import time import pickle import tensorflow as tf import pandas as pd import tqdm import numpy as np import os import matplotlib matplotlib.use('Agg') import matplotlib.pyplot as plt from tensorflow.keras.preprocessing.text import Tokenizer from tensorflow.keras.preprocessing.sequence import pad_sequences from tensorflow.keras.utils import to_categorical from tensorflow.keras.callbacks import ModelCheckpoint, TensorBoard from sklearn.model_selection import train_test_split #from tensorflow.keras.layers import Embedding, Dropout, Dense from tensorflow.keras.models import Sequential from keras.models import load_model from sklearn.metrics import f1_score, precision_score, accuracy_score, recall_score from tensorflow.keras.layers import LSTM, GlobalMaxPooling1D, Dropout, Dense, Input, Embedding, MaxPooling1D, Flatten,BatchNormalization SEQUENCE_LENGTH = 100 # the length of all sequences (number of words per sample) EMBEDDING_SIZE = 100 # Using 100-Dimensional GloVe embedding vectors TEST_SIZE = 0.25 # ratio of testing set BATCH_SIZE = 64 EPOCHS = 20 # number of epochs label2int = {"frustrated": 0, "negative": 1,"neutral":2,"positive":3,"satisfied":4} int2label = {0: "frustrated", 1: "negative",2:"neutral",3:"positive",4:"satisfied"} def get_embedding_vectors(tokenizer, dim=100): embedding_index = {} with open(f"data/glove.6B.{dim}d.txt", encoding='utf8') as f: for line in tqdm.tqdm(f, "Reading GloVe"): values = line.split() word = values[0] vectors = np.asarray(values[1:], dtype='float32') embedding_index[word] = vectors word_index = tokenizer.word_index embedding_matrix = np.zeros((len(word_index) + 1, dim)) for word, i in word_index.items(): embedding_vector = embedding_index.get(word) if embedding_vector is not None: # words not found will be 0s embedding_matrix[i] = embedding_vector return embedding_matrix def get_predictions(text): tokenizer = Tokenizer() model_path = 'lstm_model.h5' model = load_model(model_path) sequence = tokenizer.texts_to_sequences(text) # pad the sequence sequence = pad_sequences(sequence, maxlen=SEQUENCE_LENGTH) # get the prediction prediction = model.predict(sequence) res=[] for p1 in prediction: res.append(int2label[np.argmax(p1)]) return res if __name__ == '__main__': t=[' Sooo SAD I will miss you here in San Diego!!!', 'Stolen iPhone 15 pro', 'iPhone 15 Pro and iPhone 15 Pro Max Feature Increased 8GB of RAM', 'Apple announces iPhone 15 Pro and Pro Max', 'Temperature of my iPhone 15 Pro Max while on the phone for 5 mins.', 'I traded in my iPhone 14 Pro for the iPhone 15 Pro Max, then FedEx lost the old phone', 'iPhone 15 Pro Max crushes Google Pixel 8 Pro in speed test', 'Apple Design Team Making The New iPhone 15 Pro Max', 'iPhone 15 Pro Could Be Most Lightweight Pro Model Since iPhone XS', ' iPhone 15 Pro/Pro Max is so sad'] print(get_predictions(t))