Ejemplo n.º 1
0
    def __init__(self, session, corpus_dir, knbase_dir, result_dir, result_file):
        """
        Args:
            session: The TensorFlow session.
            corpus_dir: Name of the folder storing corpus files and vocab information.
            knbase_dir: Name of the folder storing data files for the knowledge base.
            result_dir: The folder containing the trained result files.
            result_file: The file name of the trained model.
        """
        self.session = session

        # Prepare data and hyper parameters
        print("# Prepare dataset placeholder and hyper parameters ...")
        tokenized_data = TokenizedData(corpus_dir=corpus_dir, training=False)

        self.knowledge_base = KnowledgeBase()
        self.knowledge_base.load_knbase(knbase_dir)

        self.session_data = SessionData()

        self.hparams = tokenized_data.hparams
        self.src_placeholder = tf.placeholder(shape=[None], dtype=tf.string)
        src_dataset = tf.data.Dataset.from_tensor_slices(self.src_placeholder)
        self.infer_batch = tokenized_data.get_inference_batch(src_dataset)

        # Create model
        print("# Creating inference model ...")
        self.model = ModelCreator(training=False, tokenized_data=tokenized_data,
                                  batch_input=self.infer_batch)
        # Restore model weights
        print("# Restoring model weights ...")
        self.model.saver.restore(session, os.path.join(result_dir, result_file))

        self.session.run(tf.tables_initializer())
Ejemplo n.º 2
0
    def __init__(self,
                 session,
                 corpus_dir,
                 knbase_dir,
                 result_dir,
                 hparams_dir=None):
        self.session = session

        hparams = HParams(hparams_dir).hparams if hparams_dir else None

        # Prepare data and hyper parameters
        print("# Prepare dataset placeholder and hyper parameters ...")
        self.tokenized_data = TokenizedData(corpus_dir=corpus_dir,
                                            hparams=hparams,
                                            knbase_dir=knbase_dir,
                                            training=False)

        self.hparams = self.tokenized_data.hparams
        self.src_placeholder = tf.placeholder(shape=[None], dtype=tf.string)
        src_dataset = tf.contrib.data.Dataset.from_tensor_slices(
            self.src_placeholder)
        self.infer_batch = self.tokenized_data.get_inference_batch(src_dataset)

        # Create model
        print("# Creating inference model ...")
        self.model = ModelCreator(training=False,
                                  tokenized_data=self.tokenized_data,
                                  batch_input=self.infer_batch)
        latest_ckpt = tf.train.latest_checkpoint(result_dir)
        print("# Restoring model weights ...")
        self.model.saver.restore(session, latest_ckpt)
        self.session.run(tf.tables_initializer())
Ejemplo n.º 3
0
    def __init__(self, session, corpus_dir, knbase_dir, result_dir,
                 result_file):
        self.session = session

        # Prepare data and hyper parameters
        print("# Prepare dataset placeholder and hyper parameters ...")
        self.tokenized_data = TokenizedData(corpus_dir=corpus_dir,
                                            knbase_dir=knbase_dir,
                                            training=False)

        self.hparams = self.tokenized_data.hparams
        self.src_placeholder = tf.placeholder(shape=[None], dtype=tf.string)
        src_dataset = tf.data.Dataset.from_tensor_slices(self.src_placeholder)
        self.infer_batch = self.tokenized_data.get_inference_batch(src_dataset)

        # Create model
        print("# Creating inference model ...")
        self.model = ModelCreator(training=False,
                                  tokenized_data=self.tokenized_data,
                                  batch_input=self.infer_batch)
        # Restore model weights
        print("# Restoring model weights ...")
        self.model.saver.restore(session, os.path.join(result_dir,
                                                       result_file))

        self.session.run(tf.tables_initializer())
Ejemplo n.º 4
0
    def __init__(self, corpus_dir):
        self.graph = tf.Graph()
        with self.graph.as_default():
            tokenized_data = TokenizedData(corpus_dir=corpus_dir)

            self.hparams = tokenized_data.hparams
            self.train_batch = tokenized_data.get_training_batch()  # Return BatchInput namedtuple from .chatbot/tokenizedata.py
            self.model = ModelCreator(training=True, tokenized_data=tokenized_data,
                                      batch_input=self.train_batch)
Ejemplo n.º 5
0
    def __init__(self, corpus_dir):
        self.graph = tf.Graph()
        with self.graph.as_default():
            tokenized_data = TokenizedData(corpus_dir=corpus_dir)

            self.hparams = tokenized_data.hparams
            self.train_batch = tokenized_data.get_training_batch()
            self.model = ModelCreator(training=True, tokenized_data=tokenized_data,
                                      batch_input=self.train_batch)
Ejemplo n.º 6
0
    def __init__(self, session, corpus_dir, knbase_dir, result_dir, aiml_dir,
                 result_file):
        """
        Args:
            session: The TensorFlow session.
            corpus_dir: Name of the folder storing corpus files and vocab information.
            knbase_dir: Name of the folder storing data files for the knowledge base.
            result_dir: The folder containing the trained result files.
            result_file: The file name of the trained model.
        """
        self.session = session

        # Prepare data and hyper parameters
        print("# Prepare dataset placeholder and hyper parameters ...")
        tokenized_data = TokenizedData(corpus_dir=corpus_dir, training=False)

        self.knowledge_base = KnowledgeBase()
        self.knowledge_base.load_knbase(knbase_dir)

        self.session_data = SessionData()

        self.hparams = tokenized_data.hparams
        self.src_placeholder = tf.placeholder(shape=[None], dtype=tf.string)
        src_dataset = tf.data.Dataset.from_tensor_slices(self.src_placeholder)
        self.infer_batch = tokenized_data.get_inference_batch(src_dataset)

        # Create Retrival model
        self.kmodel = aiml.Kernel()
        brain_file_name = os.path.join(aiml_dir, BRAIN_FILE)
        print(aiml_dir)

        # Restore model rules
        if os.path.exists(brain_file_name):
            print("# Loading from brain file ... ")
            self.kmodel.loadBrain(brain_file_name)
        else:
            print("# Parsing aiml files ...")
            aimls_file_name = os.path.join(aiml_dir, AIMLS_FILE)
            self.kmodel.bootstrap(learnFiles=os.path.abspath(aimls_file_name),
                                  commands="load aiml b")
            print("# Saving brain file: " + BRAIN_FILE)
            self.kmodel.saveBrain(brain_file_name)

        # Create Generative model
        print("# Creating inference model ...")
        self.model = ModelCreator(training=False,
                                  tokenized_data=tokenized_data,
                                  batch_input=self.infer_batch)
        # Restore model weights
        print("# Restoring model weights ...")
        self.model.saver.restore(session, os.path.join(result_dir,
                                                       result_file))

        self.session.run(tf.tables_initializer())
Ejemplo n.º 7
0
    def __init__(self, corpus_dir):
        """
        Constructor of the BotTrainer.
        Args:
            corpus_dir: The folder to save all the training related data.
        """
        self.graph = tf.Graph()
        with self.graph.as_default():
            tokenized_data = TokenizedData(corpus_dir=corpus_dir)

            self.hparams = tokenized_data.hparams
            self.train_batch = tokenized_data.get_training_batch()
            self.model = ModelCreator(training=True, tokenized_data=tokenized_data,
                                      batch_input=self.train_batch)
Ejemplo n.º 8
0
class BotPredictor(object):
    def __init__(self, session, corpus_dir, knbase_dir, result_dir,
                 result_file):
        self.session = session

        # Prepare data and hyper parameters
        print("# Prepare dataset placeholder and hyper parameters ...")
        self.tokenized_data = TokenizedData(corpus_dir=corpus_dir,
                                            knbase_dir=knbase_dir,
                                            training=False)

        self.hparams = self.tokenized_data.hparams
        self.src_placeholder = tf.placeholder(shape=[None], dtype=tf.string)
        src_dataset = tf.data.Dataset.from_tensor_slices(self.src_placeholder)
        self.infer_batch = self.tokenized_data.get_inference_batch(src_dataset)

        # Create model
        print("# Creating inference model ...")
        self.model = ModelCreator(training=False,
                                  tokenized_data=self.tokenized_data,
                                  batch_input=self.infer_batch)
        # Restore model weights
        print("# Restoring model weights ...")
        self.model.saver.restore(session, os.path.join(result_dir,
                                                       result_file))

        self.session.run(tf.tables_initializer())

    def predict(self, sentence, html_format=False):
        if sentence.strip() == '':
            return "Don't you want to say something to me?"

        pat_matched, new_sentence, num_list = \
            FunctionData.check_arithmetic_pattern_and_replace(sentence)

        for pre_time in range(2):
            tokens = nltk.word_tokenize(new_sentence.lower())
            tmp_sentence = [' '.join(tokens[:]).strip()]

            self.session.run(self.infer_batch.initializer,
                             feed_dict={self.src_placeholder: tmp_sentence})

            outputs, _ = self.model.infer(self.session)

            if self.hparams.beam_width > 0:
                outputs = outputs[0]

            eos_token = self.hparams.eos_token.encode("utf-8")
            outputs = outputs.tolist()[0]

            if eos_token in outputs:
                outputs = outputs[:outputs.index(eos_token)]

            if pat_matched and pre_time == 0:
                out_sentence, if_func_val = self._get_final_output(
                    outputs, para_list=num_list, html_format=html_format)
                if if_func_val:
                    return out_sentence
                else:
                    new_sentence = sentence
            else:
                out_sentence, _ = self._get_final_output(
                    outputs, html_format=html_format)
                return out_sentence

    def _get_final_output(self, sentence, para_list=None, html_format=False):
        sentence = b' '.join(sentence).decode('utf-8')
        if sentence == '':
            return "I don't know what to say.", False

        if_func_val = False
        last_word = None
        word_list = []
        for word in sentence.split(' '):
            word = word.strip()
            if not word:
                continue

            if word.startswith('_func_val_'):
                if_func_val = True
                word = call_function(word[10:],
                                     tokenized_data=self.tokenized_data,
                                     para_list=para_list,
                                     html_format=html_format)
            else:
                if word in self.tokenized_data.upper_words:
                    word = self.tokenized_data.upper_words[word]

                if (last_word is None or last_word
                        in ['.', '!', '?']) and not word[0].isupper():
                    word = word.capitalize()

            if not word.startswith('\'') and word != 'n\'t' \
                and (word not in string.punctuation or word in ['(', '[', '{', '``', '$']) \
                and last_word not in ['(', '[', '{', '``', '$']:
                word = ' ' + word

            word_list.append(word)
            last_word = word

        return ''.join(word_list).strip(), if_func_val