 5., 6., 7.]) + c0 = np.percentile(x, 50, method='lower', axis=0) + assert_equal(c0, r0) + assert_equal(c0.shape, r0.shape) + r1 = np.array([1., 5., 9.]) + c1 = np.percentile(x, 50, method='lower', axis=1) + assert_almost_equal(c1, r1) + assert_equal(c1.shape, r1.shape) + + out = np.empty((), dtype=x.dtype) + c = np.percentile(x, 50, method='lower', out=out) + assert_equal(c, 5) + assert_equal(out, 5) + out = np.empty(4, dtype=x.dtype) + c = np.percentile(x, 50, method='lower', axis=0, out=out) + assert_equal(c, r0) + assert_equal(out, r0) + out = np.empty(3, dtype=x.dtype) + c = np.percentile(x, 50, method='lower', axis=1, out=out) + assert_equal(c, r1) + assert_equal(out, r1) + + def test_exception(self): + assert_raises(ValueError, np.percentile, [1, 2], 56, + method='foobar') + assert_raises(ValueError, np.percentile, [1], 101) + assert_raises(ValueError, np.percentile, [1], -1) + assert_raises(ValueError, np.percentile, [1], list(range(50)) + [101]) + assert_raises(ValueError, np.percentile, [1], list(range(50)) + [-0.1]) + + def test_percentile_list(self): + assert_equal(np.percentile([1, 2, 3], 0), 1) + + def test_percentile_out(self): + x = np.array([1, 2, 3]) + y = np.zeros((3,)) + p = (1, 2, 3) + np.percentile(x, p, out=y) + assert_equal(np.percentile(x, p), y) + + x = np.array([[1, 2, 3], + [4, 5, 6]]) + + y = np.zeros((3, 3)) + np.percentile(x, p, axis=0, out=y) + assert_equal(np.percentile(x, p, axis=0), y) + + y = np.zeros((3, 2)) + np.percentile(x, p, axis=1, out=y) + assert_equal(np.percentile(x, p, axis=1), y) + + x = np.arange(12).reshape(3, 4) + # q.dim > 1, float + r0 = np.array([[2., 3., 4., 5.], [4., 5., 6., 7.]]) + out = np.empty((2, 4)) + assert_equal(np.percentile(x, (25, 50), axis=0, out=out), r0) + assert_equal(out, r0) + r1 = np.array([[0.75, 4.75, 8.75], [1.5, 5.5, 9.5]]) + out = np.empty((2, 3)) + assert_equal(np.percentile(x, (25, 50), axis=1, out=out), r1) + assert_equal(out, r1) + + # q.dim > 1, int + r0 = np.array([[0, 1, 2, 3], [4, 5, 6, 7]]) + out = np.empty((2, 4), dtype=x.dtype) + c = np.percentile(x, (25, 50), method='lower', axis=0, out=out) + assert_equal(c, r0) + assert_equal(out, r0) + r1 = np.array([[0, 4, 8], [1, 5, 9]]) + out = np.empty((2, 3), dtype=x.dtype) + c = np.percentile(x, (25, 50), method='lower', axis=1, out=out) + assert_equal(c, r1) + assert_equal(out, r1) + + def test_percentile_empty_dim(self): + # empty dims are preserved + d = np.arange(11 * 2).reshape(11, 1, 2, 1) + assert_array_equal(np.percentile(d, 50, axis=0).shape, (1, 2, 1)) + assert_array_equal(np.percentile(d, 50, axis=1).shape, (11, 2, 1)) + assert_array_equal(np.percentile(d, 50, axis=2).shape, (11, 1, 1)) + assert_array_equal(np.percentile(d, 50, axis=3).shape, (11, 1, 2)) + assert_array_equal(np.percentile(d, 50, axis=-1).shape, (11, 1, 2)) + assert_array_equal(np.percentile(d, 50, axis=-2).shape, (11, 1, 1)) + assert_array_equal(np.percentile(d, 50, axis=-3).shape, (11, 2, 1)) + assert_array_equal(np.percentile(d, 50, axis=-4).shape, (1, 2, 1)) + + assert_array_equal(np.percentile(d, 50, axis=2, + method='midpoint').shape, + (11, 1, 1)) + assert_array_equal(np.percentile(d, 50, axis=-2, + method='midpoint').shape, + (11, 1, 1)) + + assert_array_equal(np.array(np.percentile(d, [10, 50], axis=0)).shape, + (2, 1, 2, 1)) + assert_array_equal(np.array(np.percentile(d, [10, 50], axis=1)).shape, + (2, 11, 2, 1)) + assert_array_equal(np.array(np.percentile(d, [10, 50], axis=2)).shape, + (2, 11, 1, 1)) + assert_array_equal(np.array(np.percentile(d, [10, 50], axis=3)).shape, + (2, 11, 1, 2)) + + def test_percentile_no_overwrite(self): + a = np.array([2, 3, 4, 1]) + np.percentile(a, [50], overwrite_input=False) + assert_equal(a, np.array([2, 3, 4, 1])) + + a = np.array([2, 3, 4, 1]) + np.percentile(a, [50]) + assert_equal(a, np.array([2, 3, 4, 1])) + + def test_no_p_overwrite(self): + p = np.linspace(0., 100., num=5) + np.percentile(np.arange(100.), p, method="midpoint") + assert_array_equal(p, np.linspace(0., 100., num=5)) + p = np.linspace(0., 100., num=5).tolist() + np.percentile(np.arange(100.), p, method="midpoint") + assert_array_equal(p, np.linspace(0., 100., num=5).tolist()) + + def test_percentile_overwrite(self): + a = np.array([2, 3, 4, 1]) + b = np.percentile(a, [50], overwrite_input=True) + assert_equal(b, np.array([2.5])) + + b = np.percentile([2, 3, 4, 1], [50], overwrite_input=True) + assert_equal(b, np.array([2.5])) + + def test_extended_axis(self): + o = np.random.normal(size=(71, 23)) + x = np.dstack([o] * 10) + assert_equal(np.percentile(x, 30, axis=(0, 1)), np.percentile(o, 30)) + x = np.moveaxis(x, -1, 0) + assert_equal(np.percentile(x, 30, axis=(-2, -1)), np.percentile(o, 30)) + x = x.swapaxes(0, 1).copy() + assert_equal(np.percentile(x, 30, axis=(0, -1)), np.percentile(o, 30)) + x = x.swapaxes(0, 1).copy() + + assert_equal(np.percentile(x, [25, 60], axis=(0, 1, 2)), + np.percentile(x, [25, 60], axis=None)) + assert_equal(np.percentile(x, [25, 60], axis=(0,)), + np.percentile(x, [25, 60], axis=0)) + + d = np.arange(3 * 5 * 7 * 11).reshape((3, 5, 7, 11)) + np.random.shuffle(d.ravel()) + assert_equal(np.percentile(d, 25, axis=(0, 1, 2))[0], + np.percentile(d[:,:,:, 0].flatten(), 25)) + assert_equal(np.percentile(d, [10, 90], axis=(0, 1, 3))[:, 1], + np.percentile(d[:,:, 1,:].flatten(), [10, 90])) + assert_equal(np.percentile(d, 25, axis=(3, 1, -4))[2], + np.percentile(d[:,:, 2,:].flatten(), 25)) + assert_equal(np.percentile(d, 25, axis=(3, 1, 2))[2], + np.percentile(d[2,:,:,:].flatten(), 25)) + assert_equal(np.percentile(d, 25, axis=(3, 2))[2, 1], + np.percentile(d[2, 1,:,:].flatten(), 25)) + assert_equal(np.percentile(d, 25, axis=(1, -2))[2, 1], + np.percentile(d[2,:,:, 1].flatten(), 25)) + assert_equal(np.percentile(d, 25, axis=(1, 3))[2, 2], + np.percentile(d[2,:, 2,:].flatten(), 25)) + + def test_extended_axis_invalid(self): + d = np.ones((3, 5, 7, 11)) + assert_raises(np.AxisError, np.percentile, d, axis=-5, q=25) + assert_raises(np.AxisError, np.percentile, d, axis=(0, -5), q=25) + assert_raises(np.AxisError, np.percentile, d, axis=4, q=25) + assert_raises(np.AxisError, np.percentile, d, axis=(0, 4), q=25) + # each of these refers to the same axis twice + assert_raises(ValueError, np.percentile, d, axis=(1, 1), q=25) + assert_raises(ValueError, np.percentile, d, axis=(-1, -1), q=25) + assert_raises(ValueError, np.percentile, d, axis=(3, -1), q=25) + + def test_keepdims(self): + d = np.ones((3, 5, 7, 11)) + assert_equal(np.percentile(d, 7, axis=None, keepdims=True).shape, + (1, 1, 1, 1)) + assert_equal(np.percentile(d, 7, axis=(0, 1), keepdims=True).shape, + (1, 1, 7, 11)) + assert_equal(np.percentile(d, 7, axis=(0, 3), keepdims=True).shape, + (1, 5, 7, 1)) + assert_equal(np.percentile(d, 7, axis=(1,), keepdims=True).shape, + (3, 1, 7, 11)) + assert_equal(np.percentile(d, 7, (0, 1, 2, 3), keepdims=True).shape, + (1, 1, 1, 1)) + assert_equal(np.percentile(d, 7, axis=(0, 1, 3), keepdims=True).shape, + (1, 1, 7, 1)) + + assert_equal(np.percentile(d, [1, 7], axis=(0, 1, 3), + keepdims=True).shape, (2, 1, 1, 7, 1)) + assert_equal(np.percentile(d, [1, 7], axis=(0, 3), + keepdims=True).shape, (2, 1, 5, 7, 1)) + + def test_out(self): + o = np.zeros((4,)) + d = np.ones((3, 4)) + assert_equal(np.percentile(d, 0, 0, out=o), o) + assert_equal(np.percentile(d, 0, 0, method='nearest', out=o), o) + o = np.zeros((3,)) + assert_equal(np.percentile(d, 1, 1, out=o), o) + assert_equal(np.percentile(d, 1, 1, method='nearest', out=o), o) + + o = np.zeros(()) + assert_equal(np.percentile(d, 2, out=o), o) + assert_equal(np.percentile(d, 2, method='nearest', out=o), o) + + def test_out_nan(self): + with warnings.catch_warnings(record=True): + warnings.filterwarnings('always', '', RuntimeWarning) + o = np.zeros((4,)) + d = np.ones((3, 4)) + d[2, 1] = np.nan + assert_equal(np.percentile(d, 0, 0, out=o), o) + assert_equal( + np.percentile(d, 0, 0, method='nearest', out=o), o) + o = np.zeros((3,)) + assert_equal(np.percentile(d, 1, 1, out=o), o) + assert_equal( + np.percentile(d, 1, 1, method='nearest', out=o), o) + o = np.zeros(()) + assert_equal(np.percentile(d, 1, out=o), o) + assert_equal( + np.percentile(d, 1, method='nearest', out=o), o) + + def test_nan_behavior(self): + a = np.arange(24, dtype=float) + a[2] = np.nan + assert_equal(np.percentile(a, 0.3), np.nan) + assert_equal(np.percentile(a, 0.3, axis=0), np.nan) + assert_equal(np.percentile(a, [0.3, 0.6], axis=0), + np.array([np.nan] * 2)) + + a = np.arange(24, dtype=float).reshape(2, 3, 4) + a[1, 2, 3] = np.nan + a[1, 1, 2] = np.nan + + # no axis + assert_equal(np.percentile(a, 0.3), np.nan) + assert_equal(np.percentile(a, 0.3).ndim, 0) + + # axis0 zerod + b = np.percentile(np.arange(24, dtype=float).reshape(2, 3, 4), 0.3, 0) + b[2, 3] = np.nan + b[1, 2] = np.nan + assert_equal(np.percentile(a, 0.3, 0), b) + + # axis0 not zerod + b = np.percentile(np.arange(24, dtype=float).reshape(2, 3, 4), + [0.3, 0.6], 0) + b[:, 2, 3] = np.nan + b[:, 1, 2] = np.nan + assert_equal(np.percentile(a, [0.3, 0.6], 0), b) + + # axis1 zerod + b = np.percentile(np.arange(24, dtype=float).reshape(2, 3, 4), 0.3, 1) + b[1, 3] = np.nan + b[1, 2] = np.nan + assert_equal(np.percentile(a, 0.3, 1), b) + # axis1 not zerod + b = np.percentile( + np.arange(24, dtype=float).reshape(2, 3, 4), [0.3, 0.6], 1) + b[:, 1, 3] = np.nan + b[:, 1, 2] = np.nan + assert_equal(np.percentile(a, [0.3, 0.6], 1), b) + + # axis02 zerod + b = np.percentile( + np.arange(24, dtype=float).reshape(2, 3, 4), 0.3, (0, 2)) + b[1] = np.nan + b[2] = np.nan + assert_equal(np.percentile(a, 0.3, (0, 2)), b) + # axis02 not zerod + b = np.percentile(np.arange(24, dtype=float).reshape(2, 3, 4), + [0.3, 0.6], (0, 2)) + b[:, 1] = np.nan + b[:, 2] = np.nan + assert_equal(np.percentile(a, [0.3, 0.6], (0, 2)), b) + # axis02 not zerod with method='nearest' + b = np.percentile(np.arange(24, dtype=float).reshape(2, 3, 4), + [0.3, 0.6], (0, 2), method='nearest') + b[:, 1] = np.nan + b[:, 2] = np.nan + assert_equal(np.percentile( + a, [0.3, 0.6], (0, 2), method='nearest'), b) + + def test_nan_q(self): + # GH18830 + with pytest.raises(ValueError, match="Percentiles must be in"): + np.percentile([1, 2, 3, 4.0], np.nan) + with pytest.raises(ValueError, match="Percentiles must be in"): + np.percentile([1, 2, 3, 4.0], [np.nan]) + q = np.linspace(1.0, 99.0, 16) + q[0] = np.nan + with pytest.raises(ValueError, match="Percentiles must be in"): + np.percentile([1, 2, 3, 4.0], q) + + +class TestQuantile: + # most of this is already tested by TestPercentile + + def test_max_ulp(self): + x = [0.0, 0.2, 0.4] + a = np.quantile(x, 0.45) + # The default linear method would result in 0 + 0.2 * (0.45/2) = 0.18. + # 0.18 is not exactly representable and the formula leads to a 1 ULP + # different result. Ensure it is this exact within 1 ULP, see gh-20331. + np.testing.assert_array_max_ulp(a, 0.18, maxulp=1) + + def test_basic(self): + x = np.arange(8) * 0.5 + assert_equal(np.quantile(x, 0), 0.) + assert_equal(np.quantile(x, 1), 3.5) + assert_equal(np.quantile(x, 0.5), 1.75) + + @pytest.mark.xfail(reason="See gh-19154") + def test_correct_quantile_value(self): + a = np.array([True]) + tf_quant = np.quantile(True, False) + assert_equal(tf_quant, a[0]) + assert_equal(type(tf_quant), a.dtype) + a = np.array([False, True, True]) + quant_res = np.quantile(a, a) + assert_array_equal(quant_res, a) + assert_equal(quant_res.dtype, a.dtype) + + def test_fraction(self): + # fractional input, integral quantile + x = [Fraction(i, 2) for i in range(8)] + q = np.quantile(x, 0) + assert_equal(q, 0) + assert_equal(type(q), Fraction) + + q = np.quantile(x, 1) + assert_equal(q, Fraction(7, 2)) + assert_equal(type(q), Fraction) + + q = np.quantile(x, Fraction(1, 2)) + assert_equal(q, Fraction(7, 4)) + assert_equal(type(q), Fraction) + + q = np.quantile(x, [Fraction(1, 2)]) + assert_equal(q, np.array([Fraction(7, 4)])) + assert_equal(type(q), np.ndarray) + + q = np.quantile(x, [[Fraction(1, 2)]]) + assert_equal(q, np.array([[Fraction(7, 4)]])) + assert_equal(type(q), np.ndarray) + + # repeat with integral input but fractional quantile + x = np.arange(8) + assert_equal(np.quantile(x, Fraction(1, 2)), Fraction(7, 2)) + + def test_no_p_overwrite(self): + # this is worth retesting, because quantile does not make a copy + p0 = np.array([0, 0.75, 0.25, 0.5, 1.0]) + p = p0.copy() + np.quantile(np.arange(100.), p, method="midpoint") + assert_array_equal(p, p0) + + p0 = p0.tolist() + p = p.tolist() + np.quantile(np.arange(100.), p, method="midpoint") + assert_array_equal(p, p0) + + @pytest.mark.parametrize("dtype", np.typecodes["AllInteger"]) + def test_quantile_preserve_int_type(self, dtype): + res = np.quantile(np.array([1, 2], dtype=dtype), [0.5], + method="nearest") + assert res.dtype == dtype + + @pytest.mark.parametrize("method", + ['inverted_cdf', 'averaged_inverted_cdf', 'closest_observation', + 'interpolated_inverted_cdf', 'hazen', 'weibull', 'linear', + 'median_unbiased', 'normal_unbiased', + 'nearest', 'lower', 'higher', 'midpoint']) + def test_quantile_monotonic(self, method): + # GH 14685 + # test that the return value of quantile is monotonic if p0 is ordered + # Also tests that the boundary values are not mishandled. + p0 = np.linspace(0, 1, 101) + quantile = np.quantile(np.array([0, 1, 1, 2, 2, 3, 3, 4, 5, 5, 1, 1, 9, 9, 9, + 8, 8, 7]) * 0.1, p0, method=method) + assert_equal(np.sort(quantile), quantile) + + # Also test one where the number of data points is clearly divisible: + quantile = np.quantile([0., 1., 2., 3.], p0, method=method) + assert_equal(np.sort(quantile), quantile) + + @hypothesis.given( + arr=arrays(dtype=np.float64, + shape=st.integers(min_value=3, max_value=1000), + elements=st.floats(allow_infinity=False, allow_nan=False, + min_value=-1e300, max_value=1e300))) + def test_quantile_monotonic_hypo(self, arr): + p0 = np.arange(0, 1, 0.01) + quantile = np.quantile(arr, p0) + assert_equal(np.sort(quantile), quantile) + + def test_quantile_scalar_nan(self): + a = np.array([[10., 7., 4.], [3., 2., 1.]]) + a[0][1] = np.nan + actual = np.quantile(a, 0.5) + assert np.isscalar(actual) + assert_equal(np.quantile(a, 0.5), np.nan) + + +class TestLerp: + @hypothesis.given(t0=st.floats(allow_nan=False, allow_infinity=False, + min_value=0, max_value=1), + t1=st.floats(allow_nan=False, allow_infinity=False, + min_value=0, max_value=1), + a = st.floats(allow_nan=False, allow_infinity=False, + min_value=-1e300, max_value=1e300), + b = st.floats(allow_nan=False, allow_infinity=False, + min_value=-1e300, max_value=1e300)) + def test_linear_interpolation_formula_monotonic(self, t0, t1, a, b): + l0 = nfb._lerp(a, b, t0) + l1 = nfb._lerp(a, b, t1) + if t0 == t1 or a == b: + assert l0 == l1 # uninteresting + elif (t0 < t1) == (a < b): + assert l0 <= l1 + else: + assert l0 >= l1 + + @hypothesis.given(t=st.floats(allow_nan=False, allow_infinity=False, + min_value=0, max_value=1), + a=st.floats(allow_nan=False, allow_infinity=False, + min_value=-1e300, max_value=1e300), + b=st.floats(allow_nan=False, allow_infinity=False, + min_value=-1e300, max_value=1e300)) + def test_linear_interpolation_formula_bounded(self, t, a, b): + if a <= b: + assert a <= nfb._lerp(a, b, t) <= b + else: + assert b <= nfb._lerp(a, b, t) <= a + + @hypothesis.given(t=st.floats(allow_nan=False, allow_infinity=False, + min_value=0, max_value=1), + a=st.floats(allow_nan=False, allow_infinity=False, + min_value=-1e300, max_value=1e300), + b=st.floats(allow_nan=False, allow_infinity=False, + min_value=-1e300, max_value=1e300)) + def test_linear_interpolation_formula_symmetric(self, t, a, b): + # double subtraction is needed to remove the extra precision of t < 0.5 + left = nfb._lerp(a, b, 1 - (1 - t)) + right = nfb._lerp(b, a, 1 - t) + assert_allclose(left, right) + + def test_linear_interpolation_formula_0d_inputs(self): + a = np.array(2) + b = np.array(5) + t = np.array(0.2) + assert nfb._lerp(a, b, t) == 2.6 + + +class TestMedian: + + def test_basic(self): + a0 = np.array(1) + a1 = np.arange(2) + a2 = np.arange(6).reshape(2, 3) + assert_equal(np.median(a0), 1) + assert_allclose(np.median(a1), 0.5) + assert_allclose(np.median(a2), 2.5) + assert_allclose(np.median(a2, axis=0), [1.5, 2.5, 3.5]) + assert_equal(np.median(a2, axis=1), [1, 4]) + assert_allclose(np.median(a2, axis=None), 2.5) + + a = np.array([0.0444502, 0.0463301, 0.141249, 0.0606775]) + assert_almost_equal((a[1] + a[3]) / 2., np.median(a)) + a = np.array([0.0463301, 0.0444502, 0.141249]) + assert_equal(a[0], np.median(a)) + a = np.array([0.0444502, 0.141249, 0.0463301]) + assert_equal(a[-1], np.median(a)) + # check array scalar result + assert_equal(np.median(a).ndim, 0) + a[1] = np.nan + assert_equal(np.median(a).ndim, 0) + + def test_axis_keyword(self): + a3 = np.array([[2, 3], + [0, 1], + [6, 7], + [4, 5]]) + for a in [a3, np.random.randint(0, 100, size=(2, 3, 4))]: + orig = a.copy() + np.median(a, axis=None) + for ax in range(a.ndim): + np.median(a, axis=ax) + assert_array_equal(a, orig) + + assert_allclose(np.median(a3, axis=0), [3, 4]) + assert_allclose(np.median(a3.T, axis=1), [3, 4]) + assert_allclose(np.median(a3), 3.5) + assert_allclose(np.median(a3, axis=None), 3.5) + assert_allclose(np.median(a3.T), 3.5) + + def test_overwrite_keyword(self): + a3 = np.array([[2, 3], + [0, 1], + [6, 7], + [4, 5]]) + a0 = np.array(1) + a1 = np.arange(2) + a2 = np.arange(6).reshape(2, 3) + assert_allclose(np.median(a0.copy(), overwrite_input=True), 1) + assert_allclose(np.median(a1.copy(), overwrite_input=True), 0.5) + assert_allclose(np.median(a2.copy(), overwrite_input=True), 2.5) + assert_allclose(np.median(a2.copy(), overwrite_input=True, axis=0), + [1.5, 2.5, 3.5]) + assert_allclose( + np.median(a2.copy(), overwrite_input=True, axis=1), [1, 4]) + assert_allclose( + np.median(a2.copy(), overwrite_input=True, axis=None), 2.5) + assert_allclose( + np.median(a3.copy(), overwrite_input=True, axis=0), [3, 4]) + assert_allclose(np.median(a3.T.copy(), overwrite_input=True, axis=1), + [3, 4]) + + a4 = np.arange(3 * 4 * 5, dtype=np.float32).reshape((3, 4, 5)) + np.random.shuffle(a4.ravel()) + assert_allclose(np.median(a4, axis=None), + np.median(a4.copy(), axis=None, overwrite_input=True)) + assert_allclose(np.median(a4, axis=0), + np.median(a4.copy(), axis=0, overwrite_input=True)) + assert_allclose(np.median(a4, axis=1), + np.median(a4.copy(), axis=1, overwrite_input=True)) + assert_allclose(np.median(a4, axis=2), + np.median(a4.copy(), axis=2, overwrite_input=True)) + + def test_array_like(self): + x = [1, 2, 3] + assert_almost_equal(np.median(x), 2) + x2 = [x] + assert_almost_equal(np.median(x2), 2) + assert_allclose(np.median(x2, axis=0), x) + + def test_subclass(self): + # gh-3846 + class MySubClass(np.ndarray): + + def __new__(cls, input_array, info=None): + obj = np.asarray(input_array).view(cls) + obj.info = info + return obj + + def mean(self, axis=None, dtype=None, out=None): + return -7 + + a = MySubClass([1, 2, 3]) + assert_equal(np.median(a), -7) + + @pytest.mark.parametrize('arr', + ([1., 2., 3.], [1., np.nan, 3.], np.nan, 0.)) + def test_subclass2(self, arr): + """Check that we return subclasses, even if a NaN scalar.""" + class MySubclass(np.ndarray): + pass + + m = np.median(np.array(arr).view(MySubclass)) + assert isinstance(m, MySubclass) + + def test_out(self): + o = np.zeros((4,)) + d = np.ones((3, 4)) + assert_equal(np.median(d, 0, out=o), o) + o = np.zeros((3,)) + assert_equal(np.median(d, 1, out=o), o) + o = np.zeros(()) + assert_equal(np.median(d, out=o), o) + + def test_out_nan(self): + with warnings.catch_warnings(record=True): + warnings.filterwarnings('always', '', RuntimeWarning) + o = np.zeros((4,)) + d = np.ones((3, 4)) + d[2, 1] = np.nan + assert_equal(np.median(d, 0, out=o), o) + o = np.zeros((3,)) + assert_equal(np.median(d, 1, out=o), o) + o = np.zeros(()) + assert_equal(np.median(d, out=o), o) + + def test_nan_behavior(self): + a = np.arange(24, dtype=float) + a[2] = np.nan + assert_equal(np.median(a), np.nan) + assert_equal(np.median(a, axis=0), np.nan) + + a = np.arange(24, dtype=float).reshape(2, 3, 4) + a[1, 2, 3] = np.nan + a[1, 1, 2] = np.nan + + # no axis + assert_equal(np.median(a), np.nan) + assert_equal(np.median(a).ndim, 0) + + # axis0 + b = np.median(np.arange(24, dtype=float).reshape(2, 3, 4), 0) + b[2, 3] = np.nan + b[1, 2] = np.nan + assert_equal(np.median(a, 0), b) + + # axis1 + b = np.median(np.arange(24, dtype=float).reshape(2, 3, 4), 1) + b[1, 3] = np.nan + b[1, 2] = np.nan + assert_equal(np.median(a, 1), b) + + # axis02 + b = np.median(np.arange(24, dtype=float).reshape(2, 3, 4), (0, 2)) + b[1] = np.nan + b[2] = np.nan + assert_equal(np.median(a, (0, 2)), b) + + def test_empty(self): + # mean(empty array) emits two warnings: empty slice and divide by 0 + a = np.array([], dtype=float) + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', RuntimeWarning) + assert_equal(np.median(a), np.nan) + assert_(w[0].category is RuntimeWarning) + assert_equal(len(w), 2) + + # multiple dimensions + a = np.array([], dtype=float, ndmin=3) + # no axis + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', RuntimeWarning) + assert_equal(np.median(a), np.nan) + assert_(w[0].category is RuntimeWarning) + + # axis 0 and 1 + b = np.array([], dtype=float, ndmin=2) + assert_equal(np.median(a, axis=0), b) + assert_equal(np.median(a, axis=1), b) + + # axis 2 + b = np.array(np.nan, dtype=float, ndmin=2) + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', RuntimeWarning) + assert_equal(np.median(a, axis=2), b) + assert_(w[0].category is RuntimeWarning) + + def test_object(self): + o = np.arange(7.) + assert_(type(np.median(o.astype(object))), float) + o[2] = np.nan + assert_(type(np.median(o.astype(object))), float) + + def test_extended_axis(self): + o = np.random.normal(size=(71, 23)) + x = np.dstack([o] * 10) + assert_equal(np.median(x, axis=(0, 1)), np.median(o)) + x = np.moveaxis(x, -1, 0) + assert_equal(np.median(x, axis=(-2, -1)), np.median(o)) + x = x.swapaxes(0, 1).copy() + assert_equal(np.median(x, axis=(0, -1)), np.median(o)) + + assert_equal(np.median(x, axis=(0, 1, 2)), np.median(x, axis=None)) + assert_equal(np.median(x, axis=(0, )), np.median(x, axis=0)) + assert_equal(np.median(x, axis=(-1, )), np.median(x, axis=-1)) + + d = np.arange(3 * 5 * 7 * 11).reshape((3, 5, 7, 11)) + np.random.shuffle(d.ravel()) + assert_equal(np.median(d, axis=(0, 1, 2))[0], + np.median(d[:,:,:, 0].flatten())) + assert_equal(np.median(d, axis=(0, 1, 3))[1], + np.median(d[:,:, 1,:].flatten())) + assert_equal(np.median(d, axis=(3, 1, -4))[2], + np.median(d[:,:, 2,:].flatten())) + assert_equal(np.median(d, axis=(3, 1, 2))[2], + np.median(d[2,:,:,:].flatten())) + assert_equal(np.median(d, axis=(3, 2))[2, 1], + np.median(d[2, 1,:,:].flatten())) + assert_equal(np.median(d, axis=(1, -2))[2, 1], + np.median(d[2,:,:, 1].flatten())) + assert_equal(np.median(d, axis=(1, 3))[2, 2], + np.median(d[2,:, 2,:].flatten())) + + def test_extended_axis_invalid(self): + d = np.ones((3, 5, 7, 11)) + assert_raises(np.AxisError, np.median, d, axis=-5) + assert_raises(np.AxisError, np.median, d, axis=(0, -5)) + assert_raises(np.AxisError, np.median, d, axis=4) + assert_raises(np.AxisError, np.median, d, axis=(0, 4)) + assert_raises(ValueError, np.median, d, axis=(1, 1)) + + def test_keepdims(self): + d = np.ones((3, 5, 7, 11)) + assert_equal(np.median(d, axis=None, keepdims=True).shape, + (1, 1, 1, 1)) + assert_equal(np.median(d, axis=(0, 1), keepdims=True).shape, + (1, 1, 7, 11)) + assert_equal(np.median(d, axis=(0, 3), keepdims=True).shape, + (1, 5, 7, 1)) + assert_equal(np.median(d, axis=(1,), keepdims=True).shape, + (3, 1, 7, 11)) + assert_equal(np.median(d, axis=(0, 1, 2, 3), keepdims=True).shape, + (1, 1, 1, 1)) + assert_equal(np.median(d, axis=(0, 1, 3), keepdims=True).shape, + (1, 1, 7, 1)) + + +class TestAdd_newdoc_ufunc: + + def test_ufunc_arg(self): + assert_raises(TypeError, add_newdoc_ufunc, 2, "blah") + assert_raises(ValueError, add_newdoc_ufunc, np.add, "blah") + + def test_string_arg(self): + assert_raises(TypeError, add_newdoc_ufunc, np.add, 3) + + +class TestAdd_newdoc: + + @pytest.mark.skipif(sys.flags.optimize == 2, reason="Python running -OO") + @pytest.mark.xfail(IS_PYPY, reason="PyPy does not modify tp_doc") + def test_add_doc(self): + # test that np.add_newdoc did attach a docstring successfully: + tgt = "Current flat index into the array." + assert_equal(np.core.flatiter.index.__doc__[:len(tgt)], tgt) + assert_(len(np.core.ufunc.identity.__doc__) > 300) + assert_(len(np.lib.index_tricks.mgrid.__doc__) > 300) + + @pytest.mark.skipif(sys.flags.optimize == 2, reason="Python running -OO") + def test_errors_are_ignored(self): + prev_doc = np.core.flatiter.index.__doc__ + # nothing changed, but error ignored, this should probably + # give a warning (or even error) in the future. + np.add_newdoc("numpy.core", "flatiter", ("index", "bad docstring")) + assert prev_doc == np.core.flatiter.index.__doc__ + + +class TestAddDocstring(): + # Test should possibly be moved, but it also fits to be close to + # the newdoc tests... + @pytest.mark.skipif(sys.flags.optimize == 2, reason="Python running -OO") + @pytest.mark.skipif(IS_PYPY, reason="PyPy does not modify tp_doc") + def test_add_same_docstring(self): + # test for attributes (which are C-level defined) + np.add_docstring(np.ndarray.flat, np.ndarray.flat.__doc__) + # And typical functions: + def func(): + """docstring""" + return + + np.add_docstring(func, func.__doc__) + + @pytest.mark.skipif(sys.flags.optimize == 2, reason="Python running -OO") + def test_different_docstring_fails(self): + # test for attributes (which are C-level defined) + with assert_raises(RuntimeError): + np.add_docstring(np.ndarray.flat, "different docstring") + # And typical functions: + def func(): + """docstring""" + return + + with assert_raises(RuntimeError): + np.add_docstring(func, "different docstring") + + +class TestSortComplex: + + @pytest.mark.parametrize("type_in, type_out", [ + ('l', 'D'), + ('h', 'F'), + ('H', 'F'), + ('b', 'F'), + ('B', 'F'), + ('g', 'G'), + ]) + def test_sort_real(self, type_in, type_out): + # sort_complex() type casting for real input types + a = np.array([5, 3, 6, 2, 1], dtype=type_in) + actual = np.sort_complex(a) + expected = np.sort(a).astype(type_out) + assert_equal(actual, expected) + assert_equal(actual.dtype, expected.dtype) + + def test_sort_complex(self): + # sort_complex() handling of complex input + a = np.array([2 + 3j, 1 - 2j, 1 - 3j, 2 + 1j], dtype='D') + expected = np.array([1 - 3j, 1 - 2j, 2 + 1j, 2 + 3j], dtype='D') + actual = np.sort_complex(a) + assert_equal(actual, expected) + assert_equal(actual.dtype, expected.dtype) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_histograms.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_histograms.py new file mode 100644 index 0000000000000000000000000000000000000000..14423f6f5e48609c0fdd0f097064a1b34f7435f1 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_histograms.py @@ -0,0 +1,849 @@ +import numpy as np + +from numpy.lib.histograms import histogram, histogramdd, histogram_bin_edges +from numpy.testing import ( + assert_, assert_equal, assert_array_equal, assert_almost_equal, + assert_array_almost_equal, assert_raises, assert_allclose, + assert_array_max_ulp, assert_raises_regex, suppress_warnings, + ) +from numpy.testing._private.utils import requires_memory +import pytest + + +class TestHistogram: + + def setup_method(self): + pass + + def teardown_method(self): + pass + + def test_simple(self): + n = 100 + v = np.random.rand(n) + (a, b) = histogram(v) + # check if the sum of the bins equals the number of samples + assert_equal(np.sum(a, axis=0), n) + # check that the bin counts are evenly spaced when the data is from + # a linear function + (a, b) = histogram(np.linspace(0, 10, 100)) + assert_array_equal(a, 10) + + def test_one_bin(self): + # Ticket 632 + hist, edges = histogram([1, 2, 3, 4], [1, 2]) + assert_array_equal(hist, [2, ]) + assert_array_equal(edges, [1, 2]) + assert_raises(ValueError, histogram, [1, 2], bins=0) + h, e = histogram([1, 2], bins=1) + assert_equal(h, np.array([2])) + assert_allclose(e, np.array([1., 2.])) + + def test_normed(self): + sup = suppress_warnings() + with sup: + rec = sup.record(np.VisibleDeprecationWarning, '.*normed.*') + # Check that the integral of the density equals 1. + n = 100 + v = np.random.rand(n) + a, b = histogram(v, normed=True) + area = np.sum(a * np.diff(b)) + assert_almost_equal(area, 1) + assert_equal(len(rec), 1) + + sup = suppress_warnings() + with sup: + rec = sup.record(np.VisibleDeprecationWarning, '.*normed.*') + # Check with non-constant bin widths (buggy but backwards + # compatible) + v = np.arange(10) + bins = [0, 1, 5, 9, 10] + a, b = histogram(v, bins, normed=True) + area = np.sum(a * np.diff(b)) + assert_almost_equal(area, 1) + assert_equal(len(rec), 1) + + def test_density(self): + # Check that the integral of the density equals 1. + n = 100 + v = np.random.rand(n) + a, b = histogram(v, density=True) + area = np.sum(a * np.diff(b)) + assert_almost_equal(area, 1) + + # Check with non-constant bin widths + v = np.arange(10) + bins = [0, 1, 3, 6, 10] + a, b = histogram(v, bins, density=True) + assert_array_equal(a, .1) + assert_equal(np.sum(a * np.diff(b)), 1) + + # Test that passing False works too + a, b = histogram(v, bins, density=False) + assert_array_equal(a, [1, 2, 3, 4]) + + # Variable bin widths are especially useful to deal with + # infinities. + v = np.arange(10) + bins = [0, 1, 3, 6, np.inf] + a, b = histogram(v, bins, density=True) + assert_array_equal(a, [.1, .1, .1, 0.]) + + # Taken from a bug report from N. Becker on the numpy-discussion + # mailing list Aug. 6, 2010. + counts, dmy = np.histogram( + [1, 2, 3, 4], [0.5, 1.5, np.inf], density=True) + assert_equal(counts, [.25, 0]) + + def test_outliers(self): + # Check that outliers are not tallied + a = np.arange(10) + .5 + + # Lower outliers + h, b = histogram(a, range=[0, 9]) + assert_equal(h.sum(), 9) + + # Upper outliers + h, b = histogram(a, range=[1, 10]) + assert_equal(h.sum(), 9) + + # Normalization + h, b = histogram(a, range=[1, 9], density=True) + assert_almost_equal((h * np.diff(b)).sum(), 1, decimal=15) + + # Weights + w = np.arange(10) + .5 + h, b = histogram(a, range=[1, 9], weights=w, density=True) + assert_equal((h * np.diff(b)).sum(), 1) + + h, b = histogram(a, bins=8, range=[1, 9], weights=w) + assert_equal(h, w[1:-1]) + + def test_arr_weights_mismatch(self): + a = np.arange(10) + .5 + w = np.arange(11) + .5 + with assert_raises_regex(ValueError, "same shape as"): + h, b = histogram(a, range=[1, 9], weights=w, density=True) + + + def test_type(self): + # Check the type of the returned histogram + a = np.arange(10) + .5 + h, b = histogram(a) + assert_(np.issubdtype(h.dtype, np.integer)) + + h, b = histogram(a, density=True) + assert_(np.issubdtype(h.dtype, np.floating)) + + h, b = histogram(a, weights=np.ones(10, int)) + assert_(np.issubdtype(h.dtype, np.integer)) + + h, b = histogram(a, weights=np.ones(10, float)) + assert_(np.issubdtype(h.dtype, np.floating)) + + def test_f32_rounding(self): + # gh-4799, check that the rounding of the edges works with float32 + x = np.array([276.318359, -69.593948, 21.329449], dtype=np.float32) + y = np.array([5005.689453, 4481.327637, 6010.369629], dtype=np.float32) + counts_hist, xedges, yedges = np.histogram2d(x, y, bins=100) + assert_equal(counts_hist.sum(), 3.) + + def test_bool_conversion(self): + # gh-12107 + # Reference integer histogram + a = np.array([1, 1, 0], dtype=np.uint8) + int_hist, int_edges = np.histogram(a) + + # Should raise an warning on booleans + # Ensure that the histograms are equivalent, need to suppress + # the warnings to get the actual outputs + with suppress_warnings() as sup: + rec = sup.record(RuntimeWarning, 'Converting input from .*') + hist, edges = np.histogram([True, True, False]) + # A warning should be issued + assert_equal(len(rec), 1) + assert_array_equal(hist, int_hist) + assert_array_equal(edges, int_edges) + + def test_weights(self): + v = np.random.rand(100) + w = np.ones(100) * 5 + a, b = histogram(v) + na, nb = histogram(v, density=True) + wa, wb = histogram(v, weights=w) + nwa, nwb = histogram(v, weights=w, density=True) + assert_array_almost_equal(a * 5, wa) + assert_array_almost_equal(na, nwa) + + # Check weights are properly applied. + v = np.linspace(0, 10, 10) + w = np.concatenate((np.zeros(5), np.ones(5))) + wa, wb = histogram(v, bins=np.arange(11), weights=w) + assert_array_almost_equal(wa, w) + + # Check with integer weights + wa, wb = histogram([1, 2, 2, 4], bins=4, weights=[4, 3, 2, 1]) + assert_array_equal(wa, [4, 5, 0, 1]) + wa, wb = histogram( + [1, 2, 2, 4], bins=4, weights=[4, 3, 2, 1], density=True) + assert_array_almost_equal(wa, np.array([4, 5, 0, 1]) / 10. / 3. * 4) + + # Check weights with non-uniform bin widths + a, b = histogram( + np.arange(9), [0, 1, 3, 6, 10], + weights=[2, 1, 1, 1, 1, 1, 1, 1, 1], density=True) + assert_almost_equal(a, [.2, .1, .1, .075]) + + def test_exotic_weights(self): + + # Test the use of weights that are not integer or floats, but e.g. + # complex numbers or object types. + + # Complex weights + values = np.array([1.3, 2.5, 2.3]) + weights = np.array([1, -1, 2]) + 1j * np.array([2, 1, 2]) + + # Check with custom bins + wa, wb = histogram(values, bins=[0, 2, 3], weights=weights) + assert_array_almost_equal(wa, np.array([1, 1]) + 1j * np.array([2, 3])) + + # Check with even bins + wa, wb = histogram(values, bins=2, range=[1, 3], weights=weights) + assert_array_almost_equal(wa, np.array([1, 1]) + 1j * np.array([2, 3])) + + # Decimal weights + from decimal import Decimal + values = np.array([1.3, 2.5, 2.3]) + weights = np.array([Decimal(1), Decimal(2), Decimal(3)]) + + # Check with custom bins + wa, wb = histogram(values, bins=[0, 2, 3], weights=weights) + assert_array_almost_equal(wa, [Decimal(1), Decimal(5)]) + + # Check with even bins + wa, wb = histogram(values, bins=2, range=[1, 3], weights=weights) + assert_array_almost_equal(wa, [Decimal(1), Decimal(5)]) + + def test_no_side_effects(self): + # This is a regression test that ensures that values passed to + # ``histogram`` are unchanged. + values = np.array([1.3, 2.5, 2.3]) + np.histogram(values, range=[-10, 10], bins=100) + assert_array_almost_equal(values, [1.3, 2.5, 2.3]) + + def test_empty(self): + a, b = histogram([], bins=([0, 1])) + assert_array_equal(a, np.array([0])) + assert_array_equal(b, np.array([0, 1])) + + def test_error_binnum_type (self): + # Tests if right Error is raised if bins argument is float + vals = np.linspace(0.0, 1.0, num=100) + histogram(vals, 5) + assert_raises(TypeError, histogram, vals, 2.4) + + def test_finite_range(self): + # Normal ranges should be fine + vals = np.linspace(0.0, 1.0, num=100) + histogram(vals, range=[0.25,0.75]) + assert_raises(ValueError, histogram, vals, range=[np.nan,0.75]) + assert_raises(ValueError, histogram, vals, range=[0.25,np.inf]) + + def test_invalid_range(self): + # start of range must be < end of range + vals = np.linspace(0.0, 1.0, num=100) + with assert_raises_regex(ValueError, "max must be larger than"): + np.histogram(vals, range=[0.1, 0.01]) + + def test_bin_edge_cases(self): + # Ensure that floating-point computations correctly place edge cases. + arr = np.array([337, 404, 739, 806, 1007, 1811, 2012]) + hist, edges = np.histogram(arr, bins=8296, range=(2, 2280)) + mask = hist > 0 + left_edges = edges[:-1][mask] + right_edges = edges[1:][mask] + for x, left, right in zip(arr, left_edges, right_edges): + assert_(x >= left) + assert_(x < right) + + def test_last_bin_inclusive_range(self): + arr = np.array([0., 0., 0., 1., 2., 3., 3., 4., 5.]) + hist, edges = np.histogram(arr, bins=30, range=(-0.5, 5)) + assert_equal(hist[-1], 1) + + def test_bin_array_dims(self): + # gracefully handle bins object > 1 dimension + vals = np.linspace(0.0, 1.0, num=100) + bins = np.array([[0, 0.5], [0.6, 1.0]]) + with assert_raises_regex(ValueError, "must be 1d"): + np.histogram(vals, bins=bins) + + def test_unsigned_monotonicity_check(self): + # Ensures ValueError is raised if bins not increasing monotonically + # when bins contain unsigned values (see #9222) + arr = np.array([2]) + bins = np.array([1, 3, 1], dtype='uint64') + with assert_raises(ValueError): + hist, edges = np.histogram(arr, bins=bins) + + def test_object_array_of_0d(self): + # gh-7864 + assert_raises(ValueError, + histogram, [np.array(0.4) for i in range(10)] + [-np.inf]) + assert_raises(ValueError, + histogram, [np.array(0.4) for i in range(10)] + [np.inf]) + + # these should not crash + np.histogram([np.array(0.5) for i in range(10)] + [.500000000000001]) + np.histogram([np.array(0.5) for i in range(10)] + [.5]) + + def test_some_nan_values(self): + # gh-7503 + one_nan = np.array([0, 1, np.nan]) + all_nan = np.array([np.nan, np.nan]) + + # the internal comparisons with NaN give warnings + sup = suppress_warnings() + sup.filter(RuntimeWarning) + with sup: + # can't infer range with nan + assert_raises(ValueError, histogram, one_nan, bins='auto') + assert_raises(ValueError, histogram, all_nan, bins='auto') + + # explicit range solves the problem + h, b = histogram(one_nan, bins='auto', range=(0, 1)) + assert_equal(h.sum(), 2) # nan is not counted + h, b = histogram(all_nan, bins='auto', range=(0, 1)) + assert_equal(h.sum(), 0) # nan is not counted + + # as does an explicit set of bins + h, b = histogram(one_nan, bins=[0, 1]) + assert_equal(h.sum(), 2) # nan is not counted + h, b = histogram(all_nan, bins=[0, 1]) + assert_equal(h.sum(), 0) # nan is not counted + + def test_datetime(self): + begin = np.datetime64('2000-01-01', 'D') + offsets = np.array([0, 0, 1, 1, 2, 3, 5, 10, 20]) + bins = np.array([0, 2, 7, 20]) + dates = begin + offsets + date_bins = begin + bins + + td = np.dtype('timedelta64[D]') + + # Results should be the same for integer offsets or datetime values. + # For now, only explicit bins are supported, since linspace does not + # work on datetimes or timedeltas + d_count, d_edge = histogram(dates, bins=date_bins) + t_count, t_edge = histogram(offsets.astype(td), bins=bins.astype(td)) + i_count, i_edge = histogram(offsets, bins=bins) + + assert_equal(d_count, i_count) + assert_equal(t_count, i_count) + + assert_equal((d_edge - begin).astype(int), i_edge) + assert_equal(t_edge.astype(int), i_edge) + + assert_equal(d_edge.dtype, dates.dtype) + assert_equal(t_edge.dtype, td) + + def do_signed_overflow_bounds(self, dtype): + exponent = 8 * np.dtype(dtype).itemsize - 1 + arr = np.array([-2**exponent + 4, 2**exponent - 4], dtype=dtype) + hist, e = histogram(arr, bins=2) + assert_equal(e, [-2**exponent + 4, 0, 2**exponent - 4]) + assert_equal(hist, [1, 1]) + + def test_signed_overflow_bounds(self): + self.do_signed_overflow_bounds(np.byte) + self.do_signed_overflow_bounds(np.short) + self.do_signed_overflow_bounds(np.intc) + self.do_signed_overflow_bounds(np.int_) + self.do_signed_overflow_bounds(np.longlong) + + def do_precision_lower_bound(self, float_small, float_large): + eps = np.finfo(float_large).eps + + arr = np.array([1.0], float_small) + range = np.array([1.0 + eps, 2.0], float_large) + + # test is looking for behavior when the bounds change between dtypes + if range.astype(float_small)[0] != 1: + return + + # previously crashed + count, x_loc = np.histogram(arr, bins=1, range=range) + assert_equal(count, [1]) + + # gh-10322 means that the type comes from arr - this may change + assert_equal(x_loc.dtype, float_small) + + def do_precision_upper_bound(self, float_small, float_large): + eps = np.finfo(float_large).eps + + arr = np.array([1.0], float_small) + range = np.array([0.0, 1.0 - eps], float_large) + + # test is looking for behavior when the bounds change between dtypes + if range.astype(float_small)[-1] != 1: + return + + # previously crashed + count, x_loc = np.histogram(arr, bins=1, range=range) + assert_equal(count, [1]) + + # gh-10322 means that the type comes from arr - this may change + assert_equal(x_loc.dtype, float_small) + + def do_precision(self, float_small, float_large): + self.do_precision_lower_bound(float_small, float_large) + self.do_precision_upper_bound(float_small, float_large) + + def test_precision(self): + # not looping results in a useful stack trace upon failure + self.do_precision(np.half, np.single) + self.do_precision(np.half, np.double) + self.do_precision(np.half, np.longdouble) + self.do_precision(np.single, np.double) + self.do_precision(np.single, np.longdouble) + self.do_precision(np.double, np.longdouble) + + def test_histogram_bin_edges(self): + hist, e = histogram([1, 2, 3, 4], [1, 2]) + edges = histogram_bin_edges([1, 2, 3, 4], [1, 2]) + assert_array_equal(edges, e) + + arr = np.array([0., 0., 0., 1., 2., 3., 3., 4., 5.]) + hist, e = histogram(arr, bins=30, range=(-0.5, 5)) + edges = histogram_bin_edges(arr, bins=30, range=(-0.5, 5)) + assert_array_equal(edges, e) + + hist, e = histogram(arr, bins='auto', range=(0, 1)) + edges = histogram_bin_edges(arr, bins='auto', range=(0, 1)) + assert_array_equal(edges, e) + + @requires_memory(free_bytes=1e10) + @pytest.mark.slow + def test_big_arrays(self): + sample = np.zeros([100000000, 3]) + xbins = 400 + ybins = 400 + zbins = np.arange(16000) + hist = np.histogramdd(sample=sample, bins=(xbins, ybins, zbins)) + assert_equal(type(hist), type((1, 2))) + + +class TestHistogramOptimBinNums: + """ + Provide test coverage when using provided estimators for optimal number of + bins + """ + + def test_empty(self): + estimator_list = ['fd', 'scott', 'rice', 'sturges', + 'doane', 'sqrt', 'auto', 'stone'] + # check it can deal with empty data + for estimator in estimator_list: + a, b = histogram([], bins=estimator) + assert_array_equal(a, np.array([0])) + assert_array_equal(b, np.array([0, 1])) + + def test_simple(self): + """ + Straightforward testing with a mixture of linspace data (for + consistency). All test values have been precomputed and the values + shouldn't change + """ + # Some basic sanity checking, with some fixed data. + # Checking for the correct number of bins + basic_test = {50: {'fd': 4, 'scott': 4, 'rice': 8, 'sturges': 7, + 'doane': 8, 'sqrt': 8, 'auto': 7, 'stone': 2}, + 500: {'fd': 8, 'scott': 8, 'rice': 16, 'sturges': 10, + 'doane': 12, 'sqrt': 23, 'auto': 10, 'stone': 9}, + 5000: {'fd': 17, 'scott': 17, 'rice': 35, 'sturges': 14, + 'doane': 17, 'sqrt': 71, 'auto': 17, 'stone': 20}} + + for testlen, expectedResults in basic_test.items(): + # Create some sort of non uniform data to test with + # (2 peak uniform mixture) + x1 = np.linspace(-10, -1, testlen // 5 * 2) + x2 = np.linspace(1, 10, testlen // 5 * 3) + x = np.concatenate((x1, x2)) + for estimator, numbins in expectedResults.items(): + a, b = np.histogram(x, estimator) + assert_equal(len(a), numbins, err_msg="For the {0} estimator " + "with datasize of {1}".format(estimator, testlen)) + + def test_small(self): + """ + Smaller datasets have the potential to cause issues with the data + adaptive methods, especially the FD method. All bin numbers have been + precalculated. + """ + small_dat = {1: {'fd': 1, 'scott': 1, 'rice': 1, 'sturges': 1, + 'doane': 1, 'sqrt': 1, 'stone': 1}, + 2: {'fd': 2, 'scott': 1, 'rice': 3, 'sturges': 2, + 'doane': 1, 'sqrt': 2, 'stone': 1}, + 3: {'fd': 2, 'scott': 2, 'rice': 3, 'sturges': 3, + 'doane': 3, 'sqrt': 2, 'stone': 1}} + + for testlen, expectedResults in small_dat.items(): + testdat = np.arange(testlen) + for estimator, expbins in expectedResults.items(): + a, b = np.histogram(testdat, estimator) + assert_equal(len(a), expbins, err_msg="For the {0} estimator " + "with datasize of {1}".format(estimator, testlen)) + + def test_incorrect_methods(self): + """ + Check a Value Error is thrown when an unknown string is passed in + """ + check_list = ['mad', 'freeman', 'histograms', 'IQR'] + for estimator in check_list: + assert_raises(ValueError, histogram, [1, 2, 3], estimator) + + def test_novariance(self): + """ + Check that methods handle no variance in data + Primarily for Scott and FD as the SD and IQR are both 0 in this case + """ + novar_dataset = np.ones(100) + novar_resultdict = {'fd': 1, 'scott': 1, 'rice': 1, 'sturges': 1, + 'doane': 1, 'sqrt': 1, 'auto': 1, 'stone': 1} + + for estimator, numbins in novar_resultdict.items(): + a, b = np.histogram(novar_dataset, estimator) + assert_equal(len(a), numbins, err_msg="{0} estimator, " + "No Variance test".format(estimator)) + + def test_limited_variance(self): + """ + Check when IQR is 0, but variance exists, we return the sturges value + and not the fd value. + """ + lim_var_data = np.ones(1000) + lim_var_data[:3] = 0 + lim_var_data[-4:] = 100 + + edges_auto = histogram_bin_edges(lim_var_data, 'auto') + assert_equal(edges_auto, np.linspace(0, 100, 12)) + + edges_fd = histogram_bin_edges(lim_var_data, 'fd') + assert_equal(edges_fd, np.array([0, 100])) + + edges_sturges = histogram_bin_edges(lim_var_data, 'sturges') + assert_equal(edges_sturges, np.linspace(0, 100, 12)) + + def test_outlier(self): + """ + Check the FD, Scott and Doane with outliers. + + The FD estimates a smaller binwidth since it's less affected by + outliers. Since the range is so (artificially) large, this means more + bins, most of which will be empty, but the data of interest usually is + unaffected. The Scott estimator is more affected and returns fewer bins, + despite most of the variance being in one area of the data. The Doane + estimator lies somewhere between the other two. + """ + xcenter = np.linspace(-10, 10, 50) + outlier_dataset = np.hstack((np.linspace(-110, -100, 5), xcenter)) + + outlier_resultdict = {'fd': 21, 'scott': 5, 'doane': 11, 'stone': 6} + + for estimator, numbins in outlier_resultdict.items(): + a, b = np.histogram(outlier_dataset, estimator) + assert_equal(len(a), numbins) + + def test_scott_vs_stone(self): + """Verify that Scott's rule and Stone's rule converges for normally distributed data""" + + def nbins_ratio(seed, size): + rng = np.random.RandomState(seed) + x = rng.normal(loc=0, scale=2, size=size) + a, b = len(np.histogram(x, 'stone')[0]), len(np.histogram(x, 'scott')[0]) + return a / (a + b) + + ll = [[nbins_ratio(seed, size) for size in np.geomspace(start=10, stop=100, num=4).round().astype(int)] + for seed in range(10)] + + # the average difference between the two methods decreases as the dataset size increases. + avg = abs(np.mean(ll, axis=0) - 0.5) + assert_almost_equal(avg, [0.15, 0.09, 0.08, 0.03], decimal=2) + + def test_simple_range(self): + """ + Straightforward testing with a mixture of linspace data (for + consistency). Adding in a 3rd mixture that will then be + completely ignored. All test values have been precomputed and + the shouldn't change. + """ + # some basic sanity checking, with some fixed data. + # Checking for the correct number of bins + basic_test = { + 50: {'fd': 8, 'scott': 8, 'rice': 15, + 'sturges': 14, 'auto': 14, 'stone': 8}, + 500: {'fd': 15, 'scott': 16, 'rice': 32, + 'sturges': 20, 'auto': 20, 'stone': 80}, + 5000: {'fd': 33, 'scott': 33, 'rice': 69, + 'sturges': 27, 'auto': 33, 'stone': 80} + } + + for testlen, expectedResults in basic_test.items(): + # create some sort of non uniform data to test with + # (3 peak uniform mixture) + x1 = np.linspace(-10, -1, testlen // 5 * 2) + x2 = np.linspace(1, 10, testlen // 5 * 3) + x3 = np.linspace(-100, -50, testlen) + x = np.hstack((x1, x2, x3)) + for estimator, numbins in expectedResults.items(): + a, b = np.histogram(x, estimator, range = (-20, 20)) + msg = "For the {0} estimator".format(estimator) + msg += " with datasize of {0}".format(testlen) + assert_equal(len(a), numbins, err_msg=msg) + + @pytest.mark.parametrize("bins", ['auto', 'fd', 'doane', 'scott', + 'stone', 'rice', 'sturges']) + def test_signed_integer_data(self, bins): + # Regression test for gh-14379. + a = np.array([-2, 0, 127], dtype=np.int8) + hist, edges = np.histogram(a, bins=bins) + hist32, edges32 = np.histogram(a.astype(np.int32), bins=bins) + assert_array_equal(hist, hist32) + assert_array_equal(edges, edges32) + + def test_simple_weighted(self): + """ + Check that weighted data raises a TypeError + """ + estimator_list = ['fd', 'scott', 'rice', 'sturges', 'auto'] + for estimator in estimator_list: + assert_raises(TypeError, histogram, [1, 2, 3], + estimator, weights=[1, 2, 3]) + + +class TestHistogramdd: + + def test_simple(self): + x = np.array([[-.5, .5, 1.5], [-.5, 1.5, 2.5], [-.5, 2.5, .5], + [.5, .5, 1.5], [.5, 1.5, 2.5], [.5, 2.5, 2.5]]) + H, edges = histogramdd(x, (2, 3, 3), + range=[[-1, 1], [0, 3], [0, 3]]) + answer = np.array([[[0, 1, 0], [0, 0, 1], [1, 0, 0]], + [[0, 1, 0], [0, 0, 1], [0, 0, 1]]]) + assert_array_equal(H, answer) + + # Check normalization + ed = [[-2, 0, 2], [0, 1, 2, 3], [0, 1, 2, 3]] + H, edges = histogramdd(x, bins=ed, density=True) + assert_(np.all(H == answer / 12.)) + + # Check that H has the correct shape. + H, edges = histogramdd(x, (2, 3, 4), + range=[[-1, 1], [0, 3], [0, 4]], + density=True) + answer = np.array([[[0, 1, 0, 0], [0, 0, 1, 0], [1, 0, 0, 0]], + [[0, 1, 0, 0], [0, 0, 1, 0], [0, 0, 1, 0]]]) + assert_array_almost_equal(H, answer / 6., 4) + # Check that a sequence of arrays is accepted and H has the correct + # shape. + z = [np.squeeze(y) for y in np.split(x, 3, axis=1)] + H, edges = histogramdd( + z, bins=(4, 3, 2), range=[[-2, 2], [0, 3], [0, 2]]) + answer = np.array([[[0, 0], [0, 0], [0, 0]], + [[0, 1], [0, 0], [1, 0]], + [[0, 1], [0, 0], [0, 0]], + [[0, 0], [0, 0], [0, 0]]]) + assert_array_equal(H, answer) + + Z = np.zeros((5, 5, 5)) + Z[list(range(5)), list(range(5)), list(range(5))] = 1. + H, edges = histogramdd([np.arange(5), np.arange(5), np.arange(5)], 5) + assert_array_equal(H, Z) + + def test_shape_3d(self): + # All possible permutations for bins of different lengths in 3D. + bins = ((5, 4, 6), (6, 4, 5), (5, 6, 4), (4, 6, 5), (6, 5, 4), + (4, 5, 6)) + r = np.random.rand(10, 3) + for b in bins: + H, edges = histogramdd(r, b) + assert_(H.shape == b) + + def test_shape_4d(self): + # All possible permutations for bins of different lengths in 4D. + bins = ((7, 4, 5, 6), (4, 5, 7, 6), (5, 6, 4, 7), (7, 6, 5, 4), + (5, 7, 6, 4), (4, 6, 7, 5), (6, 5, 7, 4), (7, 5, 4, 6), + (7, 4, 6, 5), (6, 4, 7, 5), (6, 7, 5, 4), (4, 6, 5, 7), + (4, 7, 5, 6), (5, 4, 6, 7), (5, 7, 4, 6), (6, 7, 4, 5), + (6, 5, 4, 7), (4, 7, 6, 5), (4, 5, 6, 7), (7, 6, 4, 5), + (5, 4, 7, 6), (5, 6, 7, 4), (6, 4, 5, 7), (7, 5, 6, 4)) + + r = np.random.rand(10, 4) + for b in bins: + H, edges = histogramdd(r, b) + assert_(H.shape == b) + + def test_weights(self): + v = np.random.rand(100, 2) + hist, edges = histogramdd(v) + n_hist, edges = histogramdd(v, density=True) + w_hist, edges = histogramdd(v, weights=np.ones(100)) + assert_array_equal(w_hist, hist) + w_hist, edges = histogramdd(v, weights=np.ones(100) * 2, density=True) + assert_array_equal(w_hist, n_hist) + w_hist, edges = histogramdd(v, weights=np.ones(100, int) * 2) + assert_array_equal(w_hist, 2 * hist) + + def test_identical_samples(self): + x = np.zeros((10, 2), int) + hist, edges = histogramdd(x, bins=2) + assert_array_equal(edges[0], np.array([-0.5, 0., 0.5])) + + def test_empty(self): + a, b = histogramdd([[], []], bins=([0, 1], [0, 1])) + assert_array_max_ulp(a, np.array([[0.]])) + a, b = np.histogramdd([[], [], []], bins=2) + assert_array_max_ulp(a, np.zeros((2, 2, 2))) + + def test_bins_errors(self): + # There are two ways to specify bins. Check for the right errors + # when mixing those. + x = np.arange(8).reshape(2, 4) + assert_raises(ValueError, np.histogramdd, x, bins=[-1, 2, 4, 5]) + assert_raises(ValueError, np.histogramdd, x, bins=[1, 0.99, 1, 1]) + assert_raises( + ValueError, np.histogramdd, x, bins=[1, 1, 1, [1, 2, 3, -3]]) + assert_(np.histogramdd(x, bins=[1, 1, 1, [1, 2, 3, 4]])) + + def test_inf_edges(self): + # Test using +/-inf bin edges works. See #1788. + with np.errstate(invalid='ignore'): + x = np.arange(6).reshape(3, 2) + expected = np.array([[1, 0], [0, 1], [0, 1]]) + h, e = np.histogramdd(x, bins=[3, [-np.inf, 2, 10]]) + assert_allclose(h, expected) + h, e = np.histogramdd(x, bins=[3, np.array([-1, 2, np.inf])]) + assert_allclose(h, expected) + h, e = np.histogramdd(x, bins=[3, [-np.inf, 3, np.inf]]) + assert_allclose(h, expected) + + def test_rightmost_binedge(self): + # Test event very close to rightmost binedge. See Github issue #4266 + x = [0.9999999995] + bins = [[0., 0.5, 1.0]] + hist, _ = histogramdd(x, bins=bins) + assert_(hist[0] == 0.0) + assert_(hist[1] == 1.) + x = [1.0] + bins = [[0., 0.5, 1.0]] + hist, _ = histogramdd(x, bins=bins) + assert_(hist[0] == 0.0) + assert_(hist[1] == 1.) + x = [1.0000000001] + bins = [[0., 0.5, 1.0]] + hist, _ = histogramdd(x, bins=bins) + assert_(hist[0] == 0.0) + assert_(hist[1] == 0.0) + x = [1.0001] + bins = [[0., 0.5, 1.0]] + hist, _ = histogramdd(x, bins=bins) + assert_(hist[0] == 0.0) + assert_(hist[1] == 0.0) + + def test_finite_range(self): + vals = np.random.random((100, 3)) + histogramdd(vals, range=[[0.0, 1.0], [0.25, 0.75], [0.25, 0.5]]) + assert_raises(ValueError, histogramdd, vals, + range=[[0.0, 1.0], [0.25, 0.75], [0.25, np.inf]]) + assert_raises(ValueError, histogramdd, vals, + range=[[0.0, 1.0], [np.nan, 0.75], [0.25, 0.5]]) + + def test_equal_edges(self): + """ Test that adjacent entries in an edge array can be equal """ + x = np.array([0, 1, 2]) + y = np.array([0, 1, 2]) + x_edges = np.array([0, 2, 2]) + y_edges = 1 + hist, edges = histogramdd((x, y), bins=(x_edges, y_edges)) + + hist_expected = np.array([ + [2.], + [1.], # x == 2 falls in the final bin + ]) + assert_equal(hist, hist_expected) + + def test_edge_dtype(self): + """ Test that if an edge array is input, its type is preserved """ + x = np.array([0, 10, 20]) + y = x / 10 + x_edges = np.array([0, 5, 15, 20]) + y_edges = x_edges / 10 + hist, edges = histogramdd((x, y), bins=(x_edges, y_edges)) + + assert_equal(edges[0].dtype, x_edges.dtype) + assert_equal(edges[1].dtype, y_edges.dtype) + + def test_large_integers(self): + big = 2**60 # Too large to represent with a full precision float + + x = np.array([0], np.int64) + x_edges = np.array([-1, +1], np.int64) + y = big + x + y_edges = big + x_edges + + hist, edges = histogramdd((x, y), bins=(x_edges, y_edges)) + + assert_equal(hist[0, 0], 1) + + def test_density_non_uniform_2d(self): + # Defines the following grid: + # + # 0 2 8 + # 0+-+-----+ + # + | + + # + | + + # 6+-+-----+ + # 8+-+-----+ + x_edges = np.array([0, 2, 8]) + y_edges = np.array([0, 6, 8]) + relative_areas = np.array([ + [3, 9], + [1, 3]]) + + # ensure the number of points in each region is proportional to its area + x = np.array([1] + [1]*3 + [7]*3 + [7]*9) + y = np.array([7] + [1]*3 + [7]*3 + [1]*9) + + # sanity check that the above worked as intended + hist, edges = histogramdd((y, x), bins=(y_edges, x_edges)) + assert_equal(hist, relative_areas) + + # resulting histogram should be uniform, since counts and areas are proportional + hist, edges = histogramdd((y, x), bins=(y_edges, x_edges), density=True) + assert_equal(hist, 1 / (8*8)) + + def test_density_non_uniform_1d(self): + # compare to histogram to show the results are the same + v = np.arange(10) + bins = np.array([0, 1, 3, 6, 10]) + hist, edges = histogram(v, bins, density=True) + hist_dd, edges_dd = histogramdd((v,), (bins,), density=True) + assert_equal(hist, hist_dd) + assert_equal(edges, edges_dd[0]) + + def test_density_via_normed(self): + # normed should simply alias to density argument + v = np.arange(10) + bins = np.array([0, 1, 3, 6, 10]) + hist, edges = histogram(v, bins, density=True) + hist_dd, edges_dd = histogramdd((v,), (bins,), normed=True) + assert_equal(hist, hist_dd) + assert_equal(edges, edges_dd[0]) + + def test_density_normed_redundancy(self): + v = np.arange(10) + bins = np.array([0, 1, 3, 6, 10]) + with assert_raises_regex(TypeError, "Cannot specify both"): + hist_dd, edges_dd = histogramdd((v,), (bins,), + density=True, + normed=True) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_io.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_io.py new file mode 100644 index 0000000000000000000000000000000000000000..31df17a96ce4dc98d2f81251b299b53ed019aaf0 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_io.py @@ -0,0 +1,2737 @@ +import sys +import gc +import gzip +import os +import threading +import time +import warnings +import io +import re +import pytest +from pathlib import Path +from tempfile import NamedTemporaryFile +from io import BytesIO, StringIO +from datetime import datetime +import locale +from multiprocessing import Value, get_context +from ctypes import c_bool + +import numpy as np +import numpy.ma as ma +from numpy.lib._iotools import ConverterError, ConversionWarning +from numpy.compat import asbytes +from numpy.ma.testutils import assert_equal +from numpy.testing import ( + assert_warns, assert_, assert_raises_regex, assert_raises, + assert_allclose, assert_array_equal, temppath, tempdir, IS_PYPY, + HAS_REFCOUNT, suppress_warnings, assert_no_gc_cycles, assert_no_warnings, + break_cycles + ) +from numpy.testing._private.utils import requires_memory + + +class TextIO(BytesIO): + """Helper IO class. + + Writes encode strings to bytes if needed, reads return bytes. + This makes it easier to emulate files opened in binary mode + without needing to explicitly convert strings to bytes in + setting up the test data. + + """ + def __init__(self, s=""): + BytesIO.__init__(self, asbytes(s)) + + def write(self, s): + BytesIO.write(self, asbytes(s)) + + def writelines(self, lines): + BytesIO.writelines(self, [asbytes(s) for s in lines]) + + +IS_64BIT = sys.maxsize > 2**32 +try: + import bz2 + HAS_BZ2 = True +except ImportError: + HAS_BZ2 = False +try: + import lzma + HAS_LZMA = True +except ImportError: + HAS_LZMA = False + + +def strptime(s, fmt=None): + """ + This function is available in the datetime module only from Python >= + 2.5. + + """ + if type(s) == bytes: + s = s.decode("latin1") + return datetime(*time.strptime(s, fmt)[:3]) + + +class RoundtripTest: + def roundtrip(self, save_func, *args, **kwargs): + """ + save_func : callable + Function used to save arrays to file. + file_on_disk : bool + If true, store the file on disk, instead of in a + string buffer. + save_kwds : dict + Parameters passed to `save_func`. + load_kwds : dict + Parameters passed to `numpy.load`. + args : tuple of arrays + Arrays stored to file. + + """ + save_kwds = kwargs.get('save_kwds', {}) + load_kwds = kwargs.get('load_kwds', {"allow_pickle": True}) + file_on_disk = kwargs.get('file_on_disk', False) + + if file_on_disk: + target_file = NamedTemporaryFile(delete=False) + load_file = target_file.name + else: + target_file = BytesIO() + load_file = target_file + + try: + arr = args + + save_func(target_file, *arr, **save_kwds) + target_file.flush() + target_file.seek(0) + + if sys.platform == 'win32' and not isinstance(target_file, BytesIO): + target_file.close() + + arr_reloaded = np.load(load_file, **load_kwds) + + self.arr = arr + self.arr_reloaded = arr_reloaded + finally: + if not isinstance(target_file, BytesIO): + target_file.close() + # holds an open file descriptor so it can't be deleted on win + if 'arr_reloaded' in locals(): + if not isinstance(arr_reloaded, np.lib.npyio.NpzFile): + os.remove(target_file.name) + + def check_roundtrips(self, a): + self.roundtrip(a) + self.roundtrip(a, file_on_disk=True) + self.roundtrip(np.asfortranarray(a)) + self.roundtrip(np.asfortranarray(a), file_on_disk=True) + if a.shape[0] > 1: + # neither C nor Fortran contiguous for 2D arrays or more + self.roundtrip(np.asfortranarray(a)[1:]) + self.roundtrip(np.asfortranarray(a)[1:], file_on_disk=True) + + def test_array(self): + a = np.array([], float) + self.check_roundtrips(a) + + a = np.array([[1, 2], [3, 4]], float) + self.check_roundtrips(a) + + a = np.array([[1, 2], [3, 4]], int) + self.check_roundtrips(a) + + a = np.array([[1 + 5j, 2 + 6j], [3 + 7j, 4 + 8j]], dtype=np.csingle) + self.check_roundtrips(a) + + a = np.array([[1 + 5j, 2 + 6j], [3 + 7j, 4 + 8j]], dtype=np.cdouble) + self.check_roundtrips(a) + + def test_array_object(self): + a = np.array([], object) + self.check_roundtrips(a) + + a = np.array([[1, 2], [3, 4]], object) + self.check_roundtrips(a) + + def test_1D(self): + a = np.array([1, 2, 3, 4], int) + self.roundtrip(a) + + @pytest.mark.skipif(sys.platform == 'win32', reason="Fails on Win32") + def test_mmap(self): + a = np.array([[1, 2.5], [4, 7.3]]) + self.roundtrip(a, file_on_disk=True, load_kwds={'mmap_mode': 'r'}) + + a = np.asfortranarray([[1, 2.5], [4, 7.3]]) + self.roundtrip(a, file_on_disk=True, load_kwds={'mmap_mode': 'r'}) + + def test_record(self): + a = np.array([(1, 2), (3, 4)], dtype=[('x', 'i4'), ('y', 'i4')]) + self.check_roundtrips(a) + + @pytest.mark.slow + def test_format_2_0(self): + dt = [(("%d" % i) * 100, float) for i in range(500)] + a = np.ones(1000, dtype=dt) + with warnings.catch_warnings(record=True): + warnings.filterwarnings('always', '', UserWarning) + self.check_roundtrips(a) + + +class TestSaveLoad(RoundtripTest): + def roundtrip(self, *args, **kwargs): + RoundtripTest.roundtrip(self, np.save, *args, **kwargs) + assert_equal(self.arr[0], self.arr_reloaded) + assert_equal(self.arr[0].dtype, self.arr_reloaded.dtype) + assert_equal(self.arr[0].flags.fnc, self.arr_reloaded.flags.fnc) + + +class TestSavezLoad(RoundtripTest): + def roundtrip(self, *args, **kwargs): + RoundtripTest.roundtrip(self, np.savez, *args, **kwargs) + try: + for n, arr in enumerate(self.arr): + reloaded = self.arr_reloaded['arr_%d' % n] + assert_equal(arr, reloaded) + assert_equal(arr.dtype, reloaded.dtype) + assert_equal(arr.flags.fnc, reloaded.flags.fnc) + finally: + # delete tempfile, must be done here on windows + if self.arr_reloaded.fid: + self.arr_reloaded.fid.close() + os.remove(self.arr_reloaded.fid.name) + + @pytest.mark.skipif(IS_PYPY, reason="Hangs on PyPy") + @pytest.mark.skipif(not IS_64BIT, reason="Needs 64bit platform") + @pytest.mark.slow + def test_big_arrays(self): + L = (1 << 31) + 100000 + a = np.empty(L, dtype=np.uint8) + with temppath(prefix="numpy_test_big_arrays_", suffix=".npz") as tmp: + np.savez(tmp, a=a) + del a + npfile = np.load(tmp) + a = npfile['a'] # Should succeed + npfile.close() + del a # Avoid pyflakes unused variable warning. + + def test_multiple_arrays(self): + a = np.array([[1, 2], [3, 4]], float) + b = np.array([[1 + 2j, 2 + 7j], [3 - 6j, 4 + 12j]], complex) + self.roundtrip(a, b) + + def test_named_arrays(self): + a = np.array([[1, 2], [3, 4]], float) + b = np.array([[1 + 2j, 2 + 7j], [3 - 6j, 4 + 12j]], complex) + c = BytesIO() + np.savez(c, file_a=a, file_b=b) + c.seek(0) + l = np.load(c) + assert_equal(a, l['file_a']) + assert_equal(b, l['file_b']) + + def test_BagObj(self): + a = np.array([[1, 2], [3, 4]], float) + b = np.array([[1 + 2j, 2 + 7j], [3 - 6j, 4 + 12j]], complex) + c = BytesIO() + np.savez(c, file_a=a, file_b=b) + c.seek(0) + l = np.load(c) + assert_equal(sorted(dir(l.f)), ['file_a','file_b']) + assert_equal(a, l.f.file_a) + assert_equal(b, l.f.file_b) + + def test_savez_filename_clashes(self): + # Test that issue #852 is fixed + # and savez functions in multithreaded environment + + def writer(error_list): + with temppath(suffix='.npz') as tmp: + arr = np.random.randn(500, 500) + try: + np.savez(tmp, arr=arr) + except OSError as err: + error_list.append(err) + + errors = [] + threads = [threading.Thread(target=writer, args=(errors,)) + for j in range(3)] + for t in threads: + t.start() + for t in threads: + t.join() + + if errors: + raise AssertionError(errors) + + def test_not_closing_opened_fid(self): + # Test that issue #2178 is fixed: + # verify could seek on 'loaded' file + with temppath(suffix='.npz') as tmp: + with open(tmp, 'wb') as fp: + np.savez(fp, data='LOVELY LOAD') + with open(tmp, 'rb', 10000) as fp: + fp.seek(0) + assert_(not fp.closed) + np.load(fp)['data'] + # fp must not get closed by .load + assert_(not fp.closed) + fp.seek(0) + assert_(not fp.closed) + + @pytest.mark.slow_pypy + def test_closing_fid(self): + # Test that issue #1517 (too many opened files) remains closed + # It might be a "weak" test since failed to get triggered on + # e.g. Debian sid of 2012 Jul 05 but was reported to + # trigger the failure on Ubuntu 10.04: + # http://projects.scipy.org/numpy/ticket/1517#comment:2 + with temppath(suffix='.npz') as tmp: + np.savez(tmp, data='LOVELY LOAD') + # We need to check if the garbage collector can properly close + # numpy npz file returned by np.load when their reference count + # goes to zero. Python 3 running in debug mode raises a + # ResourceWarning when file closing is left to the garbage + # collector, so we catch the warnings. + with suppress_warnings() as sup: + sup.filter(ResourceWarning) # TODO: specify exact message + for i in range(1, 1025): + try: + np.load(tmp)["data"] + except Exception as e: + msg = "Failed to load data from a file: %s" % e + raise AssertionError(msg) + finally: + if IS_PYPY: + gc.collect() + + def test_closing_zipfile_after_load(self): + # Check that zipfile owns file and can close it. This needs to + # pass a file name to load for the test. On windows failure will + # cause a second error will be raised when the attempt to remove + # the open file is made. + prefix = 'numpy_test_closing_zipfile_after_load_' + with temppath(suffix='.npz', prefix=prefix) as tmp: + np.savez(tmp, lab='place holder') + data = np.load(tmp) + fp = data.zip.fp + data.close() + assert_(fp.closed) + + +class TestSaveTxt: + def test_array(self): + a = np.array([[1, 2], [3, 4]], float) + fmt = "%.18e" + c = BytesIO() + np.savetxt(c, a, fmt=fmt) + c.seek(0) + assert_equal(c.readlines(), + [asbytes((fmt + ' ' + fmt + '\n') % (1, 2)), + asbytes((fmt + ' ' + fmt + '\n') % (3, 4))]) + + a = np.array([[1, 2], [3, 4]], int) + c = BytesIO() + np.savetxt(c, a, fmt='%d') + c.seek(0) + assert_equal(c.readlines(), [b'1 2\n', b'3 4\n']) + + def test_1D(self): + a = np.array([1, 2, 3, 4], int) + c = BytesIO() + np.savetxt(c, a, fmt='%d') + c.seek(0) + lines = c.readlines() + assert_equal(lines, [b'1\n', b'2\n', b'3\n', b'4\n']) + + def test_0D_3D(self): + c = BytesIO() + assert_raises(ValueError, np.savetxt, c, np.array(1)) + assert_raises(ValueError, np.savetxt, c, np.array([[[1], [2]]])) + + def test_structured(self): + a = np.array([(1, 2), (3, 4)], dtype=[('x', 'i4'), ('y', 'i4')]) + c = BytesIO() + np.savetxt(c, a, fmt='%d') + c.seek(0) + assert_equal(c.readlines(), [b'1 2\n', b'3 4\n']) + + def test_structured_padded(self): + # gh-13297 + a = np.array([(1, 2, 3),(4, 5, 6)], dtype=[ + ('foo', 'i4'), ('bar', 'i4'), ('baz', 'i4') + ]) + c = BytesIO() + np.savetxt(c, a[['foo', 'baz']], fmt='%d') + c.seek(0) + assert_equal(c.readlines(), [b'1 3\n', b'4 6\n']) + + def test_multifield_view(self): + a = np.ones(1, dtype=[('x', 'i4'), ('y', 'i4'), ('z', 'f4')]) + v = a[['x', 'z']] + with temppath(suffix='.npy') as path: + path = Path(path) + np.save(path, v) + data = np.load(path) + assert_array_equal(data, v) + + def test_delimiter(self): + a = np.array([[1., 2.], [3., 4.]]) + c = BytesIO() + np.savetxt(c, a, delimiter=',', fmt='%d') + c.seek(0) + assert_equal(c.readlines(), [b'1,2\n', b'3,4\n']) + + def test_format(self): + a = np.array([(1, 2), (3, 4)]) + c = BytesIO() + # Sequence of formats + np.savetxt(c, a, fmt=['%02d', '%3.1f']) + c.seek(0) + assert_equal(c.readlines(), [b'01 2.0\n', b'03 4.0\n']) + + # A single multiformat string + c = BytesIO() + np.savetxt(c, a, fmt='%02d : %3.1f') + c.seek(0) + lines = c.readlines() + assert_equal(lines, [b'01 : 2.0\n', b'03 : 4.0\n']) + + # Specify delimiter, should be overridden + c = BytesIO() + np.savetxt(c, a, fmt='%02d : %3.1f', delimiter=',') + c.seek(0) + lines = c.readlines() + assert_equal(lines, [b'01 : 2.0\n', b'03 : 4.0\n']) + + # Bad fmt, should raise a ValueError + c = BytesIO() + assert_raises(ValueError, np.savetxt, c, a, fmt=99) + + def test_header_footer(self): + # Test the functionality of the header and footer keyword argument. + + c = BytesIO() + a = np.array([(1, 2), (3, 4)], dtype=int) + test_header_footer = 'Test header / footer' + # Test the header keyword argument + np.savetxt(c, a, fmt='%1d', header=test_header_footer) + c.seek(0) + assert_equal(c.read(), + asbytes('# ' + test_header_footer + '\n1 2\n3 4\n')) + # Test the footer keyword argument + c = BytesIO() + np.savetxt(c, a, fmt='%1d', footer=test_header_footer) + c.seek(0) + assert_equal(c.read(), + asbytes('1 2\n3 4\n# ' + test_header_footer + '\n')) + # Test the commentstr keyword argument used on the header + c = BytesIO() + commentstr = '% ' + np.savetxt(c, a, fmt='%1d', + header=test_header_footer, comments=commentstr) + c.seek(0) + assert_equal(c.read(), + asbytes(commentstr + test_header_footer + '\n' + '1 2\n3 4\n')) + # Test the commentstr keyword argument used on the footer + c = BytesIO() + commentstr = '% ' + np.savetxt(c, a, fmt='%1d', + footer=test_header_footer, comments=commentstr) + c.seek(0) + assert_equal(c.read(), + asbytes('1 2\n3 4\n' + commentstr + test_header_footer + '\n')) + + def test_file_roundtrip(self): + with temppath() as name: + a = np.array([(1, 2), (3, 4)]) + np.savetxt(name, a) + b = np.loadtxt(name) + assert_array_equal(a, b) + + def test_complex_arrays(self): + ncols = 2 + nrows = 2 + a = np.zeros((ncols, nrows), dtype=np.complex128) + re = np.pi + im = np.e + a[:] = re + 1.0j * im + + # One format only + c = BytesIO() + np.savetxt(c, a, fmt=' %+.3e') + c.seek(0) + lines = c.readlines() + assert_equal( + lines, + [b' ( +3.142e+00+ +2.718e+00j) ( +3.142e+00+ +2.718e+00j)\n', + b' ( +3.142e+00+ +2.718e+00j) ( +3.142e+00+ +2.718e+00j)\n']) + + # One format for each real and imaginary part + c = BytesIO() + np.savetxt(c, a, fmt=' %+.3e' * 2 * ncols) + c.seek(0) + lines = c.readlines() + assert_equal( + lines, + [b' +3.142e+00 +2.718e+00 +3.142e+00 +2.718e+00\n', + b' +3.142e+00 +2.718e+00 +3.142e+00 +2.718e+00\n']) + + # One format for each complex number + c = BytesIO() + np.savetxt(c, a, fmt=['(%.3e%+.3ej)'] * ncols) + c.seek(0) + lines = c.readlines() + assert_equal( + lines, + [b'(3.142e+00+2.718e+00j) (3.142e+00+2.718e+00j)\n', + b'(3.142e+00+2.718e+00j) (3.142e+00+2.718e+00j)\n']) + + def test_complex_negative_exponent(self): + # Previous to 1.15, some formats generated x+-yj, gh 7895 + ncols = 2 + nrows = 2 + a = np.zeros((ncols, nrows), dtype=np.complex128) + re = np.pi + im = np.e + a[:] = re - 1.0j * im + c = BytesIO() + np.savetxt(c, a, fmt='%.3e') + c.seek(0) + lines = c.readlines() + assert_equal( + lines, + [b' (3.142e+00-2.718e+00j) (3.142e+00-2.718e+00j)\n', + b' (3.142e+00-2.718e+00j) (3.142e+00-2.718e+00j)\n']) + + + def test_custom_writer(self): + + class CustomWriter(list): + def write(self, text): + self.extend(text.split(b'\n')) + + w = CustomWriter() + a = np.array([(1, 2), (3, 4)]) + np.savetxt(w, a) + b = np.loadtxt(w) + assert_array_equal(a, b) + + def test_unicode(self): + utf8 = b'\xcf\x96'.decode('UTF-8') + a = np.array([utf8], dtype=np.unicode_) + with tempdir() as tmpdir: + # set encoding as on windows it may not be unicode even on py3 + np.savetxt(os.path.join(tmpdir, 'test.csv'), a, fmt=['%s'], + encoding='UTF-8') + + def test_unicode_roundtrip(self): + utf8 = b'\xcf\x96'.decode('UTF-8') + a = np.array([utf8], dtype=np.unicode_) + # our gz wrapper support encoding + suffixes = ['', '.gz'] + if HAS_BZ2: + suffixes.append('.bz2') + if HAS_LZMA: + suffixes.extend(['.xz', '.lzma']) + with tempdir() as tmpdir: + for suffix in suffixes: + np.savetxt(os.path.join(tmpdir, 'test.csv' + suffix), a, + fmt=['%s'], encoding='UTF-16-LE') + b = np.loadtxt(os.path.join(tmpdir, 'test.csv' + suffix), + encoding='UTF-16-LE', dtype=np.unicode_) + assert_array_equal(a, b) + + def test_unicode_bytestream(self): + utf8 = b'\xcf\x96'.decode('UTF-8') + a = np.array([utf8], dtype=np.unicode_) + s = BytesIO() + np.savetxt(s, a, fmt=['%s'], encoding='UTF-8') + s.seek(0) + assert_equal(s.read().decode('UTF-8'), utf8 + '\n') + + def test_unicode_stringstream(self): + utf8 = b'\xcf\x96'.decode('UTF-8') + a = np.array([utf8], dtype=np.unicode_) + s = StringIO() + np.savetxt(s, a, fmt=['%s'], encoding='UTF-8') + s.seek(0) + assert_equal(s.read(), utf8 + '\n') + + @pytest.mark.parametrize("fmt", [u"%f", b"%f"]) + @pytest.mark.parametrize("iotype", [StringIO, BytesIO]) + def test_unicode_and_bytes_fmt(self, fmt, iotype): + # string type of fmt should not matter, see also gh-4053 + a = np.array([1.]) + s = iotype() + np.savetxt(s, a, fmt=fmt) + s.seek(0) + if iotype is StringIO: + assert_equal(s.read(), u"%f\n" % 1.) + else: + assert_equal(s.read(), b"%f\n" % 1.) + + @pytest.mark.skipif(sys.platform=='win32', reason="files>4GB may not work") + @pytest.mark.slow + @requires_memory(free_bytes=7e9) + def test_large_zip(self): + def check_large_zip(memoryerror_raised): + memoryerror_raised.value = False + try: + # The test takes at least 6GB of memory, writes a file larger + # than 4GB. This tests the ``allowZip64`` kwarg to ``zipfile`` + test_data = np.asarray([np.random.rand( + np.random.randint(50,100),4) + for i in range(800000)], dtype=object) + with tempdir() as tmpdir: + np.savez(os.path.join(tmpdir, 'test.npz'), + test_data=test_data) + except MemoryError: + memoryerror_raised.value = True + raise + # run in a subprocess to ensure memory is released on PyPy, see gh-15775 + # Use an object in shared memory to re-raise the MemoryError exception + # in our process if needed, see gh-16889 + memoryerror_raised = Value(c_bool) + + # Since Python 3.8, the default start method for multiprocessing has + # been changed from 'fork' to 'spawn' on macOS, causing inconsistency + # on memory sharing model, lead to failed test for check_large_zip + ctx = get_context('fork') + p = ctx.Process(target=check_large_zip, args=(memoryerror_raised,)) + p.start() + p.join() + if memoryerror_raised.value: + raise MemoryError("Child process raised a MemoryError exception") + # -9 indicates a SIGKILL, probably an OOM. + if p.exitcode == -9: + pytest.xfail("subprocess got a SIGKILL, apparently free memory was not sufficient") + assert p.exitcode == 0 + +class LoadTxtBase: + def check_compressed(self, fopen, suffixes): + # Test that we can load data from a compressed file + wanted = np.arange(6).reshape((2, 3)) + linesep = ('\n', '\r\n', '\r') + for sep in linesep: + data = '0 1 2' + sep + '3 4 5' + for suffix in suffixes: + with temppath(suffix=suffix) as name: + with fopen(name, mode='wt', encoding='UTF-32-LE') as f: + f.write(data) + res = self.loadfunc(name, encoding='UTF-32-LE') + assert_array_equal(res, wanted) + with fopen(name, "rt", encoding='UTF-32-LE') as f: + res = self.loadfunc(f) + assert_array_equal(res, wanted) + + def test_compressed_gzip(self): + self.check_compressed(gzip.open, ('.gz',)) + + @pytest.mark.skipif(not HAS_BZ2, reason="Needs bz2") + def test_compressed_bz2(self): + self.check_compressed(bz2.open, ('.bz2',)) + + @pytest.mark.skipif(not HAS_LZMA, reason="Needs lzma") + def test_compressed_lzma(self): + self.check_compressed(lzma.open, ('.xz', '.lzma')) + + def test_encoding(self): + with temppath() as path: + with open(path, "wb") as f: + f.write('0.\n1.\n2.'.encode("UTF-16")) + x = self.loadfunc(path, encoding="UTF-16") + assert_array_equal(x, [0., 1., 2.]) + + def test_stringload(self): + # umlaute + nonascii = b'\xc3\xb6\xc3\xbc\xc3\xb6'.decode("UTF-8") + with temppath() as path: + with open(path, "wb") as f: + f.write(nonascii.encode("UTF-16")) + x = self.loadfunc(path, encoding="UTF-16", dtype=np.unicode_) + assert_array_equal(x, nonascii) + + def test_binary_decode(self): + utf16 = b'\xff\xfeh\x04 \x00i\x04 \x00j\x04' + v = self.loadfunc(BytesIO(utf16), dtype=np.unicode_, encoding='UTF-16') + assert_array_equal(v, np.array(utf16.decode('UTF-16').split())) + + def test_converters_decode(self): + # test converters that decode strings + c = TextIO() + c.write(b'\xcf\x96') + c.seek(0) + x = self.loadfunc(c, dtype=np.unicode_, + converters={0: lambda x: x.decode('UTF-8')}) + a = np.array([b'\xcf\x96'.decode('UTF-8')]) + assert_array_equal(x, a) + + def test_converters_nodecode(self): + # test native string converters enabled by setting an encoding + utf8 = b'\xcf\x96'.decode('UTF-8') + with temppath() as path: + with io.open(path, 'wt', encoding='UTF-8') as f: + f.write(utf8) + x = self.loadfunc(path, dtype=np.unicode_, + converters={0: lambda x: x + 't'}, + encoding='UTF-8') + a = np.array([utf8 + 't']) + assert_array_equal(x, a) + + +class TestLoadTxt(LoadTxtBase): + loadfunc = staticmethod(np.loadtxt) + + def setup_method(self): + # lower chunksize for testing + self.orig_chunk = np.lib.npyio._loadtxt_chunksize + np.lib.npyio._loadtxt_chunksize = 1 + + def teardown_method(self): + np.lib.npyio._loadtxt_chunksize = self.orig_chunk + + def test_record(self): + c = TextIO() + c.write('1 2\n3 4') + c.seek(0) + x = np.loadtxt(c, dtype=[('x', np.int32), ('y', np.int32)]) + a = np.array([(1, 2), (3, 4)], dtype=[('x', 'i4'), ('y', 'i4')]) + assert_array_equal(x, a) + + d = TextIO() + d.write('M 64 75.0\nF 25 60.0') + d.seek(0) + mydescriptor = {'names': ('gender', 'age', 'weight'), + 'formats': ('S1', 'i4', 'f4')} + b = np.array([('M', 64.0, 75.0), + ('F', 25.0, 60.0)], dtype=mydescriptor) + y = np.loadtxt(d, dtype=mydescriptor) + assert_array_equal(y, b) + + def test_array(self): + c = TextIO() + c.write('1 2\n3 4') + + c.seek(0) + x = np.loadtxt(c, dtype=int) + a = np.array([[1, 2], [3, 4]], int) + assert_array_equal(x, a) + + c.seek(0) + x = np.loadtxt(c, dtype=float) + a = np.array([[1, 2], [3, 4]], float) + assert_array_equal(x, a) + + def test_1D(self): + c = TextIO() + c.write('1\n2\n3\n4\n') + c.seek(0) + x = np.loadtxt(c, dtype=int) + a = np.array([1, 2, 3, 4], int) + assert_array_equal(x, a) + + c = TextIO() + c.write('1,2,3,4\n') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',') + a = np.array([1, 2, 3, 4], int) + assert_array_equal(x, a) + + def test_missing(self): + c = TextIO() + c.write('1,2,3,,5\n') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + converters={3: lambda s: int(s or - 999)}) + a = np.array([1, 2, 3, -999, 5], int) + assert_array_equal(x, a) + + def test_converters_with_usecols(self): + c = TextIO() + c.write('1,2,3,,5\n6,7,8,9,10\n') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + converters={3: lambda s: int(s or - 999)}, + usecols=(1, 3,)) + a = np.array([[2, -999], [7, 9]], int) + assert_array_equal(x, a) + + def test_comments_unicode(self): + c = TextIO() + c.write('# comment\n1,2,3,5\n') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + comments=u'#') + a = np.array([1, 2, 3, 5], int) + assert_array_equal(x, a) + + def test_comments_byte(self): + c = TextIO() + c.write('# comment\n1,2,3,5\n') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + comments=b'#') + a = np.array([1, 2, 3, 5], int) + assert_array_equal(x, a) + + def test_comments_multiple(self): + c = TextIO() + c.write('# comment\n1,2,3\n@ comment2\n4,5,6 // comment3') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + comments=['#', '@', '//']) + a = np.array([[1, 2, 3], [4, 5, 6]], int) + assert_array_equal(x, a) + + @pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") + def test_comments_multi_chars(self): + c = TextIO() + c.write('/* comment\n1,2,3,5\n') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + comments='/*') + a = np.array([1, 2, 3, 5], int) + assert_array_equal(x, a) + + # Check that '/*' is not transformed to ['/', '*'] + c = TextIO() + c.write('*/ comment\n1,2,3,5\n') + c.seek(0) + assert_raises(ValueError, np.loadtxt, c, dtype=int, delimiter=',', + comments='/*') + + def test_skiprows(self): + c = TextIO() + c.write('comment\n1,2,3,5\n') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + skiprows=1) + a = np.array([1, 2, 3, 5], int) + assert_array_equal(x, a) + + c = TextIO() + c.write('# comment\n1,2,3,5\n') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + skiprows=1) + a = np.array([1, 2, 3, 5], int) + assert_array_equal(x, a) + + def test_usecols(self): + a = np.array([[1, 2], [3, 4]], float) + c = BytesIO() + np.savetxt(c, a) + c.seek(0) + x = np.loadtxt(c, dtype=float, usecols=(1,)) + assert_array_equal(x, a[:, 1]) + + a = np.array([[1, 2, 3], [3, 4, 5]], float) + c = BytesIO() + np.savetxt(c, a) + c.seek(0) + x = np.loadtxt(c, dtype=float, usecols=(1, 2)) + assert_array_equal(x, a[:, 1:]) + + # Testing with arrays instead of tuples. + c.seek(0) + x = np.loadtxt(c, dtype=float, usecols=np.array([1, 2])) + assert_array_equal(x, a[:, 1:]) + + # Testing with an integer instead of a sequence + for int_type in [int, np.int8, np.int16, + np.int32, np.int64, np.uint8, np.uint16, + np.uint32, np.uint64]: + to_read = int_type(1) + c.seek(0) + x = np.loadtxt(c, dtype=float, usecols=to_read) + assert_array_equal(x, a[:, 1]) + + # Testing with some crazy custom integer type + class CrazyInt: + def __index__(self): + return 1 + + crazy_int = CrazyInt() + c.seek(0) + x = np.loadtxt(c, dtype=float, usecols=crazy_int) + assert_array_equal(x, a[:, 1]) + + c.seek(0) + x = np.loadtxt(c, dtype=float, usecols=(crazy_int,)) + assert_array_equal(x, a[:, 1]) + + # Checking with dtypes defined converters. + data = '''JOE 70.1 25.3 + BOB 60.5 27.9 + ''' + c = TextIO(data) + names = ['stid', 'temp'] + dtypes = ['S4', 'f8'] + arr = np.loadtxt(c, usecols=(0, 2), dtype=list(zip(names, dtypes))) + assert_equal(arr['stid'], [b"JOE", b"BOB"]) + assert_equal(arr['temp'], [25.3, 27.9]) + + # Testing non-ints in usecols + c.seek(0) + bogus_idx = 1.5 + assert_raises_regex( + TypeError, + '^usecols must be.*%s' % type(bogus_idx).__name__, + np.loadtxt, c, usecols=bogus_idx + ) + + assert_raises_regex( + TypeError, + '^usecols must be.*%s' % type(bogus_idx).__name__, + np.loadtxt, c, usecols=[0, bogus_idx, 0] + ) + + def test_bad_usecols(self): + with pytest.raises(OverflowError): + np.loadtxt(["1\n"], usecols=[2**64], delimiter=",") + with pytest.raises((ValueError, OverflowError)): + # Overflow error on 32bit platforms + np.loadtxt(["1\n"], usecols=[2**62], delimiter=",") + with pytest.raises(TypeError, + match="If a structured dtype .*. But 1 usecols were given and " + "the number of fields is 3."): + np.loadtxt(["1,1\n"], dtype="i,(2)i", usecols=[0], delimiter=",") + + def test_fancy_dtype(self): + c = TextIO() + c.write('1,2,3.0\n4,5,6.0\n') + c.seek(0) + dt = np.dtype([('x', int), ('y', [('t', int), ('s', float)])]) + x = np.loadtxt(c, dtype=dt, delimiter=',') + a = np.array([(1, (2, 3.0)), (4, (5, 6.0))], dt) + assert_array_equal(x, a) + + def test_shaped_dtype(self): + c = TextIO("aaaa 1.0 8.0 1 2 3 4 5 6") + dt = np.dtype([('name', 'S4'), ('x', float), ('y', float), + ('block', int, (2, 3))]) + x = np.loadtxt(c, dtype=dt) + a = np.array([('aaaa', 1.0, 8.0, [[1, 2, 3], [4, 5, 6]])], + dtype=dt) + assert_array_equal(x, a) + + def test_3d_shaped_dtype(self): + c = TextIO("aaaa 1.0 8.0 1 2 3 4 5 6 7 8 9 10 11 12") + dt = np.dtype([('name', 'S4'), ('x', float), ('y', float), + ('block', int, (2, 2, 3))]) + x = np.loadtxt(c, dtype=dt) + a = np.array([('aaaa', 1.0, 8.0, + [[[1, 2, 3], [4, 5, 6]], [[7, 8, 9], [10, 11, 12]]])], + dtype=dt) + assert_array_equal(x, a) + + def test_str_dtype(self): + # see gh-8033 + c = ["str1", "str2"] + + for dt in (str, np.bytes_): + a = np.array(["str1", "str2"], dtype=dt) + x = np.loadtxt(c, dtype=dt) + assert_array_equal(x, a) + + def test_empty_file(self): + with pytest.warns(UserWarning, match="input contained no data"): + c = TextIO() + x = np.loadtxt(c) + assert_equal(x.shape, (0,)) + x = np.loadtxt(c, dtype=np.int64) + assert_equal(x.shape, (0,)) + assert_(x.dtype == np.int64) + + def test_unused_converter(self): + c = TextIO() + c.writelines(['1 21\n', '3 42\n']) + c.seek(0) + data = np.loadtxt(c, usecols=(1,), + converters={0: lambda s: int(s, 16)}) + assert_array_equal(data, [21, 42]) + + c.seek(0) + data = np.loadtxt(c, usecols=(1,), + converters={1: lambda s: int(s, 16)}) + assert_array_equal(data, [33, 66]) + + def test_dtype_with_object(self): + # Test using an explicit dtype with an object + data = """ 1; 2001-01-01 + 2; 2002-01-31 """ + ndtype = [('idx', int), ('code', object)] + func = lambda s: strptime(s.strip(), "%Y-%m-%d") + converters = {1: func} + test = np.loadtxt(TextIO(data), delimiter=";", dtype=ndtype, + converters=converters) + control = np.array( + [(1, datetime(2001, 1, 1)), (2, datetime(2002, 1, 31))], + dtype=ndtype) + assert_equal(test, control) + + def test_uint64_type(self): + tgt = (9223372043271415339, 9223372043271415853) + c = TextIO() + c.write("%s %s" % tgt) + c.seek(0) + res = np.loadtxt(c, dtype=np.uint64) + assert_equal(res, tgt) + + def test_int64_type(self): + tgt = (-9223372036854775807, 9223372036854775807) + c = TextIO() + c.write("%s %s" % tgt) + c.seek(0) + res = np.loadtxt(c, dtype=np.int64) + assert_equal(res, tgt) + + def test_from_float_hex(self): + # IEEE doubles and floats only, otherwise the float32 + # conversion may fail. + tgt = np.logspace(-10, 10, 5).astype(np.float32) + tgt = np.hstack((tgt, -tgt)).astype(float) + inp = '\n'.join(map(float.hex, tgt)) + c = TextIO() + c.write(inp) + for dt in [float, np.float32]: + c.seek(0) + res = np.loadtxt( + c, dtype=dt, converters=float.fromhex, encoding="latin1") + assert_equal(res, tgt, err_msg="%s" % dt) + + @pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") + def test_default_float_converter_no_default_hex_conversion(self): + """ + Ensure that fromhex is only used for values with the correct prefix and + is not called by default. Regression test related to gh-19598. + """ + c = TextIO("a b c") + with pytest.raises(ValueError, + match=".*convert string 'a' to float64 at row 0, column 1"): + np.loadtxt(c) + + @pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") + def test_default_float_converter_exception(self): + """ + Ensure that the exception message raised during failed floating point + conversion is correct. Regression test related to gh-19598. + """ + c = TextIO("qrs tuv") # Invalid values for default float converter + with pytest.raises(ValueError, + match="could not convert string 'qrs' to float64"): + np.loadtxt(c) + + def test_from_complex(self): + tgt = (complex(1, 1), complex(1, -1)) + c = TextIO() + c.write("%s %s" % tgt) + c.seek(0) + res = np.loadtxt(c, dtype=complex) + assert_equal(res, tgt) + + def test_complex_misformatted(self): + # test for backward compatibility + # some complex formats used to generate x+-yj + a = np.zeros((2, 2), dtype=np.complex128) + re = np.pi + im = np.e + a[:] = re - 1.0j * im + c = BytesIO() + np.savetxt(c, a, fmt='%.16e') + c.seek(0) + txt = c.read() + c.seek(0) + # misformat the sign on the imaginary part, gh 7895 + txt_bad = txt.replace(b'e+00-', b'e00+-') + assert_(txt_bad != txt) + c.write(txt_bad) + c.seek(0) + res = np.loadtxt(c, dtype=complex) + assert_equal(res, a) + + def test_universal_newline(self): + with temppath() as name: + with open(name, 'w') as f: + f.write('1 21\r3 42\r') + data = np.loadtxt(name) + assert_array_equal(data, [[1, 21], [3, 42]]) + + def test_empty_field_after_tab(self): + c = TextIO() + c.write('1 \t2 \t3\tstart \n4\t5\t6\t \n7\t8\t9.5\t') + c.seek(0) + dt = {'names': ('x', 'y', 'z', 'comment'), + 'formats': (' num rows + c = TextIO() + c.write('comment\n1,2,3,5\n4,5,7,8\n2,1,4,5') + c.seek(0) + x = np.loadtxt(c, dtype=int, delimiter=',', + skiprows=1, max_rows=6) + a = np.array([[1, 2, 3, 5], [4, 5, 7, 8], [2, 1, 4, 5]], int) + assert_array_equal(x, a) + + @pytest.mark.parametrize(["skip", "data"], [ + (1, ["ignored\n", "1,2\n", "\n", "3,4\n"]), + # "Bad" lines that do not end in newlines: + (1, ["ignored", "1,2", "", "3,4"]), + (1, StringIO("ignored\n1,2\n\n3,4")), + # Same as above, but do not skip any lines: + (0, ["-1,0\n", "1,2\n", "\n", "3,4\n"]), + (0, ["-1,0", "1,2", "", "3,4"]), + (0, StringIO("-1,0\n1,2\n\n3,4"))]) + def test_max_rows_empty_lines(self, skip, data): + with pytest.warns(UserWarning, + match=f"Input line 3.*max_rows={3-skip}"): + res = np.loadtxt(data, dtype=int, skiprows=skip, delimiter=",", + max_rows=3-skip) + assert_array_equal(res, [[-1, 0], [1, 2], [3, 4]][skip:]) + + if isinstance(data, StringIO): + data.seek(0) + + with warnings.catch_warnings(): + warnings.simplefilter("error", UserWarning) + with pytest.raises(UserWarning): + np.loadtxt(data, dtype=int, skiprows=skip, delimiter=",", + max_rows=3-skip) + +class Testfromregex: + def test_record(self): + c = TextIO() + c.write('1.312 foo\n1.534 bar\n4.444 qux') + c.seek(0) + + dt = [('num', np.float64), ('val', 'S3')] + x = np.fromregex(c, r"([0-9.]+)\s+(...)", dt) + a = np.array([(1.312, 'foo'), (1.534, 'bar'), (4.444, 'qux')], + dtype=dt) + assert_array_equal(x, a) + + def test_record_2(self): + c = TextIO() + c.write('1312 foo\n1534 bar\n4444 qux') + c.seek(0) + + dt = [('num', np.int32), ('val', 'S3')] + x = np.fromregex(c, r"(\d+)\s+(...)", dt) + a = np.array([(1312, 'foo'), (1534, 'bar'), (4444, 'qux')], + dtype=dt) + assert_array_equal(x, a) + + def test_record_3(self): + c = TextIO() + c.write('1312 foo\n1534 bar\n4444 qux') + c.seek(0) + + dt = [('num', np.float64)] + x = np.fromregex(c, r"(\d+)\s+...", dt) + a = np.array([(1312,), (1534,), (4444,)], dtype=dt) + assert_array_equal(x, a) + + @pytest.mark.parametrize("path_type", [str, Path]) + def test_record_unicode(self, path_type): + utf8 = b'\xcf\x96' + with temppath() as str_path: + path = path_type(str_path) + with open(path, 'wb') as f: + f.write(b'1.312 foo' + utf8 + b' \n1.534 bar\n4.444 qux') + + dt = [('num', np.float64), ('val', 'U4')] + x = np.fromregex(path, r"(?u)([0-9.]+)\s+(\w+)", dt, encoding='UTF-8') + a = np.array([(1.312, 'foo' + utf8.decode('UTF-8')), (1.534, 'bar'), + (4.444, 'qux')], dtype=dt) + assert_array_equal(x, a) + + regexp = re.compile(r"([0-9.]+)\s+(\w+)", re.UNICODE) + x = np.fromregex(path, regexp, dt, encoding='UTF-8') + assert_array_equal(x, a) + + def test_compiled_bytes(self): + regexp = re.compile(b'(\\d)') + c = BytesIO(b'123') + dt = [('num', np.float64)] + a = np.array([1, 2, 3], dtype=dt) + x = np.fromregex(c, regexp, dt) + assert_array_equal(x, a) + + def test_bad_dtype_not_structured(self): + regexp = re.compile(b'(\\d)') + c = BytesIO(b'123') + with pytest.raises(TypeError, match='structured datatype'): + np.fromregex(c, regexp, dtype=np.float64) + + +#####-------------------------------------------------------------------------- + + +class TestFromTxt(LoadTxtBase): + loadfunc = staticmethod(np.genfromtxt) + + def test_record(self): + # Test w/ explicit dtype + data = TextIO('1 2\n3 4') + test = np.genfromtxt(data, dtype=[('x', np.int32), ('y', np.int32)]) + control = np.array([(1, 2), (3, 4)], dtype=[('x', 'i4'), ('y', 'i4')]) + assert_equal(test, control) + # + data = TextIO('M 64.0 75.0\nF 25.0 60.0') + descriptor = {'names': ('gender', 'age', 'weight'), + 'formats': ('S1', 'i4', 'f4')} + control = np.array([('M', 64.0, 75.0), ('F', 25.0, 60.0)], + dtype=descriptor) + test = np.genfromtxt(data, dtype=descriptor) + assert_equal(test, control) + + def test_array(self): + # Test outputting a standard ndarray + data = TextIO('1 2\n3 4') + control = np.array([[1, 2], [3, 4]], dtype=int) + test = np.genfromtxt(data, dtype=int) + assert_array_equal(test, control) + # + data.seek(0) + control = np.array([[1, 2], [3, 4]], dtype=float) + test = np.loadtxt(data, dtype=float) + assert_array_equal(test, control) + + def test_1D(self): + # Test squeezing to 1D + control = np.array([1, 2, 3, 4], int) + # + data = TextIO('1\n2\n3\n4\n') + test = np.genfromtxt(data, dtype=int) + assert_array_equal(test, control) + # + data = TextIO('1,2,3,4\n') + test = np.genfromtxt(data, dtype=int, delimiter=',') + assert_array_equal(test, control) + + def test_comments(self): + # Test the stripping of comments + control = np.array([1, 2, 3, 5], int) + # Comment on its own line + data = TextIO('# comment\n1,2,3,5\n') + test = np.genfromtxt(data, dtype=int, delimiter=',', comments='#') + assert_equal(test, control) + # Comment at the end of a line + data = TextIO('1,2,3,5# comment\n') + test = np.genfromtxt(data, dtype=int, delimiter=',', comments='#') + assert_equal(test, control) + + def test_skiprows(self): + # Test row skipping + control = np.array([1, 2, 3, 5], int) + kwargs = dict(dtype=int, delimiter=',') + # + data = TextIO('comment\n1,2,3,5\n') + test = np.genfromtxt(data, skip_header=1, **kwargs) + assert_equal(test, control) + # + data = TextIO('# comment\n1,2,3,5\n') + test = np.loadtxt(data, skiprows=1, **kwargs) + assert_equal(test, control) + + def test_skip_footer(self): + data = ["# %i" % i for i in range(1, 6)] + data.append("A, B, C") + data.extend(["%i,%3.1f,%03s" % (i, i, i) for i in range(51)]) + data[-1] = "99,99" + kwargs = dict(delimiter=",", names=True, skip_header=5, skip_footer=10) + test = np.genfromtxt(TextIO("\n".join(data)), **kwargs) + ctrl = np.array([("%f" % i, "%f" % i, "%f" % i) for i in range(41)], + dtype=[(_, float) for _ in "ABC"]) + assert_equal(test, ctrl) + + def test_skip_footer_with_invalid(self): + with suppress_warnings() as sup: + sup.filter(ConversionWarning) + basestr = '1 1\n2 2\n3 3\n4 4\n5 \n6 \n7 \n' + # Footer too small to get rid of all invalid values + assert_raises(ValueError, np.genfromtxt, + TextIO(basestr), skip_footer=1) + # except ValueError: + # pass + a = np.genfromtxt( + TextIO(basestr), skip_footer=1, invalid_raise=False) + assert_equal(a, np.array([[1., 1.], [2., 2.], [3., 3.], [4., 4.]])) + # + a = np.genfromtxt(TextIO(basestr), skip_footer=3) + assert_equal(a, np.array([[1., 1.], [2., 2.], [3., 3.], [4., 4.]])) + # + basestr = '1 1\n2 \n3 3\n4 4\n5 \n6 6\n7 7\n' + a = np.genfromtxt( + TextIO(basestr), skip_footer=1, invalid_raise=False) + assert_equal(a, np.array([[1., 1.], [3., 3.], [4., 4.], [6., 6.]])) + a = np.genfromtxt( + TextIO(basestr), skip_footer=3, invalid_raise=False) + assert_equal(a, np.array([[1., 1.], [3., 3.], [4., 4.]])) + + def test_header(self): + # Test retrieving a header + data = TextIO('gender age weight\nM 64.0 75.0\nF 25.0 60.0') + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(data, dtype=None, names=True) + assert_(w[0].category is np.VisibleDeprecationWarning) + control = {'gender': np.array([b'M', b'F']), + 'age': np.array([64.0, 25.0]), + 'weight': np.array([75.0, 60.0])} + assert_equal(test['gender'], control['gender']) + assert_equal(test['age'], control['age']) + assert_equal(test['weight'], control['weight']) + + def test_auto_dtype(self): + # Test the automatic definition of the output dtype + data = TextIO('A 64 75.0 3+4j True\nBCD 25 60.0 5+6j False') + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(data, dtype=None) + assert_(w[0].category is np.VisibleDeprecationWarning) + control = [np.array([b'A', b'BCD']), + np.array([64, 25]), + np.array([75.0, 60.0]), + np.array([3 + 4j, 5 + 6j]), + np.array([True, False]), ] + assert_equal(test.dtype.names, ['f0', 'f1', 'f2', 'f3', 'f4']) + for (i, ctrl) in enumerate(control): + assert_equal(test['f%i' % i], ctrl) + + def test_auto_dtype_uniform(self): + # Tests whether the output dtype can be uniformized + data = TextIO('1 2 3 4\n5 6 7 8\n') + test = np.genfromtxt(data, dtype=None) + control = np.array([[1, 2, 3, 4], [5, 6, 7, 8]]) + assert_equal(test, control) + + def test_fancy_dtype(self): + # Check that a nested dtype isn't MIA + data = TextIO('1,2,3.0\n4,5,6.0\n') + fancydtype = np.dtype([('x', int), ('y', [('t', int), ('s', float)])]) + test = np.genfromtxt(data, dtype=fancydtype, delimiter=',') + control = np.array([(1, (2, 3.0)), (4, (5, 6.0))], dtype=fancydtype) + assert_equal(test, control) + + def test_names_overwrite(self): + # Test overwriting the names of the dtype + descriptor = {'names': ('g', 'a', 'w'), + 'formats': ('S1', 'i4', 'f4')} + data = TextIO(b'M 64.0 75.0\nF 25.0 60.0') + names = ('gender', 'age', 'weight') + test = np.genfromtxt(data, dtype=descriptor, names=names) + descriptor['names'] = names + control = np.array([('M', 64.0, 75.0), + ('F', 25.0, 60.0)], dtype=descriptor) + assert_equal(test, control) + + def test_bad_fname(self): + with pytest.raises(TypeError, match='fname must be a string,'): + np.genfromtxt(123) + + def test_commented_header(self): + # Check that names can be retrieved even if the line is commented out. + data = TextIO(""" +#gender age weight +M 21 72.100000 +F 35 58.330000 +M 33 21.99 + """) + # The # is part of the first name and should be deleted automatically. + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(data, names=True, dtype=None) + assert_(w[0].category is np.VisibleDeprecationWarning) + ctrl = np.array([('M', 21, 72.1), ('F', 35, 58.33), ('M', 33, 21.99)], + dtype=[('gender', '|S1'), ('age', int), ('weight', float)]) + assert_equal(test, ctrl) + # Ditto, but we should get rid of the first element + data = TextIO(b""" +# gender age weight +M 21 72.100000 +F 35 58.330000 +M 33 21.99 + """) + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(data, names=True, dtype=None) + assert_(w[0].category is np.VisibleDeprecationWarning) + assert_equal(test, ctrl) + + def test_names_and_comments_none(self): + # Tests case when names is true but comments is None (gh-10780) + data = TextIO('col1 col2\n 1 2\n 3 4') + test = np.genfromtxt(data, dtype=(int, int), comments=None, names=True) + control = np.array([(1, 2), (3, 4)], dtype=[('col1', int), ('col2', int)]) + assert_equal(test, control) + + def test_file_is_closed_on_error(self): + # gh-13200 + with tempdir() as tmpdir: + fpath = os.path.join(tmpdir, "test.csv") + with open(fpath, "wb") as f: + f.write(u'\N{GREEK PI SYMBOL}'.encode('utf8')) + + # ResourceWarnings are emitted from a destructor, so won't be + # detected by regular propagation to errors. + with assert_no_warnings(): + with pytest.raises(UnicodeDecodeError): + np.genfromtxt(fpath, encoding="ascii") + + def test_autonames_and_usecols(self): + # Tests names and usecols + data = TextIO('A B C D\n aaaa 121 45 9.1') + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(data, usecols=('A', 'C', 'D'), + names=True, dtype=None) + assert_(w[0].category is np.VisibleDeprecationWarning) + control = np.array(('aaaa', 45, 9.1), + dtype=[('A', '|S4'), ('C', int), ('D', float)]) + assert_equal(test, control) + + def test_converters_with_usecols(self): + # Test the combination user-defined converters and usecol + data = TextIO('1,2,3,,5\n6,7,8,9,10\n') + test = np.genfromtxt(data, dtype=int, delimiter=',', + converters={3: lambda s: int(s or - 999)}, + usecols=(1, 3,)) + control = np.array([[2, -999], [7, 9]], int) + assert_equal(test, control) + + def test_converters_with_usecols_and_names(self): + # Tests names and usecols + data = TextIO('A B C D\n aaaa 121 45 9.1') + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(data, usecols=('A', 'C', 'D'), names=True, + dtype=None, + converters={'C': lambda s: 2 * int(s)}) + assert_(w[0].category is np.VisibleDeprecationWarning) + control = np.array(('aaaa', 90, 9.1), + dtype=[('A', '|S4'), ('C', int), ('D', float)]) + assert_equal(test, control) + + def test_converters_cornercases(self): + # Test the conversion to datetime. + converter = { + 'date': lambda s: strptime(s, '%Y-%m-%d %H:%M:%SZ')} + data = TextIO('2009-02-03 12:00:00Z, 72214.0') + test = np.genfromtxt(data, delimiter=',', dtype=None, + names=['date', 'stid'], converters=converter) + control = np.array((datetime(2009, 2, 3), 72214.), + dtype=[('date', np.object_), ('stid', float)]) + assert_equal(test, control) + + def test_converters_cornercases2(self): + # Test the conversion to datetime64. + converter = { + 'date': lambda s: np.datetime64(strptime(s, '%Y-%m-%d %H:%M:%SZ'))} + data = TextIO('2009-02-03 12:00:00Z, 72214.0') + test = np.genfromtxt(data, delimiter=',', dtype=None, + names=['date', 'stid'], converters=converter) + control = np.array((datetime(2009, 2, 3), 72214.), + dtype=[('date', 'datetime64[us]'), ('stid', float)]) + assert_equal(test, control) + + def test_unused_converter(self): + # Test whether unused converters are forgotten + data = TextIO("1 21\n 3 42\n") + test = np.genfromtxt(data, usecols=(1,), + converters={0: lambda s: int(s, 16)}) + assert_equal(test, [21, 42]) + # + data.seek(0) + test = np.genfromtxt(data, usecols=(1,), + converters={1: lambda s: int(s, 16)}) + assert_equal(test, [33, 66]) + + def test_invalid_converter(self): + strip_rand = lambda x: float((b'r' in x.lower() and x.split()[-1]) or + (b'r' not in x.lower() and x.strip() or 0.0)) + strip_per = lambda x: float((b'%' in x.lower() and x.split()[0]) or + (b'%' not in x.lower() and x.strip() or 0.0)) + s = TextIO("D01N01,10/1/2003 ,1 %,R 75,400,600\r\n" + "L24U05,12/5/2003, 2 %,1,300, 150.5\r\n" + "D02N03,10/10/2004,R 1,,7,145.55") + kwargs = dict( + converters={2: strip_per, 3: strip_rand}, delimiter=",", + dtype=None) + assert_raises(ConverterError, np.genfromtxt, s, **kwargs) + + def test_tricky_converter_bug1666(self): + # Test some corner cases + s = TextIO('q1,2\nq3,4') + cnv = lambda s: float(s[1:]) + test = np.genfromtxt(s, delimiter=',', converters={0: cnv}) + control = np.array([[1., 2.], [3., 4.]]) + assert_equal(test, control) + + def test_dtype_with_converters(self): + dstr = "2009; 23; 46" + test = np.genfromtxt(TextIO(dstr,), + delimiter=";", dtype=float, converters={0: bytes}) + control = np.array([('2009', 23., 46)], + dtype=[('f0', '|S4'), ('f1', float), ('f2', float)]) + assert_equal(test, control) + test = np.genfromtxt(TextIO(dstr,), + delimiter=";", dtype=float, converters={0: float}) + control = np.array([2009., 23., 46],) + assert_equal(test, control) + + def test_dtype_with_converters_and_usecols(self): + dstr = "1,5,-1,1:1\n2,8,-1,1:n\n3,3,-2,m:n\n" + dmap = {'1:1':0, '1:n':1, 'm:1':2, 'm:n':3} + dtyp = [('e1','i4'),('e2','i4'),('e3','i2'),('n', 'i1')] + conv = {0: int, 1: int, 2: int, 3: lambda r: dmap[r.decode()]} + test = np.recfromcsv(TextIO(dstr,), dtype=dtyp, delimiter=',', + names=None, converters=conv) + control = np.rec.array([(1,5,-1,0), (2,8,-1,1), (3,3,-2,3)], dtype=dtyp) + assert_equal(test, control) + dtyp = [('e1','i4'),('e2','i4'),('n', 'i1')] + test = np.recfromcsv(TextIO(dstr,), dtype=dtyp, delimiter=',', + usecols=(0,1,3), names=None, converters=conv) + control = np.rec.array([(1,5,0), (2,8,1), (3,3,3)], dtype=dtyp) + assert_equal(test, control) + + def test_dtype_with_object(self): + # Test using an explicit dtype with an object + data = """ 1; 2001-01-01 + 2; 2002-01-31 """ + ndtype = [('idx', int), ('code', object)] + func = lambda s: strptime(s.strip(), "%Y-%m-%d") + converters = {1: func} + test = np.genfromtxt(TextIO(data), delimiter=";", dtype=ndtype, + converters=converters) + control = np.array( + [(1, datetime(2001, 1, 1)), (2, datetime(2002, 1, 31))], + dtype=ndtype) + assert_equal(test, control) + + ndtype = [('nest', [('idx', int), ('code', object)])] + with assert_raises_regex(NotImplementedError, + 'Nested fields.* not supported.*'): + test = np.genfromtxt(TextIO(data), delimiter=";", + dtype=ndtype, converters=converters) + + # nested but empty fields also aren't supported + ndtype = [('idx', int), ('code', object), ('nest', [])] + with assert_raises_regex(NotImplementedError, + 'Nested fields.* not supported.*'): + test = np.genfromtxt(TextIO(data), delimiter=";", + dtype=ndtype, converters=converters) + + def test_dtype_with_object_no_converter(self): + # Object without a converter uses bytes: + parsed = np.genfromtxt(TextIO("1"), dtype=object) + assert parsed[()] == b"1" + parsed = np.genfromtxt(TextIO("string"), dtype=object) + assert parsed[()] == b"string" + + def test_userconverters_with_explicit_dtype(self): + # Test user_converters w/ explicit (standard) dtype + data = TextIO('skip,skip,2001-01-01,1.0,skip') + test = np.genfromtxt(data, delimiter=",", names=None, dtype=float, + usecols=(2, 3), converters={2: bytes}) + control = np.array([('2001-01-01', 1.)], + dtype=[('', '|S10'), ('', float)]) + assert_equal(test, control) + + def test_utf8_userconverters_with_explicit_dtype(self): + utf8 = b'\xcf\x96' + with temppath() as path: + with open(path, 'wb') as f: + f.write(b'skip,skip,2001-01-01' + utf8 + b',1.0,skip') + test = np.genfromtxt(path, delimiter=",", names=None, dtype=float, + usecols=(2, 3), converters={2: np.compat.unicode}, + encoding='UTF-8') + control = np.array([('2001-01-01' + utf8.decode('UTF-8'), 1.)], + dtype=[('', '|U11'), ('', float)]) + assert_equal(test, control) + + def test_spacedelimiter(self): + # Test space delimiter + data = TextIO("1 2 3 4 5\n6 7 8 9 10") + test = np.genfromtxt(data) + control = np.array([[1., 2., 3., 4., 5.], + [6., 7., 8., 9., 10.]]) + assert_equal(test, control) + + def test_integer_delimiter(self): + # Test using an integer for delimiter + data = " 1 2 3\n 4 5 67\n890123 4" + test = np.genfromtxt(TextIO(data), delimiter=3) + control = np.array([[1, 2, 3], [4, 5, 67], [890, 123, 4]]) + assert_equal(test, control) + + def test_missing(self): + data = TextIO('1,2,3,,5\n') + test = np.genfromtxt(data, dtype=int, delimiter=',', + converters={3: lambda s: int(s or - 999)}) + control = np.array([1, 2, 3, -999, 5], int) + assert_equal(test, control) + + def test_missing_with_tabs(self): + # Test w/ a delimiter tab + txt = "1\t2\t3\n\t2\t\n1\t\t3" + test = np.genfromtxt(TextIO(txt), delimiter="\t", + usemask=True,) + ctrl_d = np.array([(1, 2, 3), (np.nan, 2, np.nan), (1, np.nan, 3)],) + ctrl_m = np.array([(0, 0, 0), (1, 0, 1), (0, 1, 0)], dtype=bool) + assert_equal(test.data, ctrl_d) + assert_equal(test.mask, ctrl_m) + + def test_usecols(self): + # Test the selection of columns + # Select 1 column + control = np.array([[1, 2], [3, 4]], float) + data = TextIO() + np.savetxt(data, control) + data.seek(0) + test = np.genfromtxt(data, dtype=float, usecols=(1,)) + assert_equal(test, control[:, 1]) + # + control = np.array([[1, 2, 3], [3, 4, 5]], float) + data = TextIO() + np.savetxt(data, control) + data.seek(0) + test = np.genfromtxt(data, dtype=float, usecols=(1, 2)) + assert_equal(test, control[:, 1:]) + # Testing with arrays instead of tuples. + data.seek(0) + test = np.genfromtxt(data, dtype=float, usecols=np.array([1, 2])) + assert_equal(test, control[:, 1:]) + + def test_usecols_as_css(self): + # Test giving usecols with a comma-separated string + data = "1 2 3\n4 5 6" + test = np.genfromtxt(TextIO(data), + names="a, b, c", usecols="a, c") + ctrl = np.array([(1, 3), (4, 6)], dtype=[(_, float) for _ in "ac"]) + assert_equal(test, ctrl) + + def test_usecols_with_structured_dtype(self): + # Test usecols with an explicit structured dtype + data = TextIO("JOE 70.1 25.3\nBOB 60.5 27.9") + names = ['stid', 'temp'] + dtypes = ['S4', 'f8'] + test = np.genfromtxt( + data, usecols=(0, 2), dtype=list(zip(names, dtypes))) + assert_equal(test['stid'], [b"JOE", b"BOB"]) + assert_equal(test['temp'], [25.3, 27.9]) + + def test_usecols_with_integer(self): + # Test usecols with an integer + test = np.genfromtxt(TextIO(b"1 2 3\n4 5 6"), usecols=0) + assert_equal(test, np.array([1., 4.])) + + def test_usecols_with_named_columns(self): + # Test usecols with named columns + ctrl = np.array([(1, 3), (4, 6)], dtype=[('a', float), ('c', float)]) + data = "1 2 3\n4 5 6" + kwargs = dict(names="a, b, c") + test = np.genfromtxt(TextIO(data), usecols=(0, -1), **kwargs) + assert_equal(test, ctrl) + test = np.genfromtxt(TextIO(data), + usecols=('a', 'c'), **kwargs) + assert_equal(test, ctrl) + + def test_empty_file(self): + # Test that an empty file raises the proper warning. + with suppress_warnings() as sup: + sup.filter(message="genfromtxt: Empty input file:") + data = TextIO() + test = np.genfromtxt(data) + assert_equal(test, np.array([])) + + # when skip_header > 0 + test = np.genfromtxt(data, skip_header=1) + assert_equal(test, np.array([])) + + def test_fancy_dtype_alt(self): + # Check that a nested dtype isn't MIA + data = TextIO('1,2,3.0\n4,5,6.0\n') + fancydtype = np.dtype([('x', int), ('y', [('t', int), ('s', float)])]) + test = np.genfromtxt(data, dtype=fancydtype, delimiter=',', usemask=True) + control = ma.array([(1, (2, 3.0)), (4, (5, 6.0))], dtype=fancydtype) + assert_equal(test, control) + + def test_shaped_dtype(self): + c = TextIO("aaaa 1.0 8.0 1 2 3 4 5 6") + dt = np.dtype([('name', 'S4'), ('x', float), ('y', float), + ('block', int, (2, 3))]) + x = np.genfromtxt(c, dtype=dt) + a = np.array([('aaaa', 1.0, 8.0, [[1, 2, 3], [4, 5, 6]])], + dtype=dt) + assert_array_equal(x, a) + + def test_withmissing(self): + data = TextIO('A,B\n0,1\n2,N/A') + kwargs = dict(delimiter=",", missing_values="N/A", names=True) + test = np.genfromtxt(data, dtype=None, usemask=True, **kwargs) + control = ma.array([(0, 1), (2, -1)], + mask=[(False, False), (False, True)], + dtype=[('A', int), ('B', int)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + # + data.seek(0) + test = np.genfromtxt(data, usemask=True, **kwargs) + control = ma.array([(0, 1), (2, -1)], + mask=[(False, False), (False, True)], + dtype=[('A', float), ('B', float)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + + def test_user_missing_values(self): + data = "A, B, C\n0, 0., 0j\n1, N/A, 1j\n-9, 2.2, N/A\n3, -99, 3j" + basekwargs = dict(dtype=None, delimiter=",", names=True,) + mdtype = [('A', int), ('B', float), ('C', complex)] + # + test = np.genfromtxt(TextIO(data), missing_values="N/A", + **basekwargs) + control = ma.array([(0, 0.0, 0j), (1, -999, 1j), + (-9, 2.2, -999j), (3, -99, 3j)], + mask=[(0, 0, 0), (0, 1, 0), (0, 0, 1), (0, 0, 0)], + dtype=mdtype) + assert_equal(test, control) + # + basekwargs['dtype'] = mdtype + test = np.genfromtxt(TextIO(data), + missing_values={0: -9, 1: -99, 2: -999j}, usemask=True, **basekwargs) + control = ma.array([(0, 0.0, 0j), (1, -999, 1j), + (-9, 2.2, -999j), (3, -99, 3j)], + mask=[(0, 0, 0), (0, 1, 0), (1, 0, 1), (0, 1, 0)], + dtype=mdtype) + assert_equal(test, control) + # + test = np.genfromtxt(TextIO(data), + missing_values={0: -9, 'B': -99, 'C': -999j}, + usemask=True, + **basekwargs) + control = ma.array([(0, 0.0, 0j), (1, -999, 1j), + (-9, 2.2, -999j), (3, -99, 3j)], + mask=[(0, 0, 0), (0, 1, 0), (1, 0, 1), (0, 1, 0)], + dtype=mdtype) + assert_equal(test, control) + + def test_user_filling_values(self): + # Test with missing and filling values + ctrl = np.array([(0, 3), (4, -999)], dtype=[('a', int), ('b', int)]) + data = "N/A, 2, 3\n4, ,???" + kwargs = dict(delimiter=",", + dtype=int, + names="a,b,c", + missing_values={0: "N/A", 'b': " ", 2: "???"}, + filling_values={0: 0, 'b': 0, 2: -999}) + test = np.genfromtxt(TextIO(data), **kwargs) + ctrl = np.array([(0, 2, 3), (4, 0, -999)], + dtype=[(_, int) for _ in "abc"]) + assert_equal(test, ctrl) + # + test = np.genfromtxt(TextIO(data), usecols=(0, -1), **kwargs) + ctrl = np.array([(0, 3), (4, -999)], dtype=[(_, int) for _ in "ac"]) + assert_equal(test, ctrl) + + data2 = "1,2,*,4\n5,*,7,8\n" + test = np.genfromtxt(TextIO(data2), delimiter=',', dtype=int, + missing_values="*", filling_values=0) + ctrl = np.array([[1, 2, 0, 4], [5, 0, 7, 8]]) + assert_equal(test, ctrl) + test = np.genfromtxt(TextIO(data2), delimiter=',', dtype=int, + missing_values="*", filling_values=-1) + ctrl = np.array([[1, 2, -1, 4], [5, -1, 7, 8]]) + assert_equal(test, ctrl) + + def test_withmissing_float(self): + data = TextIO('A,B\n0,1.5\n2,-999.00') + test = np.genfromtxt(data, dtype=None, delimiter=',', + missing_values='-999.0', names=True, usemask=True) + control = ma.array([(0, 1.5), (2, -1.)], + mask=[(False, False), (False, True)], + dtype=[('A', int), ('B', float)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + + def test_with_masked_column_uniform(self): + # Test masked column + data = TextIO('1 2 3\n4 5 6\n') + test = np.genfromtxt(data, dtype=None, + missing_values='2,5', usemask=True) + control = ma.array([[1, 2, 3], [4, 5, 6]], mask=[[0, 1, 0], [0, 1, 0]]) + assert_equal(test, control) + + def test_with_masked_column_various(self): + # Test masked column + data = TextIO('True 2 3\nFalse 5 6\n') + test = np.genfromtxt(data, dtype=None, + missing_values='2,5', usemask=True) + control = ma.array([(1, 2, 3), (0, 5, 6)], + mask=[(0, 1, 0), (0, 1, 0)], + dtype=[('f0', bool), ('f1', bool), ('f2', int)]) + assert_equal(test, control) + + def test_invalid_raise(self): + # Test invalid raise + data = ["1, 1, 1, 1, 1"] * 50 + for i in range(5): + data[10 * i] = "2, 2, 2, 2 2" + data.insert(0, "a, b, c, d, e") + mdata = TextIO("\n".join(data)) + + kwargs = dict(delimiter=",", dtype=None, names=True) + def f(): + return np.genfromtxt(mdata, invalid_raise=False, **kwargs) + mtest = assert_warns(ConversionWarning, f) + assert_equal(len(mtest), 45) + assert_equal(mtest, np.ones(45, dtype=[(_, int) for _ in 'abcde'])) + # + mdata.seek(0) + assert_raises(ValueError, np.genfromtxt, mdata, + delimiter=",", names=True) + + def test_invalid_raise_with_usecols(self): + # Test invalid_raise with usecols + data = ["1, 1, 1, 1, 1"] * 50 + for i in range(5): + data[10 * i] = "2, 2, 2, 2 2" + data.insert(0, "a, b, c, d, e") + mdata = TextIO("\n".join(data)) + + kwargs = dict(delimiter=",", dtype=None, names=True, + invalid_raise=False) + def f(): + return np.genfromtxt(mdata, usecols=(0, 4), **kwargs) + mtest = assert_warns(ConversionWarning, f) + assert_equal(len(mtest), 45) + assert_equal(mtest, np.ones(45, dtype=[(_, int) for _ in 'ae'])) + # + mdata.seek(0) + mtest = np.genfromtxt(mdata, usecols=(0, 1), **kwargs) + assert_equal(len(mtest), 50) + control = np.ones(50, dtype=[(_, int) for _ in 'ab']) + control[[10 * _ for _ in range(5)]] = (2, 2) + assert_equal(mtest, control) + + def test_inconsistent_dtype(self): + # Test inconsistent dtype + data = ["1, 1, 1, 1, -1.1"] * 50 + mdata = TextIO("\n".join(data)) + + converters = {4: lambda x: "(%s)" % x.decode()} + kwargs = dict(delimiter=",", converters=converters, + dtype=[(_, int) for _ in 'abcde'],) + assert_raises(ValueError, np.genfromtxt, mdata, **kwargs) + + def test_default_field_format(self): + # Test default format + data = "0, 1, 2.3\n4, 5, 6.7" + mtest = np.genfromtxt(TextIO(data), + delimiter=",", dtype=None, defaultfmt="f%02i") + ctrl = np.array([(0, 1, 2.3), (4, 5, 6.7)], + dtype=[("f00", int), ("f01", int), ("f02", float)]) + assert_equal(mtest, ctrl) + + def test_single_dtype_wo_names(self): + # Test single dtype w/o names + data = "0, 1, 2.3\n4, 5, 6.7" + mtest = np.genfromtxt(TextIO(data), + delimiter=",", dtype=float, defaultfmt="f%02i") + ctrl = np.array([[0., 1., 2.3], [4., 5., 6.7]], dtype=float) + assert_equal(mtest, ctrl) + + def test_single_dtype_w_explicit_names(self): + # Test single dtype w explicit names + data = "0, 1, 2.3\n4, 5, 6.7" + mtest = np.genfromtxt(TextIO(data), + delimiter=",", dtype=float, names="a, b, c") + ctrl = np.array([(0., 1., 2.3), (4., 5., 6.7)], + dtype=[(_, float) for _ in "abc"]) + assert_equal(mtest, ctrl) + + def test_single_dtype_w_implicit_names(self): + # Test single dtype w implicit names + data = "a, b, c\n0, 1, 2.3\n4, 5, 6.7" + mtest = np.genfromtxt(TextIO(data), + delimiter=",", dtype=float, names=True) + ctrl = np.array([(0., 1., 2.3), (4., 5., 6.7)], + dtype=[(_, float) for _ in "abc"]) + assert_equal(mtest, ctrl) + + def test_easy_structured_dtype(self): + # Test easy structured dtype + data = "0, 1, 2.3\n4, 5, 6.7" + mtest = np.genfromtxt(TextIO(data), delimiter=",", + dtype=(int, float, float), defaultfmt="f_%02i") + ctrl = np.array([(0, 1., 2.3), (4, 5., 6.7)], + dtype=[("f_00", int), ("f_01", float), ("f_02", float)]) + assert_equal(mtest, ctrl) + + def test_autostrip(self): + # Test autostrip + data = "01/01/2003 , 1.3, abcde" + kwargs = dict(delimiter=",", dtype=None) + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + mtest = np.genfromtxt(TextIO(data), **kwargs) + assert_(w[0].category is np.VisibleDeprecationWarning) + ctrl = np.array([('01/01/2003 ', 1.3, ' abcde')], + dtype=[('f0', '|S12'), ('f1', float), ('f2', '|S8')]) + assert_equal(mtest, ctrl) + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + mtest = np.genfromtxt(TextIO(data), autostrip=True, **kwargs) + assert_(w[0].category is np.VisibleDeprecationWarning) + ctrl = np.array([('01/01/2003', 1.3, 'abcde')], + dtype=[('f0', '|S10'), ('f1', float), ('f2', '|S5')]) + assert_equal(mtest, ctrl) + + def test_replace_space(self): + # Test the 'replace_space' option + txt = "A.A, B (B), C:C\n1, 2, 3.14" + # Test default: replace ' ' by '_' and delete non-alphanum chars + test = np.genfromtxt(TextIO(txt), + delimiter=",", names=True, dtype=None) + ctrl_dtype = [("AA", int), ("B_B", int), ("CC", float)] + ctrl = np.array((1, 2, 3.14), dtype=ctrl_dtype) + assert_equal(test, ctrl) + # Test: no replace, no delete + test = np.genfromtxt(TextIO(txt), + delimiter=",", names=True, dtype=None, + replace_space='', deletechars='') + ctrl_dtype = [("A.A", int), ("B (B)", int), ("C:C", float)] + ctrl = np.array((1, 2, 3.14), dtype=ctrl_dtype) + assert_equal(test, ctrl) + # Test: no delete (spaces are replaced by _) + test = np.genfromtxt(TextIO(txt), + delimiter=",", names=True, dtype=None, + deletechars='') + ctrl_dtype = [("A.A", int), ("B_(B)", int), ("C:C", float)] + ctrl = np.array((1, 2, 3.14), dtype=ctrl_dtype) + assert_equal(test, ctrl) + + def test_replace_space_known_dtype(self): + # Test the 'replace_space' (and related) options when dtype != None + txt = "A.A, B (B), C:C\n1, 2, 3" + # Test default: replace ' ' by '_' and delete non-alphanum chars + test = np.genfromtxt(TextIO(txt), + delimiter=",", names=True, dtype=int) + ctrl_dtype = [("AA", int), ("B_B", int), ("CC", int)] + ctrl = np.array((1, 2, 3), dtype=ctrl_dtype) + assert_equal(test, ctrl) + # Test: no replace, no delete + test = np.genfromtxt(TextIO(txt), + delimiter=",", names=True, dtype=int, + replace_space='', deletechars='') + ctrl_dtype = [("A.A", int), ("B (B)", int), ("C:C", int)] + ctrl = np.array((1, 2, 3), dtype=ctrl_dtype) + assert_equal(test, ctrl) + # Test: no delete (spaces are replaced by _) + test = np.genfromtxt(TextIO(txt), + delimiter=",", names=True, dtype=int, + deletechars='') + ctrl_dtype = [("A.A", int), ("B_(B)", int), ("C:C", int)] + ctrl = np.array((1, 2, 3), dtype=ctrl_dtype) + assert_equal(test, ctrl) + + def test_incomplete_names(self): + # Test w/ incomplete names + data = "A,,C\n0,1,2\n3,4,5" + kwargs = dict(delimiter=",", names=True) + # w/ dtype=None + ctrl = np.array([(0, 1, 2), (3, 4, 5)], + dtype=[(_, int) for _ in ('A', 'f0', 'C')]) + test = np.genfromtxt(TextIO(data), dtype=None, **kwargs) + assert_equal(test, ctrl) + # w/ default dtype + ctrl = np.array([(0, 1, 2), (3, 4, 5)], + dtype=[(_, float) for _ in ('A', 'f0', 'C')]) + test = np.genfromtxt(TextIO(data), **kwargs) + + def test_names_auto_completion(self): + # Make sure that names are properly completed + data = "1 2 3\n 4 5 6" + test = np.genfromtxt(TextIO(data), + dtype=(int, float, int), names="a") + ctrl = np.array([(1, 2, 3), (4, 5, 6)], + dtype=[('a', int), ('f0', float), ('f1', int)]) + assert_equal(test, ctrl) + + def test_names_with_usecols_bug1636(self): + # Make sure we pick up the right names w/ usecols + data = "A,B,C,D,E\n0,1,2,3,4\n0,1,2,3,4\n0,1,2,3,4" + ctrl_names = ("A", "C", "E") + test = np.genfromtxt(TextIO(data), + dtype=(int, int, int), delimiter=",", + usecols=(0, 2, 4), names=True) + assert_equal(test.dtype.names, ctrl_names) + # + test = np.genfromtxt(TextIO(data), + dtype=(int, int, int), delimiter=",", + usecols=("A", "C", "E"), names=True) + assert_equal(test.dtype.names, ctrl_names) + # + test = np.genfromtxt(TextIO(data), + dtype=int, delimiter=",", + usecols=("A", "C", "E"), names=True) + assert_equal(test.dtype.names, ctrl_names) + + def test_fixed_width_names(self): + # Test fix-width w/ names + data = " A B C\n 0 1 2.3\n 45 67 9." + kwargs = dict(delimiter=(5, 5, 4), names=True, dtype=None) + ctrl = np.array([(0, 1, 2.3), (45, 67, 9.)], + dtype=[('A', int), ('B', int), ('C', float)]) + test = np.genfromtxt(TextIO(data), **kwargs) + assert_equal(test, ctrl) + # + kwargs = dict(delimiter=5, names=True, dtype=None) + ctrl = np.array([(0, 1, 2.3), (45, 67, 9.)], + dtype=[('A', int), ('B', int), ('C', float)]) + test = np.genfromtxt(TextIO(data), **kwargs) + assert_equal(test, ctrl) + + def test_filling_values(self): + # Test missing values + data = b"1, 2, 3\n1, , 5\n0, 6, \n" + kwargs = dict(delimiter=",", dtype=None, filling_values=-999) + ctrl = np.array([[1, 2, 3], [1, -999, 5], [0, 6, -999]], dtype=int) + test = np.genfromtxt(TextIO(data), **kwargs) + assert_equal(test, ctrl) + + def test_comments_is_none(self): + # Github issue 329 (None was previously being converted to 'None'). + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(TextIO("test1,testNonetherestofthedata"), + dtype=None, comments=None, delimiter=',') + assert_(w[0].category is np.VisibleDeprecationWarning) + assert_equal(test[1], b'testNonetherestofthedata') + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(TextIO("test1, testNonetherestofthedata"), + dtype=None, comments=None, delimiter=',') + assert_(w[0].category is np.VisibleDeprecationWarning) + assert_equal(test[1], b' testNonetherestofthedata') + + def test_latin1(self): + latin1 = b'\xf6\xfc\xf6' + norm = b"norm1,norm2,norm3\n" + enc = b"test1,testNonethe" + latin1 + b",test3\n" + s = norm + enc + norm + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(TextIO(s), + dtype=None, comments=None, delimiter=',') + assert_(w[0].category is np.VisibleDeprecationWarning) + assert_equal(test[1, 0], b"test1") + assert_equal(test[1, 1], b"testNonethe" + latin1) + assert_equal(test[1, 2], b"test3") + test = np.genfromtxt(TextIO(s), + dtype=None, comments=None, delimiter=',', + encoding='latin1') + assert_equal(test[1, 0], u"test1") + assert_equal(test[1, 1], u"testNonethe" + latin1.decode('latin1')) + assert_equal(test[1, 2], u"test3") + + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(TextIO(b"0,testNonethe" + latin1), + dtype=None, comments=None, delimiter=',') + assert_(w[0].category is np.VisibleDeprecationWarning) + assert_equal(test['f0'], 0) + assert_equal(test['f1'], b"testNonethe" + latin1) + + def test_binary_decode_autodtype(self): + utf16 = b'\xff\xfeh\x04 \x00i\x04 \x00j\x04' + v = self.loadfunc(BytesIO(utf16), dtype=None, encoding='UTF-16') + assert_array_equal(v, np.array(utf16.decode('UTF-16').split())) + + def test_utf8_byte_encoding(self): + utf8 = b"\xcf\x96" + norm = b"norm1,norm2,norm3\n" + enc = b"test1,testNonethe" + utf8 + b",test3\n" + s = norm + enc + norm + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', np.VisibleDeprecationWarning) + test = np.genfromtxt(TextIO(s), + dtype=None, comments=None, delimiter=',') + assert_(w[0].category is np.VisibleDeprecationWarning) + ctl = np.array([ + [b'norm1', b'norm2', b'norm3'], + [b'test1', b'testNonethe' + utf8, b'test3'], + [b'norm1', b'norm2', b'norm3']]) + assert_array_equal(test, ctl) + + def test_utf8_file(self): + utf8 = b"\xcf\x96" + with temppath() as path: + with open(path, "wb") as f: + f.write((b"test1,testNonethe" + utf8 + b",test3\n") * 2) + test = np.genfromtxt(path, dtype=None, comments=None, + delimiter=',', encoding="UTF-8") + ctl = np.array([ + ["test1", "testNonethe" + utf8.decode("UTF-8"), "test3"], + ["test1", "testNonethe" + utf8.decode("UTF-8"), "test3"]], + dtype=np.unicode_) + assert_array_equal(test, ctl) + + # test a mixed dtype + with open(path, "wb") as f: + f.write(b"0,testNonethe" + utf8) + test = np.genfromtxt(path, dtype=None, comments=None, + delimiter=',', encoding="UTF-8") + assert_equal(test['f0'], 0) + assert_equal(test['f1'], "testNonethe" + utf8.decode("UTF-8")) + + def test_utf8_file_nodtype_unicode(self): + # bytes encoding with non-latin1 -> unicode upcast + utf8 = u'\u03d6' + latin1 = u'\xf6\xfc\xf6' + + # skip test if cannot encode utf8 test string with preferred + # encoding. The preferred encoding is assumed to be the default + # encoding of io.open. Will need to change this for PyTest, maybe + # using pytest.mark.xfail(raises=***). + try: + encoding = locale.getpreferredencoding() + utf8.encode(encoding) + except (UnicodeError, ImportError): + pytest.skip('Skipping test_utf8_file_nodtype_unicode, ' + 'unable to encode utf8 in preferred encoding') + + with temppath() as path: + with io.open(path, "wt") as f: + f.write(u"norm1,norm2,norm3\n") + f.write(u"norm1," + latin1 + u",norm3\n") + f.write(u"test1,testNonethe" + utf8 + u",test3\n") + with warnings.catch_warnings(record=True) as w: + warnings.filterwarnings('always', '', + np.VisibleDeprecationWarning) + test = np.genfromtxt(path, dtype=None, comments=None, + delimiter=',') + # Check for warning when encoding not specified. + assert_(w[0].category is np.VisibleDeprecationWarning) + ctl = np.array([ + ["norm1", "norm2", "norm3"], + ["norm1", latin1, "norm3"], + ["test1", "testNonethe" + utf8, "test3"]], + dtype=np.unicode_) + assert_array_equal(test, ctl) + + def test_recfromtxt(self): + # + data = TextIO('A,B\n0,1\n2,3') + kwargs = dict(delimiter=",", missing_values="N/A", names=True) + test = np.recfromtxt(data, **kwargs) + control = np.array([(0, 1), (2, 3)], + dtype=[('A', int), ('B', int)]) + assert_(isinstance(test, np.recarray)) + assert_equal(test, control) + # + data = TextIO('A,B\n0,1\n2,N/A') + test = np.recfromtxt(data, dtype=None, usemask=True, **kwargs) + control = ma.array([(0, 1), (2, -1)], + mask=[(False, False), (False, True)], + dtype=[('A', int), ('B', int)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + assert_equal(test.A, [0, 2]) + + def test_recfromcsv(self): + # + data = TextIO('A,B\n0,1\n2,3') + kwargs = dict(missing_values="N/A", names=True, case_sensitive=True) + test = np.recfromcsv(data, dtype=None, **kwargs) + control = np.array([(0, 1), (2, 3)], + dtype=[('A', int), ('B', int)]) + assert_(isinstance(test, np.recarray)) + assert_equal(test, control) + # + data = TextIO('A,B\n0,1\n2,N/A') + test = np.recfromcsv(data, dtype=None, usemask=True, **kwargs) + control = ma.array([(0, 1), (2, -1)], + mask=[(False, False), (False, True)], + dtype=[('A', int), ('B', int)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + assert_equal(test.A, [0, 2]) + # + data = TextIO('A,B\n0,1\n2,3') + test = np.recfromcsv(data, missing_values='N/A',) + control = np.array([(0, 1), (2, 3)], + dtype=[('a', int), ('b', int)]) + assert_(isinstance(test, np.recarray)) + assert_equal(test, control) + # + data = TextIO('A,B\n0,1\n2,3') + dtype = [('a', int), ('b', float)] + test = np.recfromcsv(data, missing_values='N/A', dtype=dtype) + control = np.array([(0, 1), (2, 3)], + dtype=dtype) + assert_(isinstance(test, np.recarray)) + assert_equal(test, control) + + #gh-10394 + data = TextIO('color\n"red"\n"blue"') + test = np.recfromcsv(data, converters={0: lambda x: x.strip(b'\"')}) + control = np.array([('red',), ('blue',)], dtype=[('color', (bytes, 4))]) + assert_equal(test.dtype, control.dtype) + assert_equal(test, control) + + def test_max_rows(self): + # Test the `max_rows` keyword argument. + data = '1 2\n3 4\n5 6\n7 8\n9 10\n' + txt = TextIO(data) + a1 = np.genfromtxt(txt, max_rows=3) + a2 = np.genfromtxt(txt) + assert_equal(a1, [[1, 2], [3, 4], [5, 6]]) + assert_equal(a2, [[7, 8], [9, 10]]) + + # max_rows must be at least 1. + assert_raises(ValueError, np.genfromtxt, TextIO(data), max_rows=0) + + # An input with several invalid rows. + data = '1 1\n2 2\n0 \n3 3\n4 4\n5 \n6 \n7 \n' + + test = np.genfromtxt(TextIO(data), max_rows=2) + control = np.array([[1., 1.], [2., 2.]]) + assert_equal(test, control) + + # Test keywords conflict + assert_raises(ValueError, np.genfromtxt, TextIO(data), skip_footer=1, + max_rows=4) + + # Test with invalid value + assert_raises(ValueError, np.genfromtxt, TextIO(data), max_rows=4) + + # Test with invalid not raise + with suppress_warnings() as sup: + sup.filter(ConversionWarning) + + test = np.genfromtxt(TextIO(data), max_rows=4, invalid_raise=False) + control = np.array([[1., 1.], [2., 2.], [3., 3.], [4., 4.]]) + assert_equal(test, control) + + test = np.genfromtxt(TextIO(data), max_rows=5, invalid_raise=False) + control = np.array([[1., 1.], [2., 2.], [3., 3.], [4., 4.]]) + assert_equal(test, control) + + # Structured array with field names. + data = 'a b\n#c d\n1 1\n2 2\n#0 \n3 3\n4 4\n5 5\n' + + # Test with header, names and comments + txt = TextIO(data) + test = np.genfromtxt(txt, skip_header=1, max_rows=3, names=True) + control = np.array([(1.0, 1.0), (2.0, 2.0), (3.0, 3.0)], + dtype=[('c', ' should convert to float + # 2**34 = 17179869184 => should convert to int64 + # 2**10 = 1024 => should convert to int (int32 on 32-bit systems, + # int64 on 64-bit systems) + + data = TextIO('73786976294838206464 17179869184 1024') + + test = np.genfromtxt(data, dtype=None) + + assert_equal(test.dtype.names, ['f0', 'f1', 'f2']) + + assert_(test.dtype['f0'] == float) + assert_(test.dtype['f1'] == np.int64) + assert_(test.dtype['f2'] == np.int_) + + assert_allclose(test['f0'], 73786976294838206464.) + assert_equal(test['f1'], 17179869184) + assert_equal(test['f2'], 1024) + + def test_unpack_float_data(self): + txt = TextIO("1,2,3\n4,5,6\n7,8,9\n0.0,1.0,2.0") + a, b, c = np.loadtxt(txt, delimiter=",", unpack=True) + assert_array_equal(a, np.array([1.0, 4.0, 7.0, 0.0])) + assert_array_equal(b, np.array([2.0, 5.0, 8.0, 1.0])) + assert_array_equal(c, np.array([3.0, 6.0, 9.0, 2.0])) + + def test_unpack_structured(self): + # Regression test for gh-4341 + # Unpacking should work on structured arrays + txt = TextIO("M 21 72\nF 35 58") + dt = {'names': ('a', 'b', 'c'), 'formats': ('S1', 'i4', 'f4')} + a, b, c = np.genfromtxt(txt, dtype=dt, unpack=True) + assert_equal(a.dtype, np.dtype('S1')) + assert_equal(b.dtype, np.dtype('i4')) + assert_equal(c.dtype, np.dtype('f4')) + assert_array_equal(a, np.array([b'M', b'F'])) + assert_array_equal(b, np.array([21, 35])) + assert_array_equal(c, np.array([72., 58.])) + + def test_unpack_auto_dtype(self): + # Regression test for gh-4341 + # Unpacking should work when dtype=None + txt = TextIO("M 21 72.\nF 35 58.") + expected = (np.array(["M", "F"]), np.array([21, 35]), np.array([72., 58.])) + test = np.genfromtxt(txt, dtype=None, unpack=True, encoding="utf-8") + for arr, result in zip(expected, test): + assert_array_equal(arr, result) + assert_equal(arr.dtype, result.dtype) + + def test_unpack_single_name(self): + # Regression test for gh-4341 + # Unpacking should work when structured dtype has only one field + txt = TextIO("21\n35") + dt = {'names': ('a',), 'formats': ('i4',)} + expected = np.array([21, 35], dtype=np.int32) + test = np.genfromtxt(txt, dtype=dt, unpack=True) + assert_array_equal(expected, test) + assert_equal(expected.dtype, test.dtype) + + def test_squeeze_scalar(self): + # Regression test for gh-4341 + # Unpacking a scalar should give zero-dim output, + # even if dtype is structured + txt = TextIO("1") + dt = {'names': ('a',), 'formats': ('i4',)} + expected = np.array((1,), dtype=np.int32) + test = np.genfromtxt(txt, dtype=dt, unpack=True) + assert_array_equal(expected, test) + assert_equal((), test.shape) + assert_equal(expected.dtype, test.dtype) + + @pytest.mark.parametrize("ndim", [0, 1, 2]) + def test_ndmin_keyword(self, ndim: int): + # lets have the same behaivour of ndmin as loadtxt + # as they should be the same for non-missing values + txt = "42" + + a = np.loadtxt(StringIO(txt), ndmin=ndim) + b = np.genfromtxt(StringIO(txt), ndmin=ndim) + + assert_array_equal(a, b) + + +class TestPathUsage: + # Test that pathlib.Path can be used + def test_loadtxt(self): + with temppath(suffix='.txt') as path: + path = Path(path) + a = np.array([[1.1, 2], [3, 4]]) + np.savetxt(path, a) + x = np.loadtxt(path) + assert_array_equal(x, a) + + def test_save_load(self): + # Test that pathlib.Path instances can be used with save. + with temppath(suffix='.npy') as path: + path = Path(path) + a = np.array([[1, 2], [3, 4]], int) + np.save(path, a) + data = np.load(path) + assert_array_equal(data, a) + + def test_save_load_memmap(self): + # Test that pathlib.Path instances can be loaded mem-mapped. + with temppath(suffix='.npy') as path: + path = Path(path) + a = np.array([[1, 2], [3, 4]], int) + np.save(path, a) + data = np.load(path, mmap_mode='r') + assert_array_equal(data, a) + # close the mem-mapped file + del data + if IS_PYPY: + break_cycles() + break_cycles() + + def test_save_load_memmap_readwrite(self): + # Test that pathlib.Path instances can be written mem-mapped. + with temppath(suffix='.npy') as path: + path = Path(path) + a = np.array([[1, 2], [3, 4]], int) + np.save(path, a) + b = np.load(path, mmap_mode='r+') + a[0][0] = 5 + b[0][0] = 5 + del b # closes the file + if IS_PYPY: + break_cycles() + break_cycles() + data = np.load(path) + assert_array_equal(data, a) + + def test_savez_load(self): + # Test that pathlib.Path instances can be used with savez. + with temppath(suffix='.npz') as path: + path = Path(path) + np.savez(path, lab='place holder') + with np.load(path) as data: + assert_array_equal(data['lab'], 'place holder') + + def test_savez_compressed_load(self): + # Test that pathlib.Path instances can be used with savez. + with temppath(suffix='.npz') as path: + path = Path(path) + np.savez_compressed(path, lab='place holder') + data = np.load(path) + assert_array_equal(data['lab'], 'place holder') + data.close() + + def test_genfromtxt(self): + with temppath(suffix='.txt') as path: + path = Path(path) + a = np.array([(1, 2), (3, 4)]) + np.savetxt(path, a) + data = np.genfromtxt(path) + assert_array_equal(a, data) + + def test_recfromtxt(self): + with temppath(suffix='.txt') as path: + path = Path(path) + with path.open('w') as f: + f.write(u'A,B\n0,1\n2,3') + + kwargs = dict(delimiter=",", missing_values="N/A", names=True) + test = np.recfromtxt(path, **kwargs) + control = np.array([(0, 1), (2, 3)], + dtype=[('A', int), ('B', int)]) + assert_(isinstance(test, np.recarray)) + assert_equal(test, control) + + def test_recfromcsv(self): + with temppath(suffix='.txt') as path: + path = Path(path) + with path.open('w') as f: + f.write(u'A,B\n0,1\n2,3') + + kwargs = dict(missing_values="N/A", names=True, case_sensitive=True) + test = np.recfromcsv(path, dtype=None, **kwargs) + control = np.array([(0, 1), (2, 3)], + dtype=[('A', int), ('B', int)]) + assert_(isinstance(test, np.recarray)) + assert_equal(test, control) + + +def test_gzip_load(): + a = np.random.random((5, 5)) + + s = BytesIO() + f = gzip.GzipFile(fileobj=s, mode="w") + + np.save(f, a) + f.close() + s.seek(0) + + f = gzip.GzipFile(fileobj=s, mode="r") + assert_array_equal(np.load(f), a) + + +# These next two classes encode the minimal API needed to save()/load() arrays. +# The `test_ducktyping` ensures they work correctly +class JustWriter: + def __init__(self, base): + self.base = base + + def write(self, s): + return self.base.write(s) + + def flush(self): + return self.base.flush() + +class JustReader: + def __init__(self, base): + self.base = base + + def read(self, n): + return self.base.read(n) + + def seek(self, off, whence=0): + return self.base.seek(off, whence) + + +def test_ducktyping(): + a = np.random.random((5, 5)) + + s = BytesIO() + f = JustWriter(s) + + np.save(f, a) + f.flush() + s.seek(0) + + f = JustReader(s) + assert_array_equal(np.load(f), a) + + + +def test_gzip_loadtxt(): + # Thanks to another windows brokenness, we can't use + # NamedTemporaryFile: a file created from this function cannot be + # reopened by another open call. So we first put the gzipped string + # of the test reference array, write it to a securely opened file, + # which is then read from by the loadtxt function + s = BytesIO() + g = gzip.GzipFile(fileobj=s, mode='w') + g.write(b'1 2 3\n') + g.close() + + s.seek(0) + with temppath(suffix='.gz') as name: + with open(name, 'wb') as f: + f.write(s.read()) + res = np.loadtxt(name) + s.close() + + assert_array_equal(res, [1, 2, 3]) + + +def test_gzip_loadtxt_from_string(): + s = BytesIO() + f = gzip.GzipFile(fileobj=s, mode="w") + f.write(b'1 2 3\n') + f.close() + s.seek(0) + + f = gzip.GzipFile(fileobj=s, mode="r") + assert_array_equal(np.loadtxt(f), [1, 2, 3]) + + +def test_npzfile_dict(): + s = BytesIO() + x = np.zeros((3, 3)) + y = np.zeros((3, 3)) + + np.savez(s, x=x, y=y) + s.seek(0) + + z = np.load(s) + + assert_('x' in z) + assert_('y' in z) + assert_('x' in z.keys()) + assert_('y' in z.keys()) + + for f, a in z.items(): + assert_(f in ['x', 'y']) + assert_equal(a.shape, (3, 3)) + + assert_(len(z.items()) == 2) + + for f in z: + assert_(f in ['x', 'y']) + + assert_('x' in z.keys()) + + +@pytest.mark.skipif(not HAS_REFCOUNT, reason="Python lacks refcounts") +def test_load_refcount(): + # Check that objects returned by np.load are directly freed based on + # their refcount, rather than needing the gc to collect them. + + f = BytesIO() + np.savez(f, [1, 2, 3]) + f.seek(0) + + with assert_no_gc_cycles(): + np.load(f) + + f.seek(0) + dt = [("a", 'u1', 2), ("b", 'u1', 2)] + with assert_no_gc_cycles(): + x = np.loadtxt(TextIO("0 1 2 3"), dtype=dt) + assert_equal(x, np.array([((0, 1), (2, 3))], dtype=dt)) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_loadtxt.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_loadtxt.py new file mode 100644 index 0000000000000000000000000000000000000000..0b8fe3c479c6a434ed9eeb999af1e806172ef573 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_loadtxt.py @@ -0,0 +1,1013 @@ +""" +Tests specific to `np.loadtxt` added during the move of loadtxt to be backed +by C code. +These tests complement those found in `test_io.py`. +""" + +import sys +import os +import pytest +from tempfile import NamedTemporaryFile, mkstemp +from io import StringIO + +import numpy as np +from numpy.ma.testutils import assert_equal +from numpy.testing import assert_array_equal, HAS_REFCOUNT, IS_PYPY + + +def test_scientific_notation(): + """Test that both 'e' and 'E' are parsed correctly.""" + data = StringIO( + ( + "1.0e-1,2.0E1,3.0\n" + "4.0e-2,5.0E-1,6.0\n" + "7.0e-3,8.0E1,9.0\n" + "0.0e-4,1.0E-1,2.0" + ) + ) + expected = np.array( + [[0.1, 20., 3.0], [0.04, 0.5, 6], [0.007, 80., 9], [0, 0.1, 2]] + ) + assert_array_equal(np.loadtxt(data, delimiter=","), expected) + + +@pytest.mark.parametrize("comment", ["..", "//", "@-", "this is a comment:"]) +def test_comment_multiple_chars(comment): + content = "# IGNORE\n1.5, 2.5# ABC\n3.0,4.0# XXX\n5.5,6.0\n" + txt = StringIO(content.replace("#", comment)) + a = np.loadtxt(txt, delimiter=",", comments=comment) + assert_equal(a, [[1.5, 2.5], [3.0, 4.0], [5.5, 6.0]]) + + +@pytest.fixture +def mixed_types_structured(): + """ + Fixture providing hetergeneous input data with a structured dtype, along + with the associated structured array. + """ + data = StringIO( + ( + "1000;2.4;alpha;-34\n" + "2000;3.1;beta;29\n" + "3500;9.9;gamma;120\n" + "4090;8.1;delta;0\n" + "5001;4.4;epsilon;-99\n" + "6543;7.8;omega;-1\n" + ) + ) + dtype = np.dtype( + [('f0', np.uint16), ('f1', np.float64), ('f2', 'S7'), ('f3', np.int8)] + ) + expected = np.array( + [ + (1000, 2.4, "alpha", -34), + (2000, 3.1, "beta", 29), + (3500, 9.9, "gamma", 120), + (4090, 8.1, "delta", 0), + (5001, 4.4, "epsilon", -99), + (6543, 7.8, "omega", -1) + ], + dtype=dtype + ) + return data, dtype, expected + + +@pytest.mark.parametrize('skiprows', [0, 1, 2, 3]) +def test_structured_dtype_and_skiprows_no_empty_lines( + skiprows, mixed_types_structured): + data, dtype, expected = mixed_types_structured + a = np.loadtxt(data, dtype=dtype, delimiter=";", skiprows=skiprows) + assert_array_equal(a, expected[skiprows:]) + + +def test_unpack_structured(mixed_types_structured): + data, dtype, expected = mixed_types_structured + + a, b, c, d = np.loadtxt(data, dtype=dtype, delimiter=";", unpack=True) + assert_array_equal(a, expected["f0"]) + assert_array_equal(b, expected["f1"]) + assert_array_equal(c, expected["f2"]) + assert_array_equal(d, expected["f3"]) + + +def test_structured_dtype_with_shape(): + dtype = np.dtype([("a", "u1", 2), ("b", "u1", 2)]) + data = StringIO("0,1,2,3\n6,7,8,9\n") + expected = np.array([((0, 1), (2, 3)), ((6, 7), (8, 9))], dtype=dtype) + assert_array_equal(np.loadtxt(data, delimiter=",", dtype=dtype), expected) + + +def test_structured_dtype_with_multi_shape(): + dtype = np.dtype([("a", "u1", (2, 2))]) + data = StringIO("0 1 2 3\n") + expected = np.array([(((0, 1), (2, 3)),)], dtype=dtype) + assert_array_equal(np.loadtxt(data, dtype=dtype), expected) + + +def test_nested_structured_subarray(): + # Test from gh-16678 + point = np.dtype([('x', float), ('y', float)]) + dt = np.dtype([('code', int), ('points', point, (2,))]) + data = StringIO("100,1,2,3,4\n200,5,6,7,8\n") + expected = np.array( + [ + (100, [(1., 2.), (3., 4.)]), + (200, [(5., 6.), (7., 8.)]), + ], + dtype=dt + ) + assert_array_equal(np.loadtxt(data, dtype=dt, delimiter=","), expected) + + +def test_structured_dtype_offsets(): + # An aligned structured dtype will have additional padding + dt = np.dtype("i1, i4, i1, i4, i1, i4", align=True) + data = StringIO("1,2,3,4,5,6\n7,8,9,10,11,12\n") + expected = np.array([(1, 2, 3, 4, 5, 6), (7, 8, 9, 10, 11, 12)], dtype=dt) + assert_array_equal(np.loadtxt(data, delimiter=",", dtype=dt), expected) + + +@pytest.mark.parametrize("param", ("skiprows", "max_rows")) +def test_exception_negative_row_limits(param): + """skiprows and max_rows should raise for negative parameters.""" + with pytest.raises(ValueError, match="argument must be nonnegative"): + np.loadtxt("foo.bar", **{param: -3}) + + +@pytest.mark.parametrize("param", ("skiprows", "max_rows")) +def test_exception_noninteger_row_limits(param): + with pytest.raises(TypeError, match="argument must be an integer"): + np.loadtxt("foo.bar", **{param: 1.0}) + + +@pytest.mark.parametrize( + "data, shape", + [ + ("1 2 3 4 5\n", (1, 5)), # Single row + ("1\n2\n3\n4\n5\n", (5, 1)), # Single column + ] +) +def test_ndmin_single_row_or_col(data, shape): + arr = np.array([1, 2, 3, 4, 5]) + arr2d = arr.reshape(shape) + + assert_array_equal(np.loadtxt(StringIO(data), dtype=int), arr) + assert_array_equal(np.loadtxt(StringIO(data), dtype=int, ndmin=0), arr) + assert_array_equal(np.loadtxt(StringIO(data), dtype=int, ndmin=1), arr) + assert_array_equal(np.loadtxt(StringIO(data), dtype=int, ndmin=2), arr2d) + + +@pytest.mark.parametrize("badval", [-1, 3, None, "plate of shrimp"]) +def test_bad_ndmin(badval): + with pytest.raises(ValueError, match="Illegal value of ndmin keyword"): + np.loadtxt("foo.bar", ndmin=badval) + + +@pytest.mark.parametrize( + "ws", + ( + " ", # space + "\t", # tab + "\u2003", # em + "\u00A0", # non-break + "\u3000", # ideographic space + ) +) +def test_blank_lines_spaces_delimit(ws): + txt = StringIO( + f"1 2{ws}30\n\n{ws}\n" + f"4 5 60{ws}\n {ws} \n" + f"7 8 {ws} 90\n # comment\n" + f"3 2 1" + ) + # NOTE: It is unclear that the ` # comment` should succeed. Except + # for delimiter=None, which should use any whitespace (and maybe + # should just be implemented closer to Python + expected = np.array([[1, 2, 30], [4, 5, 60], [7, 8, 90], [3, 2, 1]]) + assert_equal( + np.loadtxt(txt, dtype=int, delimiter=None, comments="#"), expected + ) + + +def test_blank_lines_normal_delimiter(): + txt = StringIO('1,2,30\n\n4,5,60\n\n7,8,90\n# comment\n3,2,1') + expected = np.array([[1, 2, 30], [4, 5, 60], [7, 8, 90], [3, 2, 1]]) + assert_equal( + np.loadtxt(txt, dtype=int, delimiter=',', comments="#"), expected + ) + + +@pytest.mark.parametrize("dtype", (float, object)) +def test_maxrows_no_blank_lines(dtype): + txt = StringIO("1.5,2.5\n3.0,4.0\n5.5,6.0") + res = np.loadtxt(txt, dtype=dtype, delimiter=",", max_rows=2) + assert_equal(res.dtype, dtype) + assert_equal(res, np.array([["1.5", "2.5"], ["3.0", "4.0"]], dtype=dtype)) + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +@pytest.mark.parametrize("dtype", (np.dtype("f8"), np.dtype("i2"))) +def test_exception_message_bad_values(dtype): + txt = StringIO("1,2\n3,XXX\n5,6") + msg = f"could not convert string 'XXX' to {dtype} at row 1, column 2" + with pytest.raises(ValueError, match=msg): + np.loadtxt(txt, dtype=dtype, delimiter=",") + + +def test_converters_negative_indices(): + txt = StringIO('1.5,2.5\n3.0,XXX\n5.5,6.0') + conv = {-1: lambda s: np.nan if s == 'XXX' else float(s)} + expected = np.array([[1.5, 2.5], [3.0, np.nan], [5.5, 6.0]]) + res = np.loadtxt( + txt, dtype=np.float64, delimiter=",", converters=conv, encoding=None + ) + assert_equal(res, expected) + + +def test_converters_negative_indices_with_usecols(): + txt = StringIO('1.5,2.5,3.5\n3.0,4.0,XXX\n5.5,6.0,7.5\n') + conv = {-1: lambda s: np.nan if s == 'XXX' else float(s)} + expected = np.array([[1.5, 3.5], [3.0, np.nan], [5.5, 7.5]]) + res = np.loadtxt( + txt, + dtype=np.float64, + delimiter=",", + converters=conv, + usecols=[0, -1], + encoding=None, + ) + assert_equal(res, expected) + + # Second test with variable number of rows: + res = np.loadtxt(StringIO('''0,1,2\n0,1,2,3,4'''), delimiter=",", + usecols=[0, -1], converters={-1: (lambda x: -1)}) + assert_array_equal(res, [[0, -1], [0, -1]]) + +def test_ragged_usecols(): + # usecols, and negative ones, work even with varying number of columns. + txt = StringIO("0,0,XXX\n0,XXX,0,XXX\n0,XXX,XXX,0,XXX\n") + expected = np.array([[0, 0], [0, 0], [0, 0]]) + res = np.loadtxt(txt, dtype=float, delimiter=",", usecols=[0, -2]) + assert_equal(res, expected) + + txt = StringIO("0,0,XXX\n0\n0,XXX,XXX,0,XXX\n") + with pytest.raises(ValueError, + match="invalid column index -2 at row 2 with 1 columns"): + # There is no -2 column in the second row: + np.loadtxt(txt, dtype=float, delimiter=",", usecols=[0, -2]) + + +def test_empty_usecols(): + txt = StringIO("0,0,XXX\n0,XXX,0,XXX\n0,XXX,XXX,0,XXX\n") + res = np.loadtxt(txt, dtype=np.dtype([]), delimiter=",", usecols=[]) + assert res.shape == (3,) + assert res.dtype == np.dtype([]) + + +@pytest.mark.parametrize("c1", ["a", "の", "🫕"]) +@pytest.mark.parametrize("c2", ["a", "の", "🫕"]) +def test_large_unicode_characters(c1, c2): + # c1 and c2 span ascii, 16bit and 32bit range. + txt = StringIO(f"a,{c1},c,1.0\ne,{c2},2.0,g") + res = np.loadtxt(txt, dtype=np.dtype('U12'), delimiter=",") + expected = np.array( + [f"a,{c1},c,1.0".split(","), f"e,{c2},2.0,g".split(",")], + dtype=np.dtype('U12') + ) + assert_equal(res, expected) + + +def test_unicode_with_converter(): + txt = StringIO("cat,dog\nαβγ,δεζ\nabc,def\n") + conv = {0: lambda s: s.upper()} + res = np.loadtxt( + txt, + dtype=np.dtype("U12"), + converters=conv, + delimiter=",", + encoding=None + ) + expected = np.array([['CAT', 'dog'], ['ΑΒΓ', 'δεζ'], ['ABC', 'def']]) + assert_equal(res, expected) + + +def test_converter_with_structured_dtype(): + txt = StringIO('1.5,2.5,Abc\n3.0,4.0,dEf\n5.5,6.0,ghI\n') + dt = np.dtype([('m', np.int32), ('r', np.float32), ('code', 'U8')]) + conv = {0: lambda s: int(10*float(s)), -1: lambda s: s.upper()} + res = np.loadtxt(txt, dtype=dt, delimiter=",", converters=conv) + expected = np.array( + [(15, 2.5, 'ABC'), (30, 4.0, 'DEF'), (55, 6.0, 'GHI')], dtype=dt + ) + assert_equal(res, expected) + + +def test_converter_with_unicode_dtype(): + """ + With the default 'bytes' encoding, tokens are encoded prior to being + passed to the converter. This means that the output of the converter may + be bytes instead of unicode as expected by `read_rows`. + + This test checks that outputs from the above scenario are properly decoded + prior to parsing by `read_rows`. + """ + txt = StringIO('abc,def\nrst,xyz') + conv = bytes.upper + res = np.loadtxt( + txt, dtype=np.dtype("U3"), converters=conv, delimiter=",") + expected = np.array([['ABC', 'DEF'], ['RST', 'XYZ']]) + assert_equal(res, expected) + + +def test_read_huge_row(): + row = "1.5, 2.5," * 50000 + row = row[:-1] + "\n" + txt = StringIO(row * 2) + res = np.loadtxt(txt, delimiter=",", dtype=float) + assert_equal(res, np.tile([1.5, 2.5], (2, 50000))) + + +@pytest.mark.parametrize("dtype", "edfgFDG") +def test_huge_float(dtype): + # Covers a non-optimized path that is rarely taken: + field = "0" * 1000 + ".123456789" + dtype = np.dtype(dtype) + value = np.loadtxt([field], dtype=dtype)[()] + assert value == dtype.type("0.123456789") + + +@pytest.mark.parametrize( + ("given_dtype", "expected_dtype"), + [ + ("S", np.dtype("S5")), + ("U", np.dtype("U5")), + ], +) +def test_string_no_length_given(given_dtype, expected_dtype): + """ + The given dtype is just 'S' or 'U' with no length. In these cases, the + length of the resulting dtype is determined by the longest string found + in the file. + """ + txt = StringIO("AAA,5-1\nBBBBB,0-3\nC,4-9\n") + res = np.loadtxt(txt, dtype=given_dtype, delimiter=",") + expected = np.array( + [['AAA', '5-1'], ['BBBBB', '0-3'], ['C', '4-9']], dtype=expected_dtype + ) + assert_equal(res, expected) + assert_equal(res.dtype, expected_dtype) + + +def test_float_conversion(): + """ + Some tests that the conversion to float64 works as accurately as the + Python built-in `float` function. In a naive version of the float parser, + these strings resulted in values that were off by an ULP or two. + """ + strings = [ + '0.9999999999999999', + '9876543210.123456', + '5.43215432154321e+300', + '0.901', + '0.333', + ] + txt = StringIO('\n'.join(strings)) + res = np.loadtxt(txt) + expected = np.array([float(s) for s in strings]) + assert_equal(res, expected) + + +def test_bool(): + # Simple test for bool via integer + txt = StringIO("1, 0\n10, -1") + res = np.loadtxt(txt, dtype=bool, delimiter=",") + assert res.dtype == bool + assert_array_equal(res, [[True, False], [True, True]]) + # Make sure we use only 1 and 0 on the byte level: + assert_array_equal(res.view(np.uint8), [[1, 0], [1, 1]]) + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +@pytest.mark.parametrize("dtype", np.typecodes["AllInteger"]) +@pytest.mark.filterwarnings("error:.*integer via a float.*:DeprecationWarning") +def test_integer_signs(dtype): + dtype = np.dtype(dtype) + assert np.loadtxt(["+2"], dtype=dtype) == 2 + if dtype.kind == "u": + with pytest.raises(ValueError): + np.loadtxt(["-1\n"], dtype=dtype) + else: + assert np.loadtxt(["-2\n"], dtype=dtype) == -2 + + for sign in ["++", "+-", "--", "-+"]: + with pytest.raises(ValueError): + np.loadtxt([f"{sign}2\n"], dtype=dtype) + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +@pytest.mark.parametrize("dtype", np.typecodes["AllInteger"]) +@pytest.mark.filterwarnings("error:.*integer via a float.*:DeprecationWarning") +def test_implicit_cast_float_to_int_fails(dtype): + txt = StringIO("1.0, 2.1, 3.7\n4, 5, 6") + with pytest.raises(ValueError): + np.loadtxt(txt, dtype=dtype, delimiter=",") + +@pytest.mark.parametrize("dtype", (np.complex64, np.complex128)) +@pytest.mark.parametrize("with_parens", (False, True)) +def test_complex_parsing(dtype, with_parens): + s = "(1.0-2.5j),3.75,(7+-5.0j)\n(4),(-19e2j),(0)" + if not with_parens: + s = s.replace("(", "").replace(")", "") + + res = np.loadtxt(StringIO(s), dtype=dtype, delimiter=",") + expected = np.array( + [[1.0-2.5j, 3.75, 7-5j], [4.0, -1900j, 0]], dtype=dtype + ) + assert_equal(res, expected) + + +def test_read_from_generator(): + def gen(): + for i in range(4): + yield f"{i},{2*i},{i**2}" + + res = np.loadtxt(gen(), dtype=int, delimiter=",") + expected = np.array([[0, 0, 0], [1, 2, 1], [2, 4, 4], [3, 6, 9]]) + assert_equal(res, expected) + + +def test_read_from_generator_multitype(): + def gen(): + for i in range(3): + yield f"{i} {i / 4}" + + res = np.loadtxt(gen(), dtype="i, d", delimiter=" ") + expected = np.array([(0, 0.0), (1, 0.25), (2, 0.5)], dtype="i, d") + assert_equal(res, expected) + + +def test_read_from_bad_generator(): + def gen(): + for entry in ["1,2", b"3, 5", 12738]: + yield entry + + with pytest.raises( + TypeError, match=r"non-string returned while reading data"): + np.loadtxt(gen(), dtype="i, i", delimiter=",") + + +@pytest.mark.skipif(not HAS_REFCOUNT, reason="Python lacks refcounts") +def test_object_cleanup_on_read_error(): + sentinel = object() + already_read = 0 + + def conv(x): + nonlocal already_read + if already_read > 4999: + raise ValueError("failed half-way through!") + already_read += 1 + return sentinel + + txt = StringIO("x\n" * 10000) + + with pytest.raises(ValueError, match="at row 5000, column 1"): + np.loadtxt(txt, dtype=object, converters={0: conv}) + + assert sys.getrefcount(sentinel) == 2 + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +def test_character_not_bytes_compatible(): + """Test exception when a character cannot be encoded as 'S'.""" + data = StringIO("–") # == \u2013 + with pytest.raises(ValueError): + np.loadtxt(data, dtype="S5") + + +@pytest.mark.parametrize("conv", (0, [float], "")) +def test_invalid_converter(conv): + msg = ( + "converters must be a dictionary mapping columns to converter " + "functions or a single callable." + ) + with pytest.raises(TypeError, match=msg): + np.loadtxt(StringIO("1 2\n3 4"), converters=conv) + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +def test_converters_dict_raises_non_integer_key(): + with pytest.raises(TypeError, match="keys of the converters dict"): + np.loadtxt(StringIO("1 2\n3 4"), converters={"a": int}) + with pytest.raises(TypeError, match="keys of the converters dict"): + np.loadtxt(StringIO("1 2\n3 4"), converters={"a": int}, usecols=0) + + +@pytest.mark.parametrize("bad_col_ind", (3, -3)) +def test_converters_dict_raises_non_col_key(bad_col_ind): + data = StringIO("1 2\n3 4") + with pytest.raises(ValueError, match="converter specified for column"): + np.loadtxt(data, converters={bad_col_ind: int}) + + +def test_converters_dict_raises_val_not_callable(): + with pytest.raises(TypeError, + match="values of the converters dictionary must be callable"): + np.loadtxt(StringIO("1 2\n3 4"), converters={0: 1}) + + +@pytest.mark.parametrize("q", ('"', "'", "`")) +def test_quoted_field(q): + txt = StringIO( + f"{q}alpha, x{q}, 2.5\n{q}beta, y{q}, 4.5\n{q}gamma, z{q}, 5.0\n" + ) + dtype = np.dtype([('f0', 'U8'), ('f1', np.float64)]) + expected = np.array( + [("alpha, x", 2.5), ("beta, y", 4.5), ("gamma, z", 5.0)], dtype=dtype + ) + + res = np.loadtxt(txt, dtype=dtype, delimiter=",", quotechar=q) + assert_array_equal(res, expected) + + +def test_quote_support_default(): + """Support for quoted fields is disabled by default.""" + txt = StringIO('"lat,long", 45, 30\n') + dtype = np.dtype([('f0', 'U24'), ('f1', np.float64), ('f2', np.float64)]) + + with pytest.raises(ValueError, match="the number of columns changed"): + np.loadtxt(txt, dtype=dtype, delimiter=",") + + # Enable quoting support with non-None value for quotechar param + txt.seek(0) + expected = np.array([("lat,long", 45., 30.)], dtype=dtype) + + res = np.loadtxt(txt, dtype=dtype, delimiter=",", quotechar='"') + assert_array_equal(res, expected) + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +def test_quotechar_multichar_error(): + txt = StringIO("1,2\n3,4") + msg = r".*must be a single unicode character or None" + with pytest.raises(TypeError, match=msg): + np.loadtxt(txt, delimiter=",", quotechar="''") + + +def test_comment_multichar_error_with_quote(): + txt = StringIO("1,2\n3,4") + msg = ( + "when multiple comments or a multi-character comment is given, " + "quotes are not supported." + ) + with pytest.raises(ValueError, match=msg): + np.loadtxt(txt, delimiter=",", comments="123", quotechar='"') + with pytest.raises(ValueError, match=msg): + np.loadtxt(txt, delimiter=",", comments=["#", "%"], quotechar='"') + + # A single character string in a tuple is unpacked though: + res = np.loadtxt(txt, delimiter=",", comments=("#",), quotechar="'") + assert_equal(res, [[1, 2], [3, 4]]) + + +def test_structured_dtype_with_quotes(): + data = StringIO( + ( + "1000;2.4;'alpha';-34\n" + "2000;3.1;'beta';29\n" + "3500;9.9;'gamma';120\n" + "4090;8.1;'delta';0\n" + "5001;4.4;'epsilon';-99\n" + "6543;7.8;'omega';-1\n" + ) + ) + dtype = np.dtype( + [('f0', np.uint16), ('f1', np.float64), ('f2', 'S7'), ('f3', np.int8)] + ) + expected = np.array( + [ + (1000, 2.4, "alpha", -34), + (2000, 3.1, "beta", 29), + (3500, 9.9, "gamma", 120), + (4090, 8.1, "delta", 0), + (5001, 4.4, "epsilon", -99), + (6543, 7.8, "omega", -1) + ], + dtype=dtype + ) + res = np.loadtxt(data, dtype=dtype, delimiter=";", quotechar="'") + assert_array_equal(res, expected) + + +def test_quoted_field_is_not_empty(): + txt = StringIO('1\n\n"4"\n""') + expected = np.array(["1", "4", ""], dtype="U1") + res = np.loadtxt(txt, delimiter=",", dtype="U1", quotechar='"') + assert_equal(res, expected) + +def test_quoted_field_is_not_empty_nonstrict(): + # Same as test_quoted_field_is_not_empty but check that we are not strict + # about missing closing quote (this is the `csv.reader` default also) + txt = StringIO('1\n\n"4"\n"') + expected = np.array(["1", "4", ""], dtype="U1") + res = np.loadtxt(txt, delimiter=",", dtype="U1", quotechar='"') + assert_equal(res, expected) + +def test_consecutive_quotechar_escaped(): + txt = StringIO('"Hello, my name is ""Monty""!"') + expected = np.array('Hello, my name is "Monty"!', dtype="U40") + res = np.loadtxt(txt, dtype="U40", delimiter=",", quotechar='"') + assert_equal(res, expected) + + +@pytest.mark.parametrize("data", ("", "\n\n\n", "# 1 2 3\n# 4 5 6\n")) +@pytest.mark.parametrize("ndmin", (0, 1, 2)) +@pytest.mark.parametrize("usecols", [None, (1, 2, 3)]) +def test_warn_on_no_data(data, ndmin, usecols): + """Check that a UserWarning is emitted when no data is read from input.""" + if usecols is not None: + expected_shape = (0, 3) + elif ndmin == 2: + expected_shape = (0, 1) # guess a single column?! + else: + expected_shape = (0,) + + txt = StringIO(data) + with pytest.warns(UserWarning, match="input contained no data"): + res = np.loadtxt(txt, ndmin=ndmin, usecols=usecols) + assert res.shape == expected_shape + + with NamedTemporaryFile(mode="w") as fh: + fh.write(data) + fh.seek(0) + with pytest.warns(UserWarning, match="input contained no data"): + res = np.loadtxt(txt, ndmin=ndmin, usecols=usecols) + assert res.shape == expected_shape + +@pytest.mark.parametrize("skiprows", (2, 3)) +def test_warn_on_skipped_data(skiprows): + data = "1 2 3\n4 5 6" + txt = StringIO(data) + with pytest.warns(UserWarning, match="input contained no data"): + np.loadtxt(txt, skiprows=skiprows) + + +@pytest.mark.parametrize(["dtype", "value"], [ + ("i2", 0x0001), ("u2", 0x0001), + ("i4", 0x00010203), ("u4", 0x00010203), + ("i8", 0x0001020304050607), ("u8", 0x0001020304050607), + # The following values are constructed to lead to unique bytes: + ("float16", 3.07e-05), + ("float32", 9.2557e-41), ("complex64", 9.2557e-41+2.8622554e-29j), + ("float64", -1.758571353180402e-24), + # Here and below, the repr side-steps a small loss of precision in + # complex `str` in PyPy (which is probably fine, as repr works): + ("complex128", repr(5.406409232372729e-29-1.758571353180402e-24j)), + # Use integer values that fit into double. Everything else leads to + # problems due to longdoubles going via double and decimal strings + # causing rounding errors. + ("longdouble", 0x01020304050607), + ("clongdouble", repr(0x01020304050607 + (0x00121314151617 * 1j))), + ("U2", "\U00010203\U000a0b0c")]) +@pytest.mark.parametrize("swap", [True, False]) +def test_byteswapping_and_unaligned(dtype, value, swap): + # Try to create "interesting" values within the valid unicode range: + dtype = np.dtype(dtype) + data = [f"x,{value}\n"] # repr as PyPy `str` truncates some + if swap: + dtype = dtype.newbyteorder() + full_dt = np.dtype([("a", "S1"), ("b", dtype)], align=False) + # The above ensures that the interesting "b" field is unaligned: + assert full_dt.fields["b"][1] == 1 + res = np.loadtxt(data, dtype=full_dt, delimiter=",", encoding=None, + max_rows=1) # max-rows prevents over-allocation + assert res["b"] == dtype.type(value) + + +@pytest.mark.parametrize("dtype", + np.typecodes["AllInteger"] + "efdFD" + "?") +def test_unicode_whitespace_stripping(dtype): + # Test that all numeric types (and bool) strip whitespace correctly + # \u202F is a narrow no-break space, `\n` is just a whitespace if quoted. + # Currently, skip float128 as it did not always support this and has no + # "custom" parsing: + txt = StringIO(' 3 ,"\u202F2\n"') + res = np.loadtxt(txt, dtype=dtype, delimiter=",", quotechar='"') + assert_array_equal(res, np.array([3, 2]).astype(dtype)) + + +@pytest.mark.parametrize("dtype", "FD") +def test_unicode_whitespace_stripping_complex(dtype): + # Complex has a few extra cases since it has two components and + # parentheses + line = " 1 , 2+3j , ( 4+5j ), ( 6+-7j ) , 8j , ( 9j ) \n" + data = [line, line.replace(" ", "\u202F")] + res = np.loadtxt(data, dtype=dtype, delimiter=',') + assert_array_equal(res, np.array([[1, 2+3j, 4+5j, 6-7j, 8j, 9j]] * 2)) + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +@pytest.mark.parametrize("dtype", "FD") +@pytest.mark.parametrize("field", + ["1 +2j", "1+ 2j", "1+2 j", "1+-+3", "(1j", "(1", "(1+2j", "1+2j)"]) +def test_bad_complex(dtype, field): + with pytest.raises(ValueError): + np.loadtxt([field + "\n"], dtype=dtype, delimiter=",") + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +@pytest.mark.parametrize("dtype", + np.typecodes["AllInteger"] + "efgdFDG" + "?") +def test_nul_character_error(dtype): + # Test that a \0 character is correctly recognized as an error even if + # what comes before is valid (not everything gets parsed internally). + if dtype.lower() == "g": + pytest.xfail("longdouble/clongdouble assignment may misbehave.") + with pytest.raises(ValueError): + np.loadtxt(["1\000"], dtype=dtype, delimiter=",", quotechar='"') + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +@pytest.mark.parametrize("dtype", + np.typecodes["AllInteger"] + "efgdFDG" + "?") +def test_no_thousands_support(dtype): + # Mainly to document behaviour, Python supports thousands like 1_1. + # (e and G may end up using different conversion and support it, this is + # a bug but happens...) + if dtype == "e": + pytest.skip("half assignment currently uses Python float converter") + if dtype in "eG": + pytest.xfail("clongdouble assignment is buggy (uses `complex`?).") + + assert int("1_1") == float("1_1") == complex("1_1") == 11 + with pytest.raises(ValueError): + np.loadtxt(["1_1\n"], dtype=dtype) + + +@pytest.mark.parametrize("data", [ + ["1,2\n", "2\n,3\n"], + ["1,2\n", "2\r,3\n"]]) +def test_bad_newline_in_iterator(data): + # In NumPy <=1.22 this was accepted, because newlines were completely + # ignored when the input was an iterable. This could be changed, but right + # now, we raise an error. + msg = "Found an unquoted embedded newline within a single line" + with pytest.raises(ValueError, match=msg): + np.loadtxt(data, delimiter=",") + + +@pytest.mark.parametrize("data", [ + ["1,2\n", "2,3\r\n"], # a universal newline + ["1,2\n", "'2\n',3\n"], # a quoted newline + ["1,2\n", "'2\r',3\n"], + ["1,2\n", "'2\r\n',3\n"], +]) +def test_good_newline_in_iterator(data): + # The quoted newlines will be untransformed here, but are just whitespace. + res = np.loadtxt(data, delimiter=",", quotechar="'") + assert_array_equal(res, [[1., 2.], [2., 3.]]) + + +@pytest.mark.parametrize("newline", ["\n", "\r", "\r\n"]) +def test_universal_newlines_quoted(newline): + # Check that universal newline support within the tokenizer is not applied + # to quoted fields. (note that lines must end in newline or quoted + # fields will not include a newline at all) + data = ['1,"2\n"\n', '3,"4\n', '1"\n'] + data = [row.replace("\n", newline) for row in data] + res = np.loadtxt(data, dtype=object, delimiter=",", quotechar='"') + assert_array_equal(res, [['1', f'2{newline}'], ['3', f'4{newline}1']]) + + +def test_null_character(): + # Basic tests to check that the NUL character is not special: + res = np.loadtxt(["1\0002\0003\n", "4\0005\0006"], delimiter="\000") + assert_array_equal(res, [[1, 2, 3], [4, 5, 6]]) + + # Also not as part of a field (avoid unicode/arrays as unicode strips \0) + res = np.loadtxt(["1\000,2\000,3\n", "4\000,5\000,6"], + delimiter=",", dtype=object) + assert res.tolist() == [["1\000", "2\000", "3"], ["4\000", "5\000", "6"]] + + +def test_iterator_fails_getting_next_line(): + class BadSequence: + def __len__(self): + return 100 + + def __getitem__(self, item): + if item == 50: + raise RuntimeError("Bad things happened!") + return f"{item}, {item+1}" + + with pytest.raises(RuntimeError, match="Bad things happened!"): + np.loadtxt(BadSequence(), dtype=int, delimiter=",") + + +class TestCReaderUnitTests: + # These are internal tests for path that should not be possible to hit + # unless things go very very wrong somewhere. + def test_not_an_filelike(self): + with pytest.raises(AttributeError, match=".*read"): + np.core._multiarray_umath._load_from_filelike( + object(), dtype=np.dtype("i"), filelike=True) + + def test_filelike_read_fails(self): + # Can only be reached if loadtxt opens the file, so it is hard to do + # via the public interface (although maybe not impossible considering + # the current "DataClass" backing). + class BadFileLike: + counter = 0 + + def read(self, size): + self.counter += 1 + if self.counter > 20: + raise RuntimeError("Bad bad bad!") + return "1,2,3\n" + + with pytest.raises(RuntimeError, match="Bad bad bad!"): + np.core._multiarray_umath._load_from_filelike( + BadFileLike(), dtype=np.dtype("i"), filelike=True) + + def test_filelike_bad_read(self): + # Can only be reached if loadtxt opens the file, so it is hard to do + # via the public interface (although maybe not impossible considering + # the current "DataClass" backing). + + class BadFileLike: + counter = 0 + + def read(self, size): + return 1234 # not a string! + + with pytest.raises(TypeError, + match="non-string returned while reading data"): + np.core._multiarray_umath._load_from_filelike( + BadFileLike(), dtype=np.dtype("i"), filelike=True) + + def test_not_an_iter(self): + with pytest.raises(TypeError, + match="error reading from object, expected an iterable"): + np.core._multiarray_umath._load_from_filelike( + object(), dtype=np.dtype("i"), filelike=False) + + def test_bad_type(self): + with pytest.raises(TypeError, match="internal error: dtype must"): + np.core._multiarray_umath._load_from_filelike( + object(), dtype="i", filelike=False) + + def test_bad_encoding(self): + with pytest.raises(TypeError, match="encoding must be a unicode"): + np.core._multiarray_umath._load_from_filelike( + object(), dtype=np.dtype("i"), filelike=False, encoding=123) + + @pytest.mark.parametrize("newline", ["\r", "\n", "\r\n"]) + def test_manual_universal_newlines(self, newline): + # This is currently not available to users, because we should always + # open files with universal newlines enabled `newlines=None`. + # (And reading from an iterator uses slightly different code paths.) + # We have no real support for `newline="\r"` or `newline="\n" as the + # user cannot specify those options. + data = StringIO('0\n1\n"2\n"\n3\n4 #\n'.replace("\n", newline), + newline="") + + res = np.core._multiarray_umath._load_from_filelike( + data, dtype=np.dtype("U10"), filelike=True, + quote='"', comment="#", skiplines=1) + assert_array_equal(res[:, 0], ["1", f"2{newline}", "3", "4 "]) + + +def test_delimiter_comment_collision_raises(): + with pytest.raises(TypeError, match=".*control characters.*incompatible"): + np.loadtxt(StringIO("1, 2, 3"), delimiter=",", comments=",") + + +def test_delimiter_quotechar_collision_raises(): + with pytest.raises(TypeError, match=".*control characters.*incompatible"): + np.loadtxt(StringIO("1, 2, 3"), delimiter=",", quotechar=",") + + +def test_comment_quotechar_collision_raises(): + with pytest.raises(TypeError, match=".*control characters.*incompatible"): + np.loadtxt(StringIO("1 2 3"), comments="#", quotechar="#") + + +def test_delimiter_and_multiple_comments_collision_raises(): + with pytest.raises( + TypeError, match="Comment characters.*cannot include the delimiter" + ): + np.loadtxt(StringIO("1, 2, 3"), delimiter=",", comments=["#", ","]) + + +@pytest.mark.parametrize( + "ws", + ( + " ", # space + "\t", # tab + "\u2003", # em + "\u00A0", # non-break + "\u3000", # ideographic space + ) +) +def test_collision_with_default_delimiter_raises(ws): + with pytest.raises(TypeError, match=".*control characters.*incompatible"): + np.loadtxt(StringIO(f"1{ws}2{ws}3\n4{ws}5{ws}6\n"), comments=ws) + with pytest.raises(TypeError, match=".*control characters.*incompatible"): + np.loadtxt(StringIO(f"1{ws}2{ws}3\n4{ws}5{ws}6\n"), quotechar=ws) + + +@pytest.mark.parametrize("nl", ("\n", "\r")) +def test_control_character_newline_raises(nl): + txt = StringIO(f"1{nl}2{nl}3{nl}{nl}4{nl}5{nl}6{nl}{nl}") + msg = "control character.*cannot be a newline" + with pytest.raises(TypeError, match=msg): + np.loadtxt(txt, delimiter=nl) + with pytest.raises(TypeError, match=msg): + np.loadtxt(txt, comments=nl) + with pytest.raises(TypeError, match=msg): + np.loadtxt(txt, quotechar=nl) + + +@pytest.mark.parametrize( + ("generic_data", "long_datum", "unitless_dtype", "expected_dtype"), + [ + ("2012-03", "2013-01-15", "M8", "M8[D]"), # Datetimes + ("spam-a-lot", "tis_but_a_scratch", "U", "U17"), # str + ], +) +@pytest.mark.parametrize("nrows", (10, 50000, 60000)) # lt, eq, gt chunksize +def test_parametric_unit_discovery( + generic_data, long_datum, unitless_dtype, expected_dtype, nrows +): + """Check that the correct unit (e.g. month, day, second) is discovered from + the data when a user specifies a unitless datetime.""" + # Unit should be "D" (days) due to last entry + data = [generic_data] * 50000 + [long_datum] + expected = np.array(data, dtype=expected_dtype) + + # file-like path + txt = StringIO("\n".join(data)) + a = np.loadtxt(txt, dtype=unitless_dtype) + assert a.dtype == expected.dtype + assert_equal(a, expected) + + # file-obj path + fd, fname = mkstemp() + os.close(fd) + with open(fname, "w") as fh: + fh.write("\n".join(data)) + a = np.loadtxt(fname, dtype=unitless_dtype) + os.remove(fname) + assert a.dtype == expected.dtype + assert_equal(a, expected) + + +def test_str_dtype_unit_discovery_with_converter(): + data = ["spam-a-lot"] * 60000 + ["XXXtis_but_a_scratch"] + expected = np.array( + ["spam-a-lot"] * 60000 + ["tis_but_a_scratch"], dtype="U17" + ) + conv = lambda s: s.strip("XXX") + + # file-like path + txt = StringIO("\n".join(data)) + a = np.loadtxt(txt, dtype="U", converters=conv, encoding=None) + assert a.dtype == expected.dtype + assert_equal(a, expected) + + # file-obj path + fd, fname = mkstemp() + os.close(fd) + with open(fname, "w") as fh: + fh.write("\n".join(data)) + a = np.loadtxt(fname, dtype="U", converters=conv, encoding=None) + os.remove(fname) + assert a.dtype == expected.dtype + assert_equal(a, expected) + + +@pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), + reason="PyPy bug in error formatting") +def test_control_character_empty(): + with pytest.raises(TypeError, match="Text reading control character must"): + np.loadtxt(StringIO("1 2 3"), delimiter="") + with pytest.raises(TypeError, match="Text reading control character must"): + np.loadtxt(StringIO("1 2 3"), quotechar="") + with pytest.raises(ValueError, match="comments cannot be an empty string"): + np.loadtxt(StringIO("1 2 3"), comments="") + with pytest.raises(ValueError, match="comments cannot be an empty string"): + np.loadtxt(StringIO("1 2 3"), comments=["#", ""]) + + +def test_control_characters_as_bytes(): + """Byte control characters (comments, delimiter) are supported.""" + a = np.loadtxt(StringIO("#header\n1,2,3"), comments=b"#", delimiter=b",") + assert_equal(a, [1, 2, 3]) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_nanfunctions.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_nanfunctions.py new file mode 100644 index 0000000000000000000000000000000000000000..733a077ea1fcfbb9330bd8711e7f5a7d1cd81d41 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_nanfunctions.py @@ -0,0 +1,1186 @@ +import warnings +import pytest +import inspect + +import numpy as np +from numpy.lib.nanfunctions import _nan_mask, _replace_nan +from numpy.testing import ( + assert_, assert_equal, assert_almost_equal, assert_raises, + assert_array_equal, suppress_warnings + ) + + +# Test data +_ndat = np.array([[0.6244, np.nan, 0.2692, 0.0116, np.nan, 0.1170], + [0.5351, -0.9403, np.nan, 0.2100, 0.4759, 0.2833], + [np.nan, np.nan, np.nan, 0.1042, np.nan, -0.5954], + [0.1610, np.nan, np.nan, 0.1859, 0.3146, np.nan]]) + + +# Rows of _ndat with nans removed +_rdat = [np.array([0.6244, 0.2692, 0.0116, 0.1170]), + np.array([0.5351, -0.9403, 0.2100, 0.4759, 0.2833]), + np.array([0.1042, -0.5954]), + np.array([0.1610, 0.1859, 0.3146])] + +# Rows of _ndat with nans converted to ones +_ndat_ones = np.array([[0.6244, 1.0, 0.2692, 0.0116, 1.0, 0.1170], + [0.5351, -0.9403, 1.0, 0.2100, 0.4759, 0.2833], + [1.0, 1.0, 1.0, 0.1042, 1.0, -0.5954], + [0.1610, 1.0, 1.0, 0.1859, 0.3146, 1.0]]) + +# Rows of _ndat with nans converted to zeros +_ndat_zeros = np.array([[0.6244, 0.0, 0.2692, 0.0116, 0.0, 0.1170], + [0.5351, -0.9403, 0.0, 0.2100, 0.4759, 0.2833], + [0.0, 0.0, 0.0, 0.1042, 0.0, -0.5954], + [0.1610, 0.0, 0.0, 0.1859, 0.3146, 0.0]]) + + +class TestSignatureMatch: + NANFUNCS = { + np.nanmin: np.amin, + np.nanmax: np.amax, + np.nanargmin: np.argmin, + np.nanargmax: np.argmax, + np.nansum: np.sum, + np.nanprod: np.prod, + np.nancumsum: np.cumsum, + np.nancumprod: np.cumprod, + np.nanmean: np.mean, + np.nanmedian: np.median, + np.nanpercentile: np.percentile, + np.nanquantile: np.quantile, + np.nanvar: np.var, + np.nanstd: np.std, + } + IDS = [k.__name__ for k in NANFUNCS] + + @staticmethod + def get_signature(func, default="..."): + """Construct a signature and replace all default parameter-values.""" + prm_list = [] + signature = inspect.signature(func) + for prm in signature.parameters.values(): + if prm.default is inspect.Parameter.empty: + prm_list.append(prm) + else: + prm_list.append(prm.replace(default=default)) + return inspect.Signature(prm_list) + + @pytest.mark.parametrize("nan_func,func", NANFUNCS.items(), ids=IDS) + def test_signature_match(self, nan_func, func): + # Ignore the default parameter-values as they can sometimes differ + # between the two functions (*e.g.* one has `False` while the other + # has `np._NoValue`) + signature = self.get_signature(func) + nan_signature = self.get_signature(nan_func) + np.testing.assert_equal(signature, nan_signature) + + def test_exhaustiveness(self): + """Validate that all nan functions are actually tested.""" + np.testing.assert_equal( + set(self.IDS), set(np.lib.nanfunctions.__all__) + ) + + +class TestNanFunctions_MinMax: + + nanfuncs = [np.nanmin, np.nanmax] + stdfuncs = [np.min, np.max] + + def test_mutation(self): + # Check that passed array is not modified. + ndat = _ndat.copy() + for f in self.nanfuncs: + f(ndat) + assert_equal(ndat, _ndat) + + def test_keepdims(self): + mat = np.eye(3) + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + for axis in [None, 0, 1]: + tgt = rf(mat, axis=axis, keepdims=True) + res = nf(mat, axis=axis, keepdims=True) + assert_(res.ndim == tgt.ndim) + + def test_out(self): + mat = np.eye(3) + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + resout = np.zeros(3) + tgt = rf(mat, axis=1) + res = nf(mat, axis=1, out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + + def test_dtype_from_input(self): + codes = 'efdgFDG' + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + for c in codes: + mat = np.eye(3, dtype=c) + tgt = rf(mat, axis=1).dtype.type + res = nf(mat, axis=1).dtype.type + assert_(res is tgt) + # scalar case + tgt = rf(mat, axis=None).dtype.type + res = nf(mat, axis=None).dtype.type + assert_(res is tgt) + + def test_result_values(self): + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + tgt = [rf(d) for d in _rdat] + res = nf(_ndat, axis=1) + assert_almost_equal(res, tgt) + + @pytest.mark.parametrize("axis", [None, 0, 1]) + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + @pytest.mark.parametrize("array", [ + np.array(np.nan), + np.full((3, 3), np.nan), + ], ids=["0d", "2d"]) + def test_allnans(self, axis, dtype, array): + if axis is not None and array.ndim == 0: + pytest.skip(f"`axis != None` not supported for 0d arrays") + + array = array.astype(dtype) + match = "All-NaN slice encountered" + for func in self.nanfuncs: + with pytest.warns(RuntimeWarning, match=match): + out = func(array, axis=axis) + assert np.isnan(out).all() + assert out.dtype == array.dtype + + def test_masked(self): + mat = np.ma.fix_invalid(_ndat) + msk = mat._mask.copy() + for f in [np.nanmin]: + res = f(mat, axis=1) + tgt = f(_ndat, axis=1) + assert_equal(res, tgt) + assert_equal(mat._mask, msk) + assert_(not np.isinf(mat).any()) + + def test_scalar(self): + for f in self.nanfuncs: + assert_(f(0.) == 0.) + + def test_subclass(self): + class MyNDArray(np.ndarray): + pass + + # Check that it works and that type and + # shape are preserved + mine = np.eye(3).view(MyNDArray) + for f in self.nanfuncs: + res = f(mine, axis=0) + assert_(isinstance(res, MyNDArray)) + assert_(res.shape == (3,)) + res = f(mine, axis=1) + assert_(isinstance(res, MyNDArray)) + assert_(res.shape == (3,)) + res = f(mine) + assert_(res.shape == ()) + + # check that rows of nan are dealt with for subclasses (#4628) + mine[1] = np.nan + for f in self.nanfuncs: + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + res = f(mine, axis=0) + assert_(isinstance(res, MyNDArray)) + assert_(not np.any(np.isnan(res))) + assert_(len(w) == 0) + + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + res = f(mine, axis=1) + assert_(isinstance(res, MyNDArray)) + assert_(np.isnan(res[1]) and not np.isnan(res[0]) + and not np.isnan(res[2])) + assert_(len(w) == 1, 'no warning raised') + assert_(issubclass(w[0].category, RuntimeWarning)) + + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + res = f(mine) + assert_(res.shape == ()) + assert_(res != np.nan) + assert_(len(w) == 0) + + def test_object_array(self): + arr = np.array([[1.0, 2.0], [np.nan, 4.0], [np.nan, np.nan]], dtype=object) + assert_equal(np.nanmin(arr), 1.0) + assert_equal(np.nanmin(arr, axis=0), [1.0, 2.0]) + + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + # assert_equal does not work on object arrays of nan + assert_equal(list(np.nanmin(arr, axis=1)), [1.0, 4.0, np.nan]) + assert_(len(w) == 1, 'no warning raised') + assert_(issubclass(w[0].category, RuntimeWarning)) + + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + def test_initial(self, dtype): + class MyNDArray(np.ndarray): + pass + + ar = np.arange(9).astype(dtype) + ar[:5] = np.nan + + for f in self.nanfuncs: + initial = 100 if f is np.nanmax else 0 + + ret1 = f(ar, initial=initial) + assert ret1.dtype == dtype + assert ret1 == initial + + ret2 = f(ar.view(MyNDArray), initial=initial) + assert ret2.dtype == dtype + assert ret2 == initial + + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + def test_where(self, dtype): + class MyNDArray(np.ndarray): + pass + + ar = np.arange(9).reshape(3, 3).astype(dtype) + ar[0, :] = np.nan + where = np.ones_like(ar, dtype=np.bool_) + where[:, 0] = False + + for f in self.nanfuncs: + reference = 4 if f is np.nanmin else 8 + + ret1 = f(ar, where=where, initial=5) + assert ret1.dtype == dtype + assert ret1 == reference + + ret2 = f(ar.view(MyNDArray), where=where, initial=5) + assert ret2.dtype == dtype + assert ret2 == reference + + +class TestNanFunctions_ArgminArgmax: + + nanfuncs = [np.nanargmin, np.nanargmax] + + def test_mutation(self): + # Check that passed array is not modified. + ndat = _ndat.copy() + for f in self.nanfuncs: + f(ndat) + assert_equal(ndat, _ndat) + + def test_result_values(self): + for f, fcmp in zip(self.nanfuncs, [np.greater, np.less]): + for row in _ndat: + with suppress_warnings() as sup: + sup.filter(RuntimeWarning, "invalid value encountered in") + ind = f(row) + val = row[ind] + # comparing with NaN is tricky as the result + # is always false except for NaN != NaN + assert_(not np.isnan(val)) + assert_(not fcmp(val, row).any()) + assert_(not np.equal(val, row[:ind]).any()) + + @pytest.mark.parametrize("axis", [None, 0, 1]) + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + @pytest.mark.parametrize("array", [ + np.array(np.nan), + np.full((3, 3), np.nan), + ], ids=["0d", "2d"]) + def test_allnans(self, axis, dtype, array): + if axis is not None and array.ndim == 0: + pytest.skip(f"`axis != None` not supported for 0d arrays") + + array = array.astype(dtype) + for func in self.nanfuncs: + with pytest.raises(ValueError, match="All-NaN slice encountered"): + func(array, axis=axis) + + def test_empty(self): + mat = np.zeros((0, 3)) + for f in self.nanfuncs: + for axis in [0, None]: + assert_raises(ValueError, f, mat, axis=axis) + for axis in [1]: + res = f(mat, axis=axis) + assert_equal(res, np.zeros(0)) + + def test_scalar(self): + for f in self.nanfuncs: + assert_(f(0.) == 0.) + + def test_subclass(self): + class MyNDArray(np.ndarray): + pass + + # Check that it works and that type and + # shape are preserved + mine = np.eye(3).view(MyNDArray) + for f in self.nanfuncs: + res = f(mine, axis=0) + assert_(isinstance(res, MyNDArray)) + assert_(res.shape == (3,)) + res = f(mine, axis=1) + assert_(isinstance(res, MyNDArray)) + assert_(res.shape == (3,)) + res = f(mine) + assert_(res.shape == ()) + + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + def test_keepdims(self, dtype): + ar = np.arange(9).astype(dtype) + ar[:5] = np.nan + + for f in self.nanfuncs: + reference = 5 if f is np.nanargmin else 8 + ret = f(ar, keepdims=True) + assert ret.ndim == ar.ndim + assert ret == reference + + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + def test_out(self, dtype): + ar = np.arange(9).astype(dtype) + ar[:5] = np.nan + + for f in self.nanfuncs: + out = np.zeros((), dtype=np.intp) + reference = 5 if f is np.nanargmin else 8 + ret = f(ar, out=out) + assert ret is out + assert ret == reference + + + +_TEST_ARRAYS = { + "0d": np.array(5), + "1d": np.array([127, 39, 93, 87, 46]) +} +for _v in _TEST_ARRAYS.values(): + _v.setflags(write=False) + + +@pytest.mark.parametrize( + "dtype", + np.typecodes["AllInteger"] + np.typecodes["AllFloat"] + "O", +) +@pytest.mark.parametrize("mat", _TEST_ARRAYS.values(), ids=_TEST_ARRAYS.keys()) +class TestNanFunctions_NumberTypes: + nanfuncs = { + np.nanmin: np.min, + np.nanmax: np.max, + np.nanargmin: np.argmin, + np.nanargmax: np.argmax, + np.nansum: np.sum, + np.nanprod: np.prod, + np.nancumsum: np.cumsum, + np.nancumprod: np.cumprod, + np.nanmean: np.mean, + np.nanmedian: np.median, + np.nanvar: np.var, + np.nanstd: np.std, + } + nanfunc_ids = [i.__name__ for i in nanfuncs] + + @pytest.mark.parametrize("nanfunc,func", nanfuncs.items(), ids=nanfunc_ids) + @np.errstate(over="ignore") + def test_nanfunc(self, mat, dtype, nanfunc, func): + mat = mat.astype(dtype) + tgt = func(mat) + out = nanfunc(mat) + + assert_almost_equal(out, tgt) + if dtype == "O": + assert type(out) is type(tgt) + else: + assert out.dtype == tgt.dtype + + @pytest.mark.parametrize( + "nanfunc,func", + [(np.nanquantile, np.quantile), (np.nanpercentile, np.percentile)], + ids=["nanquantile", "nanpercentile"], + ) + def test_nanfunc_q(self, mat, dtype, nanfunc, func): + mat = mat.astype(dtype) + tgt = func(mat, q=1) + out = nanfunc(mat, q=1) + + assert_almost_equal(out, tgt) + if dtype == "O": + assert type(out) is type(tgt) + else: + assert out.dtype == tgt.dtype + + @pytest.mark.parametrize( + "nanfunc,func", + [(np.nanvar, np.var), (np.nanstd, np.std)], + ids=["nanvar", "nanstd"], + ) + def test_nanfunc_ddof(self, mat, dtype, nanfunc, func): + mat = mat.astype(dtype) + tgt = func(mat, ddof=0.5) + out = nanfunc(mat, ddof=0.5) + + assert_almost_equal(out, tgt) + if dtype == "O": + assert type(out) is type(tgt) + else: + assert out.dtype == tgt.dtype + + +class SharedNanFunctionsTestsMixin: + def test_mutation(self): + # Check that passed array is not modified. + ndat = _ndat.copy() + for f in self.nanfuncs: + f(ndat) + assert_equal(ndat, _ndat) + + def test_keepdims(self): + mat = np.eye(3) + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + for axis in [None, 0, 1]: + tgt = rf(mat, axis=axis, keepdims=True) + res = nf(mat, axis=axis, keepdims=True) + assert_(res.ndim == tgt.ndim) + + def test_out(self): + mat = np.eye(3) + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + resout = np.zeros(3) + tgt = rf(mat, axis=1) + res = nf(mat, axis=1, out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + + def test_dtype_from_dtype(self): + mat = np.eye(3) + codes = 'efdgFDG' + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + for c in codes: + with suppress_warnings() as sup: + if nf in {np.nanstd, np.nanvar} and c in 'FDG': + # Giving the warning is a small bug, see gh-8000 + sup.filter(np.ComplexWarning) + tgt = rf(mat, dtype=np.dtype(c), axis=1).dtype.type + res = nf(mat, dtype=np.dtype(c), axis=1).dtype.type + assert_(res is tgt) + # scalar case + tgt = rf(mat, dtype=np.dtype(c), axis=None).dtype.type + res = nf(mat, dtype=np.dtype(c), axis=None).dtype.type + assert_(res is tgt) + + def test_dtype_from_char(self): + mat = np.eye(3) + codes = 'efdgFDG' + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + for c in codes: + with suppress_warnings() as sup: + if nf in {np.nanstd, np.nanvar} and c in 'FDG': + # Giving the warning is a small bug, see gh-8000 + sup.filter(np.ComplexWarning) + tgt = rf(mat, dtype=c, axis=1).dtype.type + res = nf(mat, dtype=c, axis=1).dtype.type + assert_(res is tgt) + # scalar case + tgt = rf(mat, dtype=c, axis=None).dtype.type + res = nf(mat, dtype=c, axis=None).dtype.type + assert_(res is tgt) + + def test_dtype_from_input(self): + codes = 'efdgFDG' + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + for c in codes: + mat = np.eye(3, dtype=c) + tgt = rf(mat, axis=1).dtype.type + res = nf(mat, axis=1).dtype.type + assert_(res is tgt, "res %s, tgt %s" % (res, tgt)) + # scalar case + tgt = rf(mat, axis=None).dtype.type + res = nf(mat, axis=None).dtype.type + assert_(res is tgt) + + def test_result_values(self): + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + tgt = [rf(d) for d in _rdat] + res = nf(_ndat, axis=1) + assert_almost_equal(res, tgt) + + def test_scalar(self): + for f in self.nanfuncs: + assert_(f(0.) == 0.) + + def test_subclass(self): + class MyNDArray(np.ndarray): + pass + + # Check that it works and that type and + # shape are preserved + array = np.eye(3) + mine = array.view(MyNDArray) + for f in self.nanfuncs: + expected_shape = f(array, axis=0).shape + res = f(mine, axis=0) + assert_(isinstance(res, MyNDArray)) + assert_(res.shape == expected_shape) + expected_shape = f(array, axis=1).shape + res = f(mine, axis=1) + assert_(isinstance(res, MyNDArray)) + assert_(res.shape == expected_shape) + expected_shape = f(array).shape + res = f(mine) + assert_(isinstance(res, MyNDArray)) + assert_(res.shape == expected_shape) + + +class TestNanFunctions_SumProd(SharedNanFunctionsTestsMixin): + + nanfuncs = [np.nansum, np.nanprod] + stdfuncs = [np.sum, np.prod] + + @pytest.mark.parametrize("axis", [None, 0, 1]) + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + @pytest.mark.parametrize("array", [ + np.array(np.nan), + np.full((3, 3), np.nan), + ], ids=["0d", "2d"]) + def test_allnans(self, axis, dtype, array): + if axis is not None and array.ndim == 0: + pytest.skip(f"`axis != None` not supported for 0d arrays") + + array = array.astype(dtype) + for func, identity in zip(self.nanfuncs, [0, 1]): + out = func(array, axis=axis) + assert np.all(out == identity) + assert out.dtype == array.dtype + + def test_empty(self): + for f, tgt_value in zip([np.nansum, np.nanprod], [0, 1]): + mat = np.zeros((0, 3)) + tgt = [tgt_value]*3 + res = f(mat, axis=0) + assert_equal(res, tgt) + tgt = [] + res = f(mat, axis=1) + assert_equal(res, tgt) + tgt = tgt_value + res = f(mat, axis=None) + assert_equal(res, tgt) + + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + def test_initial(self, dtype): + ar = np.arange(9).astype(dtype) + ar[:5] = np.nan + + for f in self.nanfuncs: + reference = 28 if f is np.nansum else 3360 + ret = f(ar, initial=2) + assert ret.dtype == dtype + assert ret == reference + + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + def test_where(self, dtype): + ar = np.arange(9).reshape(3, 3).astype(dtype) + ar[0, :] = np.nan + where = np.ones_like(ar, dtype=np.bool_) + where[:, 0] = False + + for f in self.nanfuncs: + reference = 26 if f is np.nansum else 2240 + ret = f(ar, where=where, initial=2) + assert ret.dtype == dtype + assert ret == reference + + +class TestNanFunctions_CumSumProd(SharedNanFunctionsTestsMixin): + + nanfuncs = [np.nancumsum, np.nancumprod] + stdfuncs = [np.cumsum, np.cumprod] + + @pytest.mark.parametrize("axis", [None, 0, 1]) + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + @pytest.mark.parametrize("array", [ + np.array(np.nan), + np.full((3, 3), np.nan) + ], ids=["0d", "2d"]) + def test_allnans(self, axis, dtype, array): + if axis is not None and array.ndim == 0: + pytest.skip(f"`axis != None` not supported for 0d arrays") + + array = array.astype(dtype) + for func, identity in zip(self.nanfuncs, [0, 1]): + out = func(array) + assert np.all(out == identity) + assert out.dtype == array.dtype + + def test_empty(self): + for f, tgt_value in zip(self.nanfuncs, [0, 1]): + mat = np.zeros((0, 3)) + tgt = tgt_value*np.ones((0, 3)) + res = f(mat, axis=0) + assert_equal(res, tgt) + tgt = mat + res = f(mat, axis=1) + assert_equal(res, tgt) + tgt = np.zeros((0)) + res = f(mat, axis=None) + assert_equal(res, tgt) + + def test_keepdims(self): + for f, g in zip(self.nanfuncs, self.stdfuncs): + mat = np.eye(3) + for axis in [None, 0, 1]: + tgt = f(mat, axis=axis, out=None) + res = g(mat, axis=axis, out=None) + assert_(res.ndim == tgt.ndim) + + for f in self.nanfuncs: + d = np.ones((3, 5, 7, 11)) + # Randomly set some elements to NaN: + rs = np.random.RandomState(0) + d[rs.rand(*d.shape) < 0.5] = np.nan + res = f(d, axis=None) + assert_equal(res.shape, (1155,)) + for axis in np.arange(4): + res = f(d, axis=axis) + assert_equal(res.shape, (3, 5, 7, 11)) + + def test_result_values(self): + for axis in (-2, -1, 0, 1, None): + tgt = np.cumprod(_ndat_ones, axis=axis) + res = np.nancumprod(_ndat, axis=axis) + assert_almost_equal(res, tgt) + tgt = np.cumsum(_ndat_zeros,axis=axis) + res = np.nancumsum(_ndat, axis=axis) + assert_almost_equal(res, tgt) + + def test_out(self): + mat = np.eye(3) + for nf, rf in zip(self.nanfuncs, self.stdfuncs): + resout = np.eye(3) + for axis in (-2, -1, 0, 1): + tgt = rf(mat, axis=axis) + res = nf(mat, axis=axis, out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + + +class TestNanFunctions_MeanVarStd(SharedNanFunctionsTestsMixin): + + nanfuncs = [np.nanmean, np.nanvar, np.nanstd] + stdfuncs = [np.mean, np.var, np.std] + + def test_dtype_error(self): + for f in self.nanfuncs: + for dtype in [np.bool_, np.int_, np.object_]: + assert_raises(TypeError, f, _ndat, axis=1, dtype=dtype) + + def test_out_dtype_error(self): + for f in self.nanfuncs: + for dtype in [np.bool_, np.int_, np.object_]: + out = np.empty(_ndat.shape[0], dtype=dtype) + assert_raises(TypeError, f, _ndat, axis=1, out=out) + + def test_ddof(self): + nanfuncs = [np.nanvar, np.nanstd] + stdfuncs = [np.var, np.std] + for nf, rf in zip(nanfuncs, stdfuncs): + for ddof in [0, 1]: + tgt = [rf(d, ddof=ddof) for d in _rdat] + res = nf(_ndat, axis=1, ddof=ddof) + assert_almost_equal(res, tgt) + + def test_ddof_too_big(self): + nanfuncs = [np.nanvar, np.nanstd] + stdfuncs = [np.var, np.std] + dsize = [len(d) for d in _rdat] + for nf, rf in zip(nanfuncs, stdfuncs): + for ddof in range(5): + with suppress_warnings() as sup: + sup.record(RuntimeWarning) + sup.filter(np.ComplexWarning) + tgt = [ddof >= d for d in dsize] + res = nf(_ndat, axis=1, ddof=ddof) + assert_equal(np.isnan(res), tgt) + if any(tgt): + assert_(len(sup.log) == 1) + else: + assert_(len(sup.log) == 0) + + @pytest.mark.parametrize("axis", [None, 0, 1]) + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + @pytest.mark.parametrize("array", [ + np.array(np.nan), + np.full((3, 3), np.nan), + ], ids=["0d", "2d"]) + def test_allnans(self, axis, dtype, array): + if axis is not None and array.ndim == 0: + pytest.skip(f"`axis != None` not supported for 0d arrays") + + array = array.astype(dtype) + match = "(Degrees of freedom <= 0 for slice.)|(Mean of empty slice)" + for func in self.nanfuncs: + with pytest.warns(RuntimeWarning, match=match): + out = func(array, axis=axis) + assert np.isnan(out).all() + + # `nanvar` and `nanstd` convert complex inputs to their + # corresponding floating dtype + if func is np.nanmean: + assert out.dtype == array.dtype + else: + assert out.dtype == np.abs(array).dtype + + def test_empty(self): + mat = np.zeros((0, 3)) + for f in self.nanfuncs: + for axis in [0, None]: + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + assert_(np.isnan(f(mat, axis=axis)).all()) + assert_(len(w) == 1) + assert_(issubclass(w[0].category, RuntimeWarning)) + for axis in [1]: + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + assert_equal(f(mat, axis=axis), np.zeros([])) + assert_(len(w) == 0) + + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + def test_where(self, dtype): + ar = np.arange(9).reshape(3, 3).astype(dtype) + ar[0, :] = np.nan + where = np.ones_like(ar, dtype=np.bool_) + where[:, 0] = False + + for f, f_std in zip(self.nanfuncs, self.stdfuncs): + reference = f_std(ar[where][2:]) + dtype_reference = dtype if f is np.nanmean else ar.real.dtype + + ret = f(ar, where=where) + assert ret.dtype == dtype_reference + np.testing.assert_allclose(ret, reference) + + +_TIME_UNITS = ( + "Y", "M", "W", "D", "h", "m", "s", "ms", "us", "ns", "ps", "fs", "as" +) + +# All `inexact` + `timdelta64` type codes +_TYPE_CODES = list(np.typecodes["AllFloat"]) +_TYPE_CODES += [f"m8[{unit}]" for unit in _TIME_UNITS] + + +class TestNanFunctions_Median: + + def test_mutation(self): + # Check that passed array is not modified. + ndat = _ndat.copy() + np.nanmedian(ndat) + assert_equal(ndat, _ndat) + + def test_keepdims(self): + mat = np.eye(3) + for axis in [None, 0, 1]: + tgt = np.median(mat, axis=axis, out=None, overwrite_input=False) + res = np.nanmedian(mat, axis=axis, out=None, overwrite_input=False) + assert_(res.ndim == tgt.ndim) + + d = np.ones((3, 5, 7, 11)) + # Randomly set some elements to NaN: + w = np.random.random((4, 200)) * np.array(d.shape)[:, None] + w = w.astype(np.intp) + d[tuple(w)] = np.nan + with suppress_warnings() as sup: + sup.filter(RuntimeWarning) + res = np.nanmedian(d, axis=None, keepdims=True) + assert_equal(res.shape, (1, 1, 1, 1)) + res = np.nanmedian(d, axis=(0, 1), keepdims=True) + assert_equal(res.shape, (1, 1, 7, 11)) + res = np.nanmedian(d, axis=(0, 3), keepdims=True) + assert_equal(res.shape, (1, 5, 7, 1)) + res = np.nanmedian(d, axis=(1,), keepdims=True) + assert_equal(res.shape, (3, 1, 7, 11)) + res = np.nanmedian(d, axis=(0, 1, 2, 3), keepdims=True) + assert_equal(res.shape, (1, 1, 1, 1)) + res = np.nanmedian(d, axis=(0, 1, 3), keepdims=True) + assert_equal(res.shape, (1, 1, 7, 1)) + + def test_out(self): + mat = np.random.rand(3, 3) + nan_mat = np.insert(mat, [0, 2], np.nan, axis=1) + resout = np.zeros(3) + tgt = np.median(mat, axis=1) + res = np.nanmedian(nan_mat, axis=1, out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + # 0-d output: + resout = np.zeros(()) + tgt = np.median(mat, axis=None) + res = np.nanmedian(nan_mat, axis=None, out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + res = np.nanmedian(nan_mat, axis=(0, 1), out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + + def test_small_large(self): + # test the small and large code paths, current cutoff 400 elements + for s in [5, 20, 51, 200, 1000]: + d = np.random.randn(4, s) + # Randomly set some elements to NaN: + w = np.random.randint(0, d.size, size=d.size // 5) + d.ravel()[w] = np.nan + d[:,0] = 1. # ensure at least one good value + # use normal median without nans to compare + tgt = [] + for x in d: + nonan = np.compress(~np.isnan(x), x) + tgt.append(np.median(nonan, overwrite_input=True)) + + assert_array_equal(np.nanmedian(d, axis=-1), tgt) + + def test_result_values(self): + tgt = [np.median(d) for d in _rdat] + res = np.nanmedian(_ndat, axis=1) + assert_almost_equal(res, tgt) + + @pytest.mark.parametrize("axis", [None, 0, 1]) + @pytest.mark.parametrize("dtype", _TYPE_CODES) + def test_allnans(self, dtype, axis): + mat = np.full((3, 3), np.nan).astype(dtype) + with suppress_warnings() as sup: + sup.record(RuntimeWarning) + + output = np.nanmedian(mat, axis=axis) + assert output.dtype == mat.dtype + assert np.isnan(output).all() + + if axis is None: + assert_(len(sup.log) == 1) + else: + assert_(len(sup.log) == 3) + + # Check scalar + scalar = np.array(np.nan).astype(dtype)[()] + output_scalar = np.nanmedian(scalar) + assert output_scalar.dtype == scalar.dtype + assert np.isnan(output_scalar) + + if axis is None: + assert_(len(sup.log) == 2) + else: + assert_(len(sup.log) == 4) + + def test_empty(self): + mat = np.zeros((0, 3)) + for axis in [0, None]: + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + assert_(np.isnan(np.nanmedian(mat, axis=axis)).all()) + assert_(len(w) == 1) + assert_(issubclass(w[0].category, RuntimeWarning)) + for axis in [1]: + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + assert_equal(np.nanmedian(mat, axis=axis), np.zeros([])) + assert_(len(w) == 0) + + def test_scalar(self): + assert_(np.nanmedian(0.) == 0.) + + def test_extended_axis_invalid(self): + d = np.ones((3, 5, 7, 11)) + assert_raises(np.AxisError, np.nanmedian, d, axis=-5) + assert_raises(np.AxisError, np.nanmedian, d, axis=(0, -5)) + assert_raises(np.AxisError, np.nanmedian, d, axis=4) + assert_raises(np.AxisError, np.nanmedian, d, axis=(0, 4)) + assert_raises(ValueError, np.nanmedian, d, axis=(1, 1)) + + def test_float_special(self): + with suppress_warnings() as sup: + sup.filter(RuntimeWarning) + for inf in [np.inf, -np.inf]: + a = np.array([[inf, np.nan], [np.nan, np.nan]]) + assert_equal(np.nanmedian(a, axis=0), [inf, np.nan]) + assert_equal(np.nanmedian(a, axis=1), [inf, np.nan]) + assert_equal(np.nanmedian(a), inf) + + # minimum fill value check + a = np.array([[np.nan, np.nan, inf], + [np.nan, np.nan, inf]]) + assert_equal(np.nanmedian(a), inf) + assert_equal(np.nanmedian(a, axis=0), [np.nan, np.nan, inf]) + assert_equal(np.nanmedian(a, axis=1), inf) + + # no mask path + a = np.array([[inf, inf], [inf, inf]]) + assert_equal(np.nanmedian(a, axis=1), inf) + + a = np.array([[inf, 7, -inf, -9], + [-10, np.nan, np.nan, 5], + [4, np.nan, np.nan, inf]], + dtype=np.float32) + if inf > 0: + assert_equal(np.nanmedian(a, axis=0), [4., 7., -inf, 5.]) + assert_equal(np.nanmedian(a), 4.5) + else: + assert_equal(np.nanmedian(a, axis=0), [-10., 7., -inf, -9.]) + assert_equal(np.nanmedian(a), -2.5) + assert_equal(np.nanmedian(a, axis=-1), [-1., -2.5, inf]) + + for i in range(0, 10): + for j in range(1, 10): + a = np.array([([np.nan] * i) + ([inf] * j)] * 2) + assert_equal(np.nanmedian(a), inf) + assert_equal(np.nanmedian(a, axis=1), inf) + assert_equal(np.nanmedian(a, axis=0), + ([np.nan] * i) + [inf] * j) + + a = np.array([([np.nan] * i) + ([-inf] * j)] * 2) + assert_equal(np.nanmedian(a), -inf) + assert_equal(np.nanmedian(a, axis=1), -inf) + assert_equal(np.nanmedian(a, axis=0), + ([np.nan] * i) + [-inf] * j) + + +class TestNanFunctions_Percentile: + + def test_mutation(self): + # Check that passed array is not modified. + ndat = _ndat.copy() + np.nanpercentile(ndat, 30) + assert_equal(ndat, _ndat) + + def test_keepdims(self): + mat = np.eye(3) + for axis in [None, 0, 1]: + tgt = np.percentile(mat, 70, axis=axis, out=None, + overwrite_input=False) + res = np.nanpercentile(mat, 70, axis=axis, out=None, + overwrite_input=False) + assert_(res.ndim == tgt.ndim) + + d = np.ones((3, 5, 7, 11)) + # Randomly set some elements to NaN: + w = np.random.random((4, 200)) * np.array(d.shape)[:, None] + w = w.astype(np.intp) + d[tuple(w)] = np.nan + with suppress_warnings() as sup: + sup.filter(RuntimeWarning) + res = np.nanpercentile(d, 90, axis=None, keepdims=True) + assert_equal(res.shape, (1, 1, 1, 1)) + res = np.nanpercentile(d, 90, axis=(0, 1), keepdims=True) + assert_equal(res.shape, (1, 1, 7, 11)) + res = np.nanpercentile(d, 90, axis=(0, 3), keepdims=True) + assert_equal(res.shape, (1, 5, 7, 1)) + res = np.nanpercentile(d, 90, axis=(1,), keepdims=True) + assert_equal(res.shape, (3, 1, 7, 11)) + res = np.nanpercentile(d, 90, axis=(0, 1, 2, 3), keepdims=True) + assert_equal(res.shape, (1, 1, 1, 1)) + res = np.nanpercentile(d, 90, axis=(0, 1, 3), keepdims=True) + assert_equal(res.shape, (1, 1, 7, 1)) + + def test_out(self): + mat = np.random.rand(3, 3) + nan_mat = np.insert(mat, [0, 2], np.nan, axis=1) + resout = np.zeros(3) + tgt = np.percentile(mat, 42, axis=1) + res = np.nanpercentile(nan_mat, 42, axis=1, out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + # 0-d output: + resout = np.zeros(()) + tgt = np.percentile(mat, 42, axis=None) + res = np.nanpercentile(nan_mat, 42, axis=None, out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + res = np.nanpercentile(nan_mat, 42, axis=(0, 1), out=resout) + assert_almost_equal(res, resout) + assert_almost_equal(res, tgt) + + def test_result_values(self): + tgt = [np.percentile(d, 28) for d in _rdat] + res = np.nanpercentile(_ndat, 28, axis=1) + assert_almost_equal(res, tgt) + # Transpose the array to fit the output convention of numpy.percentile + tgt = np.transpose([np.percentile(d, (28, 98)) for d in _rdat]) + res = np.nanpercentile(_ndat, (28, 98), axis=1) + assert_almost_equal(res, tgt) + + @pytest.mark.parametrize("axis", [None, 0, 1]) + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + @pytest.mark.parametrize("array", [ + np.array(np.nan), + np.full((3, 3), np.nan), + ], ids=["0d", "2d"]) + def test_allnans(self, axis, dtype, array): + if axis is not None and array.ndim == 0: + pytest.skip(f"`axis != None` not supported for 0d arrays") + + array = array.astype(dtype) + with pytest.warns(RuntimeWarning, match="All-NaN slice encountered"): + out = np.nanpercentile(array, 60, axis=axis) + assert np.isnan(out).all() + assert out.dtype == array.dtype + + def test_empty(self): + mat = np.zeros((0, 3)) + for axis in [0, None]: + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + assert_(np.isnan(np.nanpercentile(mat, 40, axis=axis)).all()) + assert_(len(w) == 1) + assert_(issubclass(w[0].category, RuntimeWarning)) + for axis in [1]: + with warnings.catch_warnings(record=True) as w: + warnings.simplefilter('always') + assert_equal(np.nanpercentile(mat, 40, axis=axis), np.zeros([])) + assert_(len(w) == 0) + + def test_scalar(self): + assert_equal(np.nanpercentile(0., 100), 0.) + a = np.arange(6) + r = np.nanpercentile(a, 50, axis=0) + assert_equal(r, 2.5) + assert_(np.isscalar(r)) + + def test_extended_axis_invalid(self): + d = np.ones((3, 5, 7, 11)) + assert_raises(np.AxisError, np.nanpercentile, d, q=5, axis=-5) + assert_raises(np.AxisError, np.nanpercentile, d, q=5, axis=(0, -5)) + assert_raises(np.AxisError, np.nanpercentile, d, q=5, axis=4) + assert_raises(np.AxisError, np.nanpercentile, d, q=5, axis=(0, 4)) + assert_raises(ValueError, np.nanpercentile, d, q=5, axis=(1, 1)) + + def test_multiple_percentiles(self): + perc = [50, 100] + mat = np.ones((4, 3)) + nan_mat = np.nan * mat + # For checking consistency in higher dimensional case + large_mat = np.ones((3, 4, 5)) + large_mat[:, 0:2:4, :] = 0 + large_mat[:, :, 3:] *= 2 + for axis in [None, 0, 1]: + for keepdim in [False, True]: + with suppress_warnings() as sup: + sup.filter(RuntimeWarning, "All-NaN slice encountered") + val = np.percentile(mat, perc, axis=axis, keepdims=keepdim) + nan_val = np.nanpercentile(nan_mat, perc, axis=axis, + keepdims=keepdim) + assert_equal(nan_val.shape, val.shape) + + val = np.percentile(large_mat, perc, axis=axis, + keepdims=keepdim) + nan_val = np.nanpercentile(large_mat, perc, axis=axis, + keepdims=keepdim) + assert_equal(nan_val, val) + + megamat = np.ones((3, 4, 5, 6)) + assert_equal(np.nanpercentile(megamat, perc, axis=(1, 2)).shape, (2, 3, 6)) + + +class TestNanFunctions_Quantile: + # most of this is already tested by TestPercentile + + def test_regression(self): + ar = np.arange(24).reshape(2, 3, 4).astype(float) + ar[0][1] = np.nan + + assert_equal(np.nanquantile(ar, q=0.5), np.nanpercentile(ar, q=50)) + assert_equal(np.nanquantile(ar, q=0.5, axis=0), + np.nanpercentile(ar, q=50, axis=0)) + assert_equal(np.nanquantile(ar, q=0.5, axis=1), + np.nanpercentile(ar, q=50, axis=1)) + assert_equal(np.nanquantile(ar, q=[0.5], axis=1), + np.nanpercentile(ar, q=[50], axis=1)) + assert_equal(np.nanquantile(ar, q=[0.25, 0.5, 0.75], axis=1), + np.nanpercentile(ar, q=[25, 50, 75], axis=1)) + + def test_basic(self): + x = np.arange(8) * 0.5 + assert_equal(np.nanquantile(x, 0), 0.) + assert_equal(np.nanquantile(x, 1), 3.5) + assert_equal(np.nanquantile(x, 0.5), 1.75) + + def test_no_p_overwrite(self): + # this is worth retesting, because quantile does not make a copy + p0 = np.array([0, 0.75, 0.25, 0.5, 1.0]) + p = p0.copy() + np.nanquantile(np.arange(100.), p, method="midpoint") + assert_array_equal(p, p0) + + p0 = p0.tolist() + p = p.tolist() + np.nanquantile(np.arange(100.), p, method="midpoint") + assert_array_equal(p, p0) + + @pytest.mark.parametrize("axis", [None, 0, 1]) + @pytest.mark.parametrize("dtype", np.typecodes["AllFloat"]) + @pytest.mark.parametrize("array", [ + np.array(np.nan), + np.full((3, 3), np.nan), + ], ids=["0d", "2d"]) + def test_allnans(self, axis, dtype, array): + if axis is not None and array.ndim == 0: + pytest.skip(f"`axis != None` not supported for 0d arrays") + + array = array.astype(dtype) + with pytest.warns(RuntimeWarning, match="All-NaN slice encountered"): + out = np.nanquantile(array, 1, axis=axis) + assert np.isnan(out).all() + assert out.dtype == array.dtype + +@pytest.mark.parametrize("arr, expected", [ + # array of floats with some nans + (np.array([np.nan, 5.0, np.nan, np.inf]), + np.array([False, True, False, True])), + # int64 array that can't possibly have nans + (np.array([1, 5, 7, 9], dtype=np.int64), + True), + # bool array that can't possibly have nans + (np.array([False, True, False, True]), + True), + # 2-D complex array with nans + (np.array([[np.nan, 5.0], + [np.nan, np.inf]], dtype=np.complex64), + np.array([[False, True], + [False, True]])), + ]) +def test__nan_mask(arr, expected): + for out in [None, np.empty(arr.shape, dtype=np.bool_)]: + actual = _nan_mask(arr, out=out) + assert_equal(actual, expected) + # the above won't distinguish between True proper + # and an array of True values; we want True proper + # for types that can't possibly contain NaN + if type(expected) is not np.ndarray: + assert actual is True + + +def test__replace_nan(): + """ Test that _replace_nan returns the original array if there are no + NaNs, not a copy. + """ + for dtype in [np.bool_, np.int32, np.int64]: + arr = np.array([0, 1], dtype=dtype) + result, mask = _replace_nan(arr, 0) + assert mask is None + # do not make a copy if there are no nans + assert result is arr + + for dtype in [np.float32, np.float64]: + arr = np.array([0, 1], dtype=dtype) + result, mask = _replace_nan(arr, 2) + assert (mask == False).all() + # mask is not None, so we make a copy + assert result is not arr + assert_equal(result, arr) + + arr_nan = np.array([0, 1, np.nan], dtype=dtype) + result_nan, mask_nan = _replace_nan(arr_nan, 2) + assert_equal(mask_nan, np.array([False, False, True])) + assert result_nan is not arr_nan + assert_equal(result_nan, np.array([0, 1, 2])) + assert np.isnan(arr_nan[-1]) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_packbits.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_packbits.py new file mode 100644 index 0000000000000000000000000000000000000000..5b07f41c62609255951edcbc56bc818137497e0e --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_packbits.py @@ -0,0 +1,376 @@ +import numpy as np +from numpy.testing import assert_array_equal, assert_equal, assert_raises +import pytest +from itertools import chain + +def test_packbits(): + # Copied from the docstring. + a = [[[1, 0, 1], [0, 1, 0]], + [[1, 1, 0], [0, 0, 1]]] + for dt in '?bBhHiIlLqQ': + arr = np.array(a, dtype=dt) + b = np.packbits(arr, axis=-1) + assert_equal(b.dtype, np.uint8) + assert_array_equal(b, np.array([[[160], [64]], [[192], [32]]])) + + assert_raises(TypeError, np.packbits, np.array(a, dtype=float)) + + +def test_packbits_empty(): + shapes = [ + (0,), (10, 20, 0), (10, 0, 20), (0, 10, 20), (20, 0, 0), (0, 20, 0), + (0, 0, 20), (0, 0, 0), + ] + for dt in '?bBhHiIlLqQ': + for shape in shapes: + a = np.empty(shape, dtype=dt) + b = np.packbits(a) + assert_equal(b.dtype, np.uint8) + assert_equal(b.shape, (0,)) + + +def test_packbits_empty_with_axis(): + # Original shapes and lists of packed shapes for different axes. + shapes = [ + ((0,), [(0,)]), + ((10, 20, 0), [(2, 20, 0), (10, 3, 0), (10, 20, 0)]), + ((10, 0, 20), [(2, 0, 20), (10, 0, 20), (10, 0, 3)]), + ((0, 10, 20), [(0, 10, 20), (0, 2, 20), (0, 10, 3)]), + ((20, 0, 0), [(3, 0, 0), (20, 0, 0), (20, 0, 0)]), + ((0, 20, 0), [(0, 20, 0), (0, 3, 0), (0, 20, 0)]), + ((0, 0, 20), [(0, 0, 20), (0, 0, 20), (0, 0, 3)]), + ((0, 0, 0), [(0, 0, 0), (0, 0, 0), (0, 0, 0)]), + ] + for dt in '?bBhHiIlLqQ': + for in_shape, out_shapes in shapes: + for ax, out_shape in enumerate(out_shapes): + a = np.empty(in_shape, dtype=dt) + b = np.packbits(a, axis=ax) + assert_equal(b.dtype, np.uint8) + assert_equal(b.shape, out_shape) + +@pytest.mark.parametrize('bitorder', ('little', 'big')) +def test_packbits_large(bitorder): + # test data large enough for 16 byte vectorization + a = np.array([1, 1, 0, 1, 1, 1, 0, 0, 0, 0, 1, 1, 1, 0, 0, 1, 1, 1, 0, 0, + 0, 0, 0, 1, 0, 1, 1, 1, 0, 0, 0, 0, 0, 1, 0, 0, 0, 1, 1, 1, + 1, 1, 0, 1, 0, 1, 1, 0, 0, 0, 1, 1, 1, 1, 0, 0, 0, 1, 0, 0, + 1, 1, 0, 0, 0, 1, 0, 1, 1, 0, 0, 0, 1, 0, 0, 1, 1, 1, 1, 1, + 1, 0, 1, 0, 1, 0, 0, 1, 0, 1, 1, 0, 1, 0, 1, 1, 0, 1, 0, 1, + 1, 0, 1, 0, 1, 0, 1, 1, 0, 0, 0, 0, 1, 0, 1, 0, 0, 0, 1, 1, + 1, 0, 0, 0, 1, 0, 1, 0, 1, 1, 0, 1, 0, 0, 1, 0, 1, 1, 1, 1, + 0, 1, 1, 0, 0, 0, 1, 1, 0, 0, 1, 0, 1, 0, 0, 1, 0, 0, 1, 1, + 1, 1, 1, 1, 1, 1, 0, 1, 1, 0, 0, 0, 1, 0, 0, 0, 0, 1, 1, 0, + 1, 1, 0, 0, 0, 0, 1, 1, 1, 1, 0, 1, 0, 0, 0, 0, 0, 1, 1, 1, + 1, 0, 0, 0, 0, 1, 1, 1, 1, 1, 0, 1, 1, 0, 1, 1, 0, 0, 0, 0, + 0, 1, 0, 0, 1, 1, 0, 0, 1, 0, 1, 1, 0, 0, 0, 0, 1, 1, 0, 1, + 1, 1, 0, 1, 0, 1, 1, 1, 0, 0, 1, 0, 0, 0, 1, 0, 1, 1, 0, 0, + 1, 0, 0, 1, 0, 0, 0, 1, 0, 1, 1, 1, 1, 1, 1, 0, 1, 0, 1, 0, + 1, 0, 1, 0, 0, 1, 1, 0, 1, 0, 1, 0, 0, 1, 0, 1, 0, 1, 1, 0]) + a = a.repeat(3) + for dtype in '?bBhHiIlLqQ': + arr = np.array(a, dtype=dtype) + b = np.packbits(arr, axis=None, bitorder=bitorder) + assert_equal(b.dtype, np.uint8) + r = [252, 127, 192, 3, 254, 7, 252, 0, 7, 31, 240, 0, 28, 1, 255, 252, + 113, 248, 3, 255, 192, 28, 15, 192, 28, 126, 0, 224, 127, 255, + 227, 142, 7, 31, 142, 63, 28, 126, 56, 227, 240, 0, 227, 128, 63, + 224, 14, 56, 252, 112, 56, 255, 241, 248, 3, 240, 56, 224, 112, + 63, 255, 255, 199, 224, 14, 0, 31, 143, 192, 3, 255, 199, 0, 1, + 255, 224, 1, 255, 252, 126, 63, 0, 1, 192, 252, 14, 63, 0, 15, + 199, 252, 113, 255, 3, 128, 56, 252, 14, 7, 0, 113, 255, 255, 142, 56, 227, + 129, 248, 227, 129, 199, 31, 128] + if bitorder == 'big': + assert_array_equal(b, r) + # equal for size being multiple of 8 + assert_array_equal(np.unpackbits(b, bitorder=bitorder)[:-4], a) + + # check last byte of different remainders (16 byte vectorization) + b = [np.packbits(arr[:-i], axis=None)[-1] for i in range(1, 16)] + assert_array_equal(b, [128, 128, 128, 31, 30, 28, 24, 16, 0, 0, 0, 199, + 198, 196, 192]) + + + arr = arr.reshape(36, 25) + b = np.packbits(arr, axis=0) + assert_equal(b.dtype, np.uint8) + assert_array_equal(b, [[190, 186, 178, 178, 150, 215, 87, 83, 83, 195, + 199, 206, 204, 204, 140, 140, 136, 136, 8, 40, 105, + 107, 75, 74, 88], + [72, 216, 248, 241, 227, 195, 202, 90, 90, 83, + 83, 119, 127, 109, 73, 64, 208, 244, 189, 45, + 41, 104, 122, 90, 18], + [113, 120, 248, 216, 152, 24, 60, 52, 182, 150, + 150, 150, 146, 210, 210, 246, 255, 255, 223, + 151, 21, 17, 17, 131, 163], + [214, 210, 210, 64, 68, 5, 5, 1, 72, 88, 92, + 92, 78, 110, 39, 181, 149, 220, 222, 218, 218, + 202, 234, 170, 168], + [0, 128, 128, 192, 80, 112, 48, 160, 160, 224, + 240, 208, 144, 128, 160, 224, 240, 208, 144, + 144, 176, 240, 224, 192, 128]]) + + b = np.packbits(arr, axis=1) + assert_equal(b.dtype, np.uint8) + assert_array_equal(b, [[252, 127, 192, 0], + [ 7, 252, 15, 128], + [240, 0, 28, 0], + [255, 128, 0, 128], + [192, 31, 255, 128], + [142, 63, 0, 0], + [255, 240, 7, 0], + [ 7, 224, 14, 0], + [126, 0, 224, 0], + [255, 255, 199, 0], + [ 56, 28, 126, 0], + [113, 248, 227, 128], + [227, 142, 63, 0], + [ 0, 28, 112, 0], + [ 15, 248, 3, 128], + [ 28, 126, 56, 0], + [ 56, 255, 241, 128], + [240, 7, 224, 0], + [227, 129, 192, 128], + [255, 255, 254, 0], + [126, 0, 224, 0], + [ 3, 241, 248, 0], + [ 0, 255, 241, 128], + [128, 0, 255, 128], + [224, 1, 255, 128], + [248, 252, 126, 0], + [ 0, 7, 3, 128], + [224, 113, 248, 0], + [ 0, 252, 127, 128], + [142, 63, 224, 0], + [224, 14, 63, 0], + [ 7, 3, 128, 0], + [113, 255, 255, 128], + [ 28, 113, 199, 0], + [ 7, 227, 142, 0], + [ 14, 56, 252, 0]]) + + arr = arr.T.copy() + b = np.packbits(arr, axis=0) + assert_equal(b.dtype, np.uint8) + assert_array_equal(b, [[252, 7, 240, 255, 192, 142, 255, 7, 126, 255, + 56, 113, 227, 0, 15, 28, 56, 240, 227, 255, + 126, 3, 0, 128, 224, 248, 0, 224, 0, 142, 224, + 7, 113, 28, 7, 14], + [127, 252, 0, 128, 31, 63, 240, 224, 0, 255, + 28, 248, 142, 28, 248, 126, 255, 7, 129, 255, + 0, 241, 255, 0, 1, 252, 7, 113, 252, 63, 14, + 3, 255, 113, 227, 56], + [192, 15, 28, 0, 255, 0, 7, 14, 224, 199, 126, + 227, 63, 112, 3, 56, 241, 224, 192, 254, 224, + 248, 241, 255, 255, 126, 3, 248, 127, 224, 63, + 128, 255, 199, 142, 252], + [0, 128, 0, 128, 128, 0, 0, 0, 0, 0, 0, 128, 0, + 0, 128, 0, 128, 0, 128, 0, 0, 0, 128, 128, + 128, 0, 128, 0, 128, 0, 0, 0, 128, 0, 0, 0]]) + + b = np.packbits(arr, axis=1) + assert_equal(b.dtype, np.uint8) + assert_array_equal(b, [[190, 72, 113, 214, 0], + [186, 216, 120, 210, 128], + [178, 248, 248, 210, 128], + [178, 241, 216, 64, 192], + [150, 227, 152, 68, 80], + [215, 195, 24, 5, 112], + [ 87, 202, 60, 5, 48], + [ 83, 90, 52, 1, 160], + [ 83, 90, 182, 72, 160], + [195, 83, 150, 88, 224], + [199, 83, 150, 92, 240], + [206, 119, 150, 92, 208], + [204, 127, 146, 78, 144], + [204, 109, 210, 110, 128], + [140, 73, 210, 39, 160], + [140, 64, 246, 181, 224], + [136, 208, 255, 149, 240], + [136, 244, 255, 220, 208], + [ 8, 189, 223, 222, 144], + [ 40, 45, 151, 218, 144], + [105, 41, 21, 218, 176], + [107, 104, 17, 202, 240], + [ 75, 122, 17, 234, 224], + [ 74, 90, 131, 170, 192], + [ 88, 18, 163, 168, 128]]) + + + # result is the same if input is multiplied with a nonzero value + for dtype in 'bBhHiIlLqQ': + arr = np.array(a, dtype=dtype) + rnd = np.random.randint(low=np.iinfo(dtype).min, + high=np.iinfo(dtype).max, size=arr.size, + dtype=dtype) + rnd[rnd == 0] = 1 + arr *= rnd.astype(dtype) + b = np.packbits(arr, axis=-1) + assert_array_equal(np.unpackbits(b)[:-4], a) + + assert_raises(TypeError, np.packbits, np.array(a, dtype=float)) + + +def test_packbits_very_large(): + # test some with a larger arrays gh-8637 + # code is covered earlier but larger array makes crash on bug more likely + for s in range(950, 1050): + for dt in '?bBhHiIlLqQ': + x = np.ones((200, s), dtype=bool) + np.packbits(x, axis=1) + + +def test_unpackbits(): + # Copied from the docstring. + a = np.array([[2], [7], [23]], dtype=np.uint8) + b = np.unpackbits(a, axis=1) + assert_equal(b.dtype, np.uint8) + assert_array_equal(b, np.array([[0, 0, 0, 0, 0, 0, 1, 0], + [0, 0, 0, 0, 0, 1, 1, 1], + [0, 0, 0, 1, 0, 1, 1, 1]])) + +def test_pack_unpack_order(): + a = np.array([[2], [7], [23]], dtype=np.uint8) + b = np.unpackbits(a, axis=1) + assert_equal(b.dtype, np.uint8) + b_little = np.unpackbits(a, axis=1, bitorder='little') + b_big = np.unpackbits(a, axis=1, bitorder='big') + assert_array_equal(b, b_big) + assert_array_equal(a, np.packbits(b_little, axis=1, bitorder='little')) + assert_array_equal(b[:,::-1], b_little) + assert_array_equal(a, np.packbits(b_big, axis=1, bitorder='big')) + assert_raises(ValueError, np.unpackbits, a, bitorder='r') + assert_raises(TypeError, np.unpackbits, a, bitorder=10) + + + +def test_unpackbits_empty(): + a = np.empty((0,), dtype=np.uint8) + b = np.unpackbits(a) + assert_equal(b.dtype, np.uint8) + assert_array_equal(b, np.empty((0,))) + + +def test_unpackbits_empty_with_axis(): + # Lists of packed shapes for different axes and unpacked shapes. + shapes = [ + ([(0,)], (0,)), + ([(2, 24, 0), (16, 3, 0), (16, 24, 0)], (16, 24, 0)), + ([(2, 0, 24), (16, 0, 24), (16, 0, 3)], (16, 0, 24)), + ([(0, 16, 24), (0, 2, 24), (0, 16, 3)], (0, 16, 24)), + ([(3, 0, 0), (24, 0, 0), (24, 0, 0)], (24, 0, 0)), + ([(0, 24, 0), (0, 3, 0), (0, 24, 0)], (0, 24, 0)), + ([(0, 0, 24), (0, 0, 24), (0, 0, 3)], (0, 0, 24)), + ([(0, 0, 0), (0, 0, 0), (0, 0, 0)], (0, 0, 0)), + ] + for in_shapes, out_shape in shapes: + for ax, in_shape in enumerate(in_shapes): + a = np.empty(in_shape, dtype=np.uint8) + b = np.unpackbits(a, axis=ax) + assert_equal(b.dtype, np.uint8) + assert_equal(b.shape, out_shape) + + +def test_unpackbits_large(): + # test all possible numbers via comparison to already tested packbits + d = np.arange(277, dtype=np.uint8) + assert_array_equal(np.packbits(np.unpackbits(d)), d) + assert_array_equal(np.packbits(np.unpackbits(d[::2])), d[::2]) + d = np.tile(d, (3, 1)) + assert_array_equal(np.packbits(np.unpackbits(d, axis=1), axis=1), d) + d = d.T.copy() + assert_array_equal(np.packbits(np.unpackbits(d, axis=0), axis=0), d) + + +class TestCount(): + x = np.array([ + [1, 0, 1, 0, 0, 1, 0], + [0, 1, 1, 1, 0, 0, 0], + [0, 0, 1, 0, 0, 1, 1], + [1, 1, 0, 0, 0, 1, 1], + [1, 0, 1, 0, 1, 0, 1], + [0, 0, 1, 1, 1, 0, 0], + [0, 1, 0, 1, 0, 1, 0], + ], dtype=np.uint8) + padded1 = np.zeros(57, dtype=np.uint8) + padded1[:49] = x.ravel() + padded1b = np.zeros(57, dtype=np.uint8) + padded1b[:49] = x[::-1].copy().ravel() + padded2 = np.zeros((9, 9), dtype=np.uint8) + padded2[:7, :7] = x + + @pytest.mark.parametrize('bitorder', ('little', 'big')) + @pytest.mark.parametrize('count', chain(range(58), range(-1, -57, -1))) + def test_roundtrip(self, bitorder, count): + if count < 0: + # one extra zero of padding + cutoff = count - 1 + else: + cutoff = count + # test complete invertibility of packbits and unpackbits with count + packed = np.packbits(self.x, bitorder=bitorder) + unpacked = np.unpackbits(packed, count=count, bitorder=bitorder) + assert_equal(unpacked.dtype, np.uint8) + assert_array_equal(unpacked, self.padded1[:cutoff]) + + @pytest.mark.parametrize('kwargs', [ + {}, {'count': None}, + ]) + def test_count(self, kwargs): + packed = np.packbits(self.x) + unpacked = np.unpackbits(packed, **kwargs) + assert_equal(unpacked.dtype, np.uint8) + assert_array_equal(unpacked, self.padded1[:-1]) + + @pytest.mark.parametrize('bitorder', ('little', 'big')) + # delta==-1 when count<0 because one extra zero of padding + @pytest.mark.parametrize('count', chain(range(8), range(-1, -9, -1))) + def test_roundtrip_axis(self, bitorder, count): + if count < 0: + # one extra zero of padding + cutoff = count - 1 + else: + cutoff = count + packed0 = np.packbits(self.x, axis=0, bitorder=bitorder) + unpacked0 = np.unpackbits(packed0, axis=0, count=count, + bitorder=bitorder) + assert_equal(unpacked0.dtype, np.uint8) + assert_array_equal(unpacked0, self.padded2[:cutoff, :self.x.shape[1]]) + + packed1 = np.packbits(self.x, axis=1, bitorder=bitorder) + unpacked1 = np.unpackbits(packed1, axis=1, count=count, + bitorder=bitorder) + assert_equal(unpacked1.dtype, np.uint8) + assert_array_equal(unpacked1, self.padded2[:self.x.shape[0], :cutoff]) + + @pytest.mark.parametrize('kwargs', [ + {}, {'count': None}, + {'bitorder' : 'little'}, + {'bitorder': 'little', 'count': None}, + {'bitorder' : 'big'}, + {'bitorder': 'big', 'count': None}, + ]) + def test_axis_count(self, kwargs): + packed0 = np.packbits(self.x, axis=0) + unpacked0 = np.unpackbits(packed0, axis=0, **kwargs) + assert_equal(unpacked0.dtype, np.uint8) + if kwargs.get('bitorder', 'big') == 'big': + assert_array_equal(unpacked0, self.padded2[:-1, :self.x.shape[1]]) + else: + assert_array_equal(unpacked0[::-1, :], self.padded2[:-1, :self.x.shape[1]]) + + packed1 = np.packbits(self.x, axis=1) + unpacked1 = np.unpackbits(packed1, axis=1, **kwargs) + assert_equal(unpacked1.dtype, np.uint8) + if kwargs.get('bitorder', 'big') == 'big': + assert_array_equal(unpacked1, self.padded2[:self.x.shape[0], :-1]) + else: + assert_array_equal(unpacked1[:, ::-1], self.padded2[:self.x.shape[0], :-1]) + + def test_bad_count(self): + packed0 = np.packbits(self.x, axis=0) + assert_raises(ValueError, np.unpackbits, packed0, axis=0, count=-9) + packed1 = np.packbits(self.x, axis=1) + assert_raises(ValueError, np.unpackbits, packed1, axis=1, count=-9) + packed = np.packbits(self.x) + assert_raises(ValueError, np.unpackbits, packed, count=-57) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_recfunctions.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_recfunctions.py new file mode 100644 index 0000000000000000000000000000000000000000..0e022d82ff9130eeb962c077c2554916988b7373 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_recfunctions.py @@ -0,0 +1,978 @@ +import pytest + +import numpy as np +import numpy.ma as ma +from numpy.ma.mrecords import MaskedRecords +from numpy.ma.testutils import assert_equal +from numpy.testing import assert_, assert_raises +from numpy.lib.recfunctions import ( + drop_fields, rename_fields, get_fieldstructure, recursive_fill_fields, + find_duplicates, merge_arrays, append_fields, stack_arrays, join_by, + repack_fields, unstructured_to_structured, structured_to_unstructured, + apply_along_fields, require_fields, assign_fields_by_name) +get_fieldspec = np.lib.recfunctions._get_fieldspec +get_names = np.lib.recfunctions.get_names +get_names_flat = np.lib.recfunctions.get_names_flat +zip_descr = np.lib.recfunctions._zip_descr +zip_dtype = np.lib.recfunctions._zip_dtype + + +class TestRecFunctions: + # Misc tests + + def setup_method(self): + x = np.array([1, 2, ]) + y = np.array([10, 20, 30]) + z = np.array([('A', 1.), ('B', 2.)], + dtype=[('A', '|S3'), ('B', float)]) + w = np.array([(1, (2, 3.0)), (4, (5, 6.0))], + dtype=[('a', int), ('b', [('ba', float), ('bb', int)])]) + self.data = (w, x, y, z) + + def test_zip_descr(self): + # Test zip_descr + (w, x, y, z) = self.data + + # Std array + test = zip_descr((x, x), flatten=True) + assert_equal(test, + np.dtype([('', int), ('', int)])) + test = zip_descr((x, x), flatten=False) + assert_equal(test, + np.dtype([('', int), ('', int)])) + + # Std & flexible-dtype + test = zip_descr((x, z), flatten=True) + assert_equal(test, + np.dtype([('', int), ('A', '|S3'), ('B', float)])) + test = zip_descr((x, z), flatten=False) + assert_equal(test, + np.dtype([('', int), + ('', [('A', '|S3'), ('B', float)])])) + + # Standard & nested dtype + test = zip_descr((x, w), flatten=True) + assert_equal(test, + np.dtype([('', int), + ('a', int), + ('ba', float), ('bb', int)])) + test = zip_descr((x, w), flatten=False) + assert_equal(test, + np.dtype([('', int), + ('', [('a', int), + ('b', [('ba', float), ('bb', int)])])])) + + def test_drop_fields(self): + # Test drop_fields + a = np.array([(1, (2, 3.0)), (4, (5, 6.0))], + dtype=[('a', int), ('b', [('ba', float), ('bb', int)])]) + + # A basic field + test = drop_fields(a, 'a') + control = np.array([((2, 3.0),), ((5, 6.0),)], + dtype=[('b', [('ba', float), ('bb', int)])]) + assert_equal(test, control) + + # Another basic field (but nesting two fields) + test = drop_fields(a, 'b') + control = np.array([(1,), (4,)], dtype=[('a', int)]) + assert_equal(test, control) + + # A nested sub-field + test = drop_fields(a, ['ba', ]) + control = np.array([(1, (3.0,)), (4, (6.0,))], + dtype=[('a', int), ('b', [('bb', int)])]) + assert_equal(test, control) + + # All the nested sub-field from a field: zap that field + test = drop_fields(a, ['ba', 'bb']) + control = np.array([(1,), (4,)], dtype=[('a', int)]) + assert_equal(test, control) + + # dropping all fields results in an array with no fields + test = drop_fields(a, ['a', 'b']) + control = np.array([(), ()], dtype=[]) + assert_equal(test, control) + + def test_rename_fields(self): + # Test rename fields + a = np.array([(1, (2, [3.0, 30.])), (4, (5, [6.0, 60.]))], + dtype=[('a', int), + ('b', [('ba', float), ('bb', (float, 2))])]) + test = rename_fields(a, {'a': 'A', 'bb': 'BB'}) + newdtype = [('A', int), ('b', [('ba', float), ('BB', (float, 2))])] + control = a.view(newdtype) + assert_equal(test.dtype, newdtype) + assert_equal(test, control) + + def test_get_names(self): + # Test get_names + ndtype = np.dtype([('A', '|S3'), ('B', float)]) + test = get_names(ndtype) + assert_equal(test, ('A', 'B')) + + ndtype = np.dtype([('a', int), ('b', [('ba', float), ('bb', int)])]) + test = get_names(ndtype) + assert_equal(test, ('a', ('b', ('ba', 'bb')))) + + ndtype = np.dtype([('a', int), ('b', [])]) + test = get_names(ndtype) + assert_equal(test, ('a', ('b', ()))) + + ndtype = np.dtype([]) + test = get_names(ndtype) + assert_equal(test, ()) + + def test_get_names_flat(self): + # Test get_names_flat + ndtype = np.dtype([('A', '|S3'), ('B', float)]) + test = get_names_flat(ndtype) + assert_equal(test, ('A', 'B')) + + ndtype = np.dtype([('a', int), ('b', [('ba', float), ('bb', int)])]) + test = get_names_flat(ndtype) + assert_equal(test, ('a', 'b', 'ba', 'bb')) + + ndtype = np.dtype([('a', int), ('b', [])]) + test = get_names_flat(ndtype) + assert_equal(test, ('a', 'b')) + + ndtype = np.dtype([]) + test = get_names_flat(ndtype) + assert_equal(test, ()) + + def test_get_fieldstructure(self): + # Test get_fieldstructure + + # No nested fields + ndtype = np.dtype([('A', '|S3'), ('B', float)]) + test = get_fieldstructure(ndtype) + assert_equal(test, {'A': [], 'B': []}) + + # One 1-nested field + ndtype = np.dtype([('A', int), ('B', [('BA', float), ('BB', '|S1')])]) + test = get_fieldstructure(ndtype) + assert_equal(test, {'A': [], 'B': [], 'BA': ['B', ], 'BB': ['B']}) + + # One 2-nested fields + ndtype = np.dtype([('A', int), + ('B', [('BA', int), + ('BB', [('BBA', int), ('BBB', int)])])]) + test = get_fieldstructure(ndtype) + control = {'A': [], 'B': [], 'BA': ['B'], 'BB': ['B'], + 'BBA': ['B', 'BB'], 'BBB': ['B', 'BB']} + assert_equal(test, control) + + # 0 fields + ndtype = np.dtype([]) + test = get_fieldstructure(ndtype) + assert_equal(test, {}) + + def test_find_duplicates(self): + # Test find_duplicates + a = ma.array([(2, (2., 'B')), (1, (2., 'B')), (2, (2., 'B')), + (1, (1., 'B')), (2, (2., 'B')), (2, (2., 'C'))], + mask=[(0, (0, 0)), (0, (0, 0)), (0, (0, 0)), + (0, (0, 0)), (1, (0, 0)), (0, (1, 0))], + dtype=[('A', int), ('B', [('BA', float), ('BB', '|S1')])]) + + test = find_duplicates(a, ignoremask=False, return_index=True) + control = [0, 2] + assert_equal(sorted(test[-1]), control) + assert_equal(test[0], a[test[-1]]) + + test = find_duplicates(a, key='A', return_index=True) + control = [0, 1, 2, 3, 5] + assert_equal(sorted(test[-1]), control) + assert_equal(test[0], a[test[-1]]) + + test = find_duplicates(a, key='B', return_index=True) + control = [0, 1, 2, 4] + assert_equal(sorted(test[-1]), control) + assert_equal(test[0], a[test[-1]]) + + test = find_duplicates(a, key='BA', return_index=True) + control = [0, 1, 2, 4] + assert_equal(sorted(test[-1]), control) + assert_equal(test[0], a[test[-1]]) + + test = find_duplicates(a, key='BB', return_index=True) + control = [0, 1, 2, 3, 4] + assert_equal(sorted(test[-1]), control) + assert_equal(test[0], a[test[-1]]) + + def test_find_duplicates_ignoremask(self): + # Test the ignoremask option of find_duplicates + ndtype = [('a', int)] + a = ma.array([1, 1, 1, 2, 2, 3, 3], + mask=[0, 0, 1, 0, 0, 0, 1]).view(ndtype) + test = find_duplicates(a, ignoremask=True, return_index=True) + control = [0, 1, 3, 4] + assert_equal(sorted(test[-1]), control) + assert_equal(test[0], a[test[-1]]) + + test = find_duplicates(a, ignoremask=False, return_index=True) + control = [0, 1, 2, 3, 4, 6] + assert_equal(sorted(test[-1]), control) + assert_equal(test[0], a[test[-1]]) + + def test_repack_fields(self): + dt = np.dtype('u1,f4,i8', align=True) + a = np.zeros(2, dtype=dt) + + assert_equal(repack_fields(dt), np.dtype('u1,f4,i8')) + assert_equal(repack_fields(a).itemsize, 13) + assert_equal(repack_fields(repack_fields(dt), align=True), dt) + + # make sure type is preserved + dt = np.dtype((np.record, dt)) + assert_(repack_fields(dt).type is np.record) + + def test_structured_to_unstructured(self): + a = np.zeros(4, dtype=[('a', 'i4'), ('b', 'f4,u2'), ('c', 'f4', 2)]) + out = structured_to_unstructured(a) + assert_equal(out, np.zeros((4,5), dtype='f8')) + + b = np.array([(1, 2, 5), (4, 5, 7), (7, 8 ,11), (10, 11, 12)], + dtype=[('x', 'i4'), ('y', 'f4'), ('z', 'f8')]) + out = np.mean(structured_to_unstructured(b[['x', 'z']]), axis=-1) + assert_equal(out, np.array([ 3. , 5.5, 9. , 11. ])) + out = np.mean(structured_to_unstructured(b[['x']]), axis=-1) + assert_equal(out, np.array([ 1. , 4. , 7. , 10. ])) + + c = np.arange(20).reshape((4,5)) + out = unstructured_to_structured(c, a.dtype) + want = np.array([( 0, ( 1., 2), [ 3., 4.]), + ( 5, ( 6., 7), [ 8., 9.]), + (10, (11., 12), [13., 14.]), + (15, (16., 17), [18., 19.])], + dtype=[('a', 'i4'), + ('b', [('f0', 'f4'), ('f1', 'u2')]), + ('c', 'f4', (2,))]) + assert_equal(out, want) + + d = np.array([(1, 2, 5), (4, 5, 7), (7, 8 ,11), (10, 11, 12)], + dtype=[('x', 'i4'), ('y', 'f4'), ('z', 'f8')]) + assert_equal(apply_along_fields(np.mean, d), + np.array([ 8.0/3, 16.0/3, 26.0/3, 11. ])) + assert_equal(apply_along_fields(np.mean, d[['x', 'z']]), + np.array([ 3. , 5.5, 9. , 11. ])) + + # check that for uniform field dtypes we get a view, not a copy: + d = np.array([(1, 2, 5), (4, 5, 7), (7, 8 ,11), (10, 11, 12)], + dtype=[('x', 'i4'), ('y', 'i4'), ('z', 'i4')]) + dd = structured_to_unstructured(d) + ddd = unstructured_to_structured(dd, d.dtype) + assert_(dd.base is d) + assert_(ddd.base is d) + + # including uniform fields with subarrays unpacked + d = np.array([(1, [2, 3], [[ 4, 5], [ 6, 7]]), + (8, [9, 10], [[11, 12], [13, 14]])], + dtype=[('x0', 'i4'), ('x1', ('i4', 2)), + ('x2', ('i4', (2, 2)))]) + dd = structured_to_unstructured(d) + ddd = unstructured_to_structured(dd, d.dtype) + assert_(dd.base is d) + assert_(ddd.base is d) + + # test that nested fields with identical names don't break anything + point = np.dtype([('x', int), ('y', int)]) + triangle = np.dtype([('a', point), ('b', point), ('c', point)]) + arr = np.zeros(10, triangle) + res = structured_to_unstructured(arr, dtype=int) + assert_equal(res, np.zeros((10, 6), dtype=int)) + + + # test nested combinations of subarrays and structured arrays, gh-13333 + def subarray(dt, shape): + return np.dtype((dt, shape)) + + def structured(*dts): + return np.dtype([('x{}'.format(i), dt) for i, dt in enumerate(dts)]) + + def inspect(dt, dtype=None): + arr = np.zeros((), dt) + ret = structured_to_unstructured(arr, dtype=dtype) + backarr = unstructured_to_structured(ret, dt) + return ret.shape, ret.dtype, backarr.dtype + + dt = structured(subarray(structured(np.int32, np.int32), 3)) + assert_equal(inspect(dt), ((6,), np.int32, dt)) + + dt = structured(subarray(subarray(np.int32, 2), 2)) + assert_equal(inspect(dt), ((4,), np.int32, dt)) + + dt = structured(np.int32) + assert_equal(inspect(dt), ((1,), np.int32, dt)) + + dt = structured(np.int32, subarray(subarray(np.int32, 2), 2)) + assert_equal(inspect(dt), ((5,), np.int32, dt)) + + dt = structured() + assert_raises(ValueError, structured_to_unstructured, np.zeros(3, dt)) + + # these currently don't work, but we may make it work in the future + assert_raises(NotImplementedError, structured_to_unstructured, + np.zeros(3, dt), dtype=np.int32) + assert_raises(NotImplementedError, unstructured_to_structured, + np.zeros((3,0), dtype=np.int32)) + + def test_field_assignment_by_name(self): + a = np.ones(2, dtype=[('a', 'i4'), ('b', 'f8'), ('c', 'u1')]) + newdt = [('b', 'f4'), ('c', 'u1')] + + assert_equal(require_fields(a, newdt), np.ones(2, newdt)) + + b = np.array([(1,2), (3,4)], dtype=newdt) + assign_fields_by_name(a, b, zero_unassigned=False) + assert_equal(a, np.array([(1,1,2),(1,3,4)], dtype=a.dtype)) + assign_fields_by_name(a, b) + assert_equal(a, np.array([(0,1,2),(0,3,4)], dtype=a.dtype)) + + # test nested fields + a = np.ones(2, dtype=[('a', [('b', 'f8'), ('c', 'u1')])]) + newdt = [('a', [('c', 'u1')])] + assert_equal(require_fields(a, newdt), np.ones(2, newdt)) + b = np.array([((2,),), ((3,),)], dtype=newdt) + assign_fields_by_name(a, b, zero_unassigned=False) + assert_equal(a, np.array([((1,2),), ((1,3),)], dtype=a.dtype)) + assign_fields_by_name(a, b) + assert_equal(a, np.array([((0,2),), ((0,3),)], dtype=a.dtype)) + + # test unstructured code path for 0d arrays + a, b = np.array(3), np.array(0) + assign_fields_by_name(b, a) + assert_equal(b[()], 3) + + +class TestRecursiveFillFields: + # Test recursive_fill_fields. + def test_simple_flexible(self): + # Test recursive_fill_fields on flexible-array + a = np.array([(1, 10.), (2, 20.)], dtype=[('A', int), ('B', float)]) + b = np.zeros((3,), dtype=a.dtype) + test = recursive_fill_fields(a, b) + control = np.array([(1, 10.), (2, 20.), (0, 0.)], + dtype=[('A', int), ('B', float)]) + assert_equal(test, control) + + def test_masked_flexible(self): + # Test recursive_fill_fields on masked flexible-array + a = ma.array([(1, 10.), (2, 20.)], mask=[(0, 1), (1, 0)], + dtype=[('A', int), ('B', float)]) + b = ma.zeros((3,), dtype=a.dtype) + test = recursive_fill_fields(a, b) + control = ma.array([(1, 10.), (2, 20.), (0, 0.)], + mask=[(0, 1), (1, 0), (0, 0)], + dtype=[('A', int), ('B', float)]) + assert_equal(test, control) + + +class TestMergeArrays: + # Test merge_arrays + + def setup_method(self): + x = np.array([1, 2, ]) + y = np.array([10, 20, 30]) + z = np.array( + [('A', 1.), ('B', 2.)], dtype=[('A', '|S3'), ('B', float)]) + w = np.array( + [(1, (2, 3.0, ())), (4, (5, 6.0, ()))], + dtype=[('a', int), ('b', [('ba', float), ('bb', int), ('bc', [])])]) + self.data = (w, x, y, z) + + def test_solo(self): + # Test merge_arrays on a single array. + (_, x, _, z) = self.data + + test = merge_arrays(x) + control = np.array([(1,), (2,)], dtype=[('f0', int)]) + assert_equal(test, control) + test = merge_arrays((x,)) + assert_equal(test, control) + + test = merge_arrays(z, flatten=False) + assert_equal(test, z) + test = merge_arrays(z, flatten=True) + assert_equal(test, z) + + def test_solo_w_flatten(self): + # Test merge_arrays on a single array w & w/o flattening + w = self.data[0] + test = merge_arrays(w, flatten=False) + assert_equal(test, w) + + test = merge_arrays(w, flatten=True) + control = np.array([(1, 2, 3.0), (4, 5, 6.0)], + dtype=[('a', int), ('ba', float), ('bb', int)]) + assert_equal(test, control) + + def test_standard(self): + # Test standard & standard + # Test merge arrays + (_, x, y, _) = self.data + test = merge_arrays((x, y), usemask=False) + control = np.array([(1, 10), (2, 20), (-1, 30)], + dtype=[('f0', int), ('f1', int)]) + assert_equal(test, control) + + test = merge_arrays((x, y), usemask=True) + control = ma.array([(1, 10), (2, 20), (-1, 30)], + mask=[(0, 0), (0, 0), (1, 0)], + dtype=[('f0', int), ('f1', int)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + + def test_flatten(self): + # Test standard & flexible + (_, x, _, z) = self.data + test = merge_arrays((x, z), flatten=True) + control = np.array([(1, 'A', 1.), (2, 'B', 2.)], + dtype=[('f0', int), ('A', '|S3'), ('B', float)]) + assert_equal(test, control) + + test = merge_arrays((x, z), flatten=False) + control = np.array([(1, ('A', 1.)), (2, ('B', 2.))], + dtype=[('f0', int), + ('f1', [('A', '|S3'), ('B', float)])]) + assert_equal(test, control) + + def test_flatten_wflexible(self): + # Test flatten standard & nested + (w, x, _, _) = self.data + test = merge_arrays((x, w), flatten=True) + control = np.array([(1, 1, 2, 3.0), (2, 4, 5, 6.0)], + dtype=[('f0', int), + ('a', int), ('ba', float), ('bb', int)]) + assert_equal(test, control) + + test = merge_arrays((x, w), flatten=False) + controldtype = [('f0', int), + ('f1', [('a', int), + ('b', [('ba', float), ('bb', int), ('bc', [])])])] + control = np.array([(1., (1, (2, 3.0, ()))), (2, (4, (5, 6.0, ())))], + dtype=controldtype) + assert_equal(test, control) + + def test_wmasked_arrays(self): + # Test merge_arrays masked arrays + (_, x, _, _) = self.data + mx = ma.array([1, 2, 3], mask=[1, 0, 0]) + test = merge_arrays((x, mx), usemask=True) + control = ma.array([(1, 1), (2, 2), (-1, 3)], + mask=[(0, 1), (0, 0), (1, 0)], + dtype=[('f0', int), ('f1', int)]) + assert_equal(test, control) + test = merge_arrays((x, mx), usemask=True, asrecarray=True) + assert_equal(test, control) + assert_(isinstance(test, MaskedRecords)) + + def test_w_singlefield(self): + # Test single field + test = merge_arrays((np.array([1, 2]).view([('a', int)]), + np.array([10., 20., 30.])),) + control = ma.array([(1, 10.), (2, 20.), (-1, 30.)], + mask=[(0, 0), (0, 0), (1, 0)], + dtype=[('a', int), ('f1', float)]) + assert_equal(test, control) + + def test_w_shorter_flex(self): + # Test merge_arrays w/ a shorter flexndarray. + z = self.data[-1] + + # Fixme, this test looks incomplete and broken + #test = merge_arrays((z, np.array([10, 20, 30]).view([('C', int)]))) + #control = np.array([('A', 1., 10), ('B', 2., 20), ('-1', -1, 20)], + # dtype=[('A', '|S3'), ('B', float), ('C', int)]) + #assert_equal(test, control) + + # Hack to avoid pyflakes warnings about unused variables + merge_arrays((z, np.array([10, 20, 30]).view([('C', int)]))) + np.array([('A', 1., 10), ('B', 2., 20), ('-1', -1, 20)], + dtype=[('A', '|S3'), ('B', float), ('C', int)]) + + def test_singlerecord(self): + (_, x, y, z) = self.data + test = merge_arrays((x[0], y[0], z[0]), usemask=False) + control = np.array([(1, 10, ('A', 1))], + dtype=[('f0', int), + ('f1', int), + ('f2', [('A', '|S3'), ('B', float)])]) + assert_equal(test, control) + + +class TestAppendFields: + # Test append_fields + + def setup_method(self): + x = np.array([1, 2, ]) + y = np.array([10, 20, 30]) + z = np.array( + [('A', 1.), ('B', 2.)], dtype=[('A', '|S3'), ('B', float)]) + w = np.array([(1, (2, 3.0)), (4, (5, 6.0))], + dtype=[('a', int), ('b', [('ba', float), ('bb', int)])]) + self.data = (w, x, y, z) + + def test_append_single(self): + # Test simple case + (_, x, _, _) = self.data + test = append_fields(x, 'A', data=[10, 20, 30]) + control = ma.array([(1, 10), (2, 20), (-1, 30)], + mask=[(0, 0), (0, 0), (1, 0)], + dtype=[('f0', int), ('A', int)],) + assert_equal(test, control) + + def test_append_double(self): + # Test simple case + (_, x, _, _) = self.data + test = append_fields(x, ('A', 'B'), data=[[10, 20, 30], [100, 200]]) + control = ma.array([(1, 10, 100), (2, 20, 200), (-1, 30, -1)], + mask=[(0, 0, 0), (0, 0, 0), (1, 0, 1)], + dtype=[('f0', int), ('A', int), ('B', int)],) + assert_equal(test, control) + + def test_append_on_flex(self): + # Test append_fields on flexible type arrays + z = self.data[-1] + test = append_fields(z, 'C', data=[10, 20, 30]) + control = ma.array([('A', 1., 10), ('B', 2., 20), (-1, -1., 30)], + mask=[(0, 0, 0), (0, 0, 0), (1, 1, 0)], + dtype=[('A', '|S3'), ('B', float), ('C', int)],) + assert_equal(test, control) + + def test_append_on_nested(self): + # Test append_fields on nested fields + w = self.data[0] + test = append_fields(w, 'C', data=[10, 20, 30]) + control = ma.array([(1, (2, 3.0), 10), + (4, (5, 6.0), 20), + (-1, (-1, -1.), 30)], + mask=[( + 0, (0, 0), 0), (0, (0, 0), 0), (1, (1, 1), 0)], + dtype=[('a', int), + ('b', [('ba', float), ('bb', int)]), + ('C', int)],) + assert_equal(test, control) + + +class TestStackArrays: + # Test stack_arrays + def setup_method(self): + x = np.array([1, 2, ]) + y = np.array([10, 20, 30]) + z = np.array( + [('A', 1.), ('B', 2.)], dtype=[('A', '|S3'), ('B', float)]) + w = np.array([(1, (2, 3.0)), (4, (5, 6.0))], + dtype=[('a', int), ('b', [('ba', float), ('bb', int)])]) + self.data = (w, x, y, z) + + def test_solo(self): + # Test stack_arrays on single arrays + (_, x, _, _) = self.data + test = stack_arrays((x,)) + assert_equal(test, x) + assert_(test is x) + + test = stack_arrays(x) + assert_equal(test, x) + assert_(test is x) + + def test_unnamed_fields(self): + # Tests combinations of arrays w/o named fields + (_, x, y, _) = self.data + + test = stack_arrays((x, x), usemask=False) + control = np.array([1, 2, 1, 2]) + assert_equal(test, control) + + test = stack_arrays((x, y), usemask=False) + control = np.array([1, 2, 10, 20, 30]) + assert_equal(test, control) + + test = stack_arrays((y, x), usemask=False) + control = np.array([10, 20, 30, 1, 2]) + assert_equal(test, control) + + def test_unnamed_and_named_fields(self): + # Test combination of arrays w/ & w/o named fields + (_, x, _, z) = self.data + + test = stack_arrays((x, z)) + control = ma.array([(1, -1, -1), (2, -1, -1), + (-1, 'A', 1), (-1, 'B', 2)], + mask=[(0, 1, 1), (0, 1, 1), + (1, 0, 0), (1, 0, 0)], + dtype=[('f0', int), ('A', '|S3'), ('B', float)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + + test = stack_arrays((z, x)) + control = ma.array([('A', 1, -1), ('B', 2, -1), + (-1, -1, 1), (-1, -1, 2), ], + mask=[(0, 0, 1), (0, 0, 1), + (1, 1, 0), (1, 1, 0)], + dtype=[('A', '|S3'), ('B', float), ('f2', int)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + + test = stack_arrays((z, z, x)) + control = ma.array([('A', 1, -1), ('B', 2, -1), + ('A', 1, -1), ('B', 2, -1), + (-1, -1, 1), (-1, -1, 2), ], + mask=[(0, 0, 1), (0, 0, 1), + (0, 0, 1), (0, 0, 1), + (1, 1, 0), (1, 1, 0)], + dtype=[('A', '|S3'), ('B', float), ('f2', int)]) + assert_equal(test, control) + + def test_matching_named_fields(self): + # Test combination of arrays w/ matching field names + (_, x, _, z) = self.data + zz = np.array([('a', 10., 100.), ('b', 20., 200.), ('c', 30., 300.)], + dtype=[('A', '|S3'), ('B', float), ('C', float)]) + test = stack_arrays((z, zz)) + control = ma.array([('A', 1, -1), ('B', 2, -1), + ( + 'a', 10., 100.), ('b', 20., 200.), ('c', 30., 300.)], + dtype=[('A', '|S3'), ('B', float), ('C', float)], + mask=[(0, 0, 1), (0, 0, 1), + (0, 0, 0), (0, 0, 0), (0, 0, 0)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + + test = stack_arrays((z, zz, x)) + ndtype = [('A', '|S3'), ('B', float), ('C', float), ('f3', int)] + control = ma.array([('A', 1, -1, -1), ('B', 2, -1, -1), + ('a', 10., 100., -1), ('b', 20., 200., -1), + ('c', 30., 300., -1), + (-1, -1, -1, 1), (-1, -1, -1, 2)], + dtype=ndtype, + mask=[(0, 0, 1, 1), (0, 0, 1, 1), + (0, 0, 0, 1), (0, 0, 0, 1), (0, 0, 0, 1), + (1, 1, 1, 0), (1, 1, 1, 0)]) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + + def test_defaults(self): + # Test defaults: no exception raised if keys of defaults are not fields. + (_, _, _, z) = self.data + zz = np.array([('a', 10., 100.), ('b', 20., 200.), ('c', 30., 300.)], + dtype=[('A', '|S3'), ('B', float), ('C', float)]) + defaults = {'A': '???', 'B': -999., 'C': -9999., 'D': -99999.} + test = stack_arrays((z, zz), defaults=defaults) + control = ma.array([('A', 1, -9999.), ('B', 2, -9999.), + ( + 'a', 10., 100.), ('b', 20., 200.), ('c', 30., 300.)], + dtype=[('A', '|S3'), ('B', float), ('C', float)], + mask=[(0, 0, 1), (0, 0, 1), + (0, 0, 0), (0, 0, 0), (0, 0, 0)]) + assert_equal(test, control) + assert_equal(test.data, control.data) + assert_equal(test.mask, control.mask) + + def test_autoconversion(self): + # Tests autoconversion + adtype = [('A', int), ('B', bool), ('C', float)] + a = ma.array([(1, 2, 3)], mask=[(0, 1, 0)], dtype=adtype) + bdtype = [('A', int), ('B', float), ('C', float)] + b = ma.array([(4, 5, 6)], dtype=bdtype) + control = ma.array([(1, 2, 3), (4, 5, 6)], mask=[(0, 1, 0), (0, 0, 0)], + dtype=bdtype) + test = stack_arrays((a, b), autoconvert=True) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + with assert_raises(TypeError): + stack_arrays((a, b), autoconvert=False) + + def test_checktitles(self): + # Test using titles in the field names + adtype = [(('a', 'A'), int), (('b', 'B'), bool), (('c', 'C'), float)] + a = ma.array([(1, 2, 3)], mask=[(0, 1, 0)], dtype=adtype) + bdtype = [(('a', 'A'), int), (('b', 'B'), bool), (('c', 'C'), float)] + b = ma.array([(4, 5, 6)], dtype=bdtype) + test = stack_arrays((a, b)) + control = ma.array([(1, 2, 3), (4, 5, 6)], mask=[(0, 1, 0), (0, 0, 0)], + dtype=bdtype) + assert_equal(test, control) + assert_equal(test.mask, control.mask) + + def test_subdtype(self): + z = np.array([ + ('A', 1), ('B', 2) + ], dtype=[('A', '|S3'), ('B', float, (1,))]) + zz = np.array([ + ('a', [10.], 100.), ('b', [20.], 200.), ('c', [30.], 300.) + ], dtype=[('A', '|S3'), ('B', float, (1,)), ('C', float)]) + + res = stack_arrays((z, zz)) + expected = ma.array( + data=[ + (b'A', [1.0], 0), + (b'B', [2.0], 0), + (b'a', [10.0], 100.0), + (b'b', [20.0], 200.0), + (b'c', [30.0], 300.0)], + mask=[ + (False, [False], True), + (False, [False], True), + (False, [False], False), + (False, [False], False), + (False, [False], False) + ], + dtype=zz.dtype + ) + assert_equal(res.dtype, expected.dtype) + assert_equal(res, expected) + assert_equal(res.mask, expected.mask) + + +class TestJoinBy: + def setup_method(self): + self.a = np.array(list(zip(np.arange(10), np.arange(50, 60), + np.arange(100, 110))), + dtype=[('a', int), ('b', int), ('c', int)]) + self.b = np.array(list(zip(np.arange(5, 15), np.arange(65, 75), + np.arange(100, 110))), + dtype=[('a', int), ('b', int), ('d', int)]) + + def test_inner_join(self): + # Basic test of join_by + a, b = self.a, self.b + + test = join_by('a', a, b, jointype='inner') + control = np.array([(5, 55, 65, 105, 100), (6, 56, 66, 106, 101), + (7, 57, 67, 107, 102), (8, 58, 68, 108, 103), + (9, 59, 69, 109, 104)], + dtype=[('a', int), ('b1', int), ('b2', int), + ('c', int), ('d', int)]) + assert_equal(test, control) + + def test_join(self): + a, b = self.a, self.b + + # Fixme, this test is broken + #test = join_by(('a', 'b'), a, b) + #control = np.array([(5, 55, 105, 100), (6, 56, 106, 101), + # (7, 57, 107, 102), (8, 58, 108, 103), + # (9, 59, 109, 104)], + # dtype=[('a', int), ('b', int), + # ('c', int), ('d', int)]) + #assert_equal(test, control) + + # Hack to avoid pyflakes unused variable warnings + join_by(('a', 'b'), a, b) + np.array([(5, 55, 105, 100), (6, 56, 106, 101), + (7, 57, 107, 102), (8, 58, 108, 103), + (9, 59, 109, 104)], + dtype=[('a', int), ('b', int), + ('c', int), ('d', int)]) + + def test_join_subdtype(self): + # tests the bug in https://stackoverflow.com/q/44769632/102441 + foo = np.array([(1,)], + dtype=[('key', int)]) + bar = np.array([(1, np.array([1,2,3]))], + dtype=[('key', int), ('value', 'uint16', 3)]) + res = join_by('key', foo, bar) + assert_equal(res, bar.view(ma.MaskedArray)) + + def test_outer_join(self): + a, b = self.a, self.b + + test = join_by(('a', 'b'), a, b, 'outer') + control = ma.array([(0, 50, 100, -1), (1, 51, 101, -1), + (2, 52, 102, -1), (3, 53, 103, -1), + (4, 54, 104, -1), (5, 55, 105, -1), + (5, 65, -1, 100), (6, 56, 106, -1), + (6, 66, -1, 101), (7, 57, 107, -1), + (7, 67, -1, 102), (8, 58, 108, -1), + (8, 68, -1, 103), (9, 59, 109, -1), + (9, 69, -1, 104), (10, 70, -1, 105), + (11, 71, -1, 106), (12, 72, -1, 107), + (13, 73, -1, 108), (14, 74, -1, 109)], + mask=[(0, 0, 0, 1), (0, 0, 0, 1), + (0, 0, 0, 1), (0, 0, 0, 1), + (0, 0, 0, 1), (0, 0, 0, 1), + (0, 0, 1, 0), (0, 0, 0, 1), + (0, 0, 1, 0), (0, 0, 0, 1), + (0, 0, 1, 0), (0, 0, 0, 1), + (0, 0, 1, 0), (0, 0, 0, 1), + (0, 0, 1, 0), (0, 0, 1, 0), + (0, 0, 1, 0), (0, 0, 1, 0), + (0, 0, 1, 0), (0, 0, 1, 0)], + dtype=[('a', int), ('b', int), + ('c', int), ('d', int)]) + assert_equal(test, control) + + def test_leftouter_join(self): + a, b = self.a, self.b + + test = join_by(('a', 'b'), a, b, 'leftouter') + control = ma.array([(0, 50, 100, -1), (1, 51, 101, -1), + (2, 52, 102, -1), (3, 53, 103, -1), + (4, 54, 104, -1), (5, 55, 105, -1), + (6, 56, 106, -1), (7, 57, 107, -1), + (8, 58, 108, -1), (9, 59, 109, -1)], + mask=[(0, 0, 0, 1), (0, 0, 0, 1), + (0, 0, 0, 1), (0, 0, 0, 1), + (0, 0, 0, 1), (0, 0, 0, 1), + (0, 0, 0, 1), (0, 0, 0, 1), + (0, 0, 0, 1), (0, 0, 0, 1)], + dtype=[('a', int), ('b', int), ('c', int), ('d', int)]) + assert_equal(test, control) + + def test_different_field_order(self): + # gh-8940 + a = np.zeros(3, dtype=[('a', 'i4'), ('b', 'f4'), ('c', 'u1')]) + b = np.ones(3, dtype=[('c', 'u1'), ('b', 'f4'), ('a', 'i4')]) + # this should not give a FutureWarning: + j = join_by(['c', 'b'], a, b, jointype='inner', usemask=False) + assert_equal(j.dtype.names, ['b', 'c', 'a1', 'a2']) + + def test_duplicate_keys(self): + a = np.zeros(3, dtype=[('a', 'i4'), ('b', 'f4'), ('c', 'u1')]) + b = np.ones(3, dtype=[('c', 'u1'), ('b', 'f4'), ('a', 'i4')]) + assert_raises(ValueError, join_by, ['a', 'b', 'b'], a, b) + + def test_same_name_different_dtypes_key(self): + a_dtype = np.dtype([('key', 'S5'), ('value', ' 1e10) and assert_all(np.isfinite(vals[2])) + assert_equal(type(vals), np.ndarray) + + # perform the same tests but with nan, posinf and neginf keywords + with np.errstate(divide='ignore', invalid='ignore'): + vals = nan_to_num(np.array((-1., 0, 1))/0., + nan=10, posinf=20, neginf=30) + assert_equal(vals, [30, 10, 20]) + assert_all(np.isfinite(vals[[0, 2]])) + assert_equal(type(vals), np.ndarray) + + # perform the same test but in-place + with np.errstate(divide='ignore', invalid='ignore'): + vals = np.array((-1., 0, 1))/0. + result = nan_to_num(vals, copy=False) + + assert_(result is vals) + assert_all(vals[0] < -1e10) and assert_all(np.isfinite(vals[0])) + assert_(vals[1] == 0) + assert_all(vals[2] > 1e10) and assert_all(np.isfinite(vals[2])) + assert_equal(type(vals), np.ndarray) + + # perform the same test but in-place + with np.errstate(divide='ignore', invalid='ignore'): + vals = np.array((-1., 0, 1))/0. + result = nan_to_num(vals, copy=False, nan=10, posinf=20, neginf=30) + + assert_(result is vals) + assert_equal(vals, [30, 10, 20]) + assert_all(np.isfinite(vals[[0, 2]])) + assert_equal(type(vals), np.ndarray) + + def test_array(self): + vals = nan_to_num([1]) + assert_array_equal(vals, np.array([1], int)) + assert_equal(type(vals), np.ndarray) + vals = nan_to_num([1], nan=10, posinf=20, neginf=30) + assert_array_equal(vals, np.array([1], int)) + assert_equal(type(vals), np.ndarray) + + def test_integer(self): + vals = nan_to_num(1) + assert_all(vals == 1) + assert_equal(type(vals), np.int_) + vals = nan_to_num(1, nan=10, posinf=20, neginf=30) + assert_all(vals == 1) + assert_equal(type(vals), np.int_) + + def test_float(self): + vals = nan_to_num(1.0) + assert_all(vals == 1.0) + assert_equal(type(vals), np.float_) + vals = nan_to_num(1.1, nan=10, posinf=20, neginf=30) + assert_all(vals == 1.1) + assert_equal(type(vals), np.float_) + + def test_complex_good(self): + vals = nan_to_num(1+1j) + assert_all(vals == 1+1j) + assert_equal(type(vals), np.complex_) + vals = nan_to_num(1+1j, nan=10, posinf=20, neginf=30) + assert_all(vals == 1+1j) + assert_equal(type(vals), np.complex_) + + def test_complex_bad(self): + with np.errstate(divide='ignore', invalid='ignore'): + v = 1 + 1j + v += np.array(0+1.j)/0. + vals = nan_to_num(v) + # !! This is actually (unexpectedly) zero + assert_all(np.isfinite(vals)) + assert_equal(type(vals), np.complex_) + + def test_complex_bad2(self): + with np.errstate(divide='ignore', invalid='ignore'): + v = 1 + 1j + v += np.array(-1+1.j)/0. + vals = nan_to_num(v) + assert_all(np.isfinite(vals)) + assert_equal(type(vals), np.complex_) + # Fixme + #assert_all(vals.imag > 1e10) and assert_all(np.isfinite(vals)) + # !! This is actually (unexpectedly) positive + # !! inf. Comment out for now, and see if it + # !! changes + #assert_all(vals.real < -1e10) and assert_all(np.isfinite(vals)) + + def test_do_not_rewrite_previous_keyword(self): + # This is done to test that when, for instance, nan=np.inf then these + # values are not rewritten by posinf keyword to the posinf value. + with np.errstate(divide='ignore', invalid='ignore'): + vals = nan_to_num(np.array((-1., 0, 1))/0., nan=np.inf, posinf=999) + assert_all(np.isfinite(vals[[0, 2]])) + assert_all(vals[0] < -1e10) + assert_equal(vals[[1, 2]], [np.inf, 999]) + assert_equal(type(vals), np.ndarray) + + +class TestRealIfClose: + + def test_basic(self): + a = np.random.rand(10) + b = real_if_close(a+1e-15j) + assert_all(isrealobj(b)) + assert_array_equal(a, b) + b = real_if_close(a+1e-7j) + assert_all(iscomplexobj(b)) + b = real_if_close(a+1e-7j, tol=1e-6) + assert_all(isrealobj(b)) + + +class TestArrayConversion: + + def test_asfarray(self): + a = asfarray(np.array([1, 2, 3])) + assert_equal(a.__class__, np.ndarray) + assert_(np.issubdtype(a.dtype, np.floating)) + + # previously this would infer dtypes from arrays, unlike every single + # other numpy function + assert_raises(TypeError, + asfarray, np.array([1, 2, 3]), dtype=np.array(1.0)) diff --git a/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_utils.py b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_utils.py new file mode 100644 index 0000000000000000000000000000000000000000..72c91836ff2b4493dc7c98bcfacc6cbc75e7e293 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/lib/tests/test_utils.py @@ -0,0 +1,174 @@ +import inspect +import sys +import pytest + +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_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) diff --git a/wemm/lib/python3.10/site-packages/numpy/ma/__pycache__/core.cpython-310.pyc b/wemm/lib/python3.10/site-packages/numpy/ma/__pycache__/core.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..f803a9c040a6c65481e63b058ae7d1a4e5916ab4 --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/ma/__pycache__/core.cpython-310.pyc @@ -0,0 +1,3 @@ +version https://git-lfs.github.com/spec/v1 +oid sha256:d33bd56dc7dc0d84604fb329ed67784365a114356a085f6586b4dbb75ac8d405 +size 217149 diff --git a/wemm/lib/python3.10/site-packages/numpy/polynomial/hermite.pyi b/wemm/lib/python3.10/site-packages/numpy/polynomial/hermite.pyi new file mode 100644 index 0000000000000000000000000000000000000000..0d3556d696410689b4614138ad4cf1f6c2283a9c --- /dev/null +++ b/wemm/lib/python3.10/site-packages/numpy/polynomial/hermite.pyi @@ -0,0 +1,46 @@ +from typing import Any + +from numpy import ndarray, dtype, int_, float_ +from numpy.polynomial._polybase import ABCPolyBase +from numpy.polynomial.polyutils import trimcoef + +__all__: list[str] + +hermtrim = trimcoef + +def poly2herm(pol): ... +def herm2poly(c): ... + +hermdomain: ndarray[Any, dtype[int_]] +hermzero: ndarray[Any, dtype[int_]] +hermone: ndarray[Any, dtype[int_]] +hermx: ndarray[Any, dtype[float_]] + +def hermline(off, scl): ... +def hermfromroots(roots): ... +def hermadd(c1, c2): ... +def hermsub(c1, c2): ... +def hermmulx(c): ... +def hermmul(c1, c2): ... +def hermdiv(c1, c2): ... +def hermpow(c, pow, maxpower=...): ... +def hermder(c, m=..., scl=..., axis=...): ... +def hermint(c, m=..., k = ..., lbnd=..., scl=..., axis=...): ... +def hermval(x, c, tensor=...): ... +def hermval2d(x, y, c): ... +def hermgrid2d(x, y, c): ... +def hermval3d(x, y, z, c): ... +def hermgrid3d(x, y, z, c): ... +def hermvander(x, deg): ... +def hermvander2d(x, y, deg): ... +def hermvander3d(x, y, z, deg): ... +def hermfit(x, y, deg, rcond=..., full=..., w=...): ... +def hermcompanion(c): ... +def hermroots(c): ... +def hermgauss(deg): ... +def hermweight(x): ... + +class Hermite(ABCPolyBase): + domain: Any + window: Any + basis_name: Any