/keras-english-resume-parser-and-analyzer

keras project that parses and analyze english resumes

Primary LanguagePythonMIT LicenseMIT

keras-english-resume-parser-and-analyzer

Deep learning project that parses and analyze english resumes.

The objective of this project is to use Keras and Deep Learning such as CNN and recurrent neural network to automate the task of parsing a english resume.

Overview

Parser Features

  • English NLP using NLTK
  • Extract english texts using pdfminer.six and python-docx from PDF nad DOCX
  • Rule-based resume parser has been implemented.

Deep Learning Features

  • Tkinter-based GUI tool to generate and annotate deep learning training data from pdf and docx files
  • Deep learning multi-class classification using recurrent and cnn networks for
    • line type: classify each line of text extracted from pdf and docx file on whether it is a header, meta-data, or content
    • line label classify each line of text extracted from pdf and docx file on whether it implies experience, education, etc.

The included deep learning models that classify each line in the resume files include:

  • cnn.py

    • 1-D CNN with Word Embedding
    • Multi-Channel CNN with categorical cross-entropy loss function
  • cnn_lstm.py

    • 1-D CNN + LSTM with Word Embedding
  • lstm.py

    • LSTM with category cross-entropy loss function
    • Bi-directional LSTM/GRU with categorical cross-entropy loss function

Usage 1: Rule-based English Resume Parser

The sample code below shows how to scan all the resumes (in PDF and DOCX formats) from a [demo/data/resume_samples] folder and print out a summary from the resume parser if information extracted are available:

from keras_en_parser_and_analyzer.library.rule_based_parser import ResumeParser
from keras_en_parser_and_analyzer.library.utility.io_utils import read_pdf_and_docx


def main():
    data_dir_path = './data/resume_samples' # directory to scan for any pdf and docx files
    collected = read_pdf_and_docx(data_dir_path)
    for file_path, file_content in collected.items():

        print('parsing file: ', file_path)

        parser = ResumeParser()
        parser.parse(file_content)
        print(parser.raw) # print out the raw contents extracted from pdf or docx files

        if parser.unknown is False:
            print(parser.summary())

        print('++++++++++++++++++++++++++++++++++++++++++')

    print('count: ', len(collected))


if __name__ == '__main__':
    main()

IMPORTANT: the parser rules are implemented in the parser_rules.py. Each of these rules will be applied to every line of text in the resume file and return the target accordingly (or return None if not found in a line). As these rules are very naive implementation, you may want to customize them further based on the resumes that you are working with.

Usage 2: Deep Learning Resume Parser

Step 1: training data generation and annotation

A training data generation and annotation tool is created in the demo folder which allows resume deep learning training data to be generated from any pdf and docx files stored in the demo/data/resume_samples folder, To launch this tool, run the following command from the root directory of the project:

cd demo
python create_training_data.py

This will parse the pdf and docx files in demo/data/resume_samples folder and for each of these file launch a Tkinter-based GUI form to user to annotate individual text line in the pdf or docx file (clicking the "Type: ..." and "Label: ..." buttons multiple time to select the correct annotation for each line). On each form closing, the generated and annotated data will be saved to a text file in the demo/data/training_data folder. each line in the text file will have the following format

line_type   line_label  line_content

line_type and line_label has the following mapping to the actual class labels

line_labels = {0: 'experience', 1: 'knowledge', 2: 'education', 3: 'project', 4: 'others'}
line_types = {0: 'header', 1: 'meta', 2: 'content'}

Step 2: train the resume parser

After the training data is generated and annotated, one can train the resume parser by running the following command:

cd demo
python dl_based_parser_train.py

Below is the code for dl_based_parser_train.py:

import numpy as np
import os
import sys 


def main():
    random_state = 42
    np.random.seed(random_state)

    current_dir = os.path.dirname(__file__)
    current_dir = current_dir if current_dir is not '' else '.'
    output_dir_path = current_dir + '/models'
    training_data_dir_path = current_dir + '/data/training_data'
    
    # add keras_en_parser_and_analyzer module to the system path
    sys.path.append(os.path.join(os.path.dirname(__file__), '..'))
    from keras_en_parser_and_analyzer.library.dl_based_parser import ResumeParser

    classifier = ResumeParser()
    batch_size = 64
    epochs = 20
    history = classifier.fit(training_data_dir_path=training_data_dir_path,
                             model_dir_path=output_dir_path,
                             batch_size=batch_size, epochs=epochs,
                             test_size=0.3,
                             random_state=random_state)


if __name__ == '__main__':
    main()

Upon completion of training, the trained models will be saved in the demo/models/line_label and demo/models/line_type folders

The default line label and line type classifier used in the deep learning ResumeParser is WordVecBidirectionalLstmSoftmax. But other classifiers can be used by adding the following line, for example:

from keras_en_parser_and_analyzer.library.dl_based_parser import ResumeParser
from keras_en_parser_and_analyzer.library.classifiers.cnn_lstm import WordVecCnnLstm

classifier = ResumeParser()
classifier.line_label_classifier = WordVecCnnLstm()
classifier.line_type_classifier = WordVecCnnLstm()
...

(Do make sure that the requirements.txt are satisfied in your python env)

Step 3: parse resumes using trained parser

After the trained models are saved in the demo/models folder, one can use the resume parser to parse the resumes in the demo/data/resume_samples by running the following command:

cd demo
python dl_based_parser_predict.py

Below is the code for dl_based_parser_predict.py:

import os
import sys 


def main():
    current_dir = os.path.dirname(__file__)
    current_dir = current_dir if current_dir is not '' else '.'
    sys.path.append(os.path.join(os.path.dirname(__file__), '..'))
    
    from keras_en_parser_and_analyzer.library.dl_based_parser import ResumeParser
    from keras_en_parser_and_analyzer.library.utility.io_utils import read_pdf_and_docx
    
    data_dir_path = current_dir + '/data/resume_samples' # directory to scan for any pdf and docx files

    def parse_resume(file_path, file_content):
        print('parsing file: ', file_path)

        parser = ResumeParser()
        parser.load_model('./models')
        parser.parse(file_content)
        print(parser.raw)  # print out the raw contents extracted from pdf or docx files

        if parser.unknown is False:
            print(parser.summary())

        print('++++++++++++++++++++++++++++++++++++++++++')

    collected = read_pdf_and_docx(data_dir_path, command_logging=True, callback=lambda index, file_path, file_content: {
        parse_resume(file_path, file_content)
    })

    print('count: ', len(collected))


if __name__ == '__main__':
    main()

Configure to run on GPU on Windows

  • Step 1: Change tensorflow to tensorflow-gpu in requirements.txt and install tensorflow-gpu
  • Step 2: Download and install the CUDA® Toolkit 9.0 (Please note that currently CUDA® Toolkit 9.1 is not yet supported by tensorflow, therefore you should download CUDA® Toolkit 9.0)
  • Step 3: Download and unzip the cuDNN 7.4 for CUDA@ Toolkit 9.0 and add the bin folder of the unzipped directory to the $PATH of your Windows environment