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test.py
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test.py
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import torch
import time
import datasets
from lib.utils import AverageMeter
import torchvision.transforms as transforms
import numpy as np
def NN(epoch, net, lemniscate, trainloader, testloader, recompute_memory=0):
net.eval()
net_time = AverageMeter()
cls_time = AverageMeter()
losses = AverageMeter()
correct = 0.
total = 0
testsize = testloader.dataset.__len__()
trainFeatures = lemniscate.memory.t()
if hasattr(trainloader.dataset, 'imgs'):
trainLabels = torch.LongTensor([y for (p, y) in trainloader.dataset.imgs]).cuda()
else:
trainLabels = torch.LongTensor(trainloader.dataset.train_labels).cuda()
if recompute_memory:
transform_bak = trainloader.dataset.transform
trainloader.dataset.transform = testloader.dataset.transform
temploader = torch.utils.data.DataLoader(trainloader.dataset, batch_size=100, shuffle=False, num_workers=1)
for batch_idx, (inputs, targets, indexes) in enumerate(temploader):
targets = targets.cuda(async=True)
batchSize = inputs.size(0)
features = net(inputs)
trainFeatures[:, batch_idx*batchSize:batch_idx*batchSize+batchSize] = features.data.t()
trainLabels = torch.LongTensor(temploader.dataset.train_labels).cuda()
trainloader.dataset.transform = transform_bak
end = time.time()
with torch.no_grad():
for batch_idx, (inputs, targets, indexes) in enumerate(testloader):
targets = targets.cuda(async=True)
batchSize = inputs.size(0)
features = net(inputs)
net_time.update(time.time() - end)
end = time.time()
dist = torch.mm(features, trainFeatures)
yd, yi = dist.topk(1, dim=1, largest=True, sorted=True)
candidates = trainLabels.view(1,-1).expand(batchSize, -1)
retrieval = torch.gather(candidates, 1, yi)
retrieval = retrieval.narrow(1, 0, 1).clone().view(-1)
yd = yd.narrow(1, 0, 1)
total += targets.size(0)
correct += retrieval.eq(targets.data).sum().item()
cls_time.update(time.time() - end)
end = time.time()
print('Test [{}/{}]\t'
'Net Time {net_time.val:.3f} ({net_time.avg:.3f})\t'
'Cls Time {cls_time.val:.3f} ({cls_time.avg:.3f})\t'
'Top1: {:.2f}'.format(
total, testsize, correct*100./total, net_time=net_time, cls_time=cls_time))
return correct/total
def kNN(epoch, net, lemniscate, trainloader, testloader, K, sigma, recompute_memory=0):
net.eval()
net_time = AverageMeter()
cls_time = AverageMeter()
total = 0
testsize = testloader.dataset.__len__()
trainFeatures = lemniscate.memory.t()
if hasattr(trainloader.dataset, 'imgs'):
trainLabels = torch.LongTensor([y for (p, y) in trainloader.dataset.imgs]).cuda()
else:
trainLabels = torch.LongTensor(trainloader.dataset.train_labels).cuda()
C = trainLabels.max() + 1
if recompute_memory:
transform_bak = trainloader.dataset.transform
trainloader.dataset.transform = testloader.dataset.transform
temploader = torch.utils.data.DataLoader(trainloader.dataset, batch_size=100, shuffle=False, num_workers=1)
for batch_idx, (inputs, targets, indexes) in enumerate(temploader):
targets = targets.cuda(async=True)
batchSize = inputs.size(0)
features = net(inputs)
trainFeatures[:, batch_idx*batchSize:batch_idx*batchSize+batchSize] = features.data.t()
trainLabels = torch.LongTensor(temploader.dataset.train_labels).cuda()
trainloader.dataset.transform = transform_bak
top1 = 0.
top5 = 0.
end = time.time()
with torch.no_grad():
retrieval_one_hot = torch.zeros(K, C).cuda()
for batch_idx, (inputs, targets, indexes) in enumerate(testloader):
end = time.time()
targets = targets.cuda(async=True)
batchSize = inputs.size(0)
features = net(inputs)
net_time.update(time.time() - end)
end = time.time()
dist = torch.mm(features, trainFeatures)
yd, yi = dist.topk(K, dim=1, largest=True, sorted=True)
candidates = trainLabels.view(1,-1).expand(batchSize, -1)
retrieval = torch.gather(candidates, 1, yi)
retrieval_one_hot.resize_(batchSize * K, C).zero_()
retrieval_one_hot.scatter_(1, retrieval.view(-1, 1), 1)
yd_transform = yd.clone().div_(sigma).exp_()
probs = torch.sum(torch.mul(retrieval_one_hot.view(batchSize, -1 , C), yd_transform.view(batchSize, -1, 1)), 1)
_, predictions = probs.sort(1, True)
# Find which predictions match the target
correct = predictions.eq(targets.data.view(-1,1))
cls_time.update(time.time() - end)
top1 = top1 + correct.narrow(1,0,1).sum().item()
top5 = top5 + correct.narrow(1,0,5).sum().item()
total += targets.size(0)
print('Test [{}/{}]\t'
'Net Time {net_time.val:.3f} ({net_time.avg:.3f})\t'
'Cls Time {cls_time.val:.3f} ({cls_time.avg:.3f})\t'
'Top1: {:.2f} Top5: {:.2f}'.format(
total, testsize, top1*100./total, top5*100./total, net_time=net_time, cls_time=cls_time))
print(top1*100./total)
return top1/total