disco

Paused

App Files Files Community

disco / utils /util.py

menghanxia

upload whole project

b3640b9 over 3 years ago

raw

history blame contribute delete

6.92 kB

	from __future__ import division
	from __future__ import print_function
	import os, glob, shutil, math, json
	from queue import Queue
	from threading import Thread
	from skimage.segmentation import mark_boundaries
	import numpy as np
	from PIL import Image
	import cv2, torch

	def get_gauss_kernel(size, sigma):
	'''Function to mimic the 'fspecial' gaussian MATLAB function'''
	x, y = np.mgrid[-size//2 + 1:size//2 + 1, -size//2 + 1:size//2 + 1]
	g = np.exp(-((x2 + y2)/(2.0sigma*2)))
	return g/g.sum()


	def batchGray2Colormap(gray_batch):
	colormap = plt.get_cmap('viridis')
	heatmap_batch = []
	for i in range(gray_batch.shape[0]):
	# quantize [-1,1] to {0,1}
	gray_map = gray_batch[i, :, :, 0]
	heatmap = (colormap(gray_map) * 2**16).astype(np.uint16)[:,:,:3]
	heatmap_batch.append(heatmap/127.5-1.0)
	return np.array(heatmap_batch)


	class PlotterThread():
	'''log tensorboard data in a background thread to save time'''
	def __init__(self, writer):
	self.writer = writer
	self.task_queue = Queue(maxsize=0)
	worker = Thread(target=self.do_work, args=(self.task_queue,))
	worker.setDaemon(True)
	worker.start()

	def do_work(self, q):
	while True:
	content = q.get()
	if content[-1] == 'image':
	self.writer.add_image(*content[:-1])
	elif content[-1] == 'scalar':
	self.writer.add_scalar(*content[:-1])
	else:
	raise ValueError
	q.task_done()

	def add_data(self, name, value, step, data_type='scalar'):
	self.task_queue.put([name, value, step, data_type])

	def __len__(self):
	return self.task_queue.qsize()


	def save_images_from_batch(img_batch, save_dir, filename_list, batch_no=-1, suffix=None):
	N,H,W,C = img_batch.shape
	if C == 3:
	#! rgb color image
	for i in range(N):
	# [-1,1] >>> [0,255]
	image = Image.fromarray((127.5*(img_batch[i,:,:,:]+1.)).astype(np.uint8))
	save_name = filename_list[i] if batch_no==-1 else '%05d.png' % (batch_no*N+i)
	save_name = save_name.replace('.png', '-%s.png'%suffix) if suffix else save_name
	image.save(os.path.join(save_dir, save_name), 'PNG')
	elif C == 1:
	#! single-channel gray image
	for i in range(N):
	# [-1,1] >>> [0,255]
	image = Image.fromarray((127.5*(img_batch[i,:,:,0]+1.)).astype(np.uint8))
	save_name = filename_list[i] if batch_no==-1 else '%05d.png' % (batch_no*img_batch.shape[0]+i)
	save_name = save_name.replace('.png', '-%s.png'%suffix) if suffix else save_name
	image.save(os.path.join(save_dir, save_name), 'PNG')
	else:
	#! multi-channel: save each channel as a single image
	for i in range(N):
	# [-1,1] >>> [0,255]
	for j in range(C):
	image = Image.fromarray((127.5*(img_batch[i,:,:,j]+1.)).astype(np.uint8))
	if batch_no == -1:
	_, file_name = os.path.split(filename_list[i])
	name_only, _ = os.path.os.path.splitext(file_name)
	save_name = name_only + '_c%d.png' % j
	else:
	save_name = '%05d_c%d.png' % (batch_no*N+i, j)
	save_name = save_name.replace('.png', '-%s.png'%suffix) if suffix else save_name
	image.save(os.path.join(save_dir, save_name), 'PNG')
	return None


	def save_normLabs_from_batch(img_batch, save_dir, filename_list, batch_no=-1, suffix=None):
	N,H,W,C = img_batch.shape
	if C != 3:
	print('@Warning:the Lab images are NOT in 3 channels!')
	return None
	# denormalization: L: (L+1.0)50.0 \| a: a110.0\| b: b*110.0
	img_batch[:,:,:,0] = img_batch[:,:,:,0] * 50.0 + 50.0
	img_batch[:,:,:,1:3] = img_batch[:,:,:,1:3] * 110.0
	#! convert into RGB color image
	for i in range(N):
	rgb_img = cv2.cvtColor(img_batch[i,:,:,:], cv2.COLOR_LAB2RGB)
	image = Image.fromarray((rgb_img*255.0).astype(np.uint8))
	save_name = filename_list[i] if batch_no==-1 else '%05d.png' % (batch_no*N+i)
	save_name = save_name.replace('.png', '-%s.png'%suffix) if suffix else save_name
	image.save(os.path.join(save_dir, save_name), 'PNG')
	return None


	def save_markedSP_from_batch(img_batch, spix_batch, save_dir, filename_list, batch_no=-1, suffix=None):
	N,H,W,C = img_batch.shape
	#! img_batch: BGR nd-array (range:0~1)
	#! map_batch: single-channel spixel map
	#print('----------', img_batch.shape, spix_batch.shape)
	for i in range(N):
	norm_image = img_batch[i,:,:,:]*0.5+0.5
	spixel_bd_image = mark_boundaries(norm_image, spix_batch[i,:,:,0].astype(int), color=(1,1,1))
	#spixel_bd_image = cv2.cvtColor(spixel_bd_image, cv2.COLOR_BGR2RGB)
	image = Image.fromarray((spixel_bd_image*255.0).astype(np.uint8))
	save_name = filename_list[i] if batch_no==-1 else '%05d.png' % (batch_no*N+i)
	save_name = save_name.replace('.png', '-%s.png'%suffix) if suffix else save_name
	image.save(os.path.join(save_dir, save_name), 'PNG')
	return None


	def get_filelist(data_dir):
	file_list = glob.glob(os.path.join(data_dir, '.'))
	file_list.sort()
	return file_list


	def collect_filenames(data_dir):
	file_list = get_filelist(data_dir)
	name_list = []
	for file_path in file_list:
	_, file_name = os.path.split(file_path)
	name_list.append(file_name)
	name_list.sort()
	return name_list


	def exists_or_mkdir(path, need_remove=False):
	if not os.path.exists(path):
	os.makedirs(path)
	elif need_remove:
	shutil.rmtree(path)
	os.makedirs(path)
	return None


	def save_list(save_path, data_list, append_mode=False):
	n = len(data_list)
	if append_mode:
	with open(save_path, 'a') as f:
	f.writelines([str(data_list[i]) + '\n' for i in range(n-1,n)])
	else:
	with open(save_path, 'w') as f:
	f.writelines([str(data_list[i]) + '\n' for i in range(n)])
	return None


	def save_dict(save_path, dict):
	json.dumps(dict, open(save_path,"w"))
	return None


	if __name__ == '__main__':
	data_dir = '../PolyNet/PolyNet/cache/'
	#visualizeLossCurves(data_dir)
	clbar = GamutIndex()
	ab, ab_gamut_mask = clbar._get_gamut_mask()
	ab2q = clbar._get_ab_to_q(ab_gamut_mask)
	q2ab = clbar._get_q_to_ab(ab, ab_gamut_mask)
	maps = ab_gamut_mask*255.0
	image = Image.fromarray(maps.astype(np.uint8))
	image.save('gamut.png', 'PNG')
	print(ab2q.shape)
	print(q2ab.shape)
	print('label range:', np.min(ab2q), np.max(ab2q))