""" Helper functions. """ from __future__ import print_function import logging import os import subprocess import sys import tempfile import unittest from io import BytesIO from PIL import Image, ImageMath from PIL._util import py3 logger = logging.getLogger(__name__) HAS_UPLOADER = False if os.environ.get("SHOW_ERRORS", None): # local img.show for errors. HAS_UPLOADER = True class test_image_results: @classmethod def upload(self, a, b): a.show() b.show() else: try: import test_image_results HAS_UPLOADER = True except ImportError: pass def convert_to_comparable(a, b): new_a, new_b = a, b if a.mode == "P": new_a = Image.new("L", a.size) new_b = Image.new("L", b.size) new_a.putdata(a.getdata()) new_b.putdata(b.getdata()) elif a.mode == "I;16": new_a = a.convert("I") new_b = b.convert("I") return new_a, new_b class PillowTestCase(unittest.TestCase): def delete_tempfile(self, path): try: os.remove(path) except OSError: pass # report? def assert_deep_equal(self, a, b, msg=None): try: self.assertEqual( len(a), len(b), msg or "got length %s, expected %s" % (len(a), len(b)) ) self.assertTrue( all(x == y for x, y in zip(a, b)), msg or "got %s, expected %s" % (a, b) ) except Exception: self.assertEqual(a, b, msg) def assert_image(self, im, mode, size, msg=None): if mode is not None: self.assertEqual( im.mode, mode, msg or "got mode %r, expected %r" % (im.mode, mode) ) if size is not None: self.assertEqual( im.size, size, msg or "got size %r, expected %r" % (im.size, size) ) def assert_image_equal(self, a, b, msg=None): self.assertEqual( a.mode, b.mode, msg or "got mode %r, expected %r" % (a.mode, b.mode) ) self.assertEqual( a.size, b.size, msg or "got size %r, expected %r" % (a.size, b.size) ) if a.tobytes() != b.tobytes(): if HAS_UPLOADER: try: url = test_image_results.upload(a, b) logger.error("Url for test images: %s" % url) except Exception: pass self.fail(msg or "got different content") def assert_image_equal_tofile(self, a, filename, msg=None, mode=None): with Image.open(filename) as img: if mode: img = img.convert(mode) self.assert_image_equal(a, img, msg) def assert_image_similar(self, a, b, epsilon, msg=None): epsilon = float(epsilon) self.assertEqual( a.mode, b.mode, msg or "got mode %r, expected %r" % (a.mode, b.mode) ) self.assertEqual( a.size, b.size, msg or "got size %r, expected %r" % (a.size, b.size) ) a, b = convert_to_comparable(a, b) diff = 0 for ach, bch in zip(a.split(), b.split()): chdiff = ImageMath.eval("abs(a - b)", a=ach, b=bch).convert("L") diff += sum(i * num for i, num in enumerate(chdiff.histogram())) ave_diff = float(diff) / (a.size[0] * a.size[1]) try: self.assertGreaterEqual( epsilon, ave_diff, (msg or "") + " average pixel value difference %.4f > epsilon %.4f" % (ave_diff, epsilon), ) except Exception as e: if HAS_UPLOADER: try: url = test_image_results.upload(a, b) logger.error("Url for test images: %s" % url) except Exception: pass raise e def assert_image_similar_tofile(self, a, filename, epsilon, msg=None, mode=None): with Image.open(filename) as img: if mode: img = img.convert(mode) self.assert_image_similar(a, img, epsilon, msg) def assert_warning(self, warn_class, func, *args, **kwargs): import warnings with warnings.catch_warnings(record=True) as w: # Cause all warnings to always be triggered. warnings.simplefilter("always") # Hopefully trigger a warning. result = func(*args, **kwargs) # Verify some things. if warn_class is None: self.assertEqual( len(w), 0, "Expected no warnings, got %s" % [v.category for v in w] ) else: self.assertGreaterEqual(len(w), 1) found = False for v in w: if issubclass(v.category, warn_class): found = True break self.assertTrue(found) return result def assert_all_same(self, items, msg=None): self.assertEqual(items.count(items[0]), len(items), msg) def assert_not_all_same(self, items, msg=None): self.assertNotEqual(items.count(items[0]), len(items), msg) def assert_tuple_approx_equal(self, actuals, targets, threshold, msg): """Tests if actuals has values within threshold from targets""" value = True for i, target in enumerate(targets): value *= target - threshold <= actuals[i] <= target + threshold self.assertTrue(value, msg + ": " + repr(actuals) + " != " + repr(targets)) def skipKnownBadTest(self, msg=None): # Skip if PILLOW_RUN_KNOWN_BAD is not true in the environment. if os.environ.get("PILLOW_RUN_KNOWN_BAD", False): print(os.environ.get("PILLOW_RUN_KNOWN_BAD", False)) return self.skipTest(msg or "Known Bad Test") def tempfile(self, template): assert template[:5] in ("temp.", "temp_") fd, path = tempfile.mkstemp(template[4:], template[:4]) os.close(fd) self.addCleanup(self.delete_tempfile, path) return path def open_withImagemagick(self, f): if not imagemagick_available(): raise IOError() outfile = self.tempfile("temp.png") if command_succeeds([IMCONVERT, f, outfile]): return Image.open(outfile) raise IOError() @unittest.skipIf(sys.platform.startswith("win32"), "requires Unix or macOS") class PillowLeakTestCase(PillowTestCase): # requires unix/macOS iterations = 100 # count mem_limit = 512 # k def _get_mem_usage(self): """ Gets the RUSAGE memory usage, returns in K. Encapsulates the difference between macOS and Linux rss reporting :returns: memory usage in kilobytes """ from resource import getrusage, RUSAGE_SELF mem = getrusage(RUSAGE_SELF).ru_maxrss if sys.platform == "darwin": # man 2 getrusage: # ru_maxrss # This is the maximum resident set size utilized (in bytes). return mem / 1024 # Kb else: # linux # man 2 getrusage # ru_maxrss (since Linux 2.6.32) # This is the maximum resident set size used (in kilobytes). return mem # Kb def _test_leak(self, core): start_mem = self._get_mem_usage() for cycle in range(self.iterations): core() mem = self._get_mem_usage() - start_mem msg = "memory usage limit exceeded in iteration %d" % cycle self.assertLess(mem, self.mem_limit, msg) # helpers if not py3: # Remove DeprecationWarning in Python 3 PillowTestCase.assertRaisesRegex = PillowTestCase.assertRaisesRegexp PillowTestCase.assertRegex = PillowTestCase.assertRegexpMatches def fromstring(data): return Image.open(BytesIO(data)) def tostring(im, string_format, **options): out = BytesIO() im.save(out, string_format, **options) return out.getvalue() def hopper(mode=None, cache={}): if mode is None: # Always return fresh not-yet-loaded version of image. # Operations on not-yet-loaded images is separate class of errors # what we should catch. return Image.open("Tests/images/hopper.ppm") # Use caching to reduce reading from disk but so an original copy is # returned each time and the cached image isn't modified by tests # (for fast, isolated, repeatable tests). im = cache.get(mode) if im is None: if mode == "F": im = hopper("L").convert(mode) elif mode[:4] == "I;16": im = hopper("I").convert(mode) else: im = hopper().convert(mode) cache[mode] = im return im.copy() def command_succeeds(cmd): """ Runs the command, which must be a list of strings. Returns True if the command succeeds, or False if an OSError was raised by subprocess.Popen. """ with open(os.devnull, "wb") as f: try: subprocess.call(cmd, stdout=f, stderr=subprocess.STDOUT) except OSError: return False return True def djpeg_available(): return command_succeeds(["djpeg", "-version"]) def cjpeg_available(): return command_succeeds(["cjpeg", "-version"]) def netpbm_available(): return command_succeeds(["ppmquant", "--version"]) and command_succeeds( ["ppmtogif", "--version"] ) def imagemagick_available(): return IMCONVERT and command_succeeds([IMCONVERT, "-version"]) def on_appveyor(): return "APPVEYOR" in os.environ def on_github_actions(): return "GITHUB_ACTIONS" in os.environ def on_ci(): # Travis and AppVeyor have "CI" # Azure Pipelines has "TF_BUILD" # GitHub Actions has "GITHUB_ACTIONS" return ( "CI" in os.environ or "TF_BUILD" in os.environ or "GITHUB_ACTIONS" in os.environ ) def is_win32(): return sys.platform.startswith("win32") def is_pypy(): return hasattr(sys, "pypy_translation_info") if sys.platform == "win32": IMCONVERT = os.environ.get("MAGICK_HOME", "") if IMCONVERT: IMCONVERT = os.path.join(IMCONVERT, "convert.exe") else: IMCONVERT = "convert" def distro(): if os.path.exists("/etc/os-release"): with open("/etc/os-release", "r") as f: for line in f: if "ID=" in line: return line.strip().split("=")[1] class cached_property(object): def __init__(self, func): self.func = func def __get__(self, instance, cls=None): result = instance.__dict__[self.func.__name__] = self.func(instance) return result