ref: 67fe324ab65f4f72b68a926f4ea602a97e1e1b0d
dir: /tools/3D-Reconstruction/genY4M/genY4M.py/
import argparse from os import listdir, path from PIL import Image import sys parser = argparse.ArgumentParser() parser.add_argument("--frame_path", default="../data/frame/", type=str) parser.add_argument("--frame_rate", default="25:1", type=str) parser.add_argument("--interlacing", default="Ip", type=str) parser.add_argument("--pix_ratio", default="0:0", type=str) parser.add_argument("--color_space", default="4:2:0", type=str) parser.add_argument("--output", default="output.y4m", type=str) def generate(args, frames): if len(frames) == 0: return #sort the frames based on the frame index frames = sorted(frames, key=lambda x: x[0]) #convert the frames to YUV form frames = [f.convert("YCbCr") for _, f in frames] #write the header header = "YUV4MPEG2 W%d H%d F%s %s A%s" % (frames[0].width, frames[0].height, args.frame_rate, args.interlacing, args.pix_ratio) cs = args.color_space.split(":") header += " C%s%s%s\n" % (cs[0], cs[1], cs[2]) #estimate the sample step based on subsample value subsamples = [int(c) for c in cs] r_step = [1, int(subsamples[2] == 0) + 1, int(subsamples[2] == 0) + 1] c_step = [1, 4 // subsamples[1], 4 // subsamples[1]] #write in frames with open(args.output, "wb") as y4m: y4m.write(header) for f in frames: y4m.write("FRAME\n") px = f.load() for k in xrange(3): for i in xrange(0, f.height, r_step[k]): for j in xrange(0, f.width, c_step[k]): yuv = px[j, i] y4m.write(chr(yuv[k])) if __name__ == "__main__": args = parser.parse_args() frames = [] frames_mv = [] for filename in listdir(args.frame_path): name, ext = filename.split(".") if ext == "png": name_parse = name.split("_") idx = int(name_parse[-1]) img = Image.open(path.join(args.frame_path, filename)) if name_parse[-2] == "mv": frames_mv.append((idx, img)) else: frames.append((idx, img)) if len(frames) == 0: print("No frames in directory: " + args.frame_path) sys.exit() print("----------------------Y4M Info----------------------") print("width: %d" % frames[0][1].width) print("height: %d" % frames[0][1].height) print("#frame: %d" % len(frames)) print("frame rate: %s" % args.frame_rate) print("interlacing: %s" % args.interlacing) print("pixel ratio: %s" % args.pix_ratio) print("color space: %s" % args.color_space) print("----------------------------------------------------") print("Generating ...") generate(args, frames) if len(frames_mv) != 0: args.output = args.output.replace(".y4m", "_mv.y4m") generate(args, frames_mv)