import os from glob import glob from itertools import product from helper import unittest, PillowTestCase from PIL import Image _TGA_DIR = os.path.join("Tests", "images", "tga") _TGA_DIR_COMMON = os.path.join(_TGA_DIR, "common") class TestFileTga(PillowTestCase): _MODES = ("L", "LA", "P", "RGB", "RGBA") _ORIGINS = ("tl", "bl") _ORIGIN_TO_ORIENTATION = { "tl": 1, "bl": -1 } def test_sanity(self): for mode in self._MODES: png_paths = glob( os.path.join( _TGA_DIR_COMMON, "*x*_{}.png".format(mode.lower()))) for png_path in png_paths: reference_im = Image.open(png_path) self.assertEqual(reference_im.mode, mode) path_no_ext = os.path.splitext(png_path)[0] for origin, rle in product(self._ORIGINS, (True, False)): tga_path = "{}_{}_{}.tga".format( path_no_ext, origin, "rle" if rle else "raw") original_im = Image.open(tga_path) if rle: self.assertEqual( original_im.info["compression"], "tga_rle") self.assertEqual( original_im.info["orientation"], self._ORIGIN_TO_ORIENTATION[origin]) if mode == "P": self.assertEqual( original_im.getpalette(), reference_im.getpalette()) self.assert_image_equal(original_im, reference_im) # Generate a new test name every time so the # test will not fail with permission error # on Windows. test_file = self.tempfile("temp.tga") original_im.save(test_file, rle=rle) saved_im = Image.open(test_file) if rle: self.assertEqual( saved_im.info["compression"], original_im.info["compression"]) self.assertEqual( saved_im.info["orientation"], original_im.info["orientation"]) if mode == "P": self.assertEqual( saved_im.getpalette(), original_im.getpalette()) self.assert_image_equal(saved_im, original_im) def test_id_field(self): # tga file with id field test_file = "Tests/images/tga_id_field.tga" # Act im = Image.open(test_file) # Assert self.assertEqual(im.size, (100, 100)) def test_id_field_rle(self): # tga file with id field test_file = "Tests/images/rgb32rle.tga" # Act im = Image.open(test_file) # Assert self.assertEqual(im.size, (199, 199)) def test_save(self): test_file = "Tests/images/tga_id_field.tga" im = Image.open(test_file) test_file = self.tempfile("temp.tga") # Save im.save(test_file) test_im = Image.open(test_file) self.assertEqual(test_im.size, (100, 100)) # RGBA save im.convert("RGBA").save(test_file) test_im = Image.open(test_file) self.assertEqual(test_im.size, (100, 100)) def test_save_rle(self): test_file = "Tests/images/rgb32rle.tga" im = Image.open(test_file) test_file = self.tempfile("temp.tga") # Save im.save(test_file) test_im = Image.open(test_file) self.assertEqual(test_im.size, (199, 199)) # RGBA save im.convert("RGBA").save(test_file) test_im = Image.open(test_file) self.assertEqual(test_im.size, (199, 199)) def test_save_l_transparency(self): # There are 559 transparent pixels in la.tga. num_transparent = 559 in_file = "Tests/images/la.tga" im = Image.open(in_file) self.assertEqual(im.mode, "LA") self.assertEqual( im.getchannel("A").getcolors()[0][0], num_transparent) test_file = self.tempfile("temp.tga") im.save(test_file) test_im = Image.open(test_file) self.assertEqual(test_im.mode, "LA") self.assertEqual( test_im.getchannel("A").getcolors()[0][0], num_transparent) self.assert_image_equal(im, test_im) if __name__ == '__main__': unittest.main()