from __future__ import annotations import colorsys import itertools from PIL import Image from .helper import assert_image_similar, hopper def int_to_float(i): return i / 255 def str_to_float(i): return ord(i) / 255 def tuple_to_ints(tp): x, y, z = tp return int(x * 255.0), int(y * 255.0), int(z * 255.0) def test_sanity() -> None: Image.new("HSV", (100, 100)) def wedge(): w = Image._wedge() w90 = w.rotate(90) (px, h) = w.size r = Image.new("L", (px * 3, h)) g = r.copy() b = r.copy() r.paste(w, (0, 0)) r.paste(w90, (px, 0)) g.paste(w90, (0, 0)) g.paste(w, (2 * px, 0)) b.paste(w, (px, 0)) b.paste(w90, (2 * px, 0)) img = Image.merge("RGB", (r, g, b)) return img def to_xxx_colorsys(im, func, mode): # convert the hard way using the library colorsys routines. (r, g, b) = im.split() conv_func = int_to_float converted = [ tuple_to_ints(func(conv_func(_r), conv_func(_g), conv_func(_b))) for (_r, _g, _b) in itertools.zip_longest(r.tobytes(), g.tobytes(), b.tobytes()) ] new_bytes = b"".join( bytes(chr(h) + chr(s) + chr(v), "latin-1") for (h, s, v) in converted ) hsv = Image.frombytes(mode, r.size, new_bytes) return hsv def to_hsv_colorsys(im): return to_xxx_colorsys(im, colorsys.rgb_to_hsv, "HSV") def to_rgb_colorsys(im): return to_xxx_colorsys(im, colorsys.hsv_to_rgb, "RGB") def test_wedge() -> None: src = wedge().resize((3 * 32, 32), Image.Resampling.BILINEAR) im = src.convert("HSV") comparable = to_hsv_colorsys(src) assert_image_similar( im.getchannel(0), comparable.getchannel(0), 1, "Hue conversion is wrong" ) assert_image_similar( im.getchannel(1), comparable.getchannel(1), 1, "Saturation conversion is wrong", ) assert_image_similar( im.getchannel(2), comparable.getchannel(2), 1, "Value conversion is wrong" ) comparable = src im = im.convert("RGB") assert_image_similar( im.getchannel(0), comparable.getchannel(0), 3, "R conversion is wrong" ) assert_image_similar( im.getchannel(1), comparable.getchannel(1), 3, "G conversion is wrong" ) assert_image_similar( im.getchannel(2), comparable.getchannel(2), 3, "B conversion is wrong" ) def test_convert() -> None: im = hopper("RGB").convert("HSV") comparable = to_hsv_colorsys(hopper("RGB")) assert_image_similar( im.getchannel(0), comparable.getchannel(0), 1, "Hue conversion is wrong" ) assert_image_similar( im.getchannel(1), comparable.getchannel(1), 1, "Saturation conversion is wrong", ) assert_image_similar( im.getchannel(2), comparable.getchannel(2), 1, "Value conversion is wrong" ) def test_hsv_to_rgb() -> None: comparable = to_hsv_colorsys(hopper("RGB")) converted = comparable.convert("RGB") comparable = to_rgb_colorsys(comparable) assert_image_similar( converted.getchannel(0), comparable.getchannel(0), 3, "R conversion is wrong", ) assert_image_similar( converted.getchannel(1), comparable.getchannel(1), 3, "G conversion is wrong", ) assert_image_similar( converted.getchannel(2), comparable.getchannel(2), 3, "B conversion is wrong", )