import os import torch import numpy as np import torchvision from PIL import Image, ImageDraw, ImageFont from torchvision.transforms.functional import InterpolationMode import torchvision.transforms as transforms from decord import VideoReader def padding_336(b, pad=336): width, height = b.size tar = int(np.ceil(height / pad) * pad) top_padding = 0 # int((tar - height)/2) bottom_padding = tar - height - top_padding left_padding = 0 right_padding = 0 b = transforms.functional.pad(b, [left_padding, top_padding, right_padding, bottom_padding], fill=[255,255,255]) return b def Image_transform(img, hd_num=25): width, height = img.size trans = False if width < height: img = img.transpose(Image.TRANSPOSE) trans = True width, height = img.size ratio = (width/ height) scale = 1 while scale*np.ceil(scale/ratio) <= hd_num: scale += 1 scale -= 1 scale = min(np.ceil(width / 560), scale) new_w = int(scale * 560) new_h = int(new_w / ratio) #print (scale, f'{height}/{new_h}, {width}/{new_w}') img = transforms.functional.resize(img, [new_h, new_w],) img = padding_336(img, 560) width, height = img.size if trans: img = img.transpose(Image.TRANSPOSE) return img def Video_transform(img, hd_num=25): width, height = img.size trans = False if width < height: img = img.transpose(Image.TRANSPOSE) trans = True width, height = img.size ratio = (width/ height) scale = 1 new_h = int(scale * 560) new_w = int(new_h * ratio) #print (new_h, new_w) img = transforms.functional.resize(img, [new_h, new_w],) img = img.transpose(Image.TRANSPOSE) img = padding_336(img, 560) width, height = img.size if not trans: img = img.transpose(Image.TRANSPOSE) return img def frame2img(imgs, font_path): new_imgs = [] for img in imgs: w, h = img.size scale = w/h if w > h: new_w = 560 * 2 new_h = int(560 * 2 / scale) else: new_w = int(560 * 2 * scale) new_h = 560 * 2 img = transforms.functional.resize(img, [new_h, new_w],) new_imgs.append(img) imgs = new_imgs new_w = 0 new_h = 0 pad = 40 print (font_path) font = ImageFont.truetype(os.path.join(font_path, "SimHei.ttf"), pad) if w > h: for im in imgs: w,h = im.size new_w = max(new_w, w) new_h += h + 10 + pad new_img = Image.new('RGB', (new_w, new_h), 'white') draw = ImageDraw.Draw(new_img) curr_h = 0 for idx, im in enumerate(imgs): w,h = im.size new_img.paste(im, (0, pad + curr_h)) draw.text((0, curr_h ), f'', font=font, fill='black') if idx + 1 < len(imgs): draw.line([(0, pad +curr_h + h +5), (new_w, pad +curr_h + h +5)], fill = 'black', width=2) curr_h += h + 10 + pad #print (new_w, new_h) else: for im in imgs: w,h = im.size new_w += w + 10 new_h = max(new_h, h) new_h += pad new_img = Image.new('RGB', (new_w, new_h), 'white') draw = ImageDraw.Draw(new_img) curr_w = 0 for idx, im in enumerate(imgs): w,h = im.size new_img.paste(im, (curr_w, pad)) draw.text((curr_w, 0), f'', font=font, fill='black') if idx + 1 < len(imgs): draw.line([(curr_w + w + 5, 0), (curr_w + w + 5, new_h)], fill = 'black', width=2) curr_w += w + 10 return new_img def load_video(video_path, num_frm=32, start=None, end=None): vid = VideoReader(video_path, num_threads=1) fps = vid.get_avg_fps() t_stride = int(round(float(fps) / int(1))) start_idx = 0 if start is None else start end_idx = len(vid) if end is None else end all_pos = list(range(start_idx, end_idx, t_stride)) try: images = [vid[i].numpy() for i in all_pos] except: images = [vid[i].asnumpy() for i in all_pos] if len(images) > num_frm: num_frm = min(num_frm, len(images)) step_size = len(images) / (num_frm + 1) indices = [int(i*step_size) for i in range(num_frm)] images = [images[i] for i in indices] images = [Image.fromarray(arr) for arr in images] return images