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# Copyright (C) 2013 Intel Corporation
#
# Released under the MIT license (see COPYING.MIT)
# Some custom decorators that can be used by unittests
# Most useful is skipUnlessPassed which can be used for
# creating dependecies between two test methods.
import os
import logging
import sys
import unittest
#get the "result" object from one of the upper frames provided that one of these upper frames is a unittest.case frame
class getResults(object):
def __init__(self):
#dynamically determine the unittest.case frame and use it to get the name of the test method
upperf = sys._current_frames().values()[0]
while (upperf.f_globals['__name__'] != 'unittest.case'):
upperf = upperf.f_back
def handleList(items):
ret = []
# items is a list of tuples, (test, failure) or (_ErrorHandler(), Exception())
for i in items:
s = i[0].id()
#Handle the _ErrorHolder objects from skipModule failures
if "setUpModule (" in s:
ret.append(s.replace("setUpModule (", "").replace(")",""))
else:
ret.append(s)
return ret
self.faillist = handleList(upperf.f_locals['result'].failures)
self.errorlist = handleList(upperf.f_locals['result'].errors)
self.skiplist = handleList(upperf.f_locals['result'].skipped)
def getFailList(self):
return self.faillist
def getErrorList(self):
return self.errorlist
def getSkipList(self):
return self.skiplist
class skipIfFailure(object):
def __init__(self,testcase):
self.testcase = testcase
def __call__(self,f):
def wrapped_f(*args):
res = getResults()
if self.testcase in (res.getFailList() or res.getErrorList()):
raise unittest.SkipTest("Testcase dependency not met: %s" % self.testcase)
return f(*args)
wrapped_f.__name__ = f.__name__
return wrapped_f
class skipIfSkipped(object):
def __init__(self,testcase):
self.testcase = testcase
def __call__(self,f):
def wrapped_f(*args):
res = getResults()
if self.testcase in res.getSkipList():
raise unittest.SkipTest("Testcase dependency not met: %s" % self.testcase)
return f(*args)
wrapped_f.__name__ = f.__name__
return wrapped_f
class skipUnlessPassed(object):
def __init__(self,testcase):
self.testcase = testcase
def __call__(self,f):
def wrapped_f(*args):
res = getResults()
if self.testcase in res.getSkipList() or \
self.testcase in res.getFailList() or \
self.testcase in res.getErrorList():
raise unittest.SkipTest("Testcase dependency not met: %s" % self.testcase)
return f(*args)
wrapped_f.__name__ = f.__name__
return wrapped_f
class testcase(object):
def __init__(self, test_case):
self.test_case = test_case
def __call__(self, func):
def wrapped_f(*args):
return func(*args)
wrapped_f.test_case = self.test_case
wrapped_f.__name__ = func.__name__
return wrapped_f
class NoParsingFilter(logging.Filter):
def filter(self, record):
return record.levelno == 100
def LogResults(original_class):
orig_method = original_class.run
#rewrite the run method of unittest.TestCase to add testcase logging
def run(self, result, *args, **kws):
orig_method(self, result, *args, **kws)
passed = True
testMethod = getattr(self, self._testMethodName)
#if test case is decorated then use it's number, else use it's name
try:
test_case = testMethod.test_case
except AttributeError:
test_case = self._testMethodName
#create custom logging level for filtering.
custom_log_level = 100
logging.addLevelName(custom_log_level, 'RESULTS')
caller = os.path.basename(sys.argv[0])
def results(self, message, *args, **kws):
if self.isEnabledFor(custom_log_level):
self.log(custom_log_level, message, *args, **kws)
logging.Logger.results = results
logging.basicConfig(filename=os.path.join(os.getcwd(),'results-'+caller+'.log'),
filemode='w',
format='%(asctime)s - %(name)s - %(levelname)s - %(message)s',
datefmt='%H:%M:%S',
level=custom_log_level)
for handler in logging.root.handlers:
handler.addFilter(NoParsingFilter())
local_log = logging.getLogger(caller)
#check status of tests and record it
for (name, msg) in result.errors:
if self._testMethodName == str(name).split(' ')[0]:
local_log.results("Testcase "+str(test_case)+": ERROR")
local_log.results("Testcase "+str(test_case)+":\n"+msg)
passed = False
for (name, msg) in result.failures:
if self._testMethodName == str(name).split(' ')[0]:
local_log.results("Testcase "+str(test_case)+": FAILED")
local_log.results("Testcase "+str(test_case)+":\n"+msg)
passed = False
for (name, msg) in result.skipped:
if self._testMethodName == str(name).split(' ')[0]:
local_log.results("Testcase "+str(test_case)+": SKIPPED")
passed = False
if passed:
local_log.results("Testcase "+str(test_case)+": PASSED")
original_class.run = run
return original_class
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