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test_st_market.py
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test_st_market.py
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# -*- coding: utf-8 -*-
from __future__ import print_function, division
import argparse
import torch
import torch.nn as nn
import torch.optim as optim
from torch.optim import lr_scheduler
from torch.autograd import Variable
import numpy as np
import torchvision
from torchvision import datasets, models, transforms
import time
import os
import scipy.io
from model import ft_net, ft_net_dense, PCB, PCB_test
######################################################################
# Options
# --------
parser = argparse.ArgumentParser(description='Training')
parser.add_argument('--gpu_ids',default='0', type=str,help='gpu_ids: e.g. 0 0,1,2 0,2')
parser.add_argument('--which_epoch',default='last', type=str, help='0,1,2,3...or last')
parser.add_argument('--test_dir',default='/home/zzd/Market/pytorch',type=str, help='./test_data')
parser.add_argument('--name', default='ft_ResNet50', type=str, help='save model path')
parser.add_argument('--batchsize', default=32, type=int, help='batchsize')
parser.add_argument('--use_dense', action='store_true', help='use densenet121' )
parser.add_argument('--PCB', action='store_true', help='use PCB' )
opt = parser.parse_args()
str_ids = opt.gpu_ids.split(',')
#which_epoch = opt.which_epoch
name = opt.name
test_dir = opt.test_dir
gpu_ids = []
for str_id in str_ids:
id = int(str_id)
if id >=0:
gpu_ids.append(id)
# set gpu ids
if len(gpu_ids)>0:
torch.cuda.set_device(gpu_ids[0])
######################################################################
# Load Data
# ---------
#
# We will use torchvision and torch.utils.data packages for loading the
# data.
#
data_transforms = transforms.Compose([
transforms.Resize((288,144), interpolation=3),
transforms.ToTensor(),
transforms.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225])
############### Ten Crop
#transforms.TenCrop(224),
#transforms.Lambda(lambda crops: torch.stack(
# [transforms.ToTensor()(crop)
# for crop in crops]
# )),
#transforms.Lambda(lambda crops: torch.stack(
# [transforms.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225])(crop)
# for crop in crops]
# ))
])
if opt.PCB:
data_transforms = transforms.Compose([
transforms.Resize((384,192), interpolation=3),
transforms.ToTensor(),
transforms.Normalize([0.485, 0.456, 0.406], [0.229, 0.224, 0.225])
])
data_dir = test_dir
image_datasets = {x: datasets.ImageFolder( os.path.join(data_dir,x) ,data_transforms) for x in ['gallery','query']}
dataloaders = {x: torch.utils.data.DataLoader(image_datasets[x], batch_size=opt.batchsize,
shuffle=False, num_workers=16) for x in ['gallery','query']}
class_names = image_datasets['query'].classes
use_gpu = torch.cuda.is_available()
######################################################################
# Load model
#---------------------------
def load_network(network):
save_path = os.path.join('./model',name,'net_%s.pth'%opt.which_epoch)
network.load_state_dict(torch.load(save_path))
return network
######################################################################
# Extract feature
# ----------------------
#
# Extract feature from a trained model.
#
def fliplr(img):
'''flip horizontal'''
inv_idx = torch.arange(img.size(3)-1,-1,-1).long() # N x C x H x W
img_flip = img.index_select(3,inv_idx)
return img_flip
def extract_feature(model,dataloaders):
features = torch.FloatTensor()
count = 0
for data in dataloaders:
img, label = data
n, c, h, w = img.size()
count += n
print(count)
if opt.use_dense:
ff = torch.FloatTensor(n,1024).zero_()
else:
ff = torch.FloatTensor(n,2048).zero_()
if opt.PCB:
ff = torch.FloatTensor(n,2048,6).zero_() # we have four parts
for i in range(2):
if(i==1):
img = fliplr(img)
input_img = Variable(img.cuda())
outputs = model(input_img)
f = outputs.data.cpu()
ff = ff+f
# norm feature
if opt.PCB:
# feature size (n,2048,4)
fnorm = torch.norm(ff, p=2, dim=1, keepdim=True)
ff = ff.div(fnorm.expand_as(ff))
ff = ff.view(ff.size(0), -1)
else:
fnorm = torch.norm(ff, p=2, dim=1, keepdim=True)
ff = ff.div(fnorm.expand_as(ff))
features = torch.cat((features,ff), 0)
return features
def get_id(img_path):
camera_id = []
labels = []
frames = []
for path, v in img_path:
filename = path.split('/')[-1]
label = filename[0:4]
camera = filename.split('c')[1]
# frame = filename[9:16]
frame = filename.split('_')[2][1:]
if label[0:2]=='-1':
labels.append(-1)
else:
labels.append(int(label))
camera_id.append(int(camera[0]))
frames.append(int(frame))
return camera_id, labels, frames
gallery_path = image_datasets['gallery'].imgs
query_path = image_datasets['query'].imgs
gallery_cam,gallery_label, gallery_frames = get_id(gallery_path)
query_cam,query_label, query_frames = get_id(query_path)
######################################################################
# Load Collected data Trained model
class_num=751
print('-------test-----------')
if opt.use_dense:
model_structure = ft_net_dense(class_num)
else:
model_structure = ft_net(class_num)
if opt.PCB:
model_structure = PCB(class_num)
model = load_network(model_structure)
# Remove the final fc layer and classifier layer
if not opt.PCB:
model.model.fc = nn.Sequential()
model.classifier = nn.Sequential()
else:
model = PCB_test(model)
# Change to test mode
model = model.eval()
if use_gpu:
model = model.cuda()
# Extract feature
gallery_feature = extract_feature(model,dataloaders['gallery'])
query_feature = extract_feature(model,dataloaders['query'])
# Save to Matlab for check
result = {'gallery_f':gallery_feature.numpy(),'gallery_label':gallery_label,'gallery_cam':gallery_cam,'gallery_frames':gallery_frames,'query_f':query_feature.numpy(),'query_label':query_label,'query_cam':query_cam,'query_frames':query_frames}
scipy.io.savemat('model/'+name+'/'+'pytorch_result.mat',result)