Mercurial > ift6266
view transformations/testmod.py @ 297:6f606b359df3
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| author | Arnaud Bergeron <abergeron@gmail.com> |
|---|---|
| date | Wed, 10 Feb 2010 11:15:04 -0500 |
| parents | 089f236759d9 |
| children |
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# This script is to test your modules to see if they conform to the module API # defined on the wiki. import random, numpy, gc, time, math # this is an example module that does stupid image value shifting class DummyModule(object): def get_settings_names(self): return ['value'] def regenerate_parameters(self, complexity): self._value = random.gauss(0, 0.5*complexity) return [self._value] def transform_image(self, image): return numpy.clip(image+self._value, 0, 1) #import <your module> # instanciate your class here (rather than DummyModule) mod = DummyModule() def error(msg): print "ERROR:", msg sys.exit(1) def warn(msg): print "WARNING:", msg def timeit(f, lbl): gc.disable() t = time.time() f() est = time.time() - t gc.enable() loops = max(1, int(10**math.floor(math.log(10/est, 10)))) gc.disable() t = time.time() for _ in xrange(loops): f() print lbl, "(", loops, "loops ):", (time.time() - t)/loops, "s" gc.enable() ######################## # get_settings_names() # ######################## print "Testing get_settings_names()" names = mod.get_settings_names() if type(names) is not list: error("Must return a list") if not all(type(e) is str for e in names): warn("The elements of the list should be strings") ########################### # regenerate_parameters() # ########################### print "Testing regenerate_parameters()" params = mod.regenerate_parameters(0.2) if type(params) is not list: error("Must return a list") if len(params) != len(names): error("the returned parameter list must have the same length as the number of parameters") params2 = mod.regenerate_parameters(0.2) if len(names) != 0 and params == params2: error("the complexity parameter determines the distribution of the parameters, not their value") mod.regenerate_parameters(0.0) mod.regenerate_parameters(1.0) mod.regenerate_parameters(0.5) ##################### # transform_image() # ##################### print "Testing transform_image()" imgr = numpy.random.random_sample((32, 32)).astype(numpy.float32) img1 = numpy.ones((32, 32), dtype=numpy.float32) img0 = numpy.zeros((32, 32), dtype=numpy.float32) resr = mod.transform_image(imgr) if type(resr) is not numpy.ndarray: error("Must return an ndarray") if resr.shape != (32, 32): error("Must return 32x32 array") if resr.dtype != numpy.float32: error("Must return float32 array") res1 = mod.transform_image(img1) res0 = mod.transform_image(img0) if res1.max() > 1.0 or res0.max() > 1.0: error("Must keep array values between 0 and 1") if res1.min() < 0.0 or res0.min() < 0.0: error("Must keep array values between 0 and 1") mod.regenerate_parameters(0.0) mod.transform_image(imgr) mod.regenerate_parameters(1.0) mod.transform_image(imgr) print "Bonus Stage: timings" timeit(lambda: None, "empty") timeit(lambda: mod.regenerate_parameters(0.5), "regenerate_parameters()") timeit(lambda: mod.transform_image(imgr), "tranform_image()") def f(): mod.regenerate_parameters(0.2) mod.transform_image(imgr) timeit(f, "regen and transform")