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Code Editor : result.py
# MySQL Connector/Python - MySQL driver written in Python. # Copyright (c) 2016, Oracle and/or its affiliates. All rights reserved. # MySQL Connector/Python is licensed under the terms of the GPLv2 # <http://www.gnu.org/licenses/old-licenses/gpl-2.0.html>, like most # MySQL Connectors. There are special exceptions to the terms and # conditions of the GPLv2 as it is applied to this software, see the # FOSS License Exception # <http://www.mysql.com/about/legal/licensing/foss-exception.html>. # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA """Implementation of the Result Set classes.""" import decimal import struct import sys from datetime import datetime, timedelta from .dbdoc import DbDoc from .charsets import MYSQL_CHARACTER_SETS from .compat import STRING_TYPES def decode_from_bytes(value, encoding="utf-8"): return value.decode(encoding) if isinstance(value, bytes) else value def from_protobuf(col_type, payload): if len(payload) == 0: return None try: return { ColumnProtoType.SINT: varsint_from_protobuf, ColumnProtoType.UINT: varint_from_protobuf, ColumnProtoType.BYTES: bytes_from_protobuf, ColumnProtoType.DATETIME: datetime_from_protobuf, ColumnProtoType.TIME: time_from_protobuf, ColumnProtoType.FLOAT: float_from_protobuf, ColumnProtoType.DOUBLE: double_from_protobuf, ColumnProtoType.BIT: varint_from_protobuf, ColumnProtoType.SET: set_from_protobuf, ColumnProtoType.ENUM: bytes_from_protobuf, ColumnProtoType.DECIMAL: decimal_from_protobuf, }[col_type](payload) except KeyError as e: sys.stderr.write("{0}".format(e)) sys.stderr.write("{0}".format(payload.encode("hex"))) return None def bytes_from_protobuf(payload): # Strip trailing char return payload[:-1] def float_from_protobuf(payload): assert len(payload) == 4 return struct.unpack("<f", payload) def double_from_protobuf(payload): assert len(payload) == 8 return struct.unpack("<d", payload) def varint_from_protobuf_stream(payload): if len(payload) == 0: raise ValueError("Payload is empty") cur = 0 i = 0 shift = 0 for c in payload: ch = c if isinstance(c, int) else ord(c) eos = (ch & 0x80) == 0 cur_bits = (ch & 0x7f) cur_bits <<= shift i |= cur_bits if eos: return i, payload[cur + 1:] cur += 1 shift += 7 raise EOFError("Payload too short") def varint_from_protobuf(payload): i, payload = varint_from_protobuf_stream(payload) if len(payload) != 0: raise ValueError("Payload too long") return i def varsint_from_protobuf(payload): i, payload = varint_from_protobuf_stream(payload) if len(payload) != 0: raise ValueError("Payload too long") # Zigzag encoded, revert it if i & 0x1: i = ~i i = (i >> 1) i |= 1 << 63 else: i = (i >> 1) return i def set_from_protobuf(payload): s = [] while True: try: field_len, payload = varint_from_protobuf_stream(payload) if len(payload) < field_len: if len(payload) == 0 and field_len == 1 and len(s) == 0: # Special case for empty set return [] raise ValueError("Invalid Set encoding") s.append(payload[:field_len]) payload = payload[field_len:] if len(payload) == 0: # Done break except ValueError: break return s def decimal_from_protobuf(payload): digits = [] sign = None scale = ord(payload[0]) payload = payload[1:] for c in payload: ch = ord(c) high_bcd = (ch & 0xf0) >> 4 low_bcd = ch & 0x0f if high_bcd < 0x0a: digits.append(high_bcd) if low_bcd < 0x0a: digits.append(low_bcd) elif low_bcd == 0x0c: sign = 0 break elif low_bcd == 0x0d: sign = 1 break else: raise ValueError("Invalid BCD") elif high_bcd == 0x0c: sign = 0 assert low_bcd == 0x00 break elif high_bcd == 0x0d: sign = 1 assert low_bcd == 0x00 break else: raise ValueError("Invalid BCD: {0}".format(high_bcd)) return decimal.Decimal((sign, digits, -scale)) def datetime_from_protobuf(payload): # A sequence of varints hour = 0 minutes = 0 seconds = 0 useconds = 0 year, payload = varint_from_protobuf_stream(payload) month, payload = varint_from_protobuf_stream(payload) day, payload = varint_from_protobuf_stream(payload) try: hour, payload = varint_from_protobuf_stream(payload) minutes, payload = varint_from_protobuf_stream(payload) seconds, payload = varint_from_protobuf_stream(payload) useconds, payload = varint_from_protobuf_stream(payload) except ValueError: pass return datetime(year, month, day, hour, minutes, seconds, useconds) def time_from_protobuf(payload): # A sequence of varints hour = 0 minutes = 0 seconds = 0 useconds = 0 negate = payload[0] == 1 payload = payload[1:] try: hour, payload = varint_from_protobuf_stream(payload) minutes, payload = varint_from_protobuf_stream(payload) seconds, payload = varint_from_protobuf_stream(payload) useconds, payload = varint_from_protobuf_stream(payload) except ValueError: pass if negate: # Negate the first non-zero value if hour: hour *= -1 elif minutes: minutes *= -1 elif seconds: seconds *= -1 elif useconds: useconds *= -1 return timedelta(hours=hour, minutes=minutes, seconds=seconds, microseconds=useconds) class Collations(object): UTF8_GENERAL_CI = 33 class ColumnType(object): BIT = 1 TINYINT = 2 SMALLINT = 3 MEDIUMINT = 4 INT = 5 BIGINT = 6 REAL = 7 FLOAT = 8 DECIMAL = 9 NUMERIC = 10 DOUBLE = 11 JSON = 12 STRING = 13 BYTES = 14 TIME = 15 DATE = 16 DATETIME = 17 TIMESTAMP = 18 SET = 19 ENUM = 20 GEOMETRY = 21 XML = 22 YEAR = 23 CHAR = 24 VARCHAR = 25 BINARY = 26 VARBINARY = 27 TINYBLOB = 28 BLOB = 29 MEDIUMBLOB = 30 LONGBLOB = 31 TINYTEXT = 32 TEXT = 33 MEDIUMTEXT = 34 LONGTEXT = 35 @classmethod def to_string(cls, needle): for key, value in vars(cls).items(): if value == needle: return key @classmethod def from_string(cls, key): return getattr(cls, key.upper(), None) @classmethod def is_char(cls, col_type): return col_type in (cls.CHAR, cls.VARCHAR,) @classmethod def is_binary(cls, col_type): return col_type in (cls.BINARY, cls.VARBINARY,) @classmethod def is_text(cls, col_type): return col_type in (cls.TEXT, cls.TINYTEXT, cls.MEDIUMTEXT, cls.LONGTEXT,) @classmethod def is_decimals(cls, col_type): return col_type in (cls.REAL, cls.DOUBLE, cls.FLOAT, cls.DECIMAL, cls.NUMERIC,) @classmethod def is_numeric(cls, col_type): return col_type in (cls.BIT, cls.TINYINT, cls.SMALLINT, cls.MEDIUMINT, cls.INT, cls.BIGINT,) @classmethod def is_finite_set(cls, col_type): return col_type in (cls.SET, cls.ENUM,) class ColumnProtoType(object): SINT = 1 UINT = 2 DOUBLE = 5 FLOAT = 6 BYTES = 7 TIME = 10 DATETIME = 12 SET = 15 ENUM = 16 BIT = 17 DECIMAL = 18 class Flags(object): def __init__(self, value): self._allowed_flags = {} self._flag_names = {} for k, v in self.__class__.__dict__.items(): if k.startswith("__"): continue if type(v) in (int, ): self._allowed_flags[k] = v self._flag_names[v] = k self.value = value def __str__(self): mask = 1 flag_names = [] value = self.value for _ in range(0, 63): mask <<= 1 flag = value & mask if flag: # We matched something, find the name for it try: flag_names.append(self._flag_names[flag]) except KeyError: sys.stderr.write("{0}".format(self._flag_names)) sys.stderr.write("{0}".format(self.__class__.__dict__)) return ",".join(flag_names) @property def value(self): return self._value @value.setter def value(self, v): self._value = v class ColumnFlags(Flags): NOT_NULL = 0x0010 PRIMARY_KEY = 0x0020 UNIQUE_KEY = 0x0040 MULTIPLE_KEY = 0x0080 AUTO_INCREMENT = 0x0100 class DatetimeColumnFlags(ColumnFlags): TIMESTAMP = 0x0001 class UIntColumnFlags(ColumnFlags): ZEROFILL = 0x0001 class DoubleColumnFlags(ColumnFlags): UNSIGNED = 0x0001 class FloatColumnFlags(ColumnFlags): UNSIGNED = 0x0001 class BytesColumnFlags(ColumnFlags): RIGHT_PAD = 0x0001 class BytesContentType(ColumnFlags): GEOMETRY = 0x0001 JSON = 0x0002 XML = 0x0003 class ColumnMetaData(object): def __init__(self, col_type, catalog=None, schema=None, table=None, original_table=None, name=None, original_name=None, length=None, collation=None, fractional_digits=None, flags=None, content_type=None): self._schema = decode_from_bytes(schema) self._name = decode_from_bytes(name) self._original_name = decode_from_bytes(original_name) self._table = decode_from_bytes(table) self._original_table = decode_from_bytes(original_table) self._proto_type = col_type self._col_type = None self._catalog = catalog self._length = length self._collation = collation self._fractional_digits = fractional_digits self._flags = flags self._content_type = content_type self._number_signed = False self._is_padded = False self._is_binary = False self._is_bytes = False self._collation_name = None self._character_set_name = None if self._collation > 0: if self._collation >= len(MYSQL_CHARACTER_SETS): raise ValueError("No mapping found for collation {0}" "".format(self._collation)) info = MYSQL_CHARACTER_SETS[self._collation] self._character_set_name = info[0] self._collation_name = info[1] self._is_binary = ("binary" in self._collation_name or "_bin" in self._collation_name) self._map_type() self._is_bytes = self._col_type in ( ColumnType.GEOMETRY, ColumnType.JSON, ColumnType.XML, ColumnType.BYTES, ColumnType.STRING) def __str__(self): return str({ "col_type": self._col_type, "schema": self._schema, "table": self._table, "flags": str(self._flags), }) def get_schema_name(self): return self._schema def get_table_name(self): return self._original_table or self._table def get_table_label(self): return self._table or self._original_table def get_column_name(self): return self._original_name or self._name def get_column_label(self): return self._name or self._original_name def get_type(self): return self._col_type def get_length(self): return self._length def get_fractional_digits(self): return self._fractional_digits def get_collation_name(self): return self._collation_name def get_character_set_name(self): return self._character_set_name def is_number_signed(self): return self._number_signed def is_padded(self): return self._is_padded def is_bytes(self): return self._is_bytes def _map_int_type(self): if self._length <= 4: self._col_type = ColumnType.TINYINT elif self._length <= 6: self._col_type = ColumnType.SMALLINT elif self._length <= 9: self._col_type = ColumnType.MEDIUMINT elif self._length <= 11: self._col_type = ColumnType.INT else: self._col_type = ColumnType.BIGINT self._number_signed = True def _map_uint_type(self): if self._length <= 3: self._col_type = ColumnType.TINYINT elif self._length <= 5: self._col_type = ColumnType.SMALLINT elif self._length <= 8: self._col_type = ColumnType.MEDIUMINT elif self._length <= 10: self._col_type = ColumnType.INT else: self._col_type = ColumnType.BIGINT self._zero_fill = self._flags & 1 def _map_bytes(self): if self._content_type == BytesContentType.GEOMETRY: self._col_type = ColumnType.GEOMETRY elif self._content_type == BytesContentType.JSON: self._col_type = ColumnType.JSON elif self._content_type == BytesContentType.XML: self._col_type = ColumnType.XML elif self._is_binary: self._col_type = ColumnType.BYTES else: self._col_type = ColumnType.STRING self._is_padded = self._flags & 1 def _map_datetime(self): if self._length == 10: self._col_type = ColumnType.DATE elif self._length == 19: self._col_type = ColumnType.DATETIME elif self._flags & DatetimeColumnFlags.TIMESTAMP > 0: self._col_type = ColumnType.TIMESTAMP else: raise ValueError("Datetime mapping scenario unhandled") def _map_type(self): if self._proto_type == ColumnProtoType.SINT: self._map_int_type() elif self._proto_type == ColumnProtoType.UINT: self._map_uint_type() elif self._proto_type == ColumnProtoType.FLOAT: self._col_type = ColumnType.FLOAT self._is_number_signed = \ (self._flags & FloatColumnFlags.UNSIGNED) == 0 elif self._proto_type == ColumnProtoType.DECIMAL: self._col_type = ColumnType.DECIMAL self._is_number_signed = \ (self._flags & FloatColumnFlags.UNSIGNED) == 0 elif self._proto_type == ColumnProtoType.DOUBLE: self._col_type = ColumnType.DOUBLE self._is_number_signed = \ (self._flags & FloatColumnFlags.UNSIGNED) == 0 elif self._proto_type == ColumnProtoType.BYTES: self._map_bytes() elif self._proto_type == ColumnProtoType.TIME: self._col_type = ColumnType.TIME elif self._proto_type == ColumnProtoType.DATETIME: self._map_datetime() elif self._proto_type == ColumnProtoType.SET: self._col_type = ColumnType.SET elif self._proto_type == ColumnProtoType.ENUM: self._col_type = ColumnType.ENUM elif self._proto_type == ColumnProtoType.BIT: self._col_type = ColumnType.BIT else: raise ValueError("Unknown column type {0}".format(self._proto_type)) class Warning(object): def __init__(self, level, code, msg): self._level = level self._code = code self._message = msg @property def Level(self): return self._level @property def Code(self): return self._code @property def Message(self): return self._message class Row(object): """Represents a row element returned from a SELECT query. Args: rs (mysqlx.Result): The Result set. fields (list): The list of fields. """ def __init__(self, rs, fields): self._fields = fields self._resultset = rs def __getitem__(self, index): if isinstance(index, STRING_TYPES): index = self._resultset.index_of(index) elif index >= len(self._fields): raise IndexError("Index out of range") return self._fields[index] def get_string(self, str_index): """Returns the value if the index by string. Args: str_index (str): The string index. """ int_index = self._resultset.index_of(str_index) if int_index >= len(self._fields): raise IndexError("Argument out of range") if int_index == -1: raise ValueError("Column name '{0}' not found".format(str_index)) return str(self._fields[int_index]) class BaseResult(object): """Provides base functionality for result objects. Args: connection (mysqlx.connection.Connection): The Connection object. """ def __init__(self, connection): self._connection = connection self._closed = False self._rows_affected = 0 self._generated_id = -1 self._warnings = [] if connection is None: self._protocol = None else: self._protocol = connection.protocol connection.fetch_active_result() def get_warnings(self): """Returns the warnings. Returns: list: The list of warnings. """ return self._warnings def get_warnings_count(self): """Returns the number of warnings. Returns: int: The number of warnings. """ return len(self._warnings) class Result(BaseResult): """Allows retrieving information about non query operations performed on the database. Args: connection (mysqlx.connection.Connection): The Connection object. ids (list): A list of IDs. """ def __init__(self, connection=None, ids=None): super(Result, self).__init__(connection) self._ids = ids if connection is not None: self._connection.close_result(self) def get_affected_items_count(self): """Returns the number of affected items for the last operation. Returns: int: The number of affected items. """ return self._rows_affected def get_autoincrement_value(self): """Returns the last insert id auto generated. Returns: int: The last insert id. """ return self._generated_id def get_document_id(self): """Returns ID of the last document inserted into a collection. """ if self._ids is None: return None if len(self._ids) == 0: return None return self._ids[0] def get_document_ids(self): """Returns the list of generated documents IDs. """ return self._ids class BufferingResult(BaseResult): def __init__(self, connection): super(BufferingResult, self).__init__(connection) self._init_result() def _init_result(self): self._columns = self._connection.get_column_metadata(self) self._has_more_data = True if len(self._columns) > 0 else False self._items = [] self._page_size = 20 self._position = -1 self._connection._active_result = self if self._has_more_data else None @property def count(self): """int: The total of items. """ return len(self._items) def __getitem__(self, index): return self._items[index] def index_of(self, col_name): """Returns the index of the column. Returns: int: The index of the column. """ index = 0 for col in self._columns: if col.get_column_name() == col_name: return index index = index + 1 return -1 def _read_item(self, dumping): row = self._connection.read_row(self) if row is None: return None item = [None] * len(row.field) if not dumping: for x in range(len(row.field)): col = self._columns[x] value = (decode_from_bytes(row.field[x]) if col.is_bytes() else row.field[x]) item[x] = from_protobuf(col._proto_type, value) return Row(self, item) def _page_in_items(self): if self._closed: return False count = 0 for i in range(self._page_size): item = self._read_item(False) if item is None: break self._items.append(item) count += 1 return count def fetch_one(self): """ Fetch one item. Returns: Row/DbDoc: one result item. """ if self._closed: return None return self._read_item(False) def fetch_all(self): """Fetch all items. Returns: list: The list of items. """ while True: if not self._page_in_items(): break return self._items class RowResult(BufferingResult): """Allows traversing the Row objects returned by a Table.select operation. Args: connection (mysqlx.connection.Connection): The Connection object. """ def __init__(self, connection): super(RowResult, self).__init__(connection) @property def columns(self): """list: The list of columns. """ return self._columns class SqlResult(RowResult): """Represents a result from a SQL statement. Args: connection (mysqlx.connection.Connection): The Connection object. """ def __init__(self, connection): super(SqlResult, self).__init__(connection) self._has_more_results = False def get_autoincrement_value(self): """Returns the identifier for the last record inserted. """ return self._generated_id def next_result(self): if self._closed: return False self._has_more_results = False self._init_result() return True class DocResult(BufferingResult): """Allows traversing the DbDoc objects returned by a Collection.find operation. Args: connection (mysqlx.connection.Connection): The Connection object. """ def __init__(self, connection): super(DocResult, self).__init__(connection) def _read_item(self, dumping): row = super(DocResult, self)._read_item(dumping) if row is None: return None return DbDoc(decode_from_bytes(row[0]))
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