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eval_qap.py
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eval_qap.py
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import torch
import time
from datetime import datetime
from pathlib import Path
import xlwt
from src.dataset.data_loader import QAPDataset, get_dataloader
from src.evaluation_metric import objective_score
from src.parallel import DataParallel
from src.utils.model_sl import load_model
from src.utils.data_to_cuda import data_to_cuda
from src.utils.config import cfg
def eval_model(model, dataloader, eval_epoch=None, verbose=False):
print('Start evaluation...')
since = time.time()
device = next(model.parameters()).device
if eval_epoch is not None:
model_path = str(Path(cfg.OUTPUT_PATH) / 'params' / 'params_{:04}.pt'.format(eval_epoch))
print('Loading model parameters from {}'.format(model_path))
load_model(model, model_path)
was_training = model.training
model.eval()
ds = dataloader.dataset
classes = ds.classes
cls_cache = ds.cls
accs = torch.zeros(len(classes), device=device)
wb = xlwt.Workbook()
sheet = wb.add_sheet('QAPLIB')
name_idx = 0
score_idx = 1
time_idx = 2
sheet.write(0, name_idx, 'instance')
sheet.write(0, score_idx, 'score')
sheet.write(0, time_idx, 'time')
wb_idx = 1
for i, cls in enumerate(classes):
if verbose:
print('Evaluating class {}: {}/{}'.format(cls, i, len(classes)))
running_since = time.time()
iter_num = 0
ds.cls = cls
acc_match_num = torch.zeros(1, device=device)
acc_total_num = torch.zeros(1, device=device)
rel_sum = torch.zeros(1, device=device)
rel_num = torch.zeros(1, device=device)
for inputs in dataloader:
if model.module.device != torch.device('cpu'):
inputs = data_to_cuda(inputs)
ori_affmtx = inputs['aff_mat']
solution = inputs['solution']
name = inputs['name']
n1_gt, n2_gt = inputs['ns']
perm_mat = inputs['gt_perm_mat']
batch_num = perm_mat.size(0)
iter_num = iter_num + 1
fwd_since = time.time()
if 'esc16f' in name:
print('esc16f - 0')
continue
with torch.set_grad_enabled(False):
_ = None
pred = model(inputs)
x_pred, affmtx = pred['perm_mat'], pred['aff_mat']
fwd_time = time.time() - fwd_since
obj_score = objective_score(x_pred, ori_affmtx)
opt_obj_score = objective_score(perm_mat, ori_affmtx)
ori_obj_score = solution
for n, x, y, z in zip(name, obj_score, opt_obj_score, ori_obj_score):
rel = (x - z) / x
print('{} - Solved: {:.0f}, Feas: {:.0f}, Opt/Bnd: {:.0f}, Gap: {:.0f}, Rel: {:.4f}, time: {:.3f}'.
format(n, x, y, z, x - z, rel, fwd_time))
if not torch.isnan(rel):
rel_sum += rel
sheet.write(wb_idx, name_idx, n)
sheet.write(wb_idx, score_idx, x.item())
sheet.write(wb_idx, time_idx, fwd_time)
wb_idx += 1
#rel_num += 1
if iter_num % cfg.STATISTIC_STEP == 0 and verbose:
running_speed = cfg.STATISTIC_STEP * batch_num / (time.time() - running_since)
print('Class {:<8} Iteration {:<4} {:>4.2f}sample/s'.format(cls, iter_num, running_speed))
running_since = time.time()
accs[i] = acc_match_num / acc_total_num
if verbose:
print('Class {} acc = {:.4f}'.format(cls, accs[i]))
time_elapsed = time.time() - since
print('Evaluation complete in {:.0f}m {:.0f}s'.format(time_elapsed // 60, time_elapsed % 60))
model.train(mode=was_training)
ds.cls = cls_cache
# print result
print('mean relative: {:.4f}'.format(float(rel_sum / rel_num)))
print('Matching accuracy')
for cls, single_acc in zip(classes, accs):
print('{} = {:.4f}'.format(cls, single_acc))
print('average = {:.4f}'.format(torch.mean(accs)))
now_time = datetime.now().strftime('%Y-%m-%d-%H-%M-%S')
wb.save( str(Path(cfg.OUTPUT_PATH) / ('eval_' + now_time + '.xls')))
return accs
if __name__ == '__main__':
from src.utils.dup_stdout_manager import DupStdoutFileManager
from src.utils.parse_args import parse_args
from src.utils.print_easydict import print_easydict
args = parse_args('Deep learning of graph matching evaluation code.')
import importlib
mod = importlib.import_module(cfg.MODULE)
Net = mod.Net
torch.manual_seed(cfg.RANDOM_SEED)
qap_dataset = QAPDataset(cfg.DATASET_FULL_NAME,
cfg.EVAL.SAMPLES,
sets='test')
dataloader = get_dataloader(qap_dataset)
device = torch.device("cuda:0" if torch.cuda.is_available() else "cpu")
model = Net()
model = model.to(device)
model = DataParallel(model, device_ids=cfg.GPUS)
if not Path(cfg.OUTPUT_PATH).exists():
Path(cfg.OUTPUT_PATH).mkdir(parents=True)
now_time = datetime.now().strftime('%Y-%m-%d-%H-%M-%S')
with DupStdoutFileManager(str(Path(cfg.OUTPUT_PATH) / ('eval_log_' + now_time + '.log'))) as _:
print_easydict(cfg)
classes = dataloader.dataset.classes
accs = eval_model(model, dataloader,
eval_epoch=cfg.EVAL.EPOCH if cfg.EVAL.EPOCH != 0 else None,
verbose=True)