Пример #1
0
 def test_different_all(self):
     df1 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1", "2", "3"],
             "EXE_SOI_DTD": ["01/01/2015", "01/02/2016", "01/03/2017"],
         }))
     df2 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1"],
             "EXE_SOI_DTD": ["01/01/2015"]
         }))
     df3 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["2"],
             "EXE_SOI_DTD": ["01/02/2016"]
         }))
     ft1 = FlatTable("FT1", df1, "FT1", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft2 = FlatTable("FT2", df2, "FT2", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft3 = FlatTable("FT3", df3, "FT3", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft = FlatTable.difference_all([ft1, ft2, ft3],
                                   ["NUM_ENQ", "EXE_SOI_DTD"])
     df4 = self.spark.createDataFrame(
         pd.DataFrame(
             OrderedDict([("NUM_ENQ", ["3"]),
                          ("EXE_SOI_DTD", ["01/03/2017"])])))
     expected_ft = FlatTable("result", df4, "result",
                             ["NUM_ENQ", "EXE_SOI_DTD"], {})
     self.assertEqual(expected_ft, ft)
Пример #2
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 def test_getitem(self):
     df1 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1", "2", "3"],
             "EXE_SOI_DTD": ["01/01/2015", "01/02/2016", "01/03/2017"],
         }))
     ft1 = FlatTable("FT1", df1, "FT1", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft2 = FlatTable("FT2", ft1["NUM_ENQ"], "FT2", ["NUM_ENQ"], {})
     df3 = self.spark.createDataFrame(
         pd.DataFrame({"NUM_ENQ": ["1", "2", "3"]}))
     ft3 = FlatTable("FT3", df3, "FT3", ["NUM_ENQ"], {})
     self.assertEqual(ft3, ft2)
     with self.assertRaises(TypeError) as context:
         ft1[1]
     self.assertTrue("Expected a str" in str(context.exception))
Пример #3
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    def from_json(json_file: str) -> "FlatTableCollection":
        """
        Build FlatTableCollection from metadata json file.

        Parameters
        ----------
        json_file : str
            Flattening metadata json file, which is generated by flattening.

        Examples
        --------
        >>> with open("metadata_flattening.json", "r") as f:
        ...     collection = FlatTableCollection.from_json(f.read())
        """

        def get_single_tables(tables_json, names):
            return {
                table_json["output_table"]: SingleTable.from_json(table_json)
                for table_json in tables_json
                if table_json["output_table"] in set(names)
            }

        metadata_json = json.loads(json_file)

        return FlatTableCollection(
            {
                table["output_table"]: FlatTable.from_json(
                    table,
                    get_single_tables(metadata_json["operations"], table["sources"]),
                )
                for table in metadata_json["operations"]
                if table["output_type"] == "flat_table"
            }
        )
Пример #4
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 def test_eq(self):
     df1 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1", "2", "3"],
             "EXE_SOI_DTD": ["01/01/2015", "01/02/2016", "01/03/2017"],
         }))
     df2 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["3", "2", "1"],
             "EXE_SOI_DTD": ["01/03/2017", "01/02/2016", "01/01/2015"],
         }))
     df3 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["3", "2", "1"],
             "EXE_SOI_DTF": ["01/03/2017", "01/02/2016", "01/01/2015"],
         }))
     ft1 = FlatTable("FT1", df1, "FT1", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft2 = copy.copy(ft1)
     ft3 = copy.copy(ft1)
     ft3.name = "FT2"
     ft3.source = df2
     ft3.characteristics = "FT2"
     ft3.join_keys = ["NUM_ENQ", "EXE_SOI_DTF"]
     ft3 = copy.copy(ft1)
     ft3.name = "FT3"
     ft3.source = df3
     ft3.characteristics = "FT3"
     ft3.join_keys = ["NUM_ENQ", "EXE_SOI_DTF"]
     self.assertEqual(ft1, ft2)
     self.assertNotEqual(ft1, ft3)
Пример #5
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def plot_patient_events_each_year_on_months(
    figure: Figure,
    cohort: FlatTable,
    show=False,
    show_func=print,
    save_path=None,
    id_col: str = "NUM_ENQ",
    date_col: str = "EXE_SOI_DTD",
    years: List[int] = None,
) -> Figure:
    """
    This method is used to visualize the 'patient events each year on months stat'
    in seaborn context.

    Parameters
    ----------
    figure: matplotlib.figure.Figure, users can define it like plt.figure() or plt.gcf().
    cohort: FlatTable, a flat table.
    show: {False, True}, optional,
        If show the pandas table of confidence degree, default first when optional.
    show_func: optional
        Function to show a pandas table, print by default.
    save_path: str, optional
        the HDFS path to persist the pandas table, None by default, the save data can be
        used in stat history api.
    id_col: str, identity column default = 'NUM_ENQ'.
    date_col: str, data column used for 'group by' statement, default = 'EXE_SOI_DTD'.
    years: a list of special years in which the data will be loaded, default is None.

    Examples
    --------
    This is an example to illustrate how to use the function in jupyter.
    >>> with open("metadata_flattening.json", "r") as f:
    ...     dcir_collection = FlatTableCollection.from_json(f.read())
    >>> dcir = dcir_collection.get("DCIR")
    >>> plot_patient_events_each_year_on_months(plt.figure(figsize=(12, 8)), dcir)
    >>> plt.show()
    """
    item = "{} as id, year({}) as year, month({}) as month".format(
        id_col, date_col, date_col
    )
    new_cohort = FlatTable(
        cohort.name,
        cohort[item],
        cohort.characteristics,
        ["id", "year", "month"],
        cohort.single_tables,
    )
    return FlatteningEventsEachYearOnMonthsStat()(
        figure,
        new_cohort,
        show=show,
        show_func=show_func,
        save_path=save_path,
        id_col=id_col,
        date_col=date_col,
        years=years,
    )
Пример #6
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 def test_union_all(self):
     df1 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1"],
             "EXE_SOI_DTD": ["01/01/2015"]
         }))
     df2 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["2"],
             "EXE_SOI_DTD": ["01/02/2016"]
         }))
     df3 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["3"],
             "EXE_SOI_DTD": ["01/03/2017"]
         }))
     single_1 = SingleTable("ST1", df1, "ST1")
     single_2 = SingleTable("ST2", df2, "ST2")
     ft1 = FlatTable("FT1", df1, "FT1", ["NUM_ENQ", "EXE_SOI_DTD"],
                     {"ST1": single_1})
     ft2 = FlatTable("FT2", df2, "FT2", ["NUM_ENQ", "EXE_SOI_DTD"],
                     {"ST2": single_2})
     ft3 = FlatTable("FT3", df3, "FT3", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft = FlatTable.union_all([ft1, ft2, ft3])
     df4 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1", "2", "3"],
             "EXE_SOI_DTD": ["01/01/2015", "01/02/2016", "01/03/2017"],
         }))
     expected_ft = FlatTable(
         "result",
         df4,
         "result",
         ["NUM_ENQ", "EXE_SOI_DTD"],
         {
             "ST1": single_1,
             "ST2": single_2
         },
     )
     self.assertEqual(expected_ft, ft)
Пример #7
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 def test_difference(self):
     df1 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1", "2"],
             "EXE_SOI_DTD": ["01/01/2015", "01/02/2016"]
         }))
     df2 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["3", "2"],
             "EXE_SOI_DTD": ["01/03/2017", "01/02/2016"]
         }))
     df3 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["3", "2"],
             "EXE_SOI_DTF": ["01/03/2017", "01/02/2016"]
         }))
     ft1 = FlatTable("FT1", df1, "FT1", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft2 = FlatTable("FT2", df2, "FT2", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft3 = FlatTable("FT3", df3, "FT3", ["NUM_ENQ", "EXE_SOI_DTF"], {})
     ft = ft1.difference(ft2)
     df4 = self.spark.createDataFrame(
         pd.DataFrame(
             OrderedDict([("NUM_ENQ", ["1"]),
                          ("EXE_SOI_DTD", ["01/01/2015"])])))
     expected_ft = FlatTable("result", df4, "result",
                             ["NUM_ENQ", "EXE_SOI_DTD"], {})
     self.assertEqual(expected_ft, ft)
     self.assertRaises(ValueError, ft1.difference, ft3)
Пример #8
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 def test_in(self):
     df1 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1", "2", "3"],
             "EXE_SOI_DTD": ["01/01/2015", "01/02/2016", "01/03/2017"],
         }))
     df2 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["3", "2", "2"],
             "EXE_SOI_DTD": ["01/03/2017", "01/02/2016", "01/02/2016"],
         }))
     df3 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["3", "2"],
             "EXE_SOI_DTF": ["01/03/2017", "01/02/2016"]
         }))
     ft1 = FlatTable("FT1", df1, "FT1", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft2 = FlatTable("FT2", df2, "FT2", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     ft3 = FlatTable("FT3", df3, "FT3", ["NUM_ENQ", "EXE_SOI_DTF"], {})
     self.assertIn(ft2, ft1)
     self.assertNotIn(ft1, ft2)
     self.assertNotIn(ft3, ft1)
Пример #9
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 def test_setter_validation(self):
     df1 = self.spark.createDataFrame(
         pd.DataFrame({
             "NUM_ENQ": ["1", "2", "3"],
             "EXE_SOI_DTD": ["01/01/2015", "01/02/2016", "01/03/2017"],
         }))
     ft1 = FlatTable("FT1", df1, "FT1", ["NUM_ENQ", "EXE_SOI_DTD"], {})
     with self.assertRaises(TypeError) as context:
         ft1.name = None
     self.assertTrue("Expected a string" in str(context.exception))
     with self.assertRaises(TypeError) as context:
         ft1.source = None
     self.assertTrue("Expected a Spark DataFrame" in str(context.exception))
     with self.assertRaises(TypeError) as context:
         ft1.characteristics = None
     self.assertTrue("Expected a string" in str(context.exception))
     with self.assertRaises(TypeError) as context:
         ft1.join_keys = None
     self.assertTrue("Expected a List" in str(context.exception))
     with self.assertRaises(TypeError) as context:
         ft1.single_tables = None