climate_vulnerability_analysis / appStore /vulnerability_analysis.py
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adding appstore and utils main scripts
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# set path
import glob, os, sys;
sys.path.append('../utils')
#import needed libraries
import seaborn as sns
import matplotlib.pyplot as plt
import numpy as np
import pandas as pd
import streamlit as st
from utils.vulnerability_classifier import load_vulnerabilityClassifier, vulnerability_classification
import logging
logger = logging.getLogger(__name__)
from utils.config import get_classifier_params
from utils.preprocessing import paraLengthCheck
from io import BytesIO
import xlsxwriter
import plotly.express as px
import plotly.graph_objects as go
from utils.vulnerability_classifier import label_dict
# Declare all the necessary variables
classifier_identifier = 'vulnerability'
params = get_classifier_params(classifier_identifier)
@st.cache_data
def to_excel(df,sectorlist):
len_df = len(df)
output = BytesIO()
writer = pd.ExcelWriter(output, engine='xlsxwriter')
df.to_excel(writer, index=False, sheet_name='Sheet1')
workbook = writer.book
worksheet = writer.sheets['Sheet1']
worksheet.data_validation('S2:S{}'.format(len_df),
{'validate': 'list',
'source': ['No', 'Yes', 'Discard']})
worksheet.data_validation('X2:X{}'.format(len_df),
{'validate': 'list',
'source': sectorlist + ['Blank']})
worksheet.data_validation('T2:T{}'.format(len_df),
{'validate': 'list',
'source': sectorlist + ['Blank']})
worksheet.data_validation('U2:U{}'.format(len_df),
{'validate': 'list',
'source': sectorlist + ['Blank']})
worksheet.data_validation('V2:V{}'.format(len_df),
{'validate': 'list',
'source': sectorlist + ['Blank']})
worksheet.data_validation('W2:U{}'.format(len_df),
{'validate': 'list',
'source': sectorlist + ['Blank']})
writer.save()
processed_data = output.getvalue()
return processed_data
def app():
### Main app code ###
with st.container():
# If a document has been processed
if 'key0' in st.session_state:
# Run vulnerability classifier
df = st.session_state.key0
classifier = load_vulnerabilityClassifier(classifier_name=params['model_name'])
st.session_state['{}_classifier'.format(classifier_identifier)] = classifier
# Get the predictions
df = vulnerability_classification(haystack_doc=df,
threshold= params['threshold'])
# Store df in session state with key1
st.session_state.key1 = df
def vulnerability_display():
# Get the vulnerability df
df = st.session_state['key1']
# Filter the dataframe to only show the paragraphs with references
df_filtered = df[df['Vulnerability Label'].apply(lambda x: len(x) > 0 and 'Other' not in x)]
# Rename column
df_filtered.rename(columns={'Vulnerability Label': 'Group(s)'}, inplace=True)
# Header
st.subheader("Explore references to vulnerable groups:")
# Text
num_paragraphs = len(df['Vulnerability Label'])
num_references = len(df_filtered['Group(s)'])
st.markdown(f"""<div style="text-align: justify;">The document contains a
total of <span style="color: red;">{num_paragraphs}</span> paragraphs.
We identified <span style="color: red;">{num_references}</span>
references to groups in vulnerable situations.</div>
<br>
<div style="text-align: justify;">We are searching for references related
to the following groups: (1) Agricultural communities, (2) Children, (3)
Ethnic, racial and other minorities, (4) Fishery communities, (5) Informal sector
workers, (6) Members of indigenous and local communities, (7) Migrants and
displaced persons, (8) Older persons, (9) Persons living in poverty, (10)
Persons living with disabilities, (11) Persons with pre-existing health conditions,
(12) Residents of drought-prone regions, (13) Rural populations, (14) Sexual
minorities (LGBTQI+), (15) Urban populations, (16) Women and other genders.</div>
<br>
<div style="text-align: justify;">The chart below shows the groups for which
references were found and the number of references identified.
For a more detailed view in the text, see the paragraphs and
their respective labels in the table underneath.</div>""", unsafe_allow_html=True)
### Bar chart
# # Create a df that stores all the labels
df_labels = pd.DataFrame(list(label_dict.items()), columns=['Label ID', 'Label'])
# Count how often each label appears in the "Group identified" column
group_counts = {}
# Iterate through each sublist
for index, row in df_filtered.iterrows():
# Iterate through each group in the sublist
for sublist in row['Group(s)']:
# Update the count in the dictionary
group_counts[sublist] = group_counts.get(sublist, 0) + 1
# Create a new dataframe from group_counts
df_label_count = pd.DataFrame(list(group_counts.items()), columns=['Label', 'Count'])
# Merge the label counts with the df_label DataFrame
df_label_count = df_labels.merge(df_label_count, on='Label', how='left')
# Exclude the "Other" group and all groups that do not have a label
df_bar_chart = df_label_count[df_label_count['Label'] != 'Other']
df_bar_chart = df_bar_chart.dropna(subset=['Count'])
# Bar chart
fig = go.Figure()
fig.add_trace(go.Bar(
y=df_bar_chart.Label,
x=df_bar_chart.Count,
orientation='h',
marker=dict(color='purple'),
))
# Customize layout
fig.update_layout(
title='Number of references identified',
xaxis_title='Number of references',
yaxis_title='Group',
)
# Show the plot
#fig.show()
#Show plot
st.plotly_chart(fig, use_container_width=True)