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A10G
Running
on
A10G
| import cv2 | |
| import yaml | |
| import numpy as np | |
| from annotator.lineart import LineartDetector | |
| from annotator.zoe import ZoeDetector | |
| from annotator.manga_line import MangaLineExtration | |
| from annotator.lineart_anime import LineartAnimeDetector | |
| from annotator.hed import apply_hed | |
| from annotator.canny import apply_canny | |
| from annotator.pidinet import apply_pidinet | |
| from annotator.leres import apply_leres | |
| from annotator.midas import apply_midas | |
| def yaml_load(path): | |
| with open(path, 'r') as stream: | |
| try: | |
| return yaml.safe_load(stream) | |
| except yaml.YAMLError as exc: | |
| print(exc) | |
| def yaml_dump(path, data): | |
| with open(path, 'w') as outfile: | |
| yaml.dump(data, outfile, default_flow_style=False) | |
| def pad64(x): | |
| return int(np.ceil(float(x) / 64.0) * 64 - x) | |
| def HWC3(x): | |
| assert x.dtype == np.uint8 | |
| if x.ndim == 2: | |
| x = x[:, :, None] | |
| assert x.ndim == 3 | |
| H, W, C = x.shape | |
| assert C == 1 or C == 3 or C == 4 | |
| if C == 3: | |
| return x | |
| if C == 1: | |
| return np.concatenate([x, x, x], axis=2) | |
| if C == 4: | |
| color = x[:, :, 0:3].astype(np.float32) | |
| alpha = x[:, :, 3:4].astype(np.float32) / 255.0 | |
| y = color * alpha + 255.0 * (1.0 - alpha) | |
| y = y.clip(0, 255).astype(np.uint8) | |
| return y | |
| def safer_memory(x): | |
| # Fix many MAC/AMD problems | |
| return np.ascontiguousarray(x.copy()).copy() | |
| def resize_image_with_pad(input_image, resolution, skip_hwc3=False): | |
| if skip_hwc3: | |
| img = input_image | |
| else: | |
| img = HWC3(input_image) | |
| H_raw, W_raw, _ = img.shape | |
| k = float(resolution) / float(min(H_raw, W_raw)) | |
| interpolation = cv2.INTER_CUBIC if k > 1 else cv2.INTER_AREA | |
| H_target = int(np.round(float(H_raw) * k)) | |
| W_target = int(np.round(float(W_raw) * k)) | |
| img = cv2.resize(img, (W_target, H_target), interpolation=interpolation) | |
| H_pad, W_pad = pad64(H_target), pad64(W_target) | |
| img_padded = np.pad(img, [[0, H_pad], [0, W_pad], [0, 0]], mode='edge') | |
| def remove_pad(x): | |
| return safer_memory(x[:H_target, :W_target]) | |
| return safer_memory(img_padded), remove_pad | |
| def lineart_standard(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| x = img.astype(np.float32) | |
| g = cv2.GaussianBlur(x, (0, 0), 6.0) | |
| intensity = np.min(g - x, axis=2).clip(0, 255) | |
| intensity /= max(16, np.median(intensity[intensity > 8])) | |
| intensity *= 127 | |
| result = intensity.clip(0, 255).astype(np.uint8) | |
| return remove_pad(result), True | |
| def lineart(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_lineart = LineartDetector('sk_model.pth') | |
| # applied auto inversion | |
| result = 255 - model_lineart(img) | |
| return remove_pad(result), True | |
| def lineart_coarse(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_lineart_coarse = LineartDetector('sk_model2.pth') | |
| # applied auto inversion | |
| result = 255 - model_lineart_coarse(img) | |
| return remove_pad(result), True | |
| def lineart_anime(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_lineart_anime = LineartAnimeDetector() | |
| # applied auto inversion | |
| result = 255 - model_lineart_anime(img) | |
| return remove_pad(result), True | |
| def lineart_anime_denoise(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_manga_line = MangaLineExtration() | |
| # applied auto inversion | |
| result = model_manga_line(img) | |
| return remove_pad(result), True | |
| def canny(img, res=512, thr_a=100, thr_b=200, **kwargs): | |
| l, h = thr_a, thr_b | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_canny = apply_canny | |
| result = model_canny(img, l, h) | |
| return remove_pad(result), True | |
| def hed(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_hed = apply_hed | |
| result = model_hed(img) | |
| return remove_pad(result), True | |
| def hed_safe(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_hed = apply_hed | |
| result = model_hed(img, is_safe=True) | |
| return remove_pad(result), True | |
| def midas(img, res=512, a=np.pi * 2.0, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_midas = apply_midas | |
| result, _ = model_midas(img, a) | |
| return remove_pad(result), True | |
| def leres(img, res=512, thr_a=0, thr_b=0, boost=False, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_leres = apply_leres | |
| result = model_leres(img, thr_a, thr_b, boost=boost) | |
| return remove_pad(result), True | |
| def lerespp(img, res=512, thr_a=0, thr_b=0, boost=True, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_leres = apply_leres | |
| result = model_leres(img, thr_a, thr_b, boost=boost) | |
| return remove_pad(result), True | |
| def pidinet(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_pidinet = apply_pidinet | |
| result = model_pidinet(img) | |
| return remove_pad(result), True | |
| def pidinet_ts(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_pidinet = apply_pidinet | |
| result = model_pidinet(img, apply_fliter=True) | |
| return remove_pad(result), True | |
| def pidinet_safe(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_pidinet = apply_pidinet | |
| result = model_pidinet(img, is_safe=True) | |
| return remove_pad(result), True | |
| def zoe_depth(img, res=512, **kwargs): | |
| img, remove_pad = resize_image_with_pad(img, res) | |
| model_zoe_depth = ZoeDetector() | |
| result = model_zoe_depth(img) | |
| return remove_pad(result), True | |
| preprocessors_dict = { | |
| 'lineart_realistic': lineart, | |
| 'lineart_coarse': lineart_coarse, | |
| 'lineart_standard': lineart_standard, | |
| 'lineart_anime': lineart_anime, | |
| 'lineart_anime_denoise': lineart_anime_denoise, | |
| 'softedge_hed': hed, | |
| 'softedge_hedsafe': hed_safe, | |
| 'softedge_pidinet': pidinet, | |
| 'softedge_pidsafe': pidinet_safe, | |
| 'canny': canny, | |
| 'depth_leres': leres, | |
| 'depth_leres++': lerespp, | |
| 'depth_midas': midas, | |
| 'depth_zoe': zoe_depth, | |
| } | |
| def pixel_perfect_process(input_image, p_name): | |
| raw_H, raw_W, _ = input_image.shape | |
| preprocessor_resolution = raw_H | |
| detected_map, _ = preprocessors_dict[p_name](input_image, res=preprocessor_resolution) | |
| return detected_map | |