def create_column(self, col_name, col_type):
        ''' Takes the output from parse_col_desc and creates the right column type. This
    method returns one of Column, ArrayColumn, MapColumn, StructColumn.'''
        if isinstance(col_type, str):
            if col_type.upper() == 'VARCHAR':
                col_type = 'STRING'
            type_name = self.TYPE_NAME_ALIASES.get(col_type.upper())
            return Column(owner=None,
                          name=col_name.lower(),
                          exact_type=self.TYPES_BY_NAME[type_name])

        general_class = col_type[0]

        if general_class.upper() == 'ARRAY':
            return ArrayColumn(owner=None,
                               name=col_name.lower(),
                               item=self.create_column(col_name='item',
                                                       col_type=col_type[1]))

        if general_class.upper() == 'MAP':
            return MapColumn(owner=None,
                             name=col_name.lower(),
                             key=self.create_column(col_name='key',
                                                    col_type=col_type[1]),
                             value=self.create_column(col_name='value',
                                                      col_type=col_type[2]))

        if general_class.upper() == 'STRUCT':
            struct_col = StructColumn(owner=None, name=col_name.lower())
            for field_name, field_type in col_type[1:]:
                struct_col.add_col(self.create_column(field_name, field_type))
            return struct_col

        general_class = self.TYPE_NAME_ALIASES.get(col_type[0].upper())

        if general_class.upper() == 'DECIMAL':
            return Column(owner=None,
                          name=col_name.lower(),
                          exact_type=get_decimal_class(int(col_type[1]),
                                                       int(col_type[2])))

        if general_class.upper() == 'CHAR':
            return Column(owner=None,
                          name=col_name.lower(),
                          exact_type=get_char_class(int(col_type[1])))

        if general_class.upper() == 'VARCHAR':
            type_size = int(col_type[1])
            if type_size <= VarChar.MAX:
                cur_type = get_varchar_class(type_size)
            else:
                cur_type = self.TYPES_BY_NAME['STRING']
            return Column(owner=None,
                          name=col_name.lower(),
                          exact_type=cur_type)

        raise Exception('unable to parse: {0}, type: {1}'.format(
            col_name, col_type))
Beispiel #2
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 def test_table_model(self, cursor, hive_cursor):
     table = Table("some_test_table")
     cursor.drop_table(table.name, if_exists=True)
     table.storage_format = 'textfile'
     table.cols.append(Column(table, "bigint_col", BigInt))
     table.cols.append(Column(table, "string_col", String))
     cursor.create_table(table)
     try:
         other = hive_cursor.describe_table(table.name)
         assert other.name == table.name
         assert other.cols == table.cols
     finally:
         cursor.drop_table(table.name)
    def create_join_predicate(self, parent_table, child_table):
        for col in parent_table.cols:
            if col.name == 'id':
                parent_id_col = col
                break
        else:
            parent_id_col = Column(parent_table, 'id', BigInt)
            parent_id_col.for_flattening = True
            parent_table.add_col(parent_id_col)

        child_col_name = self.flat_collection_name(parent_table) + '_id'
        child_col = Column(None, child_col_name, BigInt)
        child_table.add_col(child_col)

        return Equals.create_from_args(parent_id_col, child_col)
  def create_join_predicate(self, parent_table, child_table):
    for col in parent_table.cols:
      if col.name == 'id':
        parent_id_col = col
        break
    else:
      parent_id_col = Column(parent_table, 'id', BigInt)
      parent_id_col.for_flattening = True
      parent_table.add_col(parent_id_col)

    child_col_name = self.flat_collection_name(parent_table) + '_id'
    child_col = Column(None, child_col_name, BigInt)
    child_table.add_col(child_col)

    return Equals.create_from_args(parent_id_col, child_col)
Beispiel #5
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 def _create_random_table(self, table_name, min_col_count, max_col_count,
                          allowed_storage_formats):
     '''Create and return a Table with a random number of cols.'''
     col_count = randint(min_col_count, max_col_count)
     storage_format = choice(allowed_storage_formats)
     table = Table(table_name)
     table.storage_format = storage_format
     allowed_types = list(TYPES)
     # Avro doesn't support timestamps yet.
     if table.storage_format == 'AVRO':
         allowed_types.remove(Timestamp)
     # TODO: 'table.cols' returns a copy of all scalar cols, so 'table.cols.append()'
     #       doesn't actually modify the table's columns. 'table.cols' should be changed
     #       to allow access to the real columns.
     cols = table.cols
     for col_idx in xrange(col_count):
         col_type = choice(allowed_types)
         col_type = choice(
             filter(lambda type_: issubclass(type_, col_type), EXACT_TYPES))
         if issubclass(col_type,
                       VarChar) and not issubclass(col_type, String):
             col_type = get_varchar_class(randint(1, VarChar.MAX))
         elif issubclass(col_type,
                         Char) and not issubclass(col_type, String):
             col_type = get_char_class(randint(1, Char.MAX))
         elif issubclass(col_type, Decimal):
             max_digits = randint(1, Decimal.MAX_DIGITS)
             col_type = get_decimal_class(max_digits,
                                          randint(1, max_digits))
         col = Column(
             table, '%s_col_%s' % (col_type.__name__.lower(), col_idx + 1),
             col_type)
         cols.append(col)
     table.cols = cols
     return table
Beispiel #6
0
 def describe_table(self, table_name):
   '''Return a Table with table and col names always in lowercase.'''
   rows = self.conn.execute_and_fetchall(
       self.make_describe_table_sql(table_name))
   table = Table(table_name.lower())
   cols = table.cols   # This is a copy
   for row in rows:
     col_name, data_type = row[:2]
     if data_type == 'tinyint(1)':
       # Just assume this is a boolean...
       data_type = 'boolean'
     if 'decimal' not in data_type and '(' in data_type:
       # Strip the size of the data type
       data_type = data_type[:data_type.index('(')]
     cols.append(Column(table, col_name.lower(), self.parse_data_type(data_type)))
   table.cols = cols
   return table
Beispiel #7
0
 def cols(self):
     return ValExprList(
         Column(self, item.name, item.type)
         for item in self.query.select_clause.items)