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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.

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"""
 test some jython internals
"""
import gc
import unittest
import time
from test.test_support import run_suite

import java
import jarray

from org.python.core import Py
from org.python.util import PythonInterpreter
from javatests.TestSupport import getField
from java.sql import Date, Time, Timestamp
import datetime


class MemoryLeakTests(unittest.TestCase):

    def test_class_to_test_weakness(self):
        # regrtest for bug 1522, adapted from test code submitted by Matt Brinkley

        # work around the fact that we can't look at PyType directly
        # by using this helper function that reflects on PyType (and
        # demonstrates here that it's the same as the builtin function
        # `type`!)
        class_to_type_map = getField(type, 'class_to_type').get(None)

        def make_clean():
            # gc a few times just to be really sure, since in this
            # case we don't really care if it takes a few cycles of GC
            # for the garbage to be reached
            gc.collect()
            time.sleep(0.1)
            gc.collect()
            time.sleep(0.5)
            gc.collect()

        def create_proxies():
            pi = PythonInterpreter()
            pi.exec("""
from java.lang import Comparable

class Dog(Comparable):
    def compareTo(self, o):
        return 0
    def bark(self):
        return 'woof woof'

Dog().bark()
""")
            make_clean()
    
        # get to steady state first, then verify we don't create new proxies
        for i in xrange(2):
            create_proxies()
        start_size = class_to_type_map.size()
        for i in xrange(5):
            create_proxies()
        make_clean()
        self.assertEqual(start_size, class_to_type_map.size())


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__), 3)

        #test = PyInstance.__tojava__(test, PyModule)
        exec "b = 3" in test.__dict__
        self.assertEquals(len(test.__dict__), 4)

def test_main():
    test_suite = unittest.TestSuite()
    test_loader = unittest.TestLoader()
    def suite_add(case):
        test_suite.addTest(test_loader.loadTestsFromTestCase(case))
    suite_add(WeakIdentityMapTests)
    suite_add(LongAsScaledDoubleValueTests)
    suite_add(ExtraMathTests)
    suite_add(DatetimeTypeMappingTest)
    suite_add(IdTest)
    suite_add(FrameTest)
    suite_add(ModuleTest)
    suite_add(MemoryLeakTests)
    run_suite(test_suite)

if __name__ == "__main__":
    test_main()




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