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gmm_score.py
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gmm_score.py
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#!/usr/bin/env python3
import os
import pathlib
from argparse import ArgumentParser, ArgumentDefaultsHelpFormatter
import numpy as np
import torch
from scipy import linalg
# from scipy.misc import imread
from PIL import Image
from torch.nn.functional import adaptive_avg_pool2d
import pickle
from scipy.stats import multivariate_normal
from sklearn import mixture
try:
from tqdm import tqdm
except ImportError:
# If not tqdm is not available, provide a mock version of it
def tqdm(x): return x
from inception import InceptionV3
parser = ArgumentParser(formatter_class=ArgumentDefaultsHelpFormatter)
parser.add_argument('path', type=str, nargs=1,
help=('Path to the generated images or '
'to .npz statistic files'))
parser.add_argument('--batch-size', type=int, default=50,
help='Batch size to use')
parser.add_argument('--dims', type=int, default=2048,
choices=list(InceptionV3.BLOCK_INDEX_BY_DIM),
help=('Dimensionality of Inception features to use. '
'By default, uses pool3 features'))
parser.add_argument('-c', '--gpu', default='', type=str,
help='GPU to use (leave blank for CPU only)')
parser.add_argument('--pca_path', type=str, default=None)
# "/mnt/blob/code/image-judge/gaussian/pca_stat/pca_all_95.pkl"
parser.add_argument('--gmm_path', type=str, default="/mnt/blob/code/image-judge/gaussian/pca_stat/stat_cat/act95_7")
parser.add_argument('--output_file', type=str, default="/mnt/blob/datasets/generation_results/score_results/try_out.txt")
def imread(filename):
return np.asarray(Image.open(filename).convert('RGB'), dtype=np.uint8)[..., :3]
def get_activations(files, model, batch_size, dims, cuda, verbose, pca_path, gmm_path, output_file):
model.eval()
batch_size = 50
if len(files) % batch_size != 0:
print(('Warning: number of images is not a multiple of the '
'batch size. Some samples are going to be ignored.'))
if batch_size > len(files):
print(('Warning: batch size is bigger than the data size. '
'Setting batch size to data size'))
batch_size = len(files)
n_batches = len(files) // batch_size
n_used_imgs = n_batches * batch_size
pred_arr = np.empty((n_used_imgs, dims))
pca_gmm_path = gmm_path
pca_gmm = pickle.load(open(gmm_path, "rb"))
file_path = output_file
if pca_path != None:
pca = pickle.load(open(pca_path, "rb"))
score_list = []
with open(file_path, 'wt') as f:
for i in tqdm(range(n_batches)):
start = i * batch_size
end = start + batch_size
images = np.array([imread(str(f)).astype(np.float32) for f in files[start:end]])
# Reshape to (n_images, 3, height, width)
images = images.transpose((0, 3, 1, 2))
images /= 255
batch = torch.from_numpy(images).type(torch.FloatTensor)
if cuda:
batch = batch.cuda()
pred = model(batch)[0]
if pca_path != None:
pred = pca.transform(pred.cpu()[:,:,0,0])
prop = pca_gmm.score_samples(pred)
else:
prop = pca_gmm.score_samples(pred[:,:,0,0].cpu().numpy())
for image_i in range(0, batch_size):
this_score = str(float(prop[image_i]))
image_file = str(files[start+image_i]).split('/')[-1]
# new_name = str(int(prop[image_i]))+"_"+image_file
f.write("score of "+image_file+" is:\n")
f.write(this_score)
# f.write(new_name)
f.write("\n")
return pred_arr
def calculate_activation_statistics(files, model, batch_size, dims, cuda, pca_path, gmm_path, output_file):
verbose = False
act = get_activations(files, model, batch_size, dims, cuda, verbose, pca_path, gmm_path, output_file)
mu = np.mean(act, axis=0)
sigma = np.cov(act, rowvar=False)
return mu, sigma
def _compute_statistics_of_path(path, model, batch_size, dims, cuda, pca_path, gmm_path, output_file):
if path.endswith('.npz'):
f = np.load(path)
m, s = f['mu'][:], f['sigma'][:]
f.close()
else:
path = pathlib.Path(path)
# image_file = open(path)
# files = image_file.readlines()
files = list(path.glob('*.jpg')) + list(path.glob('*.png'))
m, s = calculate_activation_statistics(files, model, batch_size, dims, cuda, pca_path, gmm_path, output_file)
return m, s
def calculate_fid_given_paths(paths, batch_size, cuda, dims, pca_path, gmm_path, output_file):
for p in paths:
if not os.path.exists(p):
raise RuntimeError('Invalid path: %s' % p)
block_idx = InceptionV3.BLOCK_INDEX_BY_DIM[dims]
model = InceptionV3([block_idx])
if cuda:
model.cuda()
m1, s1 = _compute_statistics_of_path(paths[0], model, batch_size, dims, cuda, pca_path, gmm_path, output_file)
return 777
if __name__ == '__main__':
args = parser.parse_args()
os.environ['CUDA_VISIBLE_DEVICES'] = args.gpu
fid_value = calculate_fid_given_paths(args.path, args.batch_size, args.gpu != '', args.dims, args.pca_path, args.gmm_path, args.output_file)
print('FID: ', fid_value)