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color / predict.py

DmitrMakeev

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	# Prediction interface for Cog ⚙️
	# https://github.com/replicate/cog/blob/main/docs/python.md

	from cog import BasePredictor, Input, Path
	import tempfile
	import os, glob
	import numpy as np
	import cv2
	from PIL import Image
	import torch
	import torch.nn as nn
	import torch.nn.functional as F
	from models import model, basic
	from utils import util

	class Predictor(BasePredictor):
	def setup(self):
	seed = 130
	np.random.seed(seed)
	torch.manual_seed(seed)
	torch.cuda.manual_seed(seed)
	#print('--------------', torch.cuda.is_available())
	"""Load the model into memory to make running multiple predictions efficient"""
	self.colorizer = model.AnchorColorProb(inChannel=1, outChannel=313, enhanced=True)
	self.colorizer = self.colorizer.cuda()
	checkpt_path = "./checkpoints/disco-beta.pth.rar"
	assert os.path.exists(checkpt_path)
	data_dict = torch.load(checkpt_path, map_location=torch.device('cpu'))
	self.colorizer.load_state_dict(data_dict['state_dict'])
	self.colorizer.eval()
	self.color_class = basic.ColorLabel(lambda_=0.5, device='cuda')

	def resize_ab2l(self, gray_img, lab_imgs):
	H, W = gray_img.shape[:2]
	reszied_ab = cv2.resize(lab_imgs[:,:,1:], (W,H), interpolation=cv2.INTER_LINEAR)
	return np.concatenate((gray_img, reszied_ab), axis=2)

	def predict(
	self,
	image: Path = Input(description="input image. Output will be one or multiple colorized images."),
	n_anchors: int = Input(
	description="number of color anchors", ge=3, le=14, default=8
	),
	multi_result: bool = Input(
	description="to generate diverse results", default=False
	),
	vis_anchors: bool = Input(
	description="to visualize the anchor locations", default=False
	)
	) -> Path:
	"""Run a single prediction on the model"""
	bgr_img = cv2.imread(str(image), cv2.IMREAD_COLOR)
	rgb_img = cv2.cvtColor(bgr_img, cv2.COLOR_BGR2RGB)
	rgb_img = np.array(rgb_img / 255., np.float32)
	lab_img = cv2.cvtColor(rgb_img, cv2.COLOR_RGB2LAB)
	org_grays = (lab_img[:,:,[0]]-50.) / 50.
	lab_img = cv2.resize(lab_img, (256,256), interpolation=cv2.INTER_LINEAR)

	lab_img = torch.from_numpy(lab_img.transpose((2, 0, 1)))
	gray_img = (lab_img[0:1,:,:]-50.) / 50.
	ab_chans = lab_img[1:3,:,:] / 110.
	input_grays = gray_img.unsqueeze(0)
	input_colors = ab_chans.unsqueeze(0)
	input_grays = input_grays.cuda(non_blocking=True)
	input_colors = input_colors.cuda(non_blocking=True)

	sampled_T = 2 if multi_result else 0
	pal_logit, ref_logit, enhanced_ab, affinity_map, spix_colors, hint_mask = self.colorizer(input_grays, \
	input_colors, n_anchors, True, sampled_T)
	pred_probs = pal_logit
	guided_colors = self.color_class.decode_ind2ab(ref_logit, T=0)
	sp_size = 16
	guided_colors = basic.upfeat(guided_colors, affinity_map, sp_size, sp_size)
	res_list = []
	if multi_result:
	for no in range(3):
	pred_labs = torch.cat((input_grays,enhanced_ab[no:no+1,:,:,:]), dim=1)
	lab_imgs = basic.tensor2array(pred_labs).squeeze(axis=0)
	lab_imgs = self.resize_ab2l(org_grays, lab_imgs)
	#util.save_normLabs_from_batch(lab_imgs, save_dir, [file_name], -1, suffix='c%d'%no)
	res_list.append(lab_imgs)
	else:
	pred_labs = torch.cat((input_grays,enhanced_ab), dim=1)
	lab_imgs = basic.tensor2array(pred_labs).squeeze(axis=0)
	lab_imgs = self.resize_ab2l(org_grays, lab_imgs)
	#util.save_normLabs_from_batch(lab_imgs, save_dir, [file_name], -1)#, suffix='enhanced')
	res_list.append(lab_imgs)

	if vis_anchors:
	## visualize anchor locations
	anchor_masks = basic.upfeat(hint_mask, affinity_map, sp_size, sp_size)
	marked_labs = basic.mark_color_hints(input_grays, enhanced_ab, anchor_masks, base_ABs=enhanced_ab)
	hint_imgs = basic.tensor2array(marked_labs).squeeze(axis=0)
	hint_imgs = self.resize_ab2l(org_grays, hint_imgs)
	#util.save_normLabs_from_batch(hint_imgs, save_dir, [file_name], -1, suffix='anchors')
	res_list.append(hint_imgs)

	output = cv2.vconcat(res_list)
	output[:,:,0] = output[:,:,0] * 50.0 + 50.0
	output[:,:,1:3] = output[:,:,1:3] * 110.0
	rgb_output = cv2.cvtColor(output[:,:,:], cv2.COLOR_LAB2BGR)
	out_path = Path(tempfile.mkdtemp()) / "out.png"
	cv2.imwrite(str(out_path), (rgb_output*255.0).astype(np.uint8))
	return out_path