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</form></table><br><hr><center style="font-family: Russo One">[ <a href='/228ef4/index.php'>Back</a> ]&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<hr></center><br><tr><td>Current File : /opt/cloudlinux/venv/lib64/python3.11/site-packages/numpy/lib/tests/test__iotools.py</tr></td></table><br/><pre>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:
    &quot;Tests the LineSplitter class.&quot;

    def test_no_delimiter(self):
        &quot;Test LineSplitter w/o delimiter&quot;
        strg = &quot; 1 2 3 4  5 # test&quot;
        test = LineSplitter()(strg)
        assert_equal(test, [&#039;1&#039;, &#039;2&#039;, &#039;3&#039;, &#039;4&#039;, &#039;5&#039;])
        test = LineSplitter(&#039;&#039;)(strg)
        assert_equal(test, [&#039;1&#039;, &#039;2&#039;, &#039;3&#039;, &#039;4&#039;, &#039;5&#039;])

    def test_space_delimiter(self):
        &quot;Test space delimiter&quot;
        strg = &quot; 1 2 3 4  5 # test&quot;
        test = LineSplitter(&#039; &#039;)(strg)
        assert_equal(test, [&#039;1&#039;, &#039;2&#039;, &#039;3&#039;, &#039;4&#039;, &#039;&#039;, &#039;5&#039;])
        test = LineSplitter(&#039;  &#039;)(strg)
        assert_equal(test, [&#039;1 2 3 4&#039;, &#039;5&#039;])

    def test_tab_delimiter(self):
        &quot;Test tab delimiter&quot;
        strg = &quot; 1\t 2\t 3\t 4\t 5  6&quot;
        test = LineSplitter(&#039;\t&#039;)(strg)
        assert_equal(test, [&#039;1&#039;, &#039;2&#039;, &#039;3&#039;, &#039;4&#039;, &#039;5  6&#039;])
        strg = &quot; 1  2\t 3  4\t 5  6&quot;
        test = LineSplitter(&#039;\t&#039;)(strg)
        assert_equal(test, [&#039;1  2&#039;, &#039;3  4&#039;, &#039;5  6&#039;])

    def test_other_delimiter(self):
        &quot;Test LineSplitter on delimiter&quot;
        strg = &quot;1,2,3,4,,5&quot;
        test = LineSplitter(&#039;,&#039;)(strg)
        assert_equal(test, [&#039;1&#039;, &#039;2&#039;, &#039;3&#039;, &#039;4&#039;, &#039;&#039;, &#039;5&#039;])
        #
        strg = &quot; 1,2,3,4,,5 # test&quot;
        test = LineSplitter(&#039;,&#039;)(strg)
        assert_equal(test, [&#039;1&#039;, &#039;2&#039;, &#039;3&#039;, &#039;4&#039;, &#039;&#039;, &#039;5&#039;])

        # gh-11028 bytes comment/delimiters should get encoded
        strg = b&quot; 1,2,3,4,,5 % test&quot;
        test = LineSplitter(delimiter=b&#039;,&#039;, comments=b&#039;%&#039;)(strg)
        assert_equal(test, [&#039;1&#039;, &#039;2&#039;, &#039;3&#039;, &#039;4&#039;, &#039;&#039;, &#039;5&#039;])

    def test_constant_fixed_width(self):
        &quot;Test LineSplitter w/ fixed-width fields&quot;
        strg = &quot;  1  2  3  4     5   # test&quot;
        test = LineSplitter(3)(strg)
        assert_equal(test, [&#039;1&#039;, &#039;2&#039;, &#039;3&#039;, &#039;4&#039;, &#039;&#039;, &#039;5&#039;, &#039;&#039;])
        #
        strg = &quot;  1     3  4  5  6# test&quot;
        test = LineSplitter(20)(strg)
        assert_equal(test, [&#039;1     3  4  5  6&#039;])
        #
        strg = &quot;  1     3  4  5  6# test&quot;
        test = LineSplitter(30)(strg)
        assert_equal(test, [&#039;1     3  4  5  6&#039;])

    def test_variable_fixed_width(self):
        strg = &quot;  1     3  4  5  6# test&quot;
        test = LineSplitter((3, 6, 6, 3))(strg)
        assert_equal(test, [&#039;1&#039;, &#039;3&#039;, &#039;4  5&#039;, &#039;6&#039;])
        #
        strg = &quot;  1     3  4  5  6# test&quot;
        test = LineSplitter((6, 6, 9))(strg)
        assert_equal(test, [&#039;1&#039;, &#039;3  4&#039;, &#039;5  6&#039;])

# -----------------------------------------------------------------------------


class TestNameValidator:

    def test_case_sensitivity(self):
        &quot;Test case sensitivity&quot;
        names = [&#039;A&#039;, &#039;a&#039;, &#039;b&#039;, &#039;c&#039;]
        test = NameValidator().validate(names)
        assert_equal(test, [&#039;A&#039;, &#039;a&#039;, &#039;b&#039;, &#039;c&#039;])
        test = NameValidator(case_sensitive=False).validate(names)
        assert_equal(test, [&#039;A&#039;, &#039;A_1&#039;, &#039;B&#039;, &#039;C&#039;])
        test = NameValidator(case_sensitive=&#039;upper&#039;).validate(names)
        assert_equal(test, [&#039;A&#039;, &#039;A_1&#039;, &#039;B&#039;, &#039;C&#039;])
        test = NameValidator(case_sensitive=&#039;lower&#039;).validate(names)
        assert_equal(test, [&#039;a&#039;, &#039;a_1&#039;, &#039;b&#039;, &#039;c&#039;])

        # check exceptions
        assert_raises(ValueError, NameValidator, case_sensitive=&#039;foobar&#039;)

    def test_excludelist(self):
        &quot;Test excludelist&quot;
        names = [&#039;dates&#039;, &#039;data&#039;, &#039;Other Data&#039;, &#039;mask&#039;]
        validator = NameValidator(excludelist=[&#039;dates&#039;, &#039;data&#039;, &#039;mask&#039;])
        test = validator.validate(names)
        assert_equal(test, [&#039;dates_&#039;, &#039;data_&#039;, &#039;Other_Data&#039;, &#039;mask_&#039;])

    def test_missing_names(self):
        &quot;Test validate missing names&quot;
        namelist = (&#039;a&#039;, &#039;b&#039;, &#039;c&#039;)
        validator = NameValidator()
        assert_equal(validator(namelist), [&#039;a&#039;, &#039;b&#039;, &#039;c&#039;])
        namelist = (&#039;&#039;, &#039;b&#039;, &#039;c&#039;)
        assert_equal(validator(namelist), [&#039;f0&#039;, &#039;b&#039;, &#039;c&#039;])
        namelist = (&#039;a&#039;, &#039;b&#039;, &#039;&#039;)
        assert_equal(validator(namelist), [&#039;a&#039;, &#039;b&#039;, &#039;f0&#039;])
        namelist = (&#039;&#039;, &#039;f0&#039;, &#039;&#039;)
        assert_equal(validator(namelist), [&#039;f1&#039;, &#039;f0&#039;, &#039;f2&#039;])

    def test_validate_nb_names(self):
        &quot;Test validate nb names&quot;
        namelist = (&#039;a&#039;, &#039;b&#039;, &#039;c&#039;)
        validator = NameValidator()
        assert_equal(validator(namelist, nbfields=1), (&#039;a&#039;,))
        assert_equal(validator(namelist, nbfields=5, defaultfmt=&quot;g%i&quot;),
                     [&#039;a&#039;, &#039;b&#039;, &#039;c&#039;, &#039;g0&#039;, &#039;g1&#039;])

    def test_validate_wo_names(self):
        &quot;Test validate no names&quot;
        namelist = None
        validator = NameValidator()
        assert_(validator(namelist) is None)
        assert_equal(validator(namelist, nbfields=3), [&#039;f0&#039;, &#039;f1&#039;, &#039;f2&#039;])

# -----------------------------------------------------------------------------


def _bytes_to_date(s):
    return date(*time.strptime(s, &quot;%Y-%m-%d&quot;)[:3])


class TestStringConverter:
    &quot;Test StringConverter&quot;

    def test_creation(self):
        &quot;Test creation of a StringConverter&quot;
        converter = StringConverter(int, -99999)
        assert_equal(converter._status, 1)
        assert_equal(converter.default, -99999)

    def test_upgrade(self):
        &quot;Tests the upgrade method.&quot;

        converter = StringConverter()
        assert_equal(converter._status, 0)

        # test int
        assert_equal(converter.upgrade(&#039;0&#039;), 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 &lt; nx.dtype(nx.int64).itemsize)

        # test int &gt; 2**32
        assert_equal(converter.upgrade(&#039;17179869184&#039;), 17179869184)
        assert_equal(converter._status, 1 + status_offset)

        # test float
        assert_allclose(converter.upgrade(&#039;0.&#039;), 0.0)
        assert_equal(converter._status, 2 + status_offset)

        # test complex
        assert_equal(converter.upgrade(&#039;0j&#039;), complex(&#039;0j&#039;))
        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 [&#039;a&#039;, b&#039;a&#039;]:
            res = converter.upgrade(s)
            assert_(type(res) is str)
            assert_equal(res, &#039;a&#039;)
            assert_equal(converter._status, 8 + status_offset)

    def test_missing(self):
        &quot;Tests the use of missing values.&quot;
        converter = StringConverter(missing_values=(&#039;missing&#039;,
                                                    &#039;missed&#039;))
        converter.upgrade(&#039;0&#039;)
        assert_equal(converter(&#039;0&#039;), 0)
        assert_equal(converter(&#039;&#039;), converter.default)
        assert_equal(converter(&#039;missing&#039;), converter.default)
        assert_equal(converter(&#039;missed&#039;), converter.default)
        try:
            converter(&#039;miss&#039;)
        except ValueError:
            pass

    def test_upgrademapper(self):
        &quot;Tests updatemapper&quot;
        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(&#039;2001-01-01&#039;)
            assert_equal(test, date(2001, 1, 1))
            test = convert(&#039;2009-01-01&#039;)
            assert_equal(test, date(2009, 1, 1))
            test = convert(&#039;&#039;)
            assert_equal(test, date(2000, 1, 1))
        finally:
            StringConverter._mapper = _original_mapper

    def test_string_to_object(self):
        &quot;Make sure that string-to-object functions are properly recognized&quot;
        old_mapper = StringConverter._mapper[:]  # copy of list
        conv = StringConverter(_bytes_to_date)
        assert_equal(conv._mapper, old_mapper)
        assert_(hasattr(conv, &#039;default&#039;))

    def test_keep_default(self):
        &quot;Make sure we don&#039;t lose an explicit default&quot;
        converter = StringConverter(None, missing_values=&#039;&#039;,
                                    default=-999)
        converter.upgrade(&#039;3.14159265&#039;)
        assert_equal(converter.default, -999)
        assert_equal(converter.type, np.dtype(float))
        #
        converter = StringConverter(
            None, missing_values=&#039;&#039;, default=0)
        converter.upgrade(&#039;3.14159265&#039;)
        assert_equal(converter.default, 0)
        assert_equal(converter.type, np.dtype(float))

    def test_keep_default_zero(self):
        &quot;Check that we don&#039;t lose a default of 0&quot;
        converter = StringConverter(int, default=0,
                                    missing_values=&quot;N/A&quot;)
        assert_equal(converter.default, 0)

    def test_keep_missing_values(self):
        &quot;Check that we&#039;re not losing missing values&quot;
        converter = StringConverter(int, default=0,
                                    missing_values=&quot;N/A&quot;)
        assert_equal(
            converter.missing_values, {&#039;&#039;, &#039;N/A&#039;})

    def test_int64_dtype(self):
        &quot;Check that int64 integer types can be specified&quot;
        converter = StringConverter(np.int64, default=0)
        val = &quot;-9223372036854775807&quot;
        assert_(converter(val) == -9223372036854775807)
        val = &quot;9223372036854775807&quot;
        assert_(converter(val) == 9223372036854775807)

    def test_uint64_dtype(self):
        &quot;Check that uint64 integer types can be specified&quot;
        converter = StringConverter(np.uint64, default=0)
        val = &quot;9223372043271415339&quot;
        assert_(converter(val) == 9223372043271415339)


class TestMiscFunctions:

    def test_has_nested_dtype(self):
        &quot;Test has_nested_dtype&quot;
        ndtype = np.dtype(float)
        assert_equal(has_nested_fields(ndtype), False)
        ndtype = np.dtype([(&#039;A&#039;, &#039;|S3&#039;), (&#039;B&#039;, float)])
        assert_equal(has_nested_fields(ndtype), False)
        ndtype = np.dtype([(&#039;A&#039;, int), (&#039;B&#039;, [(&#039;BA&#039;, float), (&#039;BB&#039;, &#039;|S1&#039;)])])
        assert_equal(has_nested_fields(ndtype), True)

    def test_easy_dtype(self):
        &quot;Test ndtype on dtypes&quot;
        # Simple case
        ndtype = float
        assert_equal(easy_dtype(ndtype), np.dtype(float))
        # As string w/o names
        ndtype = &quot;i4, f8&quot;
        assert_equal(easy_dtype(ndtype),
                     np.dtype([(&#039;f0&#039;, &quot;i4&quot;), (&#039;f1&#039;, &quot;f8&quot;)]))
        # As string w/o names but different default format
        assert_equal(easy_dtype(ndtype, defaultfmt=&quot;field_%03i&quot;),
                     np.dtype([(&#039;field_000&#039;, &quot;i4&quot;), (&#039;field_001&#039;, &quot;f8&quot;)]))
        # As string w/ names
        ndtype = &quot;i4, f8&quot;
        assert_equal(easy_dtype(ndtype, names=&quot;a, b&quot;),
                     np.dtype([(&#039;a&#039;, &quot;i4&quot;), (&#039;b&#039;, &quot;f8&quot;)]))
        # As string w/ names (too many)
        ndtype = &quot;i4, f8&quot;
        assert_equal(easy_dtype(ndtype, names=&quot;a, b, c&quot;),
                     np.dtype([(&#039;a&#039;, &quot;i4&quot;), (&#039;b&#039;, &quot;f8&quot;)]))
        # As string w/ names (not enough)
        ndtype = &quot;i4, f8&quot;
        assert_equal(easy_dtype(ndtype, names=&quot;, b&quot;),
                     np.dtype([(&#039;f0&#039;, &quot;i4&quot;), (&#039;b&#039;, &quot;f8&quot;)]))
        # ... (with different default format)
        assert_equal(easy_dtype(ndtype, names=&quot;a&quot;, defaultfmt=&quot;f%02i&quot;),
                     np.dtype([(&#039;a&#039;, &quot;i4&quot;), (&#039;f00&#039;, &quot;f8&quot;)]))
        # As list of tuples w/o names
        ndtype = [(&#039;A&#039;, int), (&#039;B&#039;, float)]
        assert_equal(easy_dtype(ndtype), np.dtype([(&#039;A&#039;, int), (&#039;B&#039;, float)]))
        # As list of tuples w/ names
        assert_equal(easy_dtype(ndtype, names=&quot;a,b&quot;),
                     np.dtype([(&#039;a&#039;, int), (&#039;b&#039;, float)]))
        # As list of tuples w/ not enough names
        assert_equal(easy_dtype(ndtype, names=&quot;a&quot;),
                     np.dtype([(&#039;a&#039;, int), (&#039;f0&#039;, float)]))
        # As list of tuples w/ too many names
        assert_equal(easy_dtype(ndtype, names=&quot;a,b,c&quot;),
                     np.dtype([(&#039;a&#039;, int), (&#039;b&#039;, float)]))
        # As list of types w/o names
        ndtype = (int, float, float)
        assert_equal(easy_dtype(ndtype),
                     np.dtype([(&#039;f0&#039;, int), (&#039;f1&#039;, float), (&#039;f2&#039;, float)]))
        # As list of types w names
        ndtype = (int, float, float)
        assert_equal(easy_dtype(ndtype, names=&quot;a, b, c&quot;),
                     np.dtype([(&#039;a&#039;, int), (&#039;b&#039;, float), (&#039;c&#039;, float)]))
        # As simple dtype w/ names
        ndtype = np.dtype(float)
        assert_equal(easy_dtype(ndtype, names=&quot;a, b, c&quot;),
                     np.dtype([(_, float) for _ in (&#039;a&#039;, &#039;b&#039;, &#039;c&#039;)]))
        # As simple dtype w/o names (but multiple fields)
        ndtype = np.dtype(float)
        assert_equal(
            easy_dtype(ndtype, names=[&#039;&#039;, &#039;&#039;, &#039;&#039;], defaultfmt=&quot;f%02i&quot;),
            np.dtype([(_, float) for _ in (&#039;f00&#039;, &#039;f01&#039;, &#039;f02&#039;)]))

    def test_flatten_dtype(self):
        &quot;Testing flatten_dtype&quot;
        # Standard dtype
        dt = np.dtype([(&quot;a&quot;, &quot;f8&quot;), (&quot;b&quot;, &quot;f8&quot;)])
        dt_flat = flatten_dtype(dt)
        assert_equal(dt_flat, [float, float])
        # Recursive dtype
        dt = np.dtype([(&quot;a&quot;, [(&quot;aa&quot;, &#039;|S1&#039;), (&quot;ab&quot;, &#039;|S2&#039;)]), (&quot;b&quot;, int)])
        dt_flat = flatten_dtype(dt)
        assert_equal(dt_flat, [np.dtype(&#039;|S1&#039;), np.dtype(&#039;|S2&#039;), int])
        # dtype with shaped fields
        dt = np.dtype([(&quot;a&quot;, (float, 2)), (&quot;b&quot;, (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([((&quot;a&quot;, &quot;A&quot;), &quot;f8&quot;), ((&quot;b&quot;, &quot;B&quot;), &quot;f8&quot;)])
        dt_flat = flatten_dtype(dt)
        assert_equal(dt_flat, [float, float])
</pre><center><br>Youez - 2016 - github.com/yon3zu<br><a href='https://linuxploit.com/' target='_blank'>LinuXploit</a></center>