#!/usr/bin/python import unittest import logging logging.basicConfig(level = logging.DEBUG) from gi.repository import Vips from vips8 import vips formats = [Vips.BandFormat.UCHAR, Vips.BandFormat.CHAR, Vips.BandFormat.USHORT, Vips.BandFormat.SHORT, Vips.BandFormat.UINT, Vips.BandFormat.INT, Vips.BandFormat.FLOAT, Vips.BandFormat.DOUBLE] cformats = [Vips.BandFormat.COMPLEX, Vips.BandFormat.DPCOMPLEX] all_formats = formats + cformats; im = Vips.Image.mask_ideal(100, 100, 0.5) colour = im * [100, 128, 140] + [20, 30, 40] mono = colour.extract_band(1) all_images = [mono, colour] # an expanding zip ... if either of the args is not a list, duplicate it down # the other def zip_expand(x, y): if isinstance(x, list) and isinstance(y, list): return zip(x, y) elif isinstance(x, list): return [[i, y] for i in x] elif isinstance(y, list): return [[x, j] for j in y] else: return [[x, y]] # run a 1-ary function on a thing -- loop over elements if the # thing is a list def run_fn(fn, x): if isinstance(x, Vips.Image) : return fn(x) elif isinstance(x, list): return [fn(i) for i in x] else: return fn(x) # run a 2-ary function on two things -- loop over elements pairwise if the # things are lists def run_fn2(fn, x, y): if isinstance(x, Vips.Image) or isinstance(y, Vips.Image): return fn(x, y) elif isinstance(x, list) or isinstance(y, list): return [fn(i, j) for i, j in zip_expand(x, y)] else: return fn(x, y) class TestArithmetic(unittest.TestCase): # test a pair of things which can be lists for approx. equality def assertAlmostEqualObjects(self, a, b, msg = ''): [self.assertAlmostEqual(x, y, places = 2, msg = msg) for x, y in zip_expand(a, b)] # run a function on an image and on a single pixel, the results # should match def run_cmp(self, message, im, x, y, fn): a = im.getpoint(x, y) v1 = fn(a) im2 = fn(im) v2 = im2.getpoint(x, y) #print 'self.assertAlmostEqualObjects: %s = %s' % (v1, v2) self.assertAlmostEqualObjects(v1, v2, msg = message) # run a function on (image, constant), and on (constant, image). # 50,50 and 10,10 should have different values on the test image def run_testconst(self, message, fn, im, c): self.run_cmp(message, im, 50, 50, lambda x: run_fn2(fn, x, c)) self.run_cmp(message, im, 50, 50, lambda x: run_fn2(fn, c, x)) self.run_cmp(message, im, 10, 10, lambda x: run_fn2(fn, x, c)) self.run_cmp(message, im, 10, 10, lambda x: run_fn2(fn, c, x)) def run_arith_const(self, fn, fmt = all_formats): [self.run_testconst(fn.func_name + ' scalar', fn, x.cast(y), 12) for x in all_images for y in fmt] [self.run_testconst(fn.func_name + ' vector', fn, colour.cast(y), [12, 13, 14]) for y in formats] # run a function on a pair of images and on a pair of pixels, the results # should match def run_cmp2(self, message, left, right, x, y, fn): a = left.getpoint(x, y) b = right.getpoint(x, y) v1 = fn(a, b) after = fn(left, right) v2 = after.getpoint(x, y) self.assertAlmostEqualObjects(v1, v2, msg = message) # run a function on a pair of images # 50,50 and 10,10 should have different values on the test image def run_test2(self, message, left, right, fn): self.run_cmp2(message, left, right, 50, 50, lambda x, y: run_fn2(fn, x, y)) self.run_cmp2(message, left, right, 10, 10, lambda x, y: run_fn2(fn, x, y)) def run_arith(self, fn, fmt = all_formats): [self.run_test2(fn.func_name + ' image', x.cast(y), x.cast(z), fn) for x in all_images for y in fmt for z in fmt] def test_add(self): def add(x, y): return x + y #self.run_arith_const(add) #self.run_arith(add) def test_sub(self): def sub(x, y): return x - y #self.run_arith_const(sub) #self.run_arith(sub) def test_mul(self): def mul(x, y): return x * y #self.run_arith_const(mul) #self.run_arith(mul) def test_div(self): def div(x, y): return x / y # div(const / image) needs (image ** -1), which won't work for complex # images ... just test with non-complex #self.run_arith_const(div, fmt = formats) #self.run_arith(div) # run a function on an image, # 50,50 and 10,10 should have different values on the test image def run_testunary(self, message, im, fn): self.run_cmp(message, im, 50, 50, lambda x: run_fn(fn, x)) self.run_cmp(message, im, 10, 10, lambda x: run_fn(fn, x)) def run_unary(self, fn, images = all_images, fmt = all_formats): [self.run_testunary(fn.func_name + ' image', x.cast(y), fn) for x in images for y in fmt] def test_abs(self): def my_abs(x): return abs(x) #im = -mono; #self.run_unary(my_abs, [im]) if __name__ == '__main__': unittest.main()