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predict92cls.py
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predict92cls.py
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import os
from os import path, makedirs, listdir
import sys
import numpy as np
np.random.seed(1)
import random
random.seed(1)
import torch
from torch import nn
from torch.backends import cudnn
import torch.optim.lr_scheduler as lr_scheduler
from torch.autograd import Variable
import pandas as pd
from tqdm import tqdm
import timeit
import cv2
from zoo.models import Dpn92_Unet_Double
from utils import *
cv2.setNumThreads(0)
cv2.ocl.setUseOpenCL(False)
test_dir = 'test/images/pre'
models_folder = 'weights'
if __name__ == '__main__':
t0 = timeit.default_timer()
seed = int(sys.argv[1])
# vis_dev = sys.argv[2]
# os.environ['CUDA_DEVICE_ORDER'] = 'PCI_BUS_ID'
# os.environ["CUDA_VISIBLE_DEVICES"] = vis_dev
pred_folder = 'dpn92cls_cce_{}_tuned'.format(seed)
makedirs(pred_folder, exist_ok=True)
# cudnn.benchmark = True
models = []
snap_to_load = 'dpn92_cls_cce_{}_tuned_best'.format(seed)
model = Dpn92_Unet_Double().cuda()
model = nn.DataParallel(model).cuda()
print("=> loading checkpoint '{}'".format(snap_to_load))
checkpoint = torch.load(path.join(models_folder, snap_to_load), map_location='cpu')
loaded_dict = checkpoint['state_dict']
sd = model.state_dict()
for k in model.state_dict():
if k in loaded_dict and sd[k].size() == loaded_dict[k].size():
sd[k] = loaded_dict[k]
loaded_dict = sd
model.load_state_dict(loaded_dict)
print("loaded checkpoint '{}' (epoch {}, best_score {})"
.format(snap_to_load, checkpoint['epoch'], checkpoint['best_score']))
model.eval()
models.append(model)
print("Getting chips...")
pre_chips = [os.path.join(test_dir, a) for a in os.listdir(test_dir)]
post_chips = [os.path.join(test_dir.replace('pre','post'), a) for a in os.listdir(test_dir.replace('pre','post'))]
with torch.no_grad():
for i in tqdm(range(len(pre_chips))):
if True:
img = cv2.imread(pre_chips[i], cv2.IMREAD_COLOR)
img2 = cv2.imread(post_chips[i], cv2.IMREAD_COLOR)
img = np.concatenate([img, img2], axis=2)
img = preprocess_inputs(img)
inp = []
inp.append(img)
inp.append(img[::-1, ...])
inp.append(img[:, ::-1, ...])
inp.append(img[::-1, ::-1, ...])
inp = np.asarray(inp, dtype='float')
inp = torch.from_numpy(inp.transpose((0, 3, 1, 2))).float()
inp = Variable(inp).cuda()
pred = []
for model in models:
msk = model(inp)
msk = torch.sigmoid(msk)
msk = msk.cpu().numpy()
pred.append(msk[0, ...])
pred.append(msk[1, :, ::-1, :])
pred.append(msk[2, :, :, ::-1])
pred.append(msk[3, :, ::-1, ::-1])
pred_full = np.asarray(pred).mean(axis=0)
msk = pred_full * 255
msk = msk.astype('uint8').transpose(1, 2, 0)
rt = pre_chips[i].split('/')[-1]
cv2.imwrite(path.join(pred_folder, '{0}'.format(rt.replace('.tif', '_part1.png'))), msk[..., :3], [cv2.IMWRITE_PNG_COMPRESSION, 9])
cv2.imwrite(path.join(pred_folder, '{0}'.format(rt.replace('.tif', '_part2.png'))), msk[..., 2:], [cv2.IMWRITE_PNG_COMPRESSION, 9])
elapsed = timeit.default_timer() - t0
print('Time: {:.3f} min'.format(elapsed / 60))