IOPaint/lama_cleaner/tests/test_plugins.py
2023-12-28 10:48:52 +08:00

87 lines
2.3 KiB
Python

import hashlib
import os
import time
from lama_cleaner.plugins.anime_seg import AnimeSeg
from lama_cleaner.tests.utils import check_device, current_dir, save_dir
os.environ["PYTORCH_ENABLE_MPS_FALLBACK"] = "1"
import cv2
import pytest
from lama_cleaner.plugins import (
RemoveBG,
RealESRGANUpscaler,
GFPGANPlugin,
RestoreFormerPlugin,
InteractiveSeg,
)
img_p = current_dir / "bunny.jpeg"
img_bytes = open(img_p, "rb").read()
bgr_img = cv2.imread(str(img_p))
rgb_img = cv2.cvtColor(bgr_img, cv2.COLOR_BGR2RGB)
def _save(img, name):
cv2.imwrite(str(save_dir / name), img)
def test_remove_bg():
model = RemoveBG()
res = model.forward(bgr_img)
res = cv2.cvtColor(res, cv2.COLOR_RGBA2BGRA)
_save(res, "test_remove_bg.png")
def test_anime_seg():
model = AnimeSeg()
img = cv2.imread(str(current_dir / "anime_test.png"))
res = model.forward(img)
assert len(res.shape) == 3
assert res.shape[-1] == 4
_save(res, "test_anime_seg.png")
@pytest.mark.parametrize("device", ["cuda", "cpu", "mps"])
def test_upscale(device):
check_device(device)
model = RealESRGANUpscaler("realesr-general-x4v3", device)
res = model.forward(bgr_img, 2)
_save(res, f"test_upscale_x2_{device}.png")
res = model.forward(bgr_img, 4)
_save(res, f"test_upscale_x4_{device}.png")
@pytest.mark.parametrize("device", ["cuda", "cpu", "mps"])
def test_gfpgan(device):
check_device(device)
model = GFPGANPlugin(device)
res = model(rgb_img, None, None)
_save(res, f"test_gfpgan_{device}.png")
@pytest.mark.parametrize("device", ["cuda", "cpu", "mps"])
def test_restoreformer(device):
check_device(device)
model = RestoreFormerPlugin(device)
res = model(rgb_img, None, None)
_save(res, f"test_restoreformer_{device}.png")
@pytest.mark.parametrize("device", ["cuda", "cpu", "mps"])
def test_segment_anything(device):
check_device(device)
img_md5 = hashlib.md5(img_bytes).hexdigest()
model = InteractiveSeg("vit_l", device)
new_mask = model.forward(rgb_img, [[448 // 2, 394 // 2, 1]], img_md5)
save_name = f"test_segment_anything_{device}.png"
_save(new_mask, save_name)
start = time.time()
model.forward(rgb_img, [[448 // 2, 394 // 2, 1]], img_md5)
print(f"Time for {save_name}: {time.time() - start:.2f}s")