import appStore.target as target_extraction import appStore.netzero as netzero import appStore.sector as sector import appStore.adapmit as adapmit import appStore.ghg as ghg import appStore.policyaction as policyaction import appStore.conditional as conditional import appStore.indicator as indicator import appStore.reader as reader import appStore.doc_processing as processing from utils.uploadAndExample import add_upload from PIL import Image import streamlit as st st.set_page_config(page_title = 'Climate Policy Intelligence', initial_sidebar_state='expanded', layout="wide") with st.sidebar: # upload and example doc choice = st.sidebar.radio(label = 'Select the Document', help = 'You can upload the document \ or else you can try a example document', options = ('Upload Document', 'Try Example'), horizontal = True) add_upload(choice) with st.container(): st.markdown("

Climate Policy Understanding App

", unsafe_allow_html=True) st.write(' ') with st.expander("ℹ️ - About this app", expanded=False): st.write( """ Climate Policy Understanding App is an open-source\ digital tool which aims to assist policy analysts and \ other users in extracting and filtering relevant \ information from public documents. """) st.write('**Definitions**') st.caption(""" - **Target**: Targets are an intention to achieve a specific result, \ for example, to reduce GHG emissions to a specific level \ (a GHG target) or increase energy efficiency or renewable \ energy to a specific level (a non-GHG target), typically by \ a certain date. - **Economy-wide Target**: Certain Target are applicable \ not at specific Sector level but are applicable at economic \ wide scale. - **Netzero**: Identifies if its Netzero Target or not. - 'NET-ZERO': target_labels = ['T_Netzero','T_Netzero_C'] - 'Non Netzero Target': target_labels_neg = ['T_Economy_C', 'T_Economy_Unc','T_Adaptation_C','T_Adaptation_Unc','T_Transport_C', 'T_Transport_O_C','T_Transport_O_Unc','T_Transport_Unc'] - 'Others': Other Targets beside covered above - **GHG Target**: GHG targets refer to contributions framed as targeted \ outcomes in GHG terms. - 'GHG': target_labels_ghg_yes = ['T_Transport_Unc','T_Transport_C'] - 'NON GHG TRANSPORT TARGET': target_labels_ghg_no = ['T_Adaptation_Unc',\ 'T_Adaptation_C', 'T_Transport_O_Unc', 'T_Transport_O_C'] - 'OTHERS': Other Targets beside covered above. - **Conditionality**: An “unconditional contribution” is what countries \ could implement without any conditions and based on their own \ resources and capabilities. A “conditional contribution” is one \ that countries would undertake if international means of support \ are provided, or other conditions are met. - **Action**: Actions are an intention to implement specific means of \ achieving GHG reductions, usually in forms of concrete projects. - **Policies and Plans**: Policies are domestic planning documents \ such as policies, regulations or guidlines, and Plans are broader \ than specific policies or actions, such as a general intention \ to ‘improve efficiency’, ‘develop renewable energy’, etc. \ The terms come from the World Bank's NDC platform and WRI's publication. """) c1, c2, c3 = st.columns([12,1,10]) with c1: image = Image.open('docStore/img/flow.jpg') st.image(image) with c3: st.write(""" What Happens in background? - Step 1: Once the document is provided to app, it undergoes *Pre-processing*.\ In this step the document is broken into smaller paragraphs \ (based on word/sentence count). - Step 2: The paragraphs are fed to **Target Classifier** which detects if the paragraph contains any *Target* related information or not. - Step 3: The paragraphs which are detected containing some target \ related information are then fed to multiple classifier to enrich the Information Extraction. The Step 2 and 3 are repated then similarly for Action and Policies & Plans. """) st.write("") apps = [processing.app, target_extraction.app, netzero.app, ghg.app, policyaction.app, conditional.app, sector.app, adapmit.app,indicator.app] multiplier_val =1/len(apps) if st.button("Analyze Document"): prg = st.progress(0.0) for i,func in enumerate(apps): func() prg.progress((i+1)*multiplier_val) if 'key1' in st.session_state: with st.sidebar: topic = st.radio( "Which category you want to explore?", ('Target', 'Action', 'Policies/Plans')) if topic == 'Target': target_extraction.target_display() elif topic == 'Action': policyaction.action_display() else: policyaction.policy_display() # st.write(st.session_state.key1)