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import streamlit as st |
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import pandas as pd |
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import rdkit |
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import streamlit_ketcher |
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from streamlit_ketcher import st_ketcher |
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import run |
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import screen |
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st.set_page_config(page_title="BiBERTa", page_icon="🔋", layout="wide") |
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st.title("🔋BiBERTa") |
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st.subheader('',divider='rainbow') |
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url1= r"https://docs.google.com/spreadsheets/d/1AKkZS04VF3osFT36aNHIb4iUbV8D1uNfsldcpHXogj0/gviz/tq?tqx=out:csv&sheet=dap" |
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df1 = pd.read_csv(url1, dtype=str, encoding='utf-8') |
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col1, col2 = st.columns(2) |
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st.subheader("🔍**Search papers or molecules**") |
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with col1: |
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text_search = st.text_input(label="_", value="",label_visibility="hidden" ) |
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m1 = df1["Donor_Name"].str.contains(text_search) |
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m2 = df1["reference"].str.contains(text_search) |
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m3 = df1["Acceptor_Name"].str.contains(text_search) |
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df_search = df1[m1 | m2|m3] |
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with col2: |
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st.subheader(" ") |
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st.link_button(":black[📝**DATABASE**]", r"https://docs.google.com/spreadsheets/d/1AKkZS04VF3osFT36aNHIb4iUbV8D1uNfsldcpHXogj0") |
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st.caption(':black[👆If you want to update the origin database, click the button.]') |
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if text_search: |
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st.write(df_search) |
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st.download_button( "⬇️Download edited files as .csv", df_search.to_csv(), "df_search.csv", use_container_width=True) |
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edited_df = st.data_editor(df1, num_rows="dynamic") |
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st.download_button( |
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"⬇️ Download edited files as .csv", edited_df.to_csv(), "edited_df.csv", use_container_width=True |
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) |
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col3, col4 = st.columns(2) |
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with col3: |
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option = st.selectbox( ' 👇Select the type of active layer materials to be edited...', |
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("🎈Donor", "🎈Acceptor"), placeholder="👇Select the type of active layer materials...", ) |
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with col4: |
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st.subheader(" ") |
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st.markdown('👇An example of PM6 : Y6.') |
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if st.button("🙋♂️**Example**"): |
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option ="example" |
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molecule = 'O=C(C(C=C(F)C(F)=C1)=C1C/2=C(C#N)/C#N)C2=C/C3=C(CCCCCCCCCCC)C(S4)=C(S3)C5=C4C6=C(N5CC(CC)CCCC)C7=C(C(SC8=C9SC(/C=C%10C(C(C=C(F)C(F)=C%11)=C%11C\%10=C(C#N)C#N)=O)=C8CCCCCCCCCCC)=C9N7CC(CC)CCCC)C%12=NSN=C6%12' |
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do = 'CCCCC(CC)CC1=C(F)C=C(C2=C3C=C(C4=CC=C(C5=C6C(=O)C7=C(CC(CC)CCCC)SC(CC(CC)CCCC)=C7C(=O)C6=C(C6=CC=C(C)S6)S5)S4)SC3=C(C3=CC(F)=C(CC(CC)CCCC)S3)C3=C2SC(C)=C3)S1' |
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if option =="🎈Acceptor": |
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st.subheader("👨🔬**Input the SMILES of Acceptor Molecule**") |
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molecule = st.text_input("👨🔬**Input the SMILES of Acceptor Molecule**", label_visibility="hidden" ) |
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acceptor= st_ketcher(molecule ) |
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st.subheader(f"🏆**New SMILES of edited acceptor molecules**: {acceptor}") |
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st.subheader(":black[**🧡Input the SMILES of Donor Molecule**]") |
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donor= st.text_input(":black[**🧡Input the SMILES of Donor Molecule**]", label_visibility="hidden") |
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if option =="🎈Donor": |
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st.subheader("👨🔬**Input the SMILES of Donor Molecule**" ) |
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do= st.text_input("👨🔬**Input the SMILES of Donor Molecule**" , label_visibility="hidden") |
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donor = st_ketcher(do) |
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st.subheader(f"🏆**New SMILES of edited donor molecules**: {donor}") |
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st.subheader(":black[**🧡Input the SMILES of Acceptor Molecule**]") |
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acceptor = st.text_input(":black[**🧡Input the SMILES of Acceptor Molecule**]", label_visibility="hidden") |
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if option =="example": |
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st.subheader("👨🔬**Input the SMILES of Acceptor**") |
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st.markdown(molecule) |
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acceptor= st_ketcher(molecule ) |
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st.subheader(f"🏆**New SMILES of edited acceptor molecules**: {acceptor}") |
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st.subheader(":black[**🧡Input the SMILES of Donor**]") |
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st.markdown(do) |
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donor= do |
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try: |
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pce = run.smiles_aas_test( str(acceptor ), str(donor) ) |
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st.subheader(f"⚡**PCE**: ``{pce}``") |
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except: |
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st.subheader(f"⚡**PCE**: None ") |
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st.subheader(":black[**🧡 High-throughput screening for high-performance D/A pairs**]") |
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col5, col6 = st.columns(2) |
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with col5: |
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uploaded_files = st.file_uploader("Choose a CSV file") |
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st.write( "🎈upload a csv file containing ['donor' ] and ['acceptor']") |
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with col6: |
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url2= r"https://docs.google.com/spreadsheets/d/1jPfHM21IjksNn_80fdakS1ofDNIagwMXBWAjoZBr-YY/gviz/tq?tqx=out:csv" |
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df2 = pd.read_csv(url2) |
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st.markdown('👇The example of input files for high-throughput screening.') |
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st.download_button( |
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"⬇️ Download example files", df2.to_csv(), "example.csv" ) |
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if st.button("📑PREDICT"): |
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if uploaded_files is not None: |
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text = st.markdown(":red[Predictions are being made... Please wait...]") |
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st.progress(100, text=None) |
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x = screen.smiles_aas_test(uploaded_files ) |
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fx = pd.DataFrame(list(x)) |
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st.markdown(":red[Prediction finished! ]") |
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st.download_button( "⬇️Download the predicted files as .csv", fx.to_csv(), "predict results.csv", use_container_width=True) |
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else: |
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st.markdown(":red[Please upload the file first!]") |