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import os | |
from huggingface_hub import hf_hub_download | |
os.system("pip -qq install facenet_pytorch") | |
from facenet_pytorch import MTCNN | |
from torchvision import transforms | |
import torch, PIL | |
from tqdm.notebook import tqdm | |
import gradio as gr | |
import torch | |
modelarcanev4 = hf_hub_download(repo_id="akhaliq/ArcaneGANv0.4", filename="ArcaneGANv0.4.jit") | |
modelarcanev3 = hf_hub_download(repo_id="akhaliq/ArcaneGANv0.3", filename="ArcaneGANv0.3.jit") | |
modelarcanev2 = hf_hub_download(repo_id="akhaliq/ArcaneGANv0.2", filename="ArcaneGANv0.2.jit") | |
mtcnn = MTCNN(image_size=256, margin=80) | |
# simplest ye olde trustworthy MTCNN for face detection with landmarks | |
def detect(img): | |
# Detect faces | |
batch_boxes, batch_probs, batch_points = mtcnn.detect(img, landmarks=True) | |
# Select faces | |
if not mtcnn.keep_all: | |
batch_boxes, batch_probs, batch_points = mtcnn.select_boxes( | |
batch_boxes, batch_probs, batch_points, img, method=mtcnn.selection_method | |
) | |
return batch_boxes, batch_points | |
# my version of isOdd, should make a separate repo for it :D | |
def makeEven(_x): | |
return _x if (_x % 2 == 0) else _x+1 | |
# the actual scaler function | |
def scale(boxes, _img, max_res=1_500_000, target_face=256, fixed_ratio=0, max_upscale=2, VERBOSE=False): | |
x, y = _img.size | |
ratio = 2 #initial ratio | |
#scale to desired face size | |
if (boxes is not None): | |
if len(boxes)>0: | |
ratio = target_face/max(boxes[0][2:]-boxes[0][:2]); | |
ratio = min(ratio, max_upscale) | |
if VERBOSE: print('up by', ratio) | |
if fixed_ratio>0: | |
if VERBOSE: print('fixed ratio') | |
ratio = fixed_ratio | |
x*=ratio | |
y*=ratio | |
#downscale to fit into max res | |
res = x*y | |
if res > max_res: | |
ratio = pow(res/max_res,1/2); | |
if VERBOSE: print(ratio) | |
x=int(x/ratio) | |
y=int(y/ratio) | |
#make dimensions even, because usually NNs fail on uneven dimensions due skip connection size mismatch | |
x = makeEven(int(x)) | |
y = makeEven(int(y)) | |
size = (x, y) | |
return _img.resize(size) | |
""" | |
A useful scaler algorithm, based on face detection. | |
Takes PIL.Image, returns a uniformly scaled PIL.Image | |
boxes: a list of detected bboxes | |
_img: PIL.Image | |
max_res: maximum pixel area to fit into. Use to stay below the VRAM limits of your GPU. | |
target_face: desired face size. Upscale or downscale the whole image to fit the detected face into that dimension. | |
fixed_ratio: fixed scale. Ignores the face size, but doesn't ignore the max_res limit. | |
max_upscale: maximum upscale ratio. Prevents from scaling images with tiny faces to a blurry mess. | |
""" | |
def scale_by_face_size(_img, max_res=1_500_000, target_face=256, fix_ratio=0, max_upscale=2, VERBOSE=False): | |
boxes = None | |
boxes, _ = detect(_img) | |
if VERBOSE: print('boxes',boxes) | |
img_resized = scale(boxes, _img, max_res, target_face, fix_ratio, max_upscale, VERBOSE) | |
return img_resized | |
size = 256 | |
means = [0.485, 0.456, 0.406] | |
stds = [0.229, 0.224, 0.225] | |
t_stds = torch.tensor(stds).cuda().half()[:,None,None] | |
t_means = torch.tensor(means).cuda().half()[:,None,None] | |
def makeEven(_x): | |
return int(_x) if (_x % 2 == 0) else int(_x+1) | |
img_transforms = transforms.Compose([ | |
transforms.ToTensor(), | |
transforms.Normalize(means,stds)]) | |
def tensor2im(var): | |
return var.mul(t_stds).add(t_means).mul(255.).clamp(0,255).permute(1,2,0) | |
def proc_pil_img(input_image, model): | |
transformed_image = img_transforms(input_image)[None,...].cuda().half() | |
with torch.no_grad(): | |
result_image = model(transformed_image)[0] | |
output_image = tensor2im(result_image) | |
output_image = output_image.detach().cpu().numpy().astype('uint8') | |
output_image = PIL.Image.fromarray(output_image) | |
return output_image | |
modelv4 = torch.jit.load(modelarcanev4).eval().cuda().half() | |
modelv3 = torch.jit.load(modelarcanev3).eval().cuda().half() | |
modelv2 = torch.jit.load(modelarcanev2).eval().cuda().half() | |
def process(im, version): | |
if version == 'version 0.4': | |
im = scale_by_face_size(im, target_face=256, max_res=1_500_000, max_upscale=1) | |
res = proc_pil_img(im, modelv4) | |
elif version == 'version 0.3': | |
im = scale_by_face_size(im, target_face=256, max_res=1_500_000, max_upscale=1) | |
res = proc_pil_img(im, modelv3) | |
else: | |
im = scale_by_face_size(im, target_face=256, max_res=1_500_000, max_upscale=1) | |
res = proc_pil_img(im, modelv2) | |
return res | |
title = "ArcaneGAN" | |
description = "Gradio demo for ArcaneGAN, portrait to Arcane style. To use it, simply upload your image, or click one of the examples to load them. Read more at the links below." | |
article = "<div style='text-align: center;'>ArcaneGan by <a href='https://twitter.com/devdef' target='_blank'>Alexander S</a> | <a href='https://github.com/Sxela/ArcaneGAN' target='_blank'>Github Repo</a> | <center><img src='https://visitor-badge.glitch.me/badge?page_id=akhaliq_arcanegan' alt='visitor badge'></center></div>" | |
gr.Interface( | |
process, | |
[gr.inputs.Image(type="pil", label="Input"),gr.inputs.Radio(choices=['version 0.2','version 0.3','version 0.4'], type="value", default='version 0.4', label='version') | |
], | |
gr.outputs.Image(type="pil", label="Output"), | |
title=title, | |
description=description, | |
article=article, | |
examples=[['bill.png','version 0.3'],['keanu.png','version 0.4'],['will.jpeg','version 0.4']], | |
allow_flagging=False, | |
allow_screenshot=False | |
).launch(enable_queue=True,cache_examples=True) | |