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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
"""
test some jython internals
"""
import unittest
from test import test_support
import datetime
import java
import jarray
import os
import sys
import time
import weakref
from org.python.core import Py
from org.python.util import PythonInterpreter
from javatests.TestSupport import invokePyTypeMethod
from java.sql import Date, Time, Timestamp
# Script for MemoryLeakTests.test_class_to_test_weakness
DOG = """
from java.lang import Comparable
class Dog(Comparable):
def compareTo(self, o):
return 0
def bark(self):
return 'woof woof'
dog = Dog()
dog.bark()
breed = dog.getClass()
"""
def run_script(script, names):
"""Run the script and return a weak list of the values named"""
pi = PythonInterpreter()
pi.exec(script)
if isinstance(names, str):
names = (names, )
result = []
for n in names:
obj = pi.getLocals()[n]
result.append(weakref.ref(obj))
return result
def survivors(weak_list):
"""Set of all objects on the weak list that are still live."""
s = {ref() for ref in weak_list}
s.discard(None)
return s
class MemoryLeakTests(unittest.TestCase):
def test_class_to_test_weakness(self):
# regrtest for bug 1522, adapted from test code submitted by Matt Brinkley
# We wish to demonstrate that the proxy created by a Python class and
# its PyType are GC'd when no longer in use, and therefore that the
# Jython type system does not keep a PyType alive gratuitously. We do
# this by holding weak references, then checking they're dead.
# Get to steady state by creating >1 Dog and then GC-ing homeless ones.
battersea = []
for i in range(2):
battersea.extend(run_script(DOG, ('Dog', 'dog', 'breed')))
test_support.gc_collect()
# This is the steady-state, GC number of Dog objects alive after GC:
start_size = len(survivors(battersea)) # probably = 1
# Add more Dogs and GC the homeless ones again.
for i in range(5):
battersea.extend(run_script(DOG, ('Dog', 'dog', 'breed')))
test_support.gc_collect()
#print "\nDogs home =", battersea
#print "\nDogs alive =", survivors(battersea)
# Post-GC number of Dogs should be as before
self.assertEqual(start_size, len(survivors(battersea)))
def test_loading_classes_weakness(self):
# Show that classes loaded via a class loader are collectible once the
# class loader is not strongly reachable.
# Reference all species of object on a weak list:
zoo = []
def activity():
# Look for the Callbacker class ONLY in the special JAR
jar = os.path.join(sys.prefix, "callbacker_test.jar")
cldr = test_support.make_jar_classloader(jar, None)
CB = cldr.loadClass("org.python.tests.Callbacker")
cb = CB()
# Save locals as weak references (that we hope will go dead)
for obj in (cb, type(cb), cldr):
zoo.append(weakref.ref(obj))
# Load and use a class: objects created in zoo.
activity()
#print "\nzoo =", zoo
test_support.gc_collect()
#print "\nsurvivors =", survivors(zoo)
self.assertEqual(0, len(survivors(zoo)))
class WeakIdentityMapTests(unittest.TestCase):
def test_functionality(self):
from org.python.core import IdImpl
i = java.lang.Integer(2)
j = java.lang.Integer(2)
# sanity check
assert i == j and i is not j
h = java.lang.Integer(2)
widmap = IdImpl.WeakIdentityMap()
widmap.put(i,'i')
widmap.put(j,'j')
widmap.put(h,'h')
assert widmap.get(i) == 'i'
assert widmap.get(j) == 'j'
assert widmap.get(h) == 'h'
# white box double-check
assert widmap._internal_map_size() == 3
widmap.remove(h)
assert widmap.get(h) is None
# white box double-check
assert widmap._internal_map_size() == 2
# white box test for weak referencing of keys
del j
java.lang.System.gc()
java.lang.System.runFinalization()
java.lang.System.gc()
java.lang.System.runFinalization()
time.sleep(1)
assert widmap.get(i) == 'i' # triggers stale weak refs cleanup
assert widmap._internal_map_size() == 1
class LongAsScaledDoubleValueTests(unittest.TestCase):
def setUp(self):
self.v = v = 2**53-1 # full mag bits of a double value
self.v8 = v * 8 # fills up 7 bytes
self.e = jarray.zeros(1,'i')
iarr = java.lang.Object.getClass(self.e)
sdv = java.lang.Class.getMethod(long, 'scaledDoubleValue', [iarr])
import org.python.core.PyReflectedFunction as ReflFunc
self.sdv = ReflFunc([sdv])
def test_basic_roundtrip(self):
e = self.e
sdv = self.sdv
assert long(sdv(0L, e)) == 0
assert e[0] == 0
assert long(sdv(1L, e)) == 1
assert e[0] == 0
assert long(sdv(-1L, e)) == -1
assert e[0] == 0
assert long(sdv(self.v, e)) == self.v
assert e[0] == 0
def test_scale_3_v(self):
e = self.e
v = self.v8
sdv = self.sdv
assert long(sdv(v, e)) == v
assert e[0] == 0
assert long(sdv(v+1, e)) - v == 0
assert e[0] == 0
def test_no_worse_than_doubleValue(self):
e = self.e
v = self.v8
sdv = self.sdv
for d in range(8):
assert float(v+d) == sdv(v+d, e)
assert e[0] == 0
for d in range(8):
for y in [0,255]:
assert float((v+d)*256+y) == sdv((v+d)*256+y, e)
assert e[0] == 0
for d in range(8):
for y in [0,255]:
assert float((v+d)*256+y) == sdv(((v+d)*256+y)*256, e)
assert e[0] == 1
class ExtraMathTests(unittest.TestCase):
def test_epsilon(self):
from org.python.core.util import ExtraMath
self.assertNotEqual(1.0 + ExtraMath.EPSILON, 1.0)
self.assertEqual(1.0 + (ExtraMath.EPSILON/2.0), 1.0)
def test_close(self):
from org.python.core.util import ExtraMath
self.assert_(ExtraMath.close(3.0, 3.0))
self.assert_(ExtraMath.close(3.0, 3.0 + ExtraMath.CLOSE))
self.assert_(not ExtraMath.close(3.0, 3.0 + 4.0*ExtraMath.CLOSE))
def test_closeFloor(self):
from org.python.core.util import ExtraMath
import math
self.assertEquals(ExtraMath.closeFloor(3.5), 3.0)
self.assertEquals(ExtraMath.closeFloor(3.0 - ExtraMath.EPSILON), 3.0)
self.assertEquals(
ExtraMath.closeFloor(3.0 - 3.0 * ExtraMath.CLOSE), 2.0)
self.assertEquals(ExtraMath.closeFloor(math.log10(10**3)), 3.0)
class DatetimeTypeMappingTest(unittest.TestCase):
def test_date(self):
self.assertEquals(datetime.date(2008, 5, 29),
Py.newDate(Date(108, 4, 29)))
self.assertEquals(datetime.date(1999, 1, 1),
Py.newDate(Date(99, 0, 1)))
def test_time(self):
self.assertEquals(datetime.time(0, 0, 0),
Py.newTime(Time(0, 0, 0)))
self.assertEquals(datetime.time(23, 59, 59),
Py.newTime(Time(23, 59, 59)))
def test_datetime(self):
self.assertEquals(datetime.datetime(2008, 1, 1),
Py.newDatetime(Timestamp(108, 0, 1, 0, 0, 0, 0)))
self.assertEquals(datetime.datetime(2008, 5, 29, 16, 50, 0),
Py.newDatetime(Timestamp(108, 4, 29, 16, 50, 0, 0)))
self.assertEquals(datetime.datetime(2008, 5, 29, 16, 50, 1, 1),
Py.newDatetime(Timestamp(108, 4, 29, 16, 50, 1, 1000)))
class IdTest(unittest.TestCase):
def test_unique_ids(self):
d = {}
cnt = 0
for i in xrange(100000):
s = "test" + repr(i)
j = id(s)
if d.has_key(j):
cnt = cnt + 1
d[j] = s
self.assertEquals(cnt, 0)
class FrameTest(unittest.TestCase):
def test_stack_frame_locals(self):
def h():
a = 1
b = 2
raise AttributeError("spam")
try:
h()
except:
import sys
tb = sys.exc_info()[2]
while tb.tb_next is not None:
tb = tb.tb_next
vars = tb.tb_frame.f_locals
self.assertEquals(sorted(vars.items()), [('a',1), ('b',2)])
def test_frame_info(self):
import sys
from types import ClassType
def getinfo():
""" Returns a tuple consisting of:
the name of the current module
the name of the current class or None
the name of the current function
the current line number
"""
try:
1/0
except:
tb = sys.exc_info()[-1]
frame = tb.tb_frame.f_back
modulename = frame.f_globals['__name__']
funcname = frame.f_code.co_name
lineno = frame.f_lineno
if len(frame.f_code.co_varnames) == 0:
classname = None
else:
self = frame.f_locals[frame.f_code.co_varnames[0]]
myclass = self.__class__
if type(myclass) == ClassType:
classname = myclass.__name__
else:
classname = None
return modulename, classname, funcname, lineno
def foo():
x = 99
g = getinfo()
assert (g[0] == "__main__" or g[0] == "test.test_jy_internals")
self.assertEquals(g[1], None)
self.assertEquals(g[2], "foo")
class Bar:
def baz(self):
g = getinfo()
assert (g[0] == "__main__" or g[0] == "test.test_jy_internals")
assert (g[1] == "Bar")
assert (g[2] == "baz")
g = getinfo()
assert (g[0] == "__main__" or g[0] == "test.test_jy_internals")
self.assertEquals(g[1], None)
self.assertEquals(g[2], "test_frame_info")
foo()
Bar().baz()
class ModuleTest(unittest.TestCase):
def test_create_module(self):
from org.python.core import PyModule, PyInstance
test = PyModule("test", {})
exec "a = 2" in test.__dict__
self.assertEquals(len(test.__dict__), 4)
#test = PyInstance.__tojava__(test, PyModule)
exec "b = 3" in test.__dict__
self.assertEquals(len(test.__dict__), 5)
def test_main():
test_support.run_unittest(__name__)
if __name__ == "__main__":
test_main()