""" Preprocess a raw json dataset into features files for use in data_loader.py Input: json file that has the form [{ file_path: 'path/img.jpg', captions: ['a caption', ...] }, ...] example element in this list would look like {'captions': [u'A man with a red helmet on a small moped on a dirt road. ', u'Man riding a motor bike on a dirt road on the countryside.', u'A man riding on the back of a motorcycle.', u'A dirt path with a young person on a motor bike rests to the foreground of a verdant area with a bridge and a background of cloud-wreathed mountains. ', u'A man in a red shirt and a red hat is on a motorcycle on a hill side.'], 'file_path': u'val2014/COCO_val2014_000000391895.jpg', 'id': 391895} This script reads this json, does some basic preprocessing on the captions (e.g. lowercase, etc.), creates a special UNK token, and encodes everything to arrays Output: two folders of features """ from __future__ import absolute_import from __future__ import division from __future__ import print_function import os import json import argparse from random import shuffle, seed import string # non-standard dependencies: import h5py from six.moves import cPickle import numpy as np import torch import torchvision.models as models import skimage.io from torchvision import transforms as trn preprocess = trn.Compose([ #trn.ToTensor(), trn.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225]) ]) from captioning.utils.resnet_utils import myResnet import captioning.utils.resnet as resnet def main(params): net = getattr(resnet, params['model'])() net.load_state_dict(torch.load(os.path.join(params['model_root'],params['model']+'.pth'))) my_resnet = myResnet(net) my_resnet.cuda() my_resnet.eval() imgs = json.load(open(params['input_json'], 'r')) imgs = imgs['images'] N = len(imgs) seed(123) # make reproducible dir_fc = params['output_dir']+'_fc' dir_att = params['output_dir']+'_att' if not os.path.isdir(dir_fc): os.mkdir(dir_fc) if not os.path.isdir(dir_att): os.mkdir(dir_att) for i,img in enumerate(imgs): # load the image I = skimage.io.imread(os.path.join(params['images_root'], img['filepath'], img['filename'])) # handle grayscale input images if len(I.shape) == 2: I = I[:,:,np.newaxis] I = np.concatenate((I,I,I), axis=2) I = I.astype('float32')/255.0 I = torch.from_numpy(I.transpose([2,0,1])).cuda() I = preprocess(I) with torch.no_grad(): tmp_fc, tmp_att = my_resnet(I, params['att_size']) # write to pkl # print(dir_fc, str(img['cocoid']), tmp_fc.shape, tmp_att.shape, dir_att) # exit() np.save(os.path.join(dir_fc, str(img['cocoid'])), tmp_fc.data.cpu().float().numpy()) np.savez_compressed(os.path.join(dir_att, str(img['cocoid'])), feat=tmp_att.data.cpu().float().numpy()) if i % 1000 == 0: print('processing %d/%d (%.2f%% done)' % (i, N, i*100.0/N)) print('wrote ', params['output_dir']) if __name__ == "__main__": parser = argparse.ArgumentParser() # input json parser.add_argument('--input_json', required=True, help='input json file to process into hdf5') parser.add_argument('--output_dir', default='data', help='output h5 file') # options parser.add_argument('--images_root', default='', help='root location in which images are stored, to be prepended to file_path in input json') parser.add_argument('--att_size', default=14, type=int, help='14x14 or 7x7') parser.add_argument('--model', default='resnet101', type=str, help='resnet101, resnet152') parser.add_argument('--model_root', default='./data/imagenet_weights', type=str, help='model root') args = parser.parse_args() params = vars(args) # convert to ordinary dict print('parsed input parameters:') print(json.dumps(params, indent = 2)) main(params)