def eval(self, dataset, state_dict=None, valid=False):
# Load parameters
if self.__C.CKPT_PATH is not None:
print('Warning: you are now using CKPT_PATH args, '
'CKPT_VERSION and CKPT_EPOCH will not work')
path = self.__C.CKPT_PATH
else:
path = self.__C.CKPTS_PATH + \
'ckpt_' + self.__C.CKPT_VERSION + \
'/epoch' + str(self.__C.CKPT_EPOCH) + '.pkl'
val_ckpt_flag = False
if state_dict is None:
val_ckpt_flag = True
print('Loading ckpt {}'.format(path))
state_dict = torch.load(path)['state_dict']
print('Finish!')
# Store the prediction list
qid_list = [ques['question_id'] for ques in dataset.ques_list]
ans_ix_list = []
pred_list = []
data_size = dataset.data_size
token_size = dataset.token_size
ans_size = dataset.ans_size
pretrained_emb = dataset.pretrained_emb
net = Net(self.__C, pretrained_emb, token_size, ans_size)
net.cuda()
net.eval()
if self.__C.N_GPU > 1:
net = nn.DataParallel(net, device_ids=self.__C.DEVICES)
net.load_state_dict(state_dict)
dataloader = Data.DataLoader(dataset,
batch_size=self.__C.EVAL_BATCH_SIZE,
shuffle=False,
num_workers=self.__C.NUM_WORKERS,
pin_memory=True)
for step, (img_feat_iter, ques_ix_iter,
ans_iter) in enumerate(dataloader):
print("\rEvaluation: [step %4d/%4d]" % (
step,
int(data_size / self.__C.EVAL_BATCH_SIZE),
),
end=' ')
img_feat_iter = img_feat_iter.cuda()
ques_ix_iter = ques_ix_iter.cuda()
pred = net(img_feat_iter, ques_ix_iter)
#print(pred)
pred_np = pred[0].cpu().data.numpy()
pred_argmax = np.argmax(pred_np, axis=1)
# Save the answer index
if pred_argmax.shape[0] != self.__C.EVAL_BATCH_SIZE:
pred_argmax = np.pad(
pred_argmax,
(0, self.__C.EVAL_BATCH_SIZE - pred_argmax.shape[0]),
mode='constant',
constant_values=-1)
ans_ix_list.append(pred_argmax)
# Save the whole prediction vector
if self.__C.TEST_SAVE_PRED:
if pred_np.shape[0] != self.__C.EVAL_BATCH_SIZE:
pred_np = np.pad(
pred_np,
((0, self.__C.EVAL_BATCH_SIZE - pred_np.shape[0]),
(0, 0)),
mode='constant',
constant_values=-1)
pred_list.append(pred_np)
print('')
ans_ix_list = np.array(ans_ix_list).reshape(-1)
result = [
{
'answer': dataset.ix_to_ans[str(
ans_ix_list[qix]
)], # ix_to_ans(load with json) keys are type of string
'question_id': int(qid_list[qix])
} for qix in range(qid_list.__len__())
]
# Write the results to result file
if valid:
if val_ckpt_flag:
result_eval_file = \
self.__C.CACHE_PATH + \
'result_run_' + self.__C.CKPT_VERSION + \
'.json'
else:
result_eval_file = \
self.__C.CACHE_PATH + \
'result_run_' + self.__C.VERSION + \
'.json'
else:
if self.__C.CKPT_PATH is not None:
result_eval_file = \
self.__C.RESULT_PATH + \
'result_run_' + self.__C.CKPT_VERSION + \
'.json'
else:
result_eval_file = \
self.__C.RESULT_PATH + \
'result_run_' + self.__C.CKPT_VERSION + \
'_epoch' + str(self.__C.CKPT_EPOCH) + \
'.json'
print('Save the result to file: {}'.format(result_eval_file))
json.dump(result, open(result_eval_file, 'w'))
# Save the whole prediction vector
if self.__C.TEST_SAVE_PRED:
if self.__C.CKPT_PATH is not None:
ensemble_file = \
self.__C.PRED_PATH + \
'result_run_' + self.__C.CKPT_VERSION + \
'.json'
else:
ensemble_file = \
self.__C.PRED_PATH + \
'result_run_' + self.__C.CKPT_VERSION + \
'_epoch' + str(self.__C.CKPT_EPOCH) + \
'.json'
print(
'Save the prediction vector to file: {}'.format(ensemble_file))
pred_list = np.array(pred_list).reshape(-1, ans_size)
result_pred = [{
'pred': pred_list[qix],
'question_id': int(qid_list[qix])
} for qix in range(qid_list.__len__())]
pickle.dump(result_pred, open(ensemble_file, 'wb+'), protocol=-1)
# Run validation script
if valid:
# create vqa object and vqaRes object
ques_file_path = self.__C.QUESTION_PATH['test']
ans_file_path = self.__C.ANSWER_PATH['test']
vqa = VQA(ans_file_path, ques_file_path)
vqaRes = vqa.loadRes(result_eval_file, ques_file_path)
# create vqaEval object by taking vqa and vqaRes
vqaEval = VQAEval(
vqa, vqaRes, n=2
) # n is precision of accuracy (number of places after decimal), default is 2
# evaluate results
"""
If you have a list of question ids on which you would like to evaluate your results, pass it as a list to below function
By default it uses all the question ids in annotation file
"""
vqaEval.evaluate()
# print accuracies
print("\n")
print("Overall Accuracy is: %.02f\n" %
(vqaEval.accuracy['overall']))
# print("Per Question Type Accuracy is the following:")
# for quesType in vqaEval.accuracy['perQuestionType']:
# print("%s : %.02f" % (quesType, vqaEval.accuracy['perQuestionType'][quesType]))
# print("\n")
print("Per Answer Type Accuracy is the following:")
for ansType in vqaEval.accuracy['perAnswerType']:
print("%s : %.02f" %
(ansType, vqaEval.accuracy['perAnswerType'][ansType]))
print("\n")
if val_ckpt_flag:
print('Write to log file: {}'.format(
self.__C.LOG_PATH + 'log_run_' + self.__C.CKPT_VERSION +
'.txt', 'a+'))
logfile = open(
self.__C.LOG_PATH + 'log_run_' + self.__C.CKPT_VERSION +
'.txt', 'a+')
else:
print('Write to log file: {}'.format(
self.__C.LOG_PATH + 'log_run_' + self.__C.VERSION + '.txt',
'a+'))
logfile = open(
self.__C.LOG_PATH + 'log_run_' + self.__C.VERSION + '.txt',
'a+')
logfile.write("Overall Accuracy is: %.02f\n" %
(vqaEval.accuracy['overall']))
for ansType in vqaEval.accuracy['perAnswerType']:
logfile.write(
"%s : %.02f " %
(ansType, vqaEval.accuracy['perAnswerType'][ansType]))
logfile.write("\n\n")
logfile.close()
import json
import random
import os
# set up file names and paths
versionType = 'v2_' # this should be '' when using VQA v2.0 dataset
taskType = 'MultipleChoice' # 'OpenEnded' only for v2.0. 'OpenEnded' or 'MultipleChoice' for v1.0
dataSubType = 'test'
annFile = '{}/annotations/{}.json'.format(dataDir, dataSubType)
quesFile = '{}/questions/{}.json'.format(dataDir, dataSubType)
imgDir = '{}/images/{}/' .format(dataDir, dataSubType)
resFile = './results.json'
# create vqa object and vqaRes object
vqa = VQA(annFile, quesFile)
vqaRes = vqa.loadRes(resFile, quesFile)
# create vqaEval object by taking vqa and vqaRes
vqaEval = VQAEval(vqa, vqaRes, n=2) #n is precision of accuracy (number of places after decimal), default is 2
# evaluate results
"""
If you have a list of question ids on which you would like to evaluate your results, pass it as a list to below function
By default it uses all the question ids in annotation file
"""
vqaEval.evaluate()
# print accuracies
print("\n")
print("Overall Accuracy is: %.02f\n" %(vqaEval.accuracy['overall']))