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metadata
title: Sentiment Analysis
emoji: 🤗
colorFrom: blue
colorTo: green
pinned: false
sdk: gradio
python_version: 3.11
app_file: app/gui.py
datasets:
  - mrshu/amazonreviews
  - stanfordnlp/sentiment140
  - stanfordnlp/imdb
  - Sp1786/multiclass-sentiment-analysis-dataset
models:
  - spacy/en_core_web_sm

Sentiment Analysis Hugging Face Spaces

Table of Contents

Description

This is a simple sentiment analysis model written in Python, designed to predict whether the provided text has a positive or negative sentiment. The project comes with both a graphical user interface and a command-line interface. While training the model, the user can choose from a couple of datasets to train the model on and then evaluate the trained model on another dataset. Once the model is trained, it can be used to predict the sentiment of any text with the help of the GUI or CLI.

Installation

Clone the repository and once inside the directory, run the following command to install the dependencies:

python -m pip install -r requirements.txt

Ensure that you have at least one dataset downloaded and placed in the data directory before running train. For evaluate, you will need the test dataset. See Datasets for more information.

The project comes with pre-trained models that can be used for prediction. See Pre-trained Models for more information.

Prerequisites

  • Python 3.11+

Usage

To see the available commands and options, run:

python -m app --help

help

Predict

To perform sentiment analysis on a given text, run the following command:

python -m app predict --model <model> I love this movie

where <model> is the path to the trained model.

Alternatively, you can pipe the text into the command:

echo "I love this movie" | python -m app predict --model <model>

predict-help

GUI

To launch the GUI, run the following command:

python -m app gui --model <model>

where <model> is the path to the trained model. Add the --share flag to create a publicly accessible link. gui-help

After running the command, open the link from the terminal in your browser to access the GUI. gui

Training

Before training the model, ensure that the specified dataset is downloaded and can be accessed at its respective path. To train the model, run the following command:

python -m app train --dataset <dataset> {options}

where <dataset> is the name of the dataset to train the model on. For available datasets, see Datasets.

The trained model will be exported to the models directory.

To see all available options, run:

python -m app train --help

train-help

Evaluation

Once the model is trained, you can evaluate it on a different dataset by running the following command:

python -m app evaluate --model <model>

where <model> is the path to the trained model. For available datasets, see Datasets.

To see all available options, run:

python -m app evaluate --help

evaluate-help

Options

Datasets

Option Path Notes Dataset
sentiment140 data/sentiment140.csv Twitter Sentiment Analysis
amazonreviews data/amazonreviews.bz2 only train is used Amazon Product Reviews
imdb50k data/imdb50k.csv IMDB Movie Reviews
test data/test.csv only used in evaluate Sentiment Analysis Evaluation Dataset

Other

During text preprocessing, this slang map is used to convert slang words to their formal form.

Vectorizers

Option Description When to Use
count Count Vectorizer When the frequency of words is important
tfidf TF-IDF Vectorizer When the importance of words is important
hashing Hashing Vectorizer When memory is a concern

Environment Variables

The following environment variables can be set to customize the behavior of the application:

Name Description Default
MODEL_DIR the directory where the trained models are stored models
DATA_DIR the directory where the datasets are stored data
CACHE_DIR the directory where cached files are stored .cache

Implementation

Architecture

The input text is first preprocessed and tokenized using re and spaCy where:

  • Any HTML tags are removed
  • Emojis and slang words are converted to their text form
  • Stop words, punctuation and special characters are removed
  • URLs, email addresses and numbers are removed
  • Words are converted to lowercase
  • Lemmatization is performed (words are converted to their base form based on the surrounding context)

After tokenization, feature extraction is performed on the tokens using the chosen vectorizer. Each vectorizer has its own advantages and disadvantages, and the choice of vectorizer can affect the speed and accuracy of the model (see Vectorizers). The extracted features are then passed to the classifier which predicts the class which in this case is the sentiment of the text. Both the vectorizer and classifier are trained on the specified dataset.

%%{ init : { "flowchart" : { "curve" : "monotoneX" }}}%%
graph LR
  START:::hidden --> |text|Preprocessing

  subgraph Preprocessing
    direction TB
    A[Tokenizer]
    B1[HashingVectorizer]
    B2[CountVectorizer]
    B3[TfidfVectorizer]

    A --> B1
    A --> |tokens|B2
    A --> B3

    B1 --> C1:::hidden
    B2 --> C2:::hidden
    B3 --> C3:::hidden
  end

  Preprocessing --> |features|Classification

  subgraph Classification
    direction LR
    D1[LogisticRegression]
  end

  Classification --> |sentiment|END:::hidden

  classDef hidden display: none;

Pre-trained Models

The following pre-trained models are available for use:

Dataset Vectorizer Classifier Features Accuracy on test Accuracy on self Model
imdb50k tfidf LinearRegression 20 000 75.63% ± 4.73% 89.24% ± 0.13% (5-fold) Here
sentiment140 tfidf LinearRegression 20 000 75.63% ± 4.73% 77.32% ± 0.28% (5-fold) Here
amazonreviews tfidf LinearRegression 20 000 65.49% ± 7.03% 90.08% ± 0.00% (train-test) Here

License

Distributed under the MIT License. See LICENSE for more information.