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base_model.py
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base_model.py
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import os
import numpy as np
import pandas as pd
import tensorflow as tf
import matplotlib.pyplot as plt
import cPickle as pickle
import copy
import json
from tqdm import tqdm
from utils.nn import NN
from utils.coco.coco import COCO
from utils.coco.pycocoevalcap.eval import COCOEvalCap
from utils.misc import ImageLoader, CaptionData, TopN
class BaseModel(object):
def __init__(self, config):
self.config = config
self.is_train = True if config.phase == 'train' else False
self.train_cnn = self.is_train and config.train_cnn
self.image_loader = ImageLoader('./utils/ilsvrc_2012_mean.npy')
self.image_shape = [224, 224, 3]
self.nn = NN(config)
self.global_step = tf.Variable(0,
name = 'global_step',
trainable = False)
self.build()
def build(self):
raise NotImplementedError()
def train(self, sess, train_data):
""" Train the model using the COCO train2014 data. """
print("Training the model...")
config = self.config
if not os.path.exists(config.summary_dir):
os.mkdir(config.summary_dir)
train_writer = tf.summary.FileWriter(config.summary_dir,
sess.graph)
for _ in tqdm(list(range(config.num_epochs)), desc='epoch'):
for _ in tqdm(list(range(train_data.num_batches)), desc='batch'):
batch = train_data.next_batch()
image_files, sentences, masks = batch
images = self.image_loader.load_images(image_files)
feed_dict = {self.images: images,
self.sentences: sentences,
self.masks: masks}
_, summary, global_step = sess.run([self.opt_op,
self.summary,
self.global_step],
feed_dict=feed_dict)
if (global_step + 1) % config.save_period == 0:
self.save()
train_writer.add_summary(summary, global_step)
train_data.reset()
self.save()
train_writer.close()
print("Training complete.")
def eval(self, sess, eval_gt_coco, eval_data, vocabulary):
""" Evaluate the model using the COCO val2014 data. """
print("Evaluating the model ...")
config = self.config
results = []
if not os.path.exists(config.eval_result_dir):
os.mkdir(config.eval_result_dir)
# Generate the captions for the images
idx = 0
for k in tqdm(list(range(eval_data.num_batches)), desc='batch'):
batch = eval_data.next_batch()
caption_data = self.beam_search(sess, batch, vocabulary)
fake_cnt = 0 if k<eval_data.num_batches-1 \
else eval_data.fake_count
for l in range(eval_data.batch_size-fake_cnt):
word_idxs = caption_data[l][0].sentence
score = caption_data[l][0].score
caption = vocabulary.get_sentence(word_idxs)
results.append({'image_id': eval_data.image_ids[idx],
'caption': caption})
idx += 1
# Save the result in an image file, if requested
if config.save_eval_result_as_image:
image_file = batch[l]
image_name = image_file.split(os.sep)[-1]
image_name = os.path.splitext(image_name)[0]
img = plt.imread(image_file)
plt.imshow(img)
plt.axis('off')
plt.title(caption)
plt.savefig(os.path.join(config.eval_result_dir,
image_name+'_result.jpg'))
fp = open(config.eval_result_file, 'wb')
json.dump(results, fp)
fp.close()
# Evaluate these captions
eval_result_coco = eval_gt_coco.loadRes(config.eval_result_file)
scorer = COCOEvalCap(eval_gt_coco, eval_result_coco)
scorer.evaluate()
print("Evaluation complete.")
def test(self, sess, test_data, vocabulary):
""" Test the model using any given images. """
print("Testing the model ...")
config = self.config
if not os.path.exists(config.test_result_dir):
os.mkdir(config.test_result_dir)
captions = []
scores = []
# Generate the captions for the images
for k in tqdm(list(range(test_data.num_batches)), desc='path'):
batch = test_data.next_batch()
caption_data = self.beam_search(sess, batch, vocabulary)
fake_cnt = 0 if k<test_data.num_batches-1 \
else test_data.fake_count
for l in range(test_data.batch_size-fake_cnt):
word_idxs = caption_data[l][0].sentence
score = caption_data[l][0].score
caption = vocabulary.get_sentence(word_idxs)
captions.append(caption)
scores.append(score)
# Save the result in an image file
image_file = batch[l]
image_name = image_file.split(os.sep)[-1]
image_name = os.path.splitext(image_name)[0]
img = plt.imread(image_file)
plt.imshow(img)
plt.axis('off')
plt.title(caption)
plt.savefig(os.path.join(config.test_result_dir,
image_name+'_result.jpg'))
# Save the captions to a file
results = pd.DataFrame({'image_files':test_data.image_files,
'caption':captions,
'prob':scores})
results.to_csv(config.test_result_file)
print("Testing complete.")
def beam_search(self, sess, image_files, vocabulary):
"""Use beam search to generate the captions for a batch of images."""
# Feed in the images to get the contexts and the initial LSTM states
config = self.config
images = self.image_loader.load_images(image_files)
contexts, initial_memory, initial_output = sess.run(
[self.conv_feats, self.initial_memory, self.initial_output],
feed_dict = {self.images: images})
partial_caption_data = []
complete_caption_data = []
for k in range(config.batch_size):
initial_beam = CaptionData(sentence = [],
memory = initial_memory[k],
output = initial_output[k],
score = 1.0)
partial_caption_data.append(TopN(config.beam_size))
partial_caption_data[-1].push(initial_beam)
complete_caption_data.append(TopN(config.beam_size))
# Run beam search
for idx in range(config.max_caption_length):
partial_caption_data_lists = []
for k in range(config.batch_size):
data = partial_caption_data[k].extract()
partial_caption_data_lists.append(data)
partial_caption_data[k].reset()
num_steps = 1 if idx == 0 else config.beam_size
for b in range(num_steps):
if idx == 0:
last_word = np.zeros((config.batch_size), np.int32)
else:
last_word = np.array([pcl[b].sentence[-1]
for pcl in partial_caption_data_lists],
np.int32)
last_memory = np.array([pcl[b].memory
for pcl in partial_caption_data_lists],
np.float32)
last_output = np.array([pcl[b].output
for pcl in partial_caption_data_lists],
np.float32)
memory, output, scores = sess.run(
[self.memory, self.output, self.probs],
feed_dict = {self.contexts: contexts,
self.last_word: last_word,
self.last_memory: last_memory,
self.last_output: last_output})
# Find the beam_size most probable next words
for k in range(config.batch_size):
caption_data = partial_caption_data_lists[k][b]
words_and_scores = list(enumerate(scores[k]))
words_and_scores.sort(key=lambda x: -x[1])
words_and_scores = words_and_scores[0:config.beam_size+1]
# Append each of these words to the current partial caption
for w, s in words_and_scores:
sentence = caption_data.sentence + [w]
score = caption_data.score * s
beam = CaptionData(sentence,
memory[k],
output[k],
score)
if vocabulary.words[w] == '.':
complete_caption_data[k].push(beam)
else:
partial_caption_data[k].push(beam)
results = []
for k in range(config.batch_size):
if complete_caption_data[k].size() == 0:
complete_caption_data[k] = partial_caption_data[k]
results.append(complete_caption_data[k].extract(sort=True))
return results
def save(self):
""" Save the model. """
config = self.config
data = {v.name: v.eval() for v in tf.global_variables()}
save_path = os.path.join(config.save_dir, str(self.global_step.eval()))
print((" Saving the model to %s..." % (save_path+".npy")))
np.save(save_path, data)
info_file = open(os.path.join(config.save_dir, "config.pickle"), "wb")
config_ = copy.copy(config)
config_.global_step = self.global_step.eval()
pickle.dump(config_, info_file)
info_file.close()
print("Model saved.")
def load(self, sess, model_file=None):
""" Load the model. """
config = self.config
if model_file is not None:
save_path = model_file
else:
info_path = os.path.join(config.save_dir, "config.pickle")
info_file = open(info_path, "rb")
config = pickle.load(info_file)
global_step = config.global_step
info_file.close()
save_path = os.path.join(config.save_dir,
str(global_step)+".npy")
print("Loading the model from %s..." %save_path)
data_dict = np.load(save_path).item()
count = 0
for v in tqdm(tf.global_variables()):
if v.name in data_dict.keys():
sess.run(v.assign(data_dict[v.name]))
count += 1
print("%d tensors loaded." %count)
def load_cnn(self, session, data_path, ignore_missing=True):
""" Load a pretrained CNN model. """
print("Loading the CNN from %s..." %data_path)
data_dict = np.load(data_path).item()
count = 0
for op_name in tqdm(data_dict):
with tf.variable_scope(op_name, reuse = True):
for param_name, data in data_dict[op_name].iteritems():
try:
var = tf.get_variable(param_name)
session.run(var.assign(data))
count += 1
except ValueError:
pass
print("%d tensors loaded." %count)