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| # Import necessary libraries | |
| import streamlit as st | |
| import nltk | |
| from nltk.tokenize import word_tokenize | |
| import PyPDF2 | |
| import pandas as pd | |
| import re | |
| import matplotlib.pyplot as plt | |
| import seaborn as sns | |
| from transformers import AutoTokenizer, AutoModel | |
| import torch | |
| from sklearn.metrics.pairwise import cosine_similarity | |
| # Download necessary NLTK data | |
| nltk.download('punkt') | |
| # Define regular expressions for pattern matching | |
| float_regex = re.compile(r'^\d{1,2}(\.\d{1,2})?$') | |
| email_pattern = r'\b[A-Za-z0-9._%+-]+@[A-Za-z0-9.-]+\.[A-Z|a-z]{2,}\b' | |
| float_digit_regex = re.compile(r'^\d{10}$') | |
| email_with_phone_regex = re.compile(r'(\d{10}).|.(\d{10})') | |
| # Load Phi-3 model and tokenizer | |
| def load_model(): | |
| model_name = "microsoft/Phi-4-mini-instruct" | |
| tokenizer = AutoTokenizer.from_pretrained(model_name, trust_remote_code=True) | |
| model = AutoModel.from_pretrained(model_name, trust_remote_code=True) | |
| return tokenizer, model | |
| tokenizer, model = load_model() | |
| # Function to extract text from PDF | |
| def extract_text_from_pdf(pdf_file): | |
| pdf_reader = PyPDF2.PdfReader(pdf_file) | |
| text = "" | |
| for page_num in range(len(pdf_reader.pages)): | |
| text += pdf_reader.pages[page_num].extract_text() | |
| return text | |
| # Function to generate embeddings using Phi-3 | |
| def get_embeddings(text): | |
| inputs = tokenizer(text, return_tensors="pt", padding=True, truncation=True, max_length=4096) | |
| with torch.no_grad(): | |
| outputs = model(**inputs) | |
| embeddings = outputs.last_hidden_state.mean(dim=1).squeeze() | |
| return embeddings.numpy() | |
| # Function to calculate similarity between texts | |
| def calculate_similarity(text1, text2): | |
| emb1 = get_embeddings(text1) | |
| emb2 = get_embeddings(text2) | |
| return cosine_similarity([emb1], [emb2])[0][0] | |
| # Function to extract entities using Phi-3 | |
| def extract_entities(text): | |
| prompt = f"""Extract entities from this text in JSON format with keys: skills, education, experience. Text: {text[:3000]}""" | |
| inputs = tokenizer(prompt, return_tensors="pt", return_attention_mask=False) | |
| outputs = model.generate(**inputs, max_length=500) | |
| return tokenizer.decode(outputs[0], skip_special_tokens=True) | |
| # Streamlit Frontend | |
| st.markdown("# Resume Matching Tool ππ") | |
| st.markdown("An application to match resumes with job descriptions using Phi-3") | |
| # File Upload | |
| resumes_files = st.sidebar.file_uploader("Upload Resumes PDF", type=["pdf"], accept_multiple_files=True) | |
| job_descriptions_file = st.sidebar.file_uploader("Upload Job Description PDF", type=["pdf"]) | |
| if resumes_files and job_descriptions_file: | |
| # Process documents | |
| job_description_text = extract_text_from_pdf(job_descriptions_file) | |
| resumes_texts = {file.name: extract_text_from_pdf(file) for file in resumes_files} | |
| # Generate embeddings | |
| job_embedding = get_embeddings(job_description_text) | |
| resume_embeddings = {name: get_embeddings(text) for name, text in resumes_texts.items()} | |
| # Calculate similarities | |
| results = [] | |
| for name, emb in resume_embeddings.items(): | |
| similarity = cosine_similarity([emb], [job_embedding])[0][0] * 100 | |
| results.append({ | |
| "Resume": name, | |
| "Similarity Score": f"{similarity:.2f}%", | |
| "Details": "View Details" | |
| }) | |
| # Show results | |
| st.dataframe(pd.DataFrame(results)) | |
| # Detailed analysis | |
| st.subheader("Detailed Analysis") | |
| selected_resume = st.selectbox("Select Resume", list(resumes_texts.keys())) | |
| if selected_resume: | |
| resume_text = resumes_texts[selected_resume] | |
| # Entity extraction using Phi-3 | |
| st.write("### Extracted Entities") | |
| entities = extract_entities(resume_text) | |
| st.code(entities, language="json") | |
| # Skills matching | |
| st.write("### Skills Matching") | |
| job_entities = extract_entities(job_description_text) | |
| # Simple text-based matching | |
| resume_skills = re.findall(r'"skills": \[(.*?)\]', entities, re.DOTALL) | |
| job_skills = re.findall(r'"skills": \[(.*?)\]', job_entities, re.DOTALL) | |
| if resume_skills and job_skills: | |
| resume_skills_list = [s.strip().lower() for s in resume_skills[0].split(',')] | |
| job_skills_list = [s.strip().lower() for s in job_skills[0].split(',')] | |
| matched_skills = list(set(resume_skills_list) & set(job_skills_list)) | |
| st.write(f"**Matched Skills ({len(matched_skills)}):** {', '.join(matched_skills)}") | |
| # Visualization | |
| st.write("### Similarity Heatmap") | |
| skills_keywords = st.text_input("Enter skills for heatmap (comma-separated):").split(',') | |
| if skills_keywords: | |
| heatmap_data = [] | |
| for skill in skills_keywords: | |
| skill_emb = get_embeddings(skill.strip()) | |
| row = [] | |
| for name, emb in resume_embeddings.items(): | |
| row.append(cosine_similarity([emb], [skill_emb])[0][0]) | |
| heatmap_data.append(row) | |
| plt.figure(figsize=(12, 8)) | |
| sns.heatmap(pd.DataFrame(heatmap_data, | |
| columns=list(resumes_texts.keys()), | |
| index=skills_keywords), | |
| annot=True, cmap="YlGnBu") | |
| st.pyplot(plt) | |
| else: | |
| st.warning("Please upload both resumes and job description to proceed.") |