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import os
import re
from datetime import datetime
import PyPDF2
import torch
from transformers import AutoTokenizer, AutoModelForSequenceClassification, AutoModelForSeq2SeqLM
from sentence_transformers import SentenceTransformer, util
from groq import Groq
import gradio as gr
# Set your API key for Groq
os.environ["GROQ_API_KEY"] = "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"
client = Groq(api_key=os.environ.get("GROQ_API_KEY"))
# --- PDF/Text Extraction Functions --- #
def extract_text_from_file(file_path):
"""Extracts text from PDF or TXT files based on file extension."""
if file_path.endswith('.pdf'):
return extract_text_from_pdf(file_path)
elif file_path.endswith('.txt'):
return extract_text_from_txt(file_path)
else:
raise ValueError("Unsupported file type. Only PDF and TXT files are accepted.")
def extract_text_from_pdf(pdf_file_path):
"""Extracts text from a PDF file."""
with open(pdf_file_path, 'rb') as pdf_file:
pdf_reader = PyPDF2.PdfReader(pdf_file)
text = ''.join(page.extract_text() for page in pdf_reader.pages if page.extract_text())
return text
def extract_text_from_txt(txt_file_path):
"""Extracts text from a .txt file."""
with open(txt_file_path, 'r', encoding='utf-8') as txt_file:
return txt_file.read()
# --- Skill Extraction with Llama Model --- #
def extract_skills_llama(text):
"""Extracts skills from the text using the Llama model via Groq API."""
try:
response = client.chat.completions.create(
messages=[{"role": "user", "content": f"Extract skills from the following text: {text}"}],
model="llama3-70b-8192",
)
skills = response.choices[0].message.content.split(', ') # Expecting a comma-separated list
return skills
except Exception as e:
raise RuntimeError(f"Error during skill extraction: {e}")
# --- Job Description Processing Function --- #
def process_job_description(text):
"""Extracts skills or relevant keywords from the job description."""
return extract_skills_llama(text)
# --- Qualification and Experience Extraction --- #
def extract_qualifications(text):
"""Extracts qualifications from text (e.g., degrees, certifications)."""
qualifications = re.findall(r'(bachelor|master|phd|certified|degree)', text, re.IGNORECASE)
return qualifications if qualifications else ['No specific qualifications found']
def extract_experience(text):
"""Extracts years of experience from the text."""
experience_years = re.findall(r'(\d+)\s*(years|year) of experience', text, re.IGNORECASE)
job_titles = re.findall(r'\b(software engineer|developer|manager|analyst)\b', text, re.IGNORECASE)
experience_years = [int(year[0]) for year in experience_years]
return experience_years, job_titles
# --- Sentiment Analysis --- #
def analyze_sentiment(text):
"""Analyzes the sentiment of the text."""
model_name = "mrm8488/distiluse-base-multilingual-cased-v2-finetuned-stsb_multi_mt-es"
tokenizer = AutoTokenizer.from_pretrained(model_name)
model = AutoModelForSequenceClassification.from_pretrained(model_name)
inputs = tokenizer(text, return_tensors="pt", padding=True, truncation=True)
with torch.no_grad():
outputs = model(**inputs)
predicted_sentiment = torch.argmax(outputs.logits).item()
return ["Negative", "Neutral", "Positive"][predicted_sentiment]
# --- Semantic Similarity Calculation --- #
def calculate_semantic_similarity(text1, text2):
"""Calculates semantic similarity using a sentence transformer model and returns the score as a percentage."""
model = SentenceTransformer('paraphrase-MiniLM-L6-v2')
embeddings1 = model.encode(text1, convert_to_tensor=True)
embeddings2 = model.encode(text2, convert_to_tensor=True)
similarity_score = util.pytorch_cos_sim(embeddings1, embeddings2).item()
# Convert similarity score to percentage
similarity_percentage = similarity_score * 100
return similarity_percentage
# --- Communication Generation --- #
def communication_generator(resume_skills, job_description_skills, skills_similarity, qualifications_similarity, experience_similarity, candidate_experience):
"""Generates a detailed communication response based on similarity scores and additional criteria."""
# Assess candidate fit based on similarity scores
fit_status = "strong fit" if skills_similarity >= 80 and qualifications_similarity >= 80 and experience_similarity >= 80 else \
"moderate fit" if skills_similarity >= 50 else "weak fit"
# Build a message that includes a recommendation based on various assessments
if fit_status == "strong fit":
recommendation = "We recommend moving forward with this candidate, as they demonstrate a high level of alignment with the role requirements."
elif fit_status == "moderate fit":
recommendation = "This candidate shows potential; however, further assessment or interviews are recommended to clarify their fit for the role."
else:
recommendation = "We advise against moving forward with this candidate, as they do not meet the key technical requirements for the position."
message = (
f"After a detailed analysis of the candidate's resume, we found the following insights:\n\n"
f"- **Skills Match**: {skills_similarity:.2f}% (based on required technologies: {', '.join(job_description_skills)})\n"
f"- **Experience Match**: {experience_similarity:.2f}% (relevant experience: {candidate_experience} years)\n"
f"- **Qualifications Match**: {qualifications_similarity:.2f}%\n\n"
f"The overall assessment indicates that the candidate is a {fit_status} for the role. "
f"Their skills in {', '.join(resume_skills)} align with the job's requirements of {', '.join(job_description_skills)}. "
f"Based on their experience in web application development, particularly with technologies like {', '.join(resume_skills)}, they could contribute effectively to our team.\n\n"
f"**Recommendation**: {recommendation}\n"
)
return message
# --- Updated Resume Analysis Function --- #
def analyze_resume(resume_file, job_description_file):
# Load and preprocess resume and job description
resume_text = extract_text_from_file(resume_file)
job_description_text = extract_text_from_file(job_description_file)
# Extract skills, qualifications, and experience from the resume
resume_skills = extract_skills_llama(resume_text)
resume_qualifications = extract_qualifications(resume_text)
resume_experience, _ = extract_experience(resume_text)
total_experience = sum(resume_experience) # Assuming this returns a list of experiences
# Extract required skills, qualifications, and experience from the job description
job_description_skills = process_job_description(job_description_text)
job_description_qualifications = extract_qualifications(job_description_text)
job_description_experience, _ = extract_experience(job_description_text)
required_experience = sum(job_description_experience) # Assuming total years required
# Calculate similarity scores
skills_similarity = len(set(resume_skills).intersection(set(job_description_skills))) / len(job_description_skills) * 100 if job_description_skills else 0
qualifications_similarity = len(set(resume_qualifications).intersection(set(job_description_qualifications))) / len(job_description_qualifications) * 100 if job_description_qualifications else 0
experience_similarity = 1.0 if total_experience >= required_experience else 0.0
# Sentiment analysis of the resume
sentiment_analysis_result = analyze_sentiment(resume_text)
# Fit assessment logic
fit_score = 0
if total_experience >= required_experience:
fit_score += 1
if skills_similarity > 50: # Define a threshold for skills match
fit_score += 1
if qualifications_similarity > 50: # Define a threshold for qualifications match
fit_score += 1
# Determine fit
if fit_score == 3:
fit_assessment = "Strong fit"
elif fit_score == 2:
fit_assessment = "Moderate fit"
else:
fit_assessment = "Not a fit"
# Prepare output messages for tab display
summary_message = (
f"### Summary of Analysis\n"
f"- **Skills Similarity**: {skills_similarity:.2f}%\n"
f"- **Qualifications Similarity**: {qualifications_similarity:.2f}%\n"
f"- **Experience Similarity**: {experience_similarity * 100:.2f}%\n"
f"- **Candidate Experience**: {total_experience} years\n"
f"- **Fit Assessment**: {fit_assessment}\n"
f"- **Sentiment Analysis**: {sentiment_analysis_result}\n"
)
skills_message = (
f"### Skills Overview\n"
f"- **Resume Skills:**\n" + "\n".join(f" - {skill}" for skill in resume_skills) + "\n"
f"- **Job Description Skills:**\n" + "\n".join(f" - {skill}" for skill in job_description_skills) + "\n"
)
qualifications_message = (
f"### Qualifications Overview\n"
f"- **Resume Qualifications:** " + ", ".join(resume_qualifications) + "\n" +
f"- **Job Description Qualifications:** " + ", ".join(job_description_qualifications) + "\n"
)
experience_message = (
f"### Experience Overview\n"
f"- **Total Experience:** {total_experience} years\n"
f"- **Required Experience:** {required_experience} years\n"
)
# Generate communication based on analysis
communication = communication_generator(resume_skills, job_description_skills, skills_similarity, qualifications_similarity, experience_similarity, total_experience)
return summary_message, skills_message, qualifications_message, experience_message, communication
def run_gradio_interface():
with gr.Blocks() as demo:
gr.Markdown("## Resume and Job Description Analyzer")
resume_file = gr.File(label="Upload Resume")
job_description_file = gr.File(label="Upload Job Description")
# Define outputs for each tab
summary_output = gr.Textbox(label="Summary of Analysis", interactive=False, lines=10)
skills_output = gr.Textbox(label="Skills Overview", interactive=False, lines=10)
qualifications_output = gr.Textbox(label="Qualifications Overview", interactive=False, lines=10)
experience_output = gr.Textbox(label="Experience Overview", interactive=False, lines=10)
communication_output = gr.Textbox(label="Communication", interactive=False, lines=10)
# Create tabs for output sections
with gr.Tab("Analysis Summary"):
summary_output.render()
with gr.Tab("Skills Overview"):
skills_output.render()
with gr.Tab("Qualifications Overview"):
qualifications_output.render()
with gr.Tab("Experience Overview"):
experience_output.render()
with gr.Tab("Communication"):
communication_output.render()
def analyze(resume, job_desc):
if resume and job_desc:
summary, skills, qualifications, experience, communication = analyze_resume(resume, job_desc)
return summary, skills, qualifications, experience, communication
return "Please upload both files."
analyze_button = gr.Button("Analyze")
analyze_button.click(analyze, inputs=[resume_file, job_description_file], outputs=[summary_output, skills_output, qualifications_output, experience_output, communication_output])
demo.launch()
if __name__ == "__main__":
run_gradio_interface()
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