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streamlit_second.py
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streamlit_second.py
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import json
from typing import List
import networkx as nx
import nltk
import pandas as pd
import plotly.express as px
import plotly.graph_objects as go
import streamlit as st
from annotated_text import annotated_text, parameters
from streamlit_extras import add_vertical_space as avs
from streamlit_extras.badges import badge
from scripts.utils import get_filenames_from_dir
# Set page configuration
st.set_page_config(
page_title="Resume Matcher",
page_icon="Assets/img/favicon.ico",
initial_sidebar_state="auto",
)
nltk.download("punkt")
parameters.SHOW_LABEL_SEPARATOR = False
parameters.BORDER_RADIUS = 3
parameters.PADDING = "0.5 0.25rem"
def create_star_graph(nodes_and_weights, title):
# Create an empty graph
G = nx.Graph()
# Add the central node
central_node = "resume"
G.add_node(central_node)
# Add nodes and edges with weights to the graph
for node, weight in nodes_and_weights:
G.add_node(node)
G.add_edge(central_node, node, weight=weight * 100)
# Get position layout for nodes
pos = nx.spring_layout(G)
# Create edge trace
edge_x = []
edge_y = []
for edge in G.edges():
x0, y0 = pos[edge[0]]
x1, y1 = pos[edge[1]]
edge_x.extend([x0, x1, None])
edge_y.extend([y0, y1, None])
edge_trace = go.Scatter(
x=edge_x,
y=edge_y,
line=dict(width=0.5, color="#888"),
hoverinfo="none",
mode="lines",
)
# Create node trace
node_x = []
node_y = []
for node in G.nodes():
x, y = pos[node]
node_x.append(x)
node_y.append(y)
node_trace = go.Scatter(
x=node_x,
y=node_y,
mode="markers",
hoverinfo="text",
marker=dict(
showscale=True,
colorscale="Rainbow",
reversescale=True,
color=[],
size=10,
colorbar=dict(
thickness=15,
title="Node Connections",
xanchor="left",
titleside="right",
),
line_width=2,
),
)
# Color node points by number of connections
node_adjacencies = []
node_text = []
for node in G.nodes():
adjacencies = list(G.adj[node]) # changes here
node_adjacencies.append(len(adjacencies))
node_text.append(f"{node}<br># of connections: {len(adjacencies)}")
node_trace.marker.color = node_adjacencies
node_trace.text = node_text
# Create the figure
fig = go.Figure(
data=[edge_trace, node_trace],
layout=go.Layout(
title=title,
titlefont_size=16,
showlegend=False,
hovermode="closest",
margin=dict(b=20, l=5, r=5, t=40),
xaxis=dict(showgrid=False, zeroline=False, showticklabels=False),
yaxis=dict(showgrid=False, zeroline=False, showticklabels=False),
),
)
# Show the figure
st.plotly_chart(fig)
def create_annotated_text(
input_string: str, word_list: List[str], annotation: str, color_code: str
):
# Tokenize the input string
tokens = nltk.word_tokenize(input_string)
# Convert the list to a set for quick lookups
word_set = set(word_list)
# Initialize an empty list to hold the annotated text
annotated_text = []
for token in tokens:
# Check if the token is in the set
if token in word_set:
# If it is, append a tuple with the token, annotation, and color code
annotated_text.append((token, annotation, color_code))
else:
# If it's not, just append the token as a string
annotated_text.append(token)
return annotated_text
def read_json(filename):
with open(filename) as f:
data = json.load(f)
return data
def tokenize_string(input_string):
tokens = nltk.word_tokenize(input_string)
return tokens
# Display the main title and subheaders
st.title(":blue[Resume Matcher]")
with st.sidebar:
st.image("Assets/img/header_image.png")
st.subheader(
"Free and Open Source ATS to help your resume pass the screening stage."
)
st.markdown(
"Check the website [www.resumematcher.fyi](https://www.resumematcher.fyi/)"
)
st.markdown(
"Give Resume Matcher a ⭐ on [GitHub](https://github.com/srbhr/resume-matcher)"
)
badge(type="github", name="srbhr/Resume-Matcher")
st.markdown("For updates follow me on Twitter.")
badge(type="twitter", name="_srbhr_")
st.markdown(
"If you like the project and would like to further help in development please consider 👇"
)
badge(type="buymeacoffee", name="srbhr")
st.divider()
avs.add_vertical_space(1)
resume_names = get_filenames_from_dir("Data/Processed/Resumes")
output = st.selectbox(
f"There are {len(resume_names)} resumes present. Please select one from the menu below:",
resume_names,
)
avs.add_vertical_space(5)
selected_file = read_json("Data/Processed/Resumes/" + output)
avs.add_vertical_space(2)
st.markdown("#### Parsed Resume Data")
st.caption(
"This text is parsed from your resume. This is how it'll look like after getting parsed by an ATS."
)
st.caption("Utilize this to understand how to make your resume ATS friendly.")
avs.add_vertical_space(3)
# st.json(selected_file)
st.write(selected_file["clean_data"])
avs.add_vertical_space(3)
st.write("Now let's take a look at the extracted keywords from the resume.")
annotated_text(
create_annotated_text(
selected_file["clean_data"],
selected_file["extracted_keywords"],
"KW",
"#0B666A",
)
)
avs.add_vertical_space(5)
st.write("Now let's take a look at the extracted entities from the resume.")
# Call the function with your data
create_star_graph(selected_file["keyterms"], "Entities from Resume")
df2 = pd.DataFrame(selected_file["keyterms"], columns=["keyword", "value"])
# Create the dictionary
keyword_dict = {}
for keyword, value in selected_file["keyterms"]:
keyword_dict[keyword] = value * 100
fig = go.Figure(
data=[
go.Table(
header=dict(
values=["Keyword", "Value"], font=dict(size=12), fill_color="#070A52"
),
cells=dict(
values=[list(keyword_dict.keys()), list(keyword_dict.values())],
line_color="darkslategray",
fill_color="#6DA9E4",
),
)
]
)
st.plotly_chart(fig)
st.divider()
fig = px.treemap(
df2,
path=["keyword"],
values="value",
color_continuous_scale="Rainbow",
title="Key Terms/Topics Extracted from your Resume",
)
st.write(fig)
avs.add_vertical_space(5)
job_descriptions = get_filenames_from_dir("Data/Processed/JobDescription")
output = st.selectbox(
f"There are {len(job_descriptions)} job descriptions present. Please select one from the menu below:",
job_descriptions,
)
avs.add_vertical_space(5)
selected_jd = read_json("Data/Processed/JobDescription/" + output)
avs.add_vertical_space(2)
st.markdown("#### Job Description")
st.caption(
"Currently in the pipeline I'm parsing this from PDF but it'll be from txt or copy paste."
)
avs.add_vertical_space(3)
# st.json(selected_file)
st.write(selected_jd["clean_data"])
st.markdown("#### Common Words between Job Description and Resumes Highlighted.")
annotated_text(
create_annotated_text(
selected_file["clean_data"], selected_jd["extracted_keywords"], "JD", "#F24C3D"
)
)
st.write("Now let's take a look at the extracted entities from the job description.")
# Call the function with your data
create_star_graph(selected_jd["keyterms"], "Entities from Job Description")
df2 = pd.DataFrame(selected_jd["keyterms"], columns=["keyword", "value"])
# Create the dictionary
keyword_dict = {}
for keyword, value in selected_jd["keyterms"]:
keyword_dict[keyword] = value * 100
fig = go.Figure(
data=[
go.Table(
header=dict(
values=["Keyword", "Value"], font=dict(size=12), fill_color="#070A52"
),
cells=dict(
values=[list(keyword_dict.keys()), list(keyword_dict.values())],
line_color="darkslategray",
fill_color="#6DA9E4",
),
)
]
)
st.plotly_chart(fig)
st.divider()
fig = px.treemap(
df2,
path=["keyword"],
values="value",
color_continuous_scale="Rainbow",
title="Key Terms/Topics Extracted from the selected Job Description",
)
st.write(fig)
avs.add_vertical_space(5)
st.divider()
st.markdown("## Vector Similarity Scores")
st.caption("Powered by Qdrant Vector Search")
st.info("These are pre-computed queries", icon="ℹ")
st.warning(
"Running Qdrant or Sentence Transformers without having capacity is not recommended",
icon="⚠",
)
# Your data
data = [
{
"text": "{'resume': 'Alfred Pennyworth",
"query": "Job Description Product Manager",
"score": 0.62658,
},
{
"text": "{'resume': 'Barry Allen",
"query": "Job Description Product Manager",
"score": 0.43777737,
},
{
"text": "{'resume': 'Bruce Wayne ",
"query": "Job Description Product Manager",
"score": 0.39835533,
},
{
"text": "{'resume': 'JOHN DOE",
"query": "Job Description Product Manager",
"score": 0.3915512,
},
{
"text": "{'resume': 'Harvey Dent",
"query": "Job Description Product Manager",
"score": 0.3519544,
},
{
"text": "{'resume': 'Barry Allen",
"query": "Job Description Senior Full Stack Engineer",
"score": 0.6541866,
},
{
"text": "{'resume': 'Alfred Pennyworth",
"query": "Job Description Senior Full Stack Engineer",
"score": 0.59806436,
},
{
"text": "{'resume': 'JOHN DOE",
"query": "Job Description Senior Full Stack Engineer",
"score": 0.5951386,
},
{
"text": "{'resume': 'Bruce Wayne ",
"query": "Job Description Senior Full Stack Engineer",
"score": 0.57700855,
},
{
"text": "{'resume': 'Harvey Dent",
"query": "Job Description Senior Full Stack Engineer",
"score": 0.38489106,
},
{
"text": "{'resume': 'Barry Allen",
"query": "Job Description Front End Engineer",
"score": 0.76813436,
},
{
"text": "{'resume': 'Bruce Wayne'",
"query": "Job Description Front End Engineer",
"score": 0.60440844,
},
{
"text": "{'resume': 'JOHN DOE",
"query": "Job Description Front End Engineer",
"score": 0.56080043,
},
{
"text": "{'resume': 'Alfred Pennyworth",
"query": "Job Description Front End Engineer",
"score": 0.5395049,
},
{
"text": "{'resume': 'Harvey Dent",
"query": "Job Description Front End Engineer",
"score": 0.3859515,
},
{
"text": "{'resume': 'JOHN DOE",
"query": "Job Description Java Developer",
"score": 0.5449441,
},
{
"text": "{'resume': 'Alfred Pennyworth",
"query": "Job Description Java Developer",
"score": 0.53476423,
},
{
"text": "{'resume': 'Barry Allen",
"query": "Job Description Java Developer",
"score": 0.5313871,
},
{
"text": "{'resume': 'Bruce Wayne ",
"query": "Job Description Java Developer",
"score": 0.44446343,
},
{
"text": "{'resume': 'Harvey Dent",
"query": "Job Description Java Developer",
"score": 0.3616274,
},
]
# Create a DataFrame
df = pd.DataFrame(data)
# Create different DataFrames based on the query and sort by score
df1 = df[df["query"] == "Job Description Product Manager"].sort_values(
by="score", ascending=False
)
df2 = df[df["query"] == "Job Description Senior Full Stack Engineer"].sort_values(
by="score", ascending=False
)
df3 = df[df["query"] == "Job Description Front End Engineer"].sort_values(
by="score", ascending=False
)
df4 = df[df["query"] == "Job Description Java Developer"].sort_values(
by="score", ascending=False
)
def plot_df(df, title):
fig = px.bar(df, x="text", y=df["score"] * 100, title=title)
st.plotly_chart(fig)
st.markdown("### Bar plots of scores based on similarity to Job Description.")
st.subheader(":blue[Legend]")
st.text("Alfred Pennyworth : Product Manager")
st.text("Barry Allen : Front End Developer")
st.text("Harvey Dent : Machine Learning Engineer")
st.text("Bruce Wayne : Fullstack Developer (MERN)")
st.text("John Doe : Fullstack Developer (Java)")
plot_df(df1, "Job Description Product Manager 10+ Years of Exper")
plot_df(df2, "Job Description Senior Full Stack Engineer 5+ Year")
plot_df(df3, "Job Description Front End Engineer 2 Years of Expe")
plot_df(df4, "Job Description Java Developer 3 Years of Experien")
avs.add_vertical_space(3)
# Go back to top
st.markdown("[:arrow_up: Back to Top](#resume-matcher)")