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from __future__ import absolute_import
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from __future__ import division
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from __future__ import print_function
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import argparse
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import os
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import time
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import torch
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import torch.backends.cudnn as cudnn
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import torch.nn as nn
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import torch.nn.parallel
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import torch.utils.data as data
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from models import create_model, transforms_imagenet_eval
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from dataset import Dataset
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parser = argparse.ArgumentParser(description='PyTorch ImageNet Validation')
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parser.add_argument('data', metavar='DIR',
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help='path to dataset')
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parser.add_argument('--model', '-m', metavar='MODEL', default='dpn92',
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help='model architecture (default: dpn92)')
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parser.add_argument('-j', '--workers', default=2, type=int, metavar='N',
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help='number of data loading workers (default: 2)')
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parser.add_argument('-b', '--batch-size', default=256, type=int,
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metavar='N', help='mini-batch size (default: 256)')
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parser.add_argument('--img-size', default=224, type=int,
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metavar='N', help='Input image dimension')
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parser.add_argument('--print-freq', '-p', default=10, type=int,
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metavar='N', help='print frequency (default: 10)')
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parser.add_argument('--checkpoint', default='', type=str, metavar='PATH',
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help='path to latest checkpoint (default: none)')
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parser.add_argument('--pretrained', dest='pretrained', action='store_true',
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help='use pre-trained model')
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parser.add_argument('--num-gpu', type=int, default=1,
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help='Number of GPUS to use')
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parser.add_argument('--no-test-pool', dest='no_test_pool', action='store_true',
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help='disable test time pool for DPN models')
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def main():
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args = parser.parse_args()
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test_time_pool = False
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if 'dpn' in args.model and args.img_size > 224 and not args.no_test_pool:
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test_time_pool = True
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# create model
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num_classes = 1000
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model = create_model(
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args.model,
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num_classes=num_classes,
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pretrained=args.pretrained,
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test_time_pool=test_time_pool)
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print('Model %s created, param count: %d' %
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(args.model, sum([m.numel() for m in model.parameters()])))
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# optionally resume from a checkpoint
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if args.checkpoint and os.path.isfile(args.checkpoint):
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print("=> loading checkpoint '{}'".format(args.checkpoint))
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checkpoint = torch.load(args.checkpoint)
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if isinstance(checkpoint, dict) and 'state_dict' in checkpoint:
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model.load_state_dict(checkpoint['state_dict'])
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else:
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model.load_state_dict(checkpoint)
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print("=> loaded checkpoint '{}'".format(args.checkpoint))
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elif not args.pretrained:
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print("=> no checkpoint found at '{}'".format(args.checkpoint))
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exit(1)
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if args.num_gpu > 1:
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model = torch.nn.DataParallel(model, device_ids=list(range(args.num_gpu))).cuda()
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else:
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model = model.cuda()
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# define loss function (criterion) and optimizer
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criterion = nn.CrossEntropyLoss().cuda()
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cudnn.benchmark = True
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dataset = Dataset(
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args.data,
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transforms_imagenet_eval(args.model, args.img_size))
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loader = data.DataLoader(
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dataset,
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batch_size=args.batch_size, shuffle=False,
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num_workers=args.workers, pin_memory=True)
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batch_time = AverageMeter()
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losses = AverageMeter()
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top1 = AverageMeter()
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top5 = AverageMeter()
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# switch to evaluate mode
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model.eval()
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end = time.time()
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with torch.no_grad():
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for i, (input, target) in enumerate(loader):
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target = target.cuda()
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input = input.cuda()
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# compute output
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output = model(input)
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loss = criterion(output, target)
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# measure accuracy and record loss
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prec1, prec5 = accuracy(output.data, target, topk=(1, 5))
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losses.update(loss.item(), input.size(0))
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top1.update(prec1.item(), input.size(0))
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top5.update(prec5.item(), input.size(0))
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# measure elapsed time
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batch_time.update(time.time() - end)
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end = time.time()
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if i % args.print_freq == 0:
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print('Test: [{0}/{1}]\t'
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'Time {batch_time.val:.3f} ({batch_time.avg:.3f})\t'
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'Loss {loss.val:.4f} ({loss.avg:.4f})\t'
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'Prec@1 {top1.val:.3f} ({top1.avg:.3f})\t'
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'Prec@5 {top5.val:.3f} ({top5.avg:.3f})'.format(
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i, len(loader), batch_time=batch_time, loss=losses,
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top1=top1, top5=top5))
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print(' * Prec@1 {top1.avg:.3f} ({top1a:.3f}) Prec@5 {top5.avg:.3f} ({top5a:.3f})'.format(
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top1=top1, top1a=100-top1.avg, top5=top5, top5a=100.-top5.avg))
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class AverageMeter(object):
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"""Computes and stores the average and current value"""
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def __init__(self):
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self.reset()
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def reset(self):
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self.val = 0
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self.avg = 0
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self.sum = 0
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self.count = 0
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def update(self, val, n=1):
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self.val = val
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self.sum += val * n
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self.count += n
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self.avg = self.sum / self.count
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def accuracy(output, target, topk=(1,)):
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"""Computes the precision@k for the specified values of k"""
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maxk = max(topk)
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batch_size = target.size(0)
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_, pred = output.topk(maxk, 1, True, True)
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pred = pred.t()
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correct = pred.eq(target.view(1, -1).expand_as(pred))
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res = []
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for k in topk:
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correct_k = correct[:k].view(-1).float().sum(0)
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res.append(correct_k.mul_(100.0 / batch_size))
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return res
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if __name__ == '__main__':
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main()
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