Beispiel #1
0
    def _parse_select(self, sql):
        """
        parsing the sql by the grammar
        Select ::= Agg | AggAgg | AggAggAgg | ... |
        Agg ::= agg column table
        :return: [Select(), states]
        """
        lst_result = []
        select = sql['sql']['select']
        lst_result.append(grammar.Select(0))
        lst_result.append(grammar.NumA(len(select) - 1))

        for sel in select:
            if sel[1][0] == 0:
                lst_result.append(grammar.Agg(sel[0]))
                col_id, is_const_col = self._trans_col_id(sql['column_set'], sql['column_names'], sel[1][1][1])
                self.col_set.add(col_id)
                lst_result.append(grammar.Column(col_id))
                # now check for the situation with *
                if is_const_col:
                    lst_result.append(self._parse_const_column(sql, select))
                else:
                    lst_result.append(grammar.Table(sql['column_table'][sel[1][1][1]]))
            else:            #列计算
                lst_result.append(grammar.Agg(sel[0] + 6))
                if sel[1][0] == 1:      # -
                    lst_result.append(grammar.MathAgg(1))
                elif sel[1][0] == 2:    # +
                    lst_result.append(grammar.MathAgg(0))
                elif sel[1][0] == 3:    # *
                    lst_result.append(grammar.MathAgg(2))
                elif sel[1][0] == 4:    # /
                    lst_result.append(grammar.MathAgg(3))
                else:
                    raise NotImplementedError("Not the right MathAgg")
                lst_result.append(grammar.Agg(sel[1][1][0]))
                col_id1, is_const_col = self._trans_col_id(sql['column_set'], sql['column_names'], sel[1][1][1])
                lst_result.append(grammar.Column(col_id1))
                 # now check for the situation with *
                if is_const_col:
                    lst_result.append(self._parse_const_column(sql, select))
                else:
                    lst_result.append(grammar.Table(sql['column_table'][sel[1][1][1]]))
                lst_result.append(grammar.Agg(sel[1][2][0]))
                col_id2, is_const_col = self._trans_col_id(sql['column_set'], sql['column_names'], sel[1][2][1])
                lst_result.append(grammar.Column(col_id2))
                 # now check for the situation with *
                if is_const_col:
                    lst_result.append(self._parse_const_column(sql, select))
                else:
                    lst_result.append(grammar.Table(sql['column_table'][sel[1][1][1]]))
            if not self.copy_selec:
                self.copy_selec = [copy.deepcopy(lst_result[-2]), copy.deepcopy(lst_result[-1])]

        return lst_result, None
Beispiel #2
0
    def _parse_order(self, sql):
        """
        parsing the sql by the grammar
        Order ::= asc Agg | desc Agg
        Agg ::= agg column table
        :return: [Order(), states]
        """
        lst_result = []

        if 'order' not in sql['query_toks_no_value'] or 'by' not in sql[
                'query_toks_no_value']:
            return lst_result, None
        elif 'limit' in sql['query_toks_no_value']:
            return lst_result, None

        if sql['sql']['orderBy'] == []:
            return lst_result, None

        if sql['sql']['orderBy'][0] == 'desc':
            lst_result.append(grammar.Order(0))
        else:
            lst_result.append(grammar.Order(1))

        agg_id, val_unit = sql['sql']['orderBy'][1][0]
        if val_unit[2] is not None:
            lst_result.append(grammar.Agg(agg_id + 6))

            if val_unit[0] == 1:
                lst_result.append(grammar.MathAgg(1))
            elif val_unit[0] == 2:
                lst_result.append(grammar.MathAgg(0))
            elif val_unit[0] == 3:
                lst_result.append(grammar.MathAgg(2))
            elif val_unit[0] == 4:
                lst_result.append(grammar.MathAgg(3))

            lst_result.extend(self._gen_agg(val_unit[1][0], val_unit[1], sql))
            lst_result.extend(self._gen_agg(val_unit[2][0], val_unit[2], sql))
        else:
            lst_result.extend(self._gen_agg(agg_id, val_unit[1], sql))

        return lst_result, None
Beispiel #3
0
    def _parse_sup(self, sql):
        """
        parsing the sql by the grammar
        Superlative ::= Most Agg | Least Agg
        Agg ::= agg column table
        :return: [Superlative(), states]
        """
        lst_result = []
        if sql['sql']['limit'] is None:
            return lst_result, None
        if sql['sql']['orderBy'][0] == 'desc':
            lst_result.append(grammar.Superlative(0))
        else:
            lst_result.append(grammar.Superlative(1))

        agg_id, val_unit = sql['sql']['orderBy'][1][0]
        if val_unit[2] is not None:
            lst_result.append(grammar.Agg(agg_id + 6))

            if val_unit[0] == 1:
                lst_result.append(grammar.MathAgg(1))
            elif val_unit[0] == 2:
                lst_result.append(grammar.MathAgg(0))
            elif val_unit[0] == 3:
                lst_result.append(grammar.MathAgg(2))
            elif val_unit[0] == 4:
                lst_result.append(grammar.MathAgg(3))

            lst_result.extend(self._gen_agg(val_unit[1][0], val_unit[1], sql))
            lst_result.extend(self._gen_agg(val_unit[2][0], val_unit[2], sql))
        else:
            lst_result.extend(self._gen_agg(agg_id, val_unit[1], sql))

        value_idx = self._find_value_index(sql['dct_values'],
                                           sql['sql']['limit'])
        lst_result.append(grammar.Value(value_idx))
        return lst_result, None
Beispiel #4
0
    def _parse_one_condition(self, cond_unit, names, sql):
        """ parse one condition unit
        Args:
            cond_unit: cond_unit
            names:names
            sql:sql
        """
        lst_result = []
        # check if V(root)
        nest_query = True
        if type(cond_unit[3]) != dict:
            nest_query = False

        # check for Filter (=, <, >, !=, between, >=, <=, ...)
        # 00: not_in
        # 01: between   05: >=    09: like
        # 02: =         06: <=    10: is
        # 03: >         07: !=    11: exists
        # 04: <         08: in    12: not like
        # map from sql op id to grammar filter id
        single_map = {1: 8, 2: 2, 3: 5, 4: 4, 5: 7, 6: 6, 7: 3}
        nested_map = {1: 15, 2: 11, 3: 13, 4: 12, 5: 16, 6: 17, 7: 14}
        cond_op = cond_unit[1]
        if cond_op in [1, 2, 3, 4, 5, 6, 7]:
            if nest_query == False:
                fil = grammar.Filter(single_map[cond_op])
            else:
                fil = grammar.Filter(nested_map[cond_op])
        elif cond_op == 8:
            fil = grammar.Filter(18)
        elif cond_op == 9:
            fil = grammar.Filter(9)
        elif cond_op == 12:
            fil = grammar.Filter(10)
        elif cond_op == 0:
            fil = grammar.Filter(19)
        else:
            raise NotImplementedError("not implement for the others FIL")

        lst_result.append(fil)
        # MathAgg
        if cond_unit[2][2] is not None:
            lst_result.append(grammar.Agg(cond_unit[0] + 6))

            if cond_unit[2][0] == 1:
                lst_result.append(grammar.MathAgg(1))
            elif cond_unit[2][0] == 2:
                lst_result.append(grammar.MathAgg(0))
            elif cond_unit[2][0] == 3:
                lst_result.append(grammar.MathAgg(2))
            elif cond_unit[2][0] == 4:
                lst_result.append(grammar.MathAgg(3))

            lst_result.extend(
                self._gen_agg(cond_unit[2][1][0], cond_unit[2][1], sql))
            lst_result.extend(
                self._gen_agg(cond_unit[2][2][0], cond_unit[2][2], sql))
        else:
            lst_result.extend(self._gen_agg(cond_unit[0], cond_unit[2][1],
                                            sql))

        dct_values = sql['dct_values']
        if not nest_query:
            lst_result.append(
                grammar.Value(self._find_value_index(dct_values,
                                                     cond_unit[3])))
        if not nest_query and cond_unit[4] is not None:
            lst_result.append(
                grammar.Value(self._find_value_index(dct_values,
                                                     cond_unit[4])))

        if nest_query:
            nest_query = {}
            nest_query['query_toks_no_value'] = ""
            nest_query['sql'] = cond_unit[3]
            nest_query['column_table'] = sql['column_table']
            nest_query['column_names'] = sql['column_names']
            nest_query['table_names'] = sql['table_names']
            nest_query['question'] = sql['question']
            nest_query['column_set'] = sql['column_set']
            nest_query['values'] = sql['values']
            nest_query['dct_values'] = sql['dct_values']
            lst_result.extend(self._parse_single_sql(nest_query))

        return lst_result