示例#1
0
    def _edges_op(self, query, frum):
        query = query.copy()  # WE WILL BE MARKING UP THE QUERY
        index_to_column = {}  # MAP FROM INDEX TO COLUMN (OR SELECT CLAUSE)
        outer_selects = []  # EVERY SELECT CLAUSE (NOT TO BE USED ON ALL TABLES, OF COURSE)
        frum_path = split_field(frum)
        base_table = join_field(frum_path[0:1])
        path = join_field(frum_path[1:])
        nest_to_alias = {
            nested_path: quote_column("__" + unichr(ord('a') + i) + "__")
            for i, (nested_path, sub_table) in enumerate(self.sf.tables.items())
        }

        schema = self.sf.tables[relative_field(frum, self.sf.fact)].schema

        tables = []
        for n, a in nest_to_alias.items():
            if startswith_field(path, n):
                tables.append({"nest": n, "alias": a})
        tables = jx.sort(tables, {"value": {"length": "nest"}})

        from_sql = quote_column(join_field([base_table] + split_field(tables[0].nest))) + tables[0].alias
        for previous, t in zip(tables, tables[1::]):
            from_sql += (
                SQL_LEFT_JOIN + quote_column(concat_field(base_table, t.nest)) + t.alias +
                SQL_ON + join_column(t.alias, quoted_PARENT) + " = " + join_column(previous.alias, quoted_UID)
            )

        main_filter = query.where.to_sql(schema, boolean=True)[0].sql.b

        # SHIFT THE COLUMN DEFINITIONS BASED ON THE NESTED QUERY DEPTH
        ons = []
        join_types = []
        wheres = []
        null_ons = [EXISTS_COLUMN + SQL_IS_NULL]
        groupby = []
        null_groupby = []
        orderby = []
        domains = []

        select_clause = [SQL_ONE + EXISTS_COLUMN] + [quote_column(c.es_column) for c in self.sf.tables['.'].columns]

        for edge_index, query_edge in enumerate(query.edges):
            edge_alias = quote_column("e" + text_type(edge_index))

            if query_edge.value:
                edge_values = [p for c in query_edge.value.to_sql(schema).sql for p in c.items()]

            elif not query_edge.value and any(query_edge.domain.partitions.where):
                case = SQL_CASE
                for pp, p in enumerate(query_edge.domain.partitions):
                    w = p.where.to_sql(schema)[0].sql.b
                    t = quote_value(pp)
                    case += SQL_WHEN + w + SQL_THEN + t
                case += SQL_ELSE + SQL_NULL + SQL_END  # quote value with length of partitions
                edge_values = [("n", case)]

            elif query_edge.range:
                edge_values = query_edge.range.min.to_sql(schema)[0].sql.items() + query_edge.range.max.to_sql(schema)[
                    0].sql.items()
示例#2
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 def _get_chars_for_ranges(cls):
     ret = []
     for cc in cls.__mro__:
         if cc is unicode_set:
             break
         for rr in cc._ranges:
             ret.extend(range(rr[0], rr[-1] + 1))
     return [unichr(c) for c in sorted(set(ret))]
示例#3
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def hex2chr(hex):
    try:
        return unichr(int(hex, 16))
    except Exception as e:
        raise e
示例#4
0
def hex2chr(hex):
    try:
        return unichr(int(hex, 16))
    except Exception as e:
        raise e


if PY2:
    _map2url = {chr(i): chr(i) for i in range(32, 128)}
    for c in " {}<>;/?:@&=+$,":
        _map2url[c] = "%" + str(int2hex(ord(c), 2))
    for i in range(128, 256):
        _map2url[chr(i)] = "%" + str(int2hex(i, 2))
else:
    _map2url = {i: unichr(i) for i in range(32, 128)}
    for c in b" {}<>;/?:@&=+$,":
        _map2url[c] = "%" + int2hex(c, 2)
    for i in range(128, 256):
        _map2url[i] = "%" + str(int2hex(i, 2))

names = ["path", "query", "fragment"]
indicator = ["/", "?", "#"]


def parse(output, suffix, curr, next):
    if next == len(indicator):
        output.__setattr__(names[curr], suffix)
        return

    e = suffix.find(indicator[next])
示例#5
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    def _groupby_op(self, query, schema):
        base_table = schema.snowflake.fact_name
        path = schema.nested_path
        # base_table, path = tail_field(frum)
        # schema = self.snowflake.tables[path].schema
        index_to_column = {}
        nest_to_alias = {
            nested_path: "__" + unichr(ord('a') + i) + "__"
            for i, nested_path in enumerate(self.schema.snowflake.query_paths)
        }
        tables = []
        for n, a in nest_to_alias.items():
            if startswith_field(path, n):
                tables.append({"nest": n, "alias": a})
        tables = jx.sort(tables, {"value": {"length": "nest"}})

        from_sql = join_field(
            [base_table] + split_field(tables[0].nest)) + " " + tables[0].alias
        previous = tables[0]
        for t in tables[1::]:
            from_sql += (SQL_LEFT_JOIN +
                         quote_column(concat_field(base_table, t.nest)) + " " +
                         t.alias + SQL_ON + quote_column(t.alias, PARENT) +
                         SQL_EQ + quote_column(previous.alias, UID))

        selects = []
        groupby = []
        for i, e in enumerate(query.groupby):
            for edge_sql in SQLang[e.value].to_sql(schema):
                column_number = len(selects)
                sql_type, sql = edge_sql.sql.items()[0]
                if sql is SQL_NULL and not e.value.var in schema.keys():
                    Log.error("No such column {{var}}", var=e.value.var)

                column_alias = _make_column_name(column_number)
                groupby.append(sql)
                selects.append(sql_alias(sql, column_alias))
                if edge_sql.nested_path == ".":
                    select_name = edge_sql.name
                else:
                    select_name = "."
                index_to_column[column_number] = ColumnMapping(
                    is_edge=True,
                    push_name=e.name,
                    push_column_name=e.name.replace("\\.", "."),
                    push_column=i,
                    push_child=select_name,
                    pull=get_column(column_number),
                    sql=sql,
                    column_alias=column_alias,
                    type=sql_type_to_json_type[sql_type])

        for i, select in enumerate(listwrap(query.select)):
            column_number = len(selects)
            sql_type, sql = SQLang[select.value].to_sql(
                schema)[0].sql.items()[0]
            if sql == 'NULL' and not select.value.var in schema.keys():
                Log.error("No such column {{var}}", var=select.value.var)

            # AGGREGATE
            if select.value == "." and select.aggregate == "count":
                sql = sql_count(SQL_ONE)
            else:
                sql = sql_call(sql_aggs[select.aggregate], sql)

            if select.default != None:
                sql = sql_coalesce([sql, quote_value(select.default)])

            selects.append(sql_alias(sql, select.name))

            index_to_column[column_number] = ColumnMapping(
                push_name=select.name,
                push_column_name=select.name,
                push_column=i + len(query.groupby),
                push_child=".",
                pull=get_column(column_number),
                sql=sql,
                column_alias=quote_column(select.name),
                type=sql_type_to_json_type[sql_type])

        for w in query.window:
            selects.append(self._window_op(self, query, w))

        where = SQLang[query.where].to_sql(schema)[0].sql.b

        command = (SQL_SELECT + (sql_list(selects)) + SQL_FROM + from_sql +
                   SQL_WHERE + where + SQL_GROUPBY + sql_list(groupby))

        if query.sort:
            command += SQL_ORDERBY + sql_list(
                sql_iso(sql[t]) + SQL_IS_NULL + "," + sql[t] +
                (" DESC" if s.sort == -1 else "")
                for s, sql in [(s, SQLang[s.value].to_sql(schema)[0].sql)
                               for s in query.sort] for t in "bns" if sql[t])

        return command, index_to_column
示例#6
0
    def _make_sql_for_one_nest_in_set_op(
            self,
            primary_nested_path,
            selects,  # EVERY SELECT CLAUSE (NOT TO BE USED ON ALL TABLES, OF COURSE
            where_clause,
            active_columns,
            index_to_sql_select  # MAP FROM INDEX TO COLUMN (OR SELECT CLAUSE)
    ):
        """
        FOR EACH NESTED LEVEL, WE MAKE A QUERY THAT PULLS THE VALUES/COLUMNS REQUIRED
        WE `UNION ALL` THEM WHEN DONE
        :param primary_nested_path:
        :param selects:
        :param where_clause:
        :param active_columns:
        :param index_to_sql_select:
        :return: SQL FOR ONE NESTED LEVEL
        """

        parent_alias = "a"
        from_clause = ""
        select_clause = []
        children_sql = []
        done = []
        if not where_clause:
            where_clause = SQL_TRUE
        # STATEMENT FOR EACH NESTED PATH
        for i, (nested_path, sub_table) in enumerate(self.snowflake.tables):
            if any(startswith_field(nested_path, d) for d in done):
                continue

            alias = "__" + unichr(ord('a') + i) + "__"

            if primary_nested_path == nested_path:
                select_clause = []
                # ADD SELECT CLAUSE HERE
                for select_index, s in enumerate(selects):
                    sql_select = index_to_sql_select.get(select_index)
                    if not sql_select:
                        select_clause.append(selects[select_index])
                        continue

                    if startswith_field(sql_select.nested_path[0],
                                        nested_path):
                        select_clause.append(
                            sql_alias(sql_select.sql, sql_select.column_alias))
                    else:
                        # DO NOT INCLUDE DEEP STUFF AT THIS LEVEL
                        select_clause.append(
                            sql_alias(SQL_NULL, sql_select.column_alias))

                if nested_path == ".":
                    from_clause += SQL_FROM + sql_alias(
                        quote_column(self.snowflake.fact_name), alias)
                else:
                    from_clause += (SQL_LEFT_JOIN + sql_alias(
                        quote_column(
                            concat_field(self.snowflake.fact_name,
                                         sub_table.name)), alias) + SQL_ON +
                                    quote_column(alias, PARENT) + " = " +
                                    quote_column(parent_alias, UID))
                    where_clause = sql_iso(
                        where_clause) + SQL_AND + quote_column(alias,
                                                               ORDER) + " > 0"
                parent_alias = alias

            elif startswith_field(primary_nested_path, nested_path):
                # PARENT TABLE
                # NO NEED TO INCLUDE COLUMNS, BUT WILL INCLUDE ID AND ORDER
                if nested_path == ".":
                    from_clause += SQL_FROM + quote_column(
                        self.snowflake.fact_name + " " + alias)
                else:
                    parent_alias = alias = unichr(ord('a') + i - 1)
                    from_clause += (SQL_LEFT_JOIN + quote_column(
                        concat_field(self.snowflake.fact_name,
                                     sub_table.name)) + " " + alias + SQL_ON +
                                    quote_column(alias, PARENT) + " = " +
                                    quote_column(parent_alias, UID))
                    where_clause = sql_iso(
                        where_clause) + SQL_AND + quote_column(
                            parent_alias, ORDER) + " > 0"
                parent_alias = alias

            elif startswith_field(nested_path, primary_nested_path):
                # CHILD TABLE
                # GET FIRST ROW FOR EACH NESTED TABLE
                from_clause += (SQL_LEFT_JOIN + sql_alias(
                    quote_column(
                        concat_field(self.snowflake.fact_name,
                                     sub_table.name)), alias) + SQL_ON +
                                quote_column(alias, PARENT) + " = " +
                                quote_column(parent_alias, UID) + SQL_AND +
                                quote_column(alias, ORDER) + " = 0")

                # IMMEDIATE CHILDREN ONLY
                done.append(nested_path)
                # NESTED TABLES WILL USE RECURSION
                children_sql.append(
                    self._make_sql_for_one_nest_in_set_op(
                        nested_path,
                        selects,  # EVERY SELECT CLAUSE (NOT TO BE USED ON ALL TABLES, OF COURSE
                        where_clause,
                        active_columns,
                        index_to_sql_select  # MAP FROM INDEX TO COLUMN (OR SELECT CLAUSE)
                    ))
            else:
                # SIBLING PATHS ARE IGNORED
                continue

        sql = SQL_UNION_ALL.join([
            SQL_SELECT + sql_list(select_clause) + from_clause + SQL_WHERE +
            where_clause
        ] + children_sql)

        return sql
示例#7
0
    def _set_op(self, query):
        # GET LIST OF SELECTED COLUMNS
        vars_ = UNION([
            v.var for select in listwrap(query.select)
            for v in select.value.vars()
        ])
        schema = self.schema
        known_vars = schema.keys()

        active_columns = {".": set()}
        for v in vars_:
            for c in schema.leaves(v):
                nest = c.nested_path[0]
                active_columns.setdefault(nest, set()).add(c)

        # ANY VARS MENTIONED WITH NO COLUMNS?
        for v in vars_:
            if not any(startswith_field(cname, v) for cname in known_vars):
                active_columns["."].add(
                    Column(name=v,
                           jx_type=IS_NULL,
                           es_column=".",
                           es_index=".",
                           es_type='NULL',
                           nested_path=["."],
                           last_updated=Date.now()))

        # EVERY COLUMN, AND THE INDEX IT TAKES UP
        index_to_column = {}  # MAP FROM INDEX TO COLUMN (OR SELECT CLAUSE)
        index_to_uid = {}  # FROM NESTED PATH TO THE INDEX OF UID
        sql_selects = [
        ]  # EVERY SELECT CLAUSE (NOT TO BE USED ON ALL TABLES, OF COURSE)
        nest_to_alias = {
            nested_path[0]: "__" + unichr(ord('a') + i) + "__"
            for i, nested_path in enumerate(self.snowflake.query_paths)
        }

        sorts = []
        if query.sort:
            for select in query.sort:
                col = SQLang[select.value].to_sql(schema)[0]
                for t, sql in col.sql.items():
                    json_type = sql_type_to_json_type[t]
                    if json_type in STRUCT:
                        continue
                    column_number = len(sql_selects)
                    # SQL HAS ABS TABLE REFERENCE
                    column_alias = _make_column_name(column_number)
                    sql_selects.append(sql_alias(sql, column_alias))
                    if select.sort == -1:
                        sorts.append(quote_column(column_alias) + SQL_IS_NULL)
                        sorts.append(quote_column(column_alias) + " DESC")
                    else:
                        sorts.append(quote_column(column_alias) + SQL_IS_NULL)
                        sorts.append(quote_column(column_alias))

        primary_doc_details = Data()
        # EVERY SELECT STATEMENT THAT WILL BE REQUIRED, NO MATTER THE DEPTH
        # WE WILL CREATE THEM ACCORDING TO THE DEPTH REQUIRED
        nested_path = []
        for step, sub_table in self.snowflake.tables:
            nested_path.insert(0, step)
            nested_doc_details = {
                "sub_table": sub_table,
                "children": [],
                "index_to_column": {},
                "nested_path": nested_path
            }

            # INSERT INTO TREE
            if not primary_doc_details:
                primary_doc_details = nested_doc_details
            else:

                def place(parent_doc_details):
                    if startswith_field(step,
                                        parent_doc_details['nested_path'][0]):
                        for c in parent_doc_details['children']:
                            if place(c):
                                return True
                        parent_doc_details['children'].append(
                            nested_doc_details)

                place(primary_doc_details)

            alias = nested_doc_details['alias'] = nest_to_alias[step]

            # WE ALWAYS ADD THE UID
            column_number = index_to_uid[step] = nested_doc_details[
                'id_coord'] = len(sql_selects)
            sql_select = quote_column(alias, UID)
            sql_selects.append(
                sql_alias(sql_select, _make_column_name(column_number)))
            if step != ".":
                # ID AND ORDER FOR CHILD TABLES
                index_to_column[column_number] = ColumnMapping(
                    sql=sql_select,
                    type="number",
                    nested_path=nested_path,
                    column_alias=_make_column_name(column_number))
                column_number = len(sql_selects)
                sql_select = quote_column(alias, ORDER)
                sql_selects.append(
                    sql_alias(sql_select, _make_column_name(column_number)))
                index_to_column[column_number] = ColumnMapping(
                    sql=sql_select,
                    type="number",
                    nested_path=nested_path,
                    column_alias=_make_column_name(column_number))

            # WE DO NOT NEED DATA FROM TABLES WE REQUEST NOTHING FROM
            if step not in active_columns:
                continue

            # ADD SQL SELECT COLUMNS FOR EACH jx SELECT CLAUSE
            si = 0
            for select in listwrap(query.select):
                try:
                    column_number = len(sql_selects)
                    select.pull = get_column(column_number)
                    db_columns = SQLang[select.value].partial_eval().to_sql(
                        schema)

                    for column in db_columns:
                        for t, unsorted_sql in column.sql.items():
                            json_type = sql_type_to_json_type[t]
                            if json_type in STRUCT:
                                continue
                            column_number = len(sql_selects)
                            column_alias = _make_column_name(column_number)
                            sql_selects.append(
                                sql_alias(unsorted_sql, column_alias))
                            if startswith_field(schema.path, step) and is_op(
                                    select.value, LeavesOp):
                                # ONLY FLATTEN primary_nested_path AND PARENTS, NOT CHILDREN
                                index_to_column[
                                    column_number] = nested_doc_details[
                                        'index_to_column'][
                                            column_number] = ColumnMapping(
                                                push_name=literal_field(
                                                    get_property_name(
                                                        concat_field(
                                                            select.name,
                                                            column.name))),
                                                push_child=".",
                                                push_column_name=
                                                get_property_name(
                                                    concat_field(
                                                        select.name,
                                                        column.name)),
                                                push_column=si,
                                                pull=get_column(column_number),
                                                sql=unsorted_sql,
                                                type=json_type,
                                                column_alias=column_alias,
                                                nested_path=nested_path)
                                si += 1
                            else:
                                index_to_column[
                                    column_number] = nested_doc_details[
                                        'index_to_column'][
                                            column_number] = ColumnMapping(
                                                push_name=select.name,
                                                push_child=column.name,
                                                push_column_name=select.name,
                                                push_column=si,
                                                pull=get_column(column_number),
                                                sql=unsorted_sql,
                                                type=json_type,
                                                column_alias=column_alias,
                                                nested_path=nested_path)
                finally:
                    si += 1

        where_clause = BooleanOp(query.where).partial_eval().to_sql(
            schema, boolean=True)[0].sql.b
        unsorted_sql = self._make_sql_for_one_nest_in_set_op(
            ".", sql_selects, where_clause, active_columns, index_to_column)

        for n, _ in self.snowflake.tables:
            sorts.append(quote_column(COLUMN + text(index_to_uid[n])))

        ordered_sql = ConcatSQL(
            (SQL_SELECT, SQL_STAR, SQL_FROM,
             sql_iso(unsorted_sql), SQL_ORDERBY, sql_list(sorts), SQL_LIMIT,
             quote_value(query.limit)))
        result = self.db.query(ordered_sql)

        def _accumulate_nested(rows, row, nested_doc_details, parent_doc_id,
                               parent_id_coord):
            """
            :param rows: REVERSED STACK OF ROWS (WITH push() AND pop())
            :param row: CURRENT ROW BEING EXTRACTED
            :param nested_doc_details: {
                    "nested_path": wrap_nested_path(nested_path),
                    "index_to_column": map from column number to column details
                    "children": all possible direct decedents' nested_doc_details
                 }
            :param parent_doc_id: the id of the parent doc (for detecting when to step out of loop)
            :param parent_id_coord: the column number for the parent id (so we ca extract from each row)
            :return: the nested property (usually an array)
            """
            previous_doc_id = None
            doc = Null
            output = []
            id_coord = nested_doc_details['id_coord']

            while True:
                doc_id = row[id_coord]

                if doc_id == None or (parent_id_coord is not None and
                                      row[parent_id_coord] != parent_doc_id):
                    rows.append(
                        row
                    )  # UNDO PREVIOUS POP (RECORD IS NOT A NESTED RECORD OF parent_doc)
                    return output

                if doc_id != previous_doc_id:
                    previous_doc_id = doc_id
                    doc = Null
                    curr_nested_path = nested_doc_details['nested_path'][0]
                    index_to_column = nested_doc_details[
                        'index_to_column'].items()
                    for i, c in index_to_column:
                        value = row[i]
                        if is_list(query.select) or is_op(
                                query.select.value, LeavesOp):
                            # ASSIGN INNER PROPERTIES
                            relative_field = concat_field(
                                c.push_name, c.push_child)
                        else:  # FACT IS EXPECTED TO BE A SINGLE VALUE, NOT AN OBJECT
                            relative_field = c.push_child

                        if relative_field == ".":
                            if exists(value):
                                doc = value
                        elif exists(value):
                            if doc is Null:
                                doc = Data()
                            doc[relative_field] = value

                for child_details in nested_doc_details['children']:
                    # EACH NESTED TABLE MUST BE ASSEMBLED INTO A LIST OF OBJECTS
                    child_id = row[child_details['id_coord']]
                    if child_id is not None:
                        nested_value = _accumulate_nested(
                            rows, row, child_details, doc_id, id_coord)
                        if nested_value != None:
                            push_name = child_details['nested_path'][0]
                            if is_list(query.select) or is_op(
                                    query.select.value, LeavesOp):
                                # ASSIGN INNER PROPERTIES
                                relative_field = relative_field(
                                    push_name, curr_nested_path)
                            else:  # FACT IS EXPECTED TO BE A SINGLE VALUE, NOT AN OBJECT
                                relative_field = "."

                            if relative_field == ".":
                                doc = unwraplist(nested_value)
                            else:
                                doc[relative_field] = unwraplist(nested_value)

                output.append(doc)

                try:
                    row = rows.pop()
                except IndexError:
                    return output

        cols = tuple(
            [i for i in index_to_column.values() if i.push_name != None])
        rows = list(reversed(unwrap(result.data)))
        if rows:
            row = rows.pop()
            data = _accumulate_nested(rows, row, primary_doc_details, None,
                                      None)
        else:
            data = result.data

        if query.format == "cube":
            # for f, full_name in self.snowflake.tables:
            #     if f != '.' or (test_dots(cols) and is_list(query.select)):
            #         num_rows = len(result.data)
            #         num_cols = MAX([c.push_column for c in cols]) + 1 if len(cols) else 0
            #         map_index_to_name = {c.push_column: c.push_column_name for c in cols}
            #         temp_data = [[None] * num_rows for _ in range(num_cols)]
            #         for rownum, d in enumerate(result.data):
            #             for c in cols:
            #                 if c.push_child == ".":
            #                     temp_data[c.push_column][rownum] = c.pull(d)
            #                 else:
            #                     column = temp_data[c.push_column][rownum]
            #                     if column is None:
            #                         column = temp_data[c.push_column][rownum] = {}
            #                     column[c.push_child] = c.pull(d)
            #         output = Data(
            #             meta={"format": "cube"},
            #             data={n: temp_data[c] for c, n in map_index_to_name.items()},
            #             edges=[{
            #                 "name": "rownum",
            #                 "domain": {
            #                     "type": "rownum",
            #                     "min": 0,
            #                     "max": num_rows,
            #                     "interval": 1
            #                 }
            #             }]
            #         )
            #         return output

            if is_list(query.select) or is_op(query.select.value, LeavesOp):
                num_rows = len(data)
                temp_data = {
                    c.push_column_name: [None] * num_rows
                    for c in cols
                }
                for rownum, d in enumerate(data):
                    for c in cols:
                        temp_data[c.push_column_name][rownum] = d[c.push_name]
                return Data(meta={"format": "cube"},
                            data=temp_data,
                            edges=[{
                                "name": "rownum",
                                "domain": {
                                    "type": "rownum",
                                    "min": 0,
                                    "max": num_rows,
                                    "interval": 1
                                }
                            }])
            else:
                num_rows = len(data)
                map_index_to_name = {
                    c.push_column: c.push_column_name
                    for c in cols
                }
                temp_data = [data]

                return Data(meta={"format": "cube"},
                            data={
                                n: temp_data[c]
                                for c, n in map_index_to_name.items()
                            },
                            edges=[{
                                "name": "rownum",
                                "domain": {
                                    "type": "rownum",
                                    "min": 0,
                                    "max": num_rows,
                                    "interval": 1
                                }
                            }])

        elif query.format == "table":
            # for f, _ in self.snowflake.tables:
            #     if frum.endswith(f):
            #         num_column = MAX([c.push_column for c in cols]) + 1
            #         header = [None] * num_column
            #         for c in cols:
            #             header[c.push_column] = c.push_column_name
            #
            #         output_data = []
            #         for d in result.data:
            #             row = [None] * num_column
            #             for c in cols:
            #                 set_column(row, c.push_column, c.push_child, c.pull(d))
            #             output_data.append(row)
            #
            #         return Data(
            #             meta={"format": "table"},
            #             header=header,
            #             data=output_data
            #         )
            if is_list(query.select) or is_op(query.select.value, LeavesOp):
                column_names = [None] * (max(c.push_column for c in cols) + 1)
                for c in cols:
                    column_names[c.push_column] = c.push_column_name

                temp_data = []
                for rownum, d in enumerate(data):
                    row = [None] * len(column_names)
                    for c in cols:
                        row[c.push_column] = d[c.push_name]
                    temp_data.append(row)

                return Data(meta={"format": "table"},
                            header=column_names,
                            data=temp_data)
            else:
                column_names = listwrap(query.select).name
                return Data(meta={"format": "table"},
                            header=column_names,
                            data=[[d] for d in data])

        else:
            # for f, _ in self.snowflake.tables:
            #     if frum.endswith(f) or (test_dots(cols) and is_list(query.select)):
            #         data = []
            #         for d in result.data:
            #             row = Data()
            #             for c in cols:
            #                 if c.push_child == ".":
            #                     row[c.push_name] = c.pull(d)
            #                 elif c.num_push_columns:
            #                     tuple_value = row[c.push_name]
            #                     if not tuple_value:
            #                         tuple_value = row[c.push_name] = [None] * c.num_push_columns
            #                     tuple_value[c.push_child] = c.pull(d)
            #                 else:
            #                     row[c.push_name][c.push_child] = c.pull(d)
            #
            #             data.append(row)
            #
            #         return Data(
            #             meta={"format": "list"},
            #             data=data
            #         )

            if is_list(query.select) or is_op(query.select.value, LeavesOp):
                temp_data = []
                for rownum, d in enumerate(data):
                    row = {}
                    for c in cols:
                        row[c.push_column_name] = d[c.push_name]
                    temp_data.append(row)
                return Data(meta={"format": "list"}, data=temp_data)
            else:
                return Data(meta={"format": "list"}, data=data)
示例#8
0
 def test_regex_range(self):
     for i in range(9, 4000):
         c = unichr(i)
         pattern = regex_range(c)
         found = re.match(pattern, c)
         self.assertTrue(bool(found))
示例#9
0
            url = url + '#' + value2url_param(self.fragment)
        return url


def int2hex(value, size):
    return (("0" * size) + hex(value)[2:])[-size:]


if PY2:
    _map2url = {chr(i): chr(i) for i in range(32, 128)}
    for c in " {}<>;/?:@&=+$,":
        _map2url[c] = "%" + str(int2hex(ord(c), 2))
    for i in range(128, 256):
        _map2url[chr(i)] = "%" + str(int2hex(i, 2))
else:
    _map2url = {unichr(i): unichr(i) for i in range(32, 128)}
    for c in " {}<>;/?:@&=+$,":
        _map2url[c] = "%" + int2hex(ord(c), 2)
    for i in range(128, 256):
        _map2url[unichr(i)] = "%" + str(int2hex(i, 2))

names = ["path", "query", "fragment"]
indicator = ["/", "?", "#"]


def parse(output, suffix, curr, next):
    if next == len(indicator):
        output.__setattr__(names[curr], suffix)
        return

    e = suffix.find(indicator[next])
示例#10
0
def to_range(tokens):
    min_ = tokens["min"].parser_config.match
    max_ = tokens["max"].parser_config.match
    return Char("".join(unichr(i) for i in range(ord(min_), ord(max_) + 1)))
示例#11
0
def hex2chr(hex):
    return unichr(int(hex, 16))
示例#12
0
def hex_to_char(t):
    return Literal(unichr(int(t.value().lower().split("x")[1], 16)))
示例#13
0
    | bs_char
    | tab_char
)
escapedChar = (
    ~macro + Combine("\\" + AnyChar())
).addParseAction(lambda t: Literal(t.value()[1]))
plainChar = Char(exclude=r"\]").addParseAction(lambda t: Literal(t.value()))

escapedHexChar = Combine(
    (Literal("\\0x") | Literal("\\x") | Literal("\\X"))  # lookup literals is faster
    + OneOrMore(Char(hexnums))
).addParseAction(hex_to_char)

escapedOctChar = Combine(
    Literal("\\0") + OneOrMore(Char("01234567"))
).addParseAction(lambda t: Literal(unichr(int(t.value()[2:], 8))))

singleChar = escapedHexChar | escapedOctChar | escapedChar | plainChar

charRange = Group(singleChar("min") + "-" + singleChar("max")).addParseAction(to_range)

brackets = (
    "["
    + Optional("^")("negate")
    + OneOrMore(Group(charRange | singleChar | macro)("body"))
    + "]"
).addParseAction(to_bracket)

#########################################################################################
# REGEX
regex = Forward()
示例#14
0
def hex2chr(hex):
    return unichr(int(hex, 16))
示例#15
0
def int2hex(value, size):
    return (("0" * size) + hex(value)[2:])[-size:]


def hex2chr(hex):
    return unichr(int(hex, 16))


if PY2:
    _map2url = {chr(i): chr(i) for i in range(32, 128)}
    for c in " {}<>;/?:@&=+$,":
        _map2url[c] = "%" + str(int2hex(ord(c), 2))
    for i in range(128, 256):
        _map2url[chr(i)] = "%" + str(int2hex(i, 2))
else:
    _map2url = {i: unichr(i) for i in range(32, 128)}
    for c in b" {}<>;/?:@&=+$,":
        _map2url[c] = "%" + int2hex(c, 2)
    for i in range(128, 256):
        _map2url[i] = "%" + str(int2hex(i, 2))


names = ["path", "query", "fragment"]
indicator = ["/", "?", "#"]


def parse(output, suffix, curr, next):
    if next == len(indicator):
        output.__setattr__(names[curr], suffix)
        return
示例#16
0
         | any_char
         | bs_char
         | tab_char)
escapedChar = (
    ~macro +
    Combine("\\" + AnyChar())).addParseAction(lambda t: Literal(t.value()[1]))
plainChar = Char(exclude=r"\]").addParseAction(lambda t: Literal(t.value()))

escapedHexChar = Combine((Literal("\\0x") | Literal("\\x")
                          | Literal("\\X"))  # lookup literals is faster
                         +
                         OneOrMore(Char(hexnums))).addParseAction(hex_to_char)

escapedOctChar = Combine(Literal("\\0") +
                         OneOrMore(Char("01234567"))).addParseAction(
                             lambda t: Literal(unichr(int(t.value()[2:], 8))))

singleChar = escapedHexChar | escapedOctChar | escapedChar | plainChar

charRange = Group(singleChar("min") + "-" +
                  singleChar("max")).addParseAction(to_range)

brackets = ("[" + Optional("^")("negate") +
            OneOrMore(Group(charRange | singleChar | macro)("body")) +
            "]").addParseAction(to_bracket)

#########################################################################################
# REGEX
regex = Forward()

line_start = Literal("^").addParseAction(lambda: LineStart())