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SickRage/lib/sqlalchemy/dialects/mssql/pyodbc.py

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# mssql/pyodbc.py
# Copyright (C) 2005-2014 the SQLAlchemy authors and contributors <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
"""
.. dialect:: mssql+pyodbc
:name: PyODBC
:dbapi: pyodbc
:connectstring: mssql+pyodbc://<username>:<password>@<dsnname>
:url: http://pypi.python.org/pypi/pyodbc/
Additional Connection Examples
-------------------------------
Examples of pyodbc connection string URLs:
* ``mssql+pyodbc://mydsn`` - connects using the specified DSN named ``mydsn``.
The connection string that is created will appear like::
dsn=mydsn;Trusted_Connection=Yes
* ``mssql+pyodbc://user:pass@mydsn`` - connects using the DSN named
``mydsn`` passing in the ``UID`` and ``PWD`` information. The
connection string that is created will appear like::
dsn=mydsn;UID=user;PWD=pass
* ``mssql+pyodbc://user:pass@mydsn/?LANGUAGE=us_english`` - connects
using the DSN named ``mydsn`` passing in the ``UID`` and ``PWD``
information, plus the additional connection configuration option
``LANGUAGE``. The connection string that is created will appear
like::
dsn=mydsn;UID=user;PWD=pass;LANGUAGE=us_english
* ``mssql+pyodbc://user:pass@host/db`` - connects using a connection
that would appear like::
DRIVER={SQL Server};Server=host;Database=db;UID=user;PWD=pass
* ``mssql+pyodbc://user:pass@host:123/db`` - connects using a connection
string which includes the port
information using the comma syntax. This will create the following
connection string::
DRIVER={SQL Server};Server=host,123;Database=db;UID=user;PWD=pass
* ``mssql+pyodbc://user:pass@host/db?port=123`` - connects using a connection
string that includes the port
information as a separate ``port`` keyword. This will create the
following connection string::
DRIVER={SQL Server};Server=host;Database=db;UID=user;PWD=pass;port=123
* ``mssql+pyodbc://user:pass@host/db?driver=MyDriver`` - connects using a connection
string that includes a custom
ODBC driver name. This will create the following connection string::
DRIVER={MyDriver};Server=host;Database=db;UID=user;PWD=pass
If you require a connection string that is outside the options
presented above, use the ``odbc_connect`` keyword to pass in a
urlencoded connection string. What gets passed in will be urldecoded
and passed directly.
For example::
mssql+pyodbc:///?odbc_connect=dsn%3Dmydsn%3BDatabase%3Ddb
would create the following connection string::
dsn=mydsn;Database=db
Encoding your connection string can be easily accomplished through
the python shell. For example::
>>> import urllib
>>> urllib.quote_plus('dsn=mydsn;Database=db')
'dsn%3Dmydsn%3BDatabase%3Ddb'
Unicode Binds
-------------
The current state of PyODBC on a unix backend with FreeTDS and/or
EasySoft is poor regarding unicode; different OS platforms and versions of UnixODBC
versus IODBC versus FreeTDS/EasySoft versus PyODBC itself dramatically
alter how strings are received. The PyODBC dialect attempts to use all the information
it knows to determine whether or not a Python unicode literal can be
passed directly to the PyODBC driver or not; while SQLAlchemy can encode
these to bytestrings first, some users have reported that PyODBC mis-handles
bytestrings for certain encodings and requires a Python unicode object,
while the author has observed widespread cases where a Python unicode
is completely misinterpreted by PyODBC, particularly when dealing with
the information schema tables used in table reflection, and the value
must first be encoded to a bytestring.
It is for this reason that whether or not unicode literals for bound
parameters be sent to PyODBC can be controlled using the
``supports_unicode_binds`` parameter to ``create_engine()``. When
left at its default of ``None``, the PyODBC dialect will use its
best guess as to whether or not the driver deals with unicode literals
well. When ``False``, unicode literals will be encoded first, and when
``True`` unicode literals will be passed straight through. This is an interim
flag that hopefully should not be needed when the unicode situation stabilizes
for unix + PyODBC.
.. versionadded:: 0.7.7
``supports_unicode_binds`` parameter to ``create_engine()``\ .
"""
from .base import MSExecutionContext, MSDialect
from ...connectors.pyodbc import PyODBCConnector
from ... import types as sqltypes, util
import decimal
class _ms_numeric_pyodbc(object):
"""Turns Decimals with adjusted() < 0 or > 7 into strings.
The routines here are needed for older pyodbc versions
as well as current mxODBC versions.
"""
def bind_processor(self, dialect):
super_process = super(_ms_numeric_pyodbc, self).\
bind_processor(dialect)
if not dialect._need_decimal_fix:
return super_process
def process(value):
if self.asdecimal and \
isinstance(value, decimal.Decimal):
adjusted = value.adjusted()
if adjusted < 0:
return self._small_dec_to_string(value)
elif adjusted > 7:
return self._large_dec_to_string(value)
if super_process:
return super_process(value)
else:
return value
return process
# these routines needed for older versions of pyodbc.
# as of 2.1.8 this logic is integrated.
def _small_dec_to_string(self, value):
return "%s0.%s%s" % (
(value < 0 and '-' or ''),
'0' * (abs(value.adjusted()) - 1),
"".join([str(nint) for nint in value.as_tuple()[1]]))
def _large_dec_to_string(self, value):
_int = value.as_tuple()[1]
if 'E' in str(value):
result = "%s%s%s" % (
(value < 0 and '-' or ''),
"".join([str(s) for s in _int]),
"0" * (value.adjusted() - (len(_int) - 1)))
else:
if (len(_int) - 1) > value.adjusted():
result = "%s%s.%s" % (
(value < 0 and '-' or ''),
"".join(
[str(s) for s in _int][0:value.adjusted() + 1]),
"".join(
[str(s) for s in _int][value.adjusted() + 1:]))
else:
result = "%s%s" % (
(value < 0 and '-' or ''),
"".join(
[str(s) for s in _int][0:value.adjusted() + 1]))
return result
class _MSNumeric_pyodbc(_ms_numeric_pyodbc, sqltypes.Numeric):
pass
class _MSFloat_pyodbc(_ms_numeric_pyodbc, sqltypes.Float):
pass
class MSExecutionContext_pyodbc(MSExecutionContext):
_embedded_scope_identity = False
def pre_exec(self):
"""where appropriate, issue "select scope_identity()" in the same
statement.
Background on why "scope_identity()" is preferable to "@@identity":
http://msdn.microsoft.com/en-us/library/ms190315.aspx
Background on why we attempt to embed "scope_identity()" into the same
statement as the INSERT:
http://code.google.com/p/pyodbc/wiki/FAQs#How_do_I_retrieve_autogenerated/identity_values?
"""
super(MSExecutionContext_pyodbc, self).pre_exec()
# don't embed the scope_identity select into an
# "INSERT .. DEFAULT VALUES"
if self._select_lastrowid and \
self.dialect.use_scope_identity and \
len(self.parameters[0]):
self._embedded_scope_identity = True
self.statement += "; select scope_identity()"
def post_exec(self):
if self._embedded_scope_identity:
# Fetch the last inserted id from the manipulated statement
# We may have to skip over a number of result sets with
# no data (due to triggers, etc.)
while True:
try:
# fetchall() ensures the cursor is consumed
# without closing it (FreeTDS particularly)
row = self.cursor.fetchall()[0]
break
except self.dialect.dbapi.Error as e:
# no way around this - nextset() consumes the previous set
# so we need to just keep flipping
self.cursor.nextset()
self._lastrowid = int(row[0])
else:
super(MSExecutionContext_pyodbc, self).post_exec()
class MSDialect_pyodbc(PyODBCConnector, MSDialect):
execution_ctx_cls = MSExecutionContext_pyodbc
pyodbc_driver_name = 'SQL Server'
colspecs = util.update_copy(
MSDialect.colspecs,
{
sqltypes.Numeric: _MSNumeric_pyodbc,
sqltypes.Float: _MSFloat_pyodbc
}
)
def __init__(self, description_encoding=None, **params):
super(MSDialect_pyodbc, self).__init__(**params)
self.description_encoding = description_encoding
self.use_scope_identity = self.use_scope_identity and \
self.dbapi and \
hasattr(self.dbapi.Cursor, 'nextset')
self._need_decimal_fix = self.dbapi and \
self._dbapi_version() < (2, 1, 8)
dialect = MSDialect_pyodbc