Exemplo n.º 1
0
 def test_troublesome_text(self):
     """
     Some text patterns have been trouble in the past.
     """
     trouble = xport.Variable(["'<>"], dtype='string')
     dataset = xport.Dataset({'a': trouble}, name='trouble')
     library = xport.Library(dataset)
     with pytest.warns(UserWarning, match=r'Converting column dtypes'):
         assert self.dump_and_load(library) == library
Exemplo n.º 2
0
 def test_dumps_name_and_label_length_validation(self):
     """
     Verify variable and dataset name and label length.
     """
     # Names must be <= 8 characters.
     # Labels must be <= 40 characters.
     # SAS v8 Transport Files allow longer labels.
     invalid = [
         xport.Library(xport.Dataset(), sas_version='a' * 9),
         xport.Library(xport.Dataset(name='a' * 9)),
         xport.Library(xport.Dataset(label='a' * 41)),
         xport.Library(xport.Dataset({'a' * 9: [1.0]})),
         xport.Library(
             xport.Dataset({'a': xport.Variable([1.0], label='a' * 41)})),
     ]
     for bad_metadata in invalid:
         with pytest.raises(ValueError):
             xport.v56.dumps(bad_metadata)
Exemplo n.º 3
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 def test_invalid_values(self):
     invalid = [
         '\N{snowman}',
     ]
     for bad in invalid:
         library = xport.Library(xport.Dataset({'a': [bad]}))
         with pytest.raises(ValueError):
             with pytest.warns(UserWarning,
                               match=r'Converting column dtypes'):
                 xport.v56.dumps(library)
Exemplo n.º 4
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 def test_numeric_type_conversion(self):
     """
     Verify numeric types convert to float when writing.
     """
     numerics = [
         1,
         True,
     ]
     for x in numerics:
         with pytest.warns(UserWarning, match=r'Converting column dtypes'):
             library = xport.Library({'A': xport.Dataset({'x': [x]})})
             output = self.dump_and_load(library)
             assert output['A']['x'].dtype.name == 'float64'
             assert output['A']['x'].iloc[0] == 1.0
Exemplo n.º 5
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 def test_invalid_types(self):
     """
     Verify invalid types raise errors on write.
     """
     invalid = [
         b'\x00',
         object(),
         (1, 2, 3),
     ]
     for bad in invalid:
         with pytest.warns(UserWarning, match=r'Converting column dtypes'):
             with pytest.raises(TypeError):
                 library = xport.Library(xport.Dataset({'a': [bad]}))
                 xport.v56.dumps(library)
Exemplo n.º 6
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def library():
    """
    Create a 4-column, 6-row dataset with numbers and text.
    """
    ds = xport.Dataset(
        data={
            'VIT_STAT': ['ALIVE'] * 3 + ['DEAD'] * 3,
            'ECON': ['POOR', 'NOT', 'UNK'] * 2,
            'COUNT': [1216, 1761, 2517, 254, 60, 137],
            'TEMP': [98.6, 95.4, 86.7, 93.4, 103.5, 56.7],
        },
        name='ECON',
        label='Blank-padded dataset label',
        dataset_type='',
    )
    ds.created = ds.modified = datetime(2015, 11, 13, 10, 35, 8)
    ds.sas_os = 'W32_7PRO'
    ds.sas_version = '9.3'
    ds['VIT_STAT'].label = 'Vital status'
    ds['VIT_STAT'].format = '$5.'
    ds['VIT_STAT'].informat = xport.Informat()
    ds['VIT_STAT'].width = 8
    ds['ECON'].label = 'Economic status'
    ds['ECON'].format = xport.Format('$CHAR', 4, 0,
                                     xport.FormatAlignment.RIGHT)
    ds['ECON'].informat = xport.Informat()
    ds['ECON'].width = 8
    ds['COUNT'].label = 'Count'
    ds['COUNT'].format = 'comma8.0'
    ds['COUNT'].informat = xport.Informat()
    ds['COUNT'].width = 8
    ds['TEMP'].label = 'Temperature'
    ds['TEMP'].format = '8.1'
    ds['TEMP'].informat = xport.Informat()
    ds['TEMP'].width = 8
    return xport.Library(
        members=[ds],
        created=ds.created,
        modified=ds.modified,
        sas_os=ds.sas_os,
        sas_version=ds.sas_version,
    )
Exemplo n.º 7
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 def test_dataframe(self):
     lib = xport.Library(pd.DataFrame({'a': [1]}))
     with pytest.warns(UserWarning, match=r'Converting column dtypes'):
         result = xport.v56.loads(xport.v56.dumps(lib))
     assert (result[''] == lib[None]).all(axis=None)
Exemplo n.º 8
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	var_counter_<..> += 1
	var_counter_rows += 1

"""

#
# = Generate SAS files: = =
# Source: https://github.com/selik/xport
# The SAS Transport (XPORT) format only supports two kinds of data. Each value is either numeric or character, so xport.load decodes the values as either str or float.
#
# TA:
TA_ds = xport.Dataset(TA_df, name='TA', label='Trial Arms (TA) data')
# SAS variable names are limited to 8 characters. As with Pandas dataframes, you must change the name on the dataset rather than the column directly.
TA_ds = TA_ds.rename(columns={k: k.upper()[:8] for k in TA_ds})
# Libraries can have multiple datasets.
TA_library = xport.Library({'TA': TA_ds})
#
with open('TA.xpt', 'wb') as f:
    xport.v56.dump(TA_library, f)
#
# TE:
TE_ds = xport.Dataset(TE_df, name='TE', label='Trial Elements (TE) data')
# SAS variable names are limited to 8 characters. As with Pandas dataframes, you must change the name on the dataset rather than the column directly.
TE_ds = TE_ds.rename(columns={k: k.upper()[:8] for k in TE_ds})
# Libraries can have multiple datasets.
TE_library = xport.Library({'TE': TE_ds})
#
with open('TE.xpt', 'wb') as f:
    xport.v56.dump(TE_library, f)
#
# TV:
Exemplo n.º 9
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 def test_create_from_dataframe(self):
     lib = xport.Library(pd.DataFrame())
     assert None in lib
Exemplo n.º 10
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 def test_create_from_list(self):
     lib = xport.Library(xport.Dataset())
     assert None in lib
     with pytest.warns(UserWarning, match=r'More than one dataset named'):
         xport.Library([xport.Dataset(), xport.Dataset()])
Exemplo n.º 11
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 def test_create_from_mapping(self):
     with pytest.warns(UserWarning, match=r'Set dataset name'):
         lib = xport.Library({'x': xport.Dataset()})
     assert 'x' in lib
     with pytest.raises(ValueError):
         xport.Library({'x': xport.Dataset(name='y')})
Exemplo n.º 12
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 def test_create_empty(self):
     xport.Library()