Pillow/Tests/test_file_libtiff.py

from helper import unittest, PillowTestCase, tearDownModule, lena, py3

import os

from PIL import Image, TiffImagePlugin


class TestFileLibTiff(PillowTestCase):

    def setUp(self):
        codecs = dir(Image.core)

        if "libtiff_encoder" not in codecs or "libtiff_decoder" not in codecs:
            self.skipTest("tiff support not available")

    def _assert_noerr(self, im):
        """Helper tests that assert basic sanity about the g4 tiff reading"""
        # 1 bit
        self.assertEqual(im.mode, "1")

        # Does the data actually load
        im.load()
        im.getdata()

        try:
            self.assertEqual(im._compression, 'group4')
        except:
            print("No _compression")
            print (dir(im))

        # can we write it back out, in a different form.
        out = self.tempfile("temp.png")
        im.save(out)

    def test_g4_tiff(self):
        """Test the ordinary file path load path"""

        file = "Tests/images/lena_g4_500.tif"
        im = Image.open(file)

        self.assertEqual(im.size, (500, 500))
        self._assert_noerr(im)

    def test_g4_large(self):
        file = "Tests/images/pport_g4.tif"
        im = Image.open(file)
        self._assert_noerr(im)

    def test_g4_tiff_file(self):
        """Testing the string load path"""

        file = "Tests/images/lena_g4_500.tif"
        with open(file, 'rb') as f:
            im = Image.open(f)

            self.assertEqual(im.size, (500, 500))
            self._assert_noerr(im)

    def test_g4_tiff_bytesio(self):
        """Testing the stringio loading code path"""
        from io import BytesIO
        file = "Tests/images/lena_g4_500.tif"
        s = BytesIO()
        with open(file, 'rb') as f:
            s.write(f.read())
            s.seek(0)
        im = Image.open(s)

        self.assertEqual(im.size, (500, 500))
        self._assert_noerr(im)

    def test_g4_eq_png(self):
        """ Checking that we're actually getting the data that we expect"""
        png = Image.open('Tests/images/lena_bw_500.png')
        g4 = Image.open('Tests/images/lena_g4_500.tif')

        self.assert_image_equal(g4, png)

    # see https://github.com/python-pillow/Pillow/issues/279
    def test_g4_fillorder_eq_png(self):
        """ Checking that we're actually getting the data that we expect"""
        png = Image.open('Tests/images/g4-fillorder-test.png')
        g4 = Image.open('Tests/images/g4-fillorder-test.tif')

        self.assert_image_equal(g4, png)

    def test_g4_write(self):
        """Checking to see that the saved image is the same as what we wrote"""
        file = "Tests/images/lena_g4_500.tif"
        orig = Image.open(file)

        out = self.tempfile("temp.tif")
        rot = orig.transpose(Image.ROTATE_90)
        self.assertEqual(rot.size, (500, 500))
        rot.save(out)

        reread = Image.open(out)
        self.assertEqual(reread.size, (500, 500))
        self._assert_noerr(reread)
        self.assert_image_equal(reread, rot)
        self.assertEqual(reread.info['compression'], 'group4')

        self.assertEqual(reread.info['compression'], orig.info['compression'])

        self.assertNotEqual(orig.tobytes(), reread.tobytes())

    def test_adobe_deflate_tiff(self):
        file = "Tests/images/tiff_adobe_deflate.tif"
        im = Image.open(file)

        self.assertEqual(im.mode, "RGB")
        self.assertEqual(im.size, (278, 374))
        self.assertEqual(
            im.tile[0][:3], ('tiff_adobe_deflate', (0, 0, 278, 374), 0))
        im.load()

    def test_write_metadata(self):
        """ Test metadata writing through libtiff """
        img = Image.open('Tests/images/lena_g4.tif')
        f = self.tempfile('temp.tiff')

        img.save(f, tiffinfo=img.tag)

        loaded = Image.open(f)

        original = img.tag.named()
        reloaded = loaded.tag.named()

        # PhotometricInterpretation is set from SAVE_INFO,
        # not the original image.
        ignored = [
            'StripByteCounts', 'RowsPerStrip',
            'PageNumber', 'PhotometricInterpretation']

        for tag, value in reloaded.items():
            if tag not in ignored:
                if tag.endswith('Resolution'):
                    val = original[tag]
                    self.assert_almost_equal(
                        val[0][0]/val[0][1], value[0][0]/value[0][1],
                        msg="%s didn't roundtrip" % tag)
                else:
                    self.assertEqual(
                        original[tag], value, "%s didn't roundtrip" % tag)

        for tag, value in original.items():
            if tag not in ignored:
                if tag.endswith('Resolution'):
                    val = reloaded[tag]
                    self.assert_almost_equal(
                        val[0][0]/val[0][1], value[0][0]/value[0][1],
                        msg="%s didn't roundtrip" % tag)
                else:
                    self.assertEqual(
                        value, reloaded[tag], "%s didn't roundtrip" % tag)

    def test_g3_compression(self):
        i = Image.open('Tests/images/lena_g4_500.tif')
        out = self.tempfile("temp.tif")
        i.save(out, compression='group3')

        reread = Image.open(out)
        self.assertEqual(reread.info['compression'], 'group3')
        self.assert_image_equal(reread, i)

    def test_little_endian(self):
        im = Image.open('Tests/images/16bit.deflate.tif')
        self.assertEqual(im.getpixel((0, 0)), 480)
        self.assertEqual(im.mode, 'I;16')

        b = im.tobytes()
        # Bytes are in image native order (little endian)
        if py3:
            self.assertEqual(b[0], ord(b'\xe0'))
            self.assertEqual(b[1], ord(b'\x01'))
        else:
            self.assertEqual(b[0], b'\xe0')
            self.assertEqual(b[1], b'\x01')

        out = self.tempfile("temp.tif")
        # out = "temp.le.tif"
        im.save(out)
        reread = Image.open(out)

        self.assertEqual(reread.info['compression'], im.info['compression'])
        self.assertEqual(reread.getpixel((0, 0)), 480)
        # UNDONE - libtiff defaults to writing in native endian, so
        # on big endian, we'll get back mode = 'I;16B' here.

    def test_big_endian(self):
        im = Image.open('Tests/images/16bit.MM.deflate.tif')

        self.assertEqual(im.getpixel((0, 0)), 480)
        self.assertEqual(im.mode, 'I;16B')

        b = im.tobytes()

        # Bytes are in image native order (big endian)
        if py3:
            self.assertEqual(b[0], ord(b'\x01'))
            self.assertEqual(b[1], ord(b'\xe0'))
        else:
            self.assertEqual(b[0], b'\x01')
            self.assertEqual(b[1], b'\xe0')

        out = self.tempfile("temp.tif")
        im.save(out)
        reread = Image.open(out)

        self.assertEqual(reread.info['compression'], im.info['compression'])
        self.assertEqual(reread.getpixel((0, 0)), 480)

    def test_g4_string_info(self):
        """Tests String data in info directory"""
        file = "Tests/images/lena_g4_500.tif"
        orig = Image.open(file)

        out = self.tempfile("temp.tif")

        orig.tag[269] = 'temp.tif'
        orig.save(out)

        reread = Image.open(out)
        self.assertEqual('temp.tif', reread.tag[269])

    def test_12bit_rawmode(self):
        """ Are we generating the same interpretation
        of the image as Imagemagick is? """
        TiffImagePlugin.READ_LIBTIFF = True
        # Image.DEBUG = True
        im = Image.open('Tests/images/12bit.cropped.tif')
        im.load()
        TiffImagePlugin.READ_LIBTIFF = False
        # to make the target --
        # convert 12bit.cropped.tif -depth 16 tmp.tif
        # convert tmp.tif -evaluate RightShift 4 12in16bit2.tif
        # imagemagick will auto scale so that a 12bit FFF is 16bit FFF0,
        # so we need to unshift so that the integer values are the same.

        im2 = Image.open('Tests/images/12in16bit.tif')

        if Image.DEBUG:
            print (im.getpixel((0, 0)))
            print (im.getpixel((0, 1)))
            print (im.getpixel((0, 2)))

            print (im2.getpixel((0, 0)))
            print (im2.getpixel((0, 1)))
            print (im2.getpixel((0, 2)))

        self.assert_image_equal(im, im2)

    def test_blur(self):
        # test case from irc, how to do blur on b/w image
        # and save to compressed tif.
        from PIL import ImageFilter
        out = self.tempfile('temp.tif')
        im = Image.open('Tests/images/pport_g4.tif')
        im = im.convert('L')

        im = im.filter(ImageFilter.GaussianBlur(4))
        im.save(out, compression='tiff_adobe_deflate')

        im2 = Image.open(out)
        im2.load()

        self.assert_image_equal(im, im2)

    def test_compressions(self):
        im = lena('RGB')
        out = self.tempfile('temp.tif')

        for compression in ('packbits', 'tiff_lzw'):
            im.save(out, compression=compression)
            im2 = Image.open(out)
            self.assert_image_equal(im, im2)

        im.save(out, compression='jpeg')
        im2 = Image.open(out)
        self.assert_image_similar(im, im2, 30)

    def test_cmyk_save(self):
        im = lena('CMYK')
        out = self.tempfile('temp.tif')

        im.save(out, compression='tiff_adobe_deflate')
        im2 = Image.open(out)
        self.assert_image_equal(im, im2)

    def xtest_bw_compression_wRGB(self):
        """ This test passes, but when running all tests causes a failure due
            to output on stderr from the error thrown by libtiff. We need to
            capture that but not now"""

        im = lena('RGB')
        out = self.tempfile('temp.tif')

        self.assertRaises(
            IOError, lambda: im.save(out, compression='tiff_ccitt'))
        self.assertRaises(IOError, lambda: im.save(out, compression='group3'))
        self.assertRaises(IOError, lambda: im.save(out, compression='group4'))

    def test_fp_leak(self):
        im = Image.open("Tests/images/lena_g4_500.tif")
        fn = im.fp.fileno()

        os.fstat(fn)
        im.load()  # this should close it.
        self.assertRaises(OSError, lambda: os.fstat(fn))
        im = None  # this should force even more closed.
        self.assertRaises(OSError, lambda: os.fstat(fn))
        self.assertRaises(OSError, lambda: os.close(fn))


if __name__ == '__main__':
    unittest.main()

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