from __future__ import absolute_import
from __future__ import print_function
__author__ = 'Arno-Can Uestuensoez'
__license__ = "Artistic-License-2.0 + Forced-Fairplay-Constraints"
__copyright__ = "Copyright (C) 2010-2016 Arno-Can Uestuensoez @Ingenieurbuero Arno-Can Uestuensoez"
__version__ = '0.1.10'
__uuid__='9de52399-7752-4633-9fdc-66c87a9200b8'
__docformat__ = "restructuredtext en"
import sys
from cStringIO import StringIO
import unittest
import epyunit.SubprocUnit
from testdata import epyu,call_scripy
#
#######################
#
[docs]class CallUnits(unittest.TestCase):
def __init__(self,*args,**kargs):
super(CallUnits,self).__init__(*args,**kargs)
@classmethod
[docs] def setUpClass(cls):
syskargs = {}
syskargs['emptyiserr'] = True
cls.sx = epyunit.SubprocUnit.SubprocessUnit(**syskargs)
# buffers for evaluation after intercepted exit.
cls.stdoutbuf=StringIO()
cls.stderrbuf=StringIO()
cls.stdout = sys.stdout
cls.stderr = sys.stderr
cls._call = epyu
cls._call += " --exitign=False "
cls._call += " -- "
cls._call += call_scripy
[docs] def testCase010(self):
_call = self._call
_call += " OK "
retX = [0,['fromA', 'arbitrary output', 'arbitrary signalling OK string', 'arbitrary output'],[]]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
state = self.sx.apply(ret)
assert state
pass
[docs] def testCase011(self):
_call = self._call
_call += " NOK "
retX = [0,['fromB', 'arbitrary output', 'arbitrary output'],['arbitrary signalling ERROR string']]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
state = self.sx.apply(ret)
assert state
pass
[docs] def testCase012(self):
_call = self._call
_call += " PRIO "
retX = [0,['fromC', 'arbitrary output', 'arbitrary signalling OK string', 'arbitrary output'],['arbitrary signalling ERROR string']]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
state = self.sx.apply(ret)
assert state
pass
[docs] def testCase013(self):
_call = self._call
_call += " EXITOK "
retX = [0,['fromD', 'arbitrary output', 'arbitrary signalling OK string', 'arbitrary output'],[]]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
state = self.sx.apply(ret)
assert state
pass
[docs] def testCase014(self):
_call = self._call
_call += " EXITNOK "
retX = [1,['fromE', 'arbitrary output', 'arbitrary signalling OK string', 'arbitrary output'],[]]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
_s1 = self.sx.getruleset().states() # for hover
state = self.sx.apply(ret)
self.assertFalse(state)
pass
[docs] def testCase015(self):
_call = self._call
_call += " EXIT7 "
retX = [1,['fromF', 'arbitrary output', 'arbitrary signalling NOK string', 'arbitrary output'],[]]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
_s1 = self.sx.getruleset().states() # for hover
state = self.sx.apply(ret)
self.assertFalse(state)
pass
[docs] def testCase016(self):
_call = self._call
_call += " EXIT8 "
retX = [1,['fromG', 'arbitrary output', 'arbitrary signalling NOK string', 'arbitrary output'],['arbitrary err output', 'arbitrary err signalling NOK string', 'arbitrary err output']]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
_s1 = self.sx.getruleset().states() # for hover
state = self.sx.apply(ret)
self.assertFalse(state)
pass
[docs] def testCase017(self):
_call = self._call
_call += " EXIT9OK3NOK2 "
retX = [1,['fromH', 'OK', 'OK', 'OK'],['NOK', 'NOK']]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
_s1 = self.sx.getruleset().states() # for hover
state = self.sx.apply(ret)
self.assertFalse(state)
pass
[docs] def testCase018(self):
_call = self._call
_call += " DEFAULT "
retX = [1,['arbitrary output'],[]]
ret = self.sx.callit(_call)
self.assertEqual(ret,retX)
_s1 = self.sx.getruleset().states() # for hover
state = self.sx.apply(ret)
self.assertFalse(state)
pass
#
#######################
#
if __name__ == '__main__':
unittest.main()