SickGear/lib/sqlalchemy/testing/assertsql.py

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# testing/assertsql.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
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from ..engine.default import DefaultDialect
from .. import util
import re
class AssertRule(object):
def process_execute(self, clauseelement, *multiparams, **params):
pass
def process_cursor_execute(self, statement, parameters, context,
executemany):
pass
def is_consumed(self):
"""Return True if this rule has been consumed, False if not.
Should raise an AssertionError if this rule's condition has
definitely failed.
"""
raise NotImplementedError()
def rule_passed(self):
"""Return True if the last test of this rule passed, False if
failed, None if no test was applied."""
raise NotImplementedError()
def consume_final(self):
"""Return True if this rule has been consumed.
Should raise an AssertionError if this rule's condition has not
been consumed or has failed.
"""
if self._result is None:
assert False, 'Rule has not been consumed'
return self.is_consumed()
class SQLMatchRule(AssertRule):
def __init__(self):
self._result = None
self._errmsg = ""
def rule_passed(self):
return self._result
def is_consumed(self):
if self._result is None:
return False
assert self._result, self._errmsg
return True
class ExactSQL(SQLMatchRule):
def __init__(self, sql, params=None):
SQLMatchRule.__init__(self)
self.sql = sql
self.params = params
def process_cursor_execute(self, statement, parameters, context,
executemany):
if not context:
return
_received_statement = \
_process_engine_statement(context.unicode_statement,
context)
_received_parameters = context.compiled_parameters
# TODO: remove this step once all unit tests are migrated, as
# ExactSQL should really be *exact* SQL
sql = _process_assertion_statement(self.sql, context)
equivalent = _received_statement == sql
if self.params:
if util.callable(self.params):
params = self.params(context)
else:
params = self.params
if not isinstance(params, list):
params = [params]
equivalent = equivalent and params \
== context.compiled_parameters
else:
params = {}
self._result = equivalent
if not self._result:
self._errmsg = \
'Testing for exact statement %r exact params %r, '\
'received %r with params %r' % (sql, params,
_received_statement, _received_parameters)
class RegexSQL(SQLMatchRule):
def __init__(self, regex, params=None):
SQLMatchRule.__init__(self)
self.regex = re.compile(regex)
self.orig_regex = regex
self.params = params
def process_cursor_execute(self, statement, parameters, context,
executemany):
if not context:
return
_received_statement = \
_process_engine_statement(context.unicode_statement,
context)
_received_parameters = context.compiled_parameters
equivalent = bool(self.regex.match(_received_statement))
if self.params:
if util.callable(self.params):
params = self.params(context)
else:
params = self.params
if not isinstance(params, list):
params = [params]
# do a positive compare only
for param, received in zip(params, _received_parameters):
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for k, v in param.items():
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if k not in received or received[k] != v:
equivalent = False
break
else:
params = {}
self._result = equivalent
if not self._result:
self._errmsg = \
'Testing for regex %r partial params %r, received %r '\
'with params %r' % (self.orig_regex, params,
_received_statement,
_received_parameters)
class CompiledSQL(SQLMatchRule):
def __init__(self, statement, params=None):
SQLMatchRule.__init__(self)
self.statement = statement
self.params = params
def process_cursor_execute(self, statement, parameters, context,
executemany):
if not context:
return
from sqlalchemy.schema import _DDLCompiles
_received_parameters = list(context.compiled_parameters)
# recompile from the context, using the default dialect
if isinstance(context.compiled.statement, _DDLCompiles):
compiled = \
context.compiled.statement.compile(dialect=DefaultDialect())
else:
compiled = \
context.compiled.statement.compile(dialect=DefaultDialect(),
column_keys=context.compiled.column_keys)
_received_statement = re.sub(r'[\n\t]', '', str(compiled))
equivalent = self.statement == _received_statement
if self.params:
if util.callable(self.params):
params = self.params(context)
else:
params = self.params
if not isinstance(params, list):
params = [params]
else:
params = list(params)
all_params = list(params)
all_received = list(_received_parameters)
while params:
param = dict(params.pop(0))
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for k, v in context.compiled.params.items():
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param.setdefault(k, v)
if param not in _received_parameters:
equivalent = False
break
else:
_received_parameters.remove(param)
if _received_parameters:
equivalent = False
else:
params = {}
all_params = {}
all_received = []
self._result = equivalent
if not self._result:
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print('Testing for compiled statement %r partial params '\
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'%r, received %r with params %r' % (self.statement,
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all_params, _received_statement, all_received))
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self._errmsg = \
'Testing for compiled statement %r partial params %r, '\
'received %r with params %r' % (self.statement,
all_params, _received_statement, all_received)
# print self._errmsg
class CountStatements(AssertRule):
def __init__(self, count):
self.count = count
self._statement_count = 0
def process_execute(self, clauseelement, *multiparams, **params):
self._statement_count += 1
def process_cursor_execute(self, statement, parameters, context,
executemany):
pass
def is_consumed(self):
return False
def consume_final(self):
assert self.count == self._statement_count, \
'desired statement count %d does not match %d' \
% (self.count, self._statement_count)
return True
class AllOf(AssertRule):
def __init__(self, *rules):
self.rules = set(rules)
def process_execute(self, clauseelement, *multiparams, **params):
for rule in self.rules:
rule.process_execute(clauseelement, *multiparams, **params)
def process_cursor_execute(self, statement, parameters, context,
executemany):
for rule in self.rules:
rule.process_cursor_execute(statement, parameters, context,
executemany)
def is_consumed(self):
if not self.rules:
return True
for rule in list(self.rules):
if rule.rule_passed(): # a rule passed, move on
self.rules.remove(rule)
return len(self.rules) == 0
assert False, 'No assertion rules were satisfied for statement'
def consume_final(self):
return len(self.rules) == 0
def _process_engine_statement(query, context):
if util.jython:
# oracle+zxjdbc passes a PyStatement when returning into
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query = str(query)
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if context.engine.name == 'mssql' \
and query.endswith('; select scope_identity()'):
query = query[:-25]
query = re.sub(r'\n', '', query)
return query
def _process_assertion_statement(query, context):
paramstyle = context.dialect.paramstyle
if paramstyle == 'named':
pass
elif paramstyle == 'pyformat':
query = re.sub(r':([\w_]+)', r"%(\1)s", query)
else:
# positional params
repl = None
if paramstyle == 'qmark':
repl = "?"
elif paramstyle == 'format':
repl = r"%s"
elif paramstyle == 'numeric':
repl = None
query = re.sub(r':([\w_]+)', repl, query)
return query
class SQLAssert(object):
rules = None
def add_rules(self, rules):
self.rules = list(rules)
def statement_complete(self):
for rule in self.rules:
if not rule.consume_final():
assert False, \
'All statements are complete, but pending '\
'assertion rules remain'
def clear_rules(self):
del self.rules
def execute(self, conn, clauseelement, multiparams, params, result):
if self.rules is not None:
if not self.rules:
assert False, \
'All rules have been exhausted, but further '\
'statements remain'
rule = self.rules[0]
rule.process_execute(clauseelement, *multiparams, **params)
if rule.is_consumed():
self.rules.pop(0)
def cursor_execute(self, conn, cursor, statement, parameters,
context, executemany):
if self.rules:
rule = self.rules[0]
rule.process_cursor_execute(statement, parameters, context,
executemany)
asserter = SQLAssert()