Example #1
0
    def _makefunc_str_int(cls, f):
        def main(argv):
            arg0 = argv[1]
            arg1 = int(argv[2])
            try:
                res = f(arg0, arg1)
            except MemoryError:
                print "MEMORY-ERROR"
            else:
                print res
            return 0
        
        t = Translation(main, standalone=True, gc=cls.gcpolicy,
                        policy=annpolicy.StrictAnnotatorPolicy(),
                        taggedpointers=cls.taggedpointers,
                        gcremovetypeptr=cls.removetypeptr)
        t.disable(['backendopt'])
        t.set_backend_extra_options(c_debug_defines=True)
        t.rtype()
        if conftest.option.view:
            t.viewcg()
        exename = t.compile()

        def run(s, i):
            data = py.process.cmdexec("%s %s %d" % (exename, s, i))
            data = data.strip()
            if data == 'MEMORY-ERROR':
                raise MemoryError
            return data

        return run
Example #2
0
    def _makefunc_str_int(cls, f):
        def main(argv):
            arg0 = argv[1]
            arg1 = int(argv[2])
            try:
                res = f(arg0, arg1)
            except MemoryError:
                print "MEMORY-ERROR"
            else:
                print res
            return 0

        t = Translation(main, standalone=True, gc=cls.gcpolicy,
                        policy=annpolicy.StrictAnnotatorPolicy(),
                        taggedpointers=cls.taggedpointers,
                        gcremovetypeptr=cls.removetypeptr)
        t.disable(['backendopt'])
        t.set_backend_extra_options(c_debug_defines=True)
        t.rtype()
        if conftest.option.view:
            t.viewcg()
        exename = t.compile()

        def run(s, i):
            data = py.process.cmdexec("%s %s %d" % (exename, s, i))
            data = data.strip()
            if data == 'MEMORY-ERROR':
                raise MemoryError
            return data

        return run
Example #3
0
    n = NN(2, 3, 1)
    # train it with some patterns
    n.train(pat, 2000)
    # test it
    n.test(pat)



if __name__ == '__main__':
    print 'Loading...'
    from pypy.translator.interactive import Translation
    t = Translation(demo)
    
    print 'Annotating...'
    t.annotate([])
    t.viewcg()

    print 'Specializing...'
    t.rtype()   # enable this to see (some) lower-level Cish operations
    
    print 'Compiling...'
    f = t.compile_c()

    print 'Running...'
    T = time.time()
    for i in range(10):
        f()
    t1 = time.time() - T
    print "that took", t1

    T = time.time()
Example #4
0
    # create a network with two input, two hidden, and two output nodes
    n = NN(2, 3, 1)
    # train it with some patterns
    n.train(pat, 2000)
    # test it
    n.test(pat)


if __name__ == '__main__':
    print 'Loading...'
    from pypy.translator.interactive import Translation
    t = Translation(demo)

    print 'Annotating...'
    t.annotate([])
    t.viewcg()

    print 'Specializing...'
    t.rtype()  # enable this to see (some) lower-level Cish operations

    print 'Compiling...'
    f = t.compile_c()

    print 'Running...'
    T = time.time()
    for i in range(10):
        f()
    t1 = time.time() - T
    print "that took", t1

    T = time.time()
Example #5
0
def test_annotated():
    from pypy.translator.interactive import Translation
    t = Translation(is_prime)
    t.annotate([int])
    t.viewcg()
Example #6
0
def test_annotated():
    from pypy.translator.interactive import Translation
    t = Translation(is_prime)
    t.annotate([int])
    t.viewcg()