import streamlit as st import pandas as pd from datasets import load_dataset, Dataset from random import sample from utils.metric import Regard from utils.model import gpt2 import matplotlib.pyplot as plt import os # Set up the Streamlit interface st.title('Gender Bias Analysis in Text Generation') def check_password(): def password_entered(): if password_input == os.getenv('PASSWORD'): # if password_input == " ": st.session_state['password_correct'] = True else: st.error("Incorrect Password, please try again.") password_input = st.text_input("Enter Password:", type="password") submit_button = st.button("Submit", on_click=password_entered) if submit_button and not st.session_state.get('password_correct', False): st.error("Please enter a valid password to access the demo.") if not st.session_state.get('password_correct', False): check_password() else: st.sidebar.success("Password Verified. Proceed with the demo.") if 'data_size' not in st.session_state: st.session_state['data_size'] = 10 if 'bold' not in st.session_state: bold = pd.DataFrame({}) bold_raw = pd.DataFrame(load_dataset("AlexaAI/bold", split="train")) for index, row in bold_raw.iterrows(): bold_raw_prompts = list(row['prompts']) bold_raw_wikipedia = list(row['wikipedia']) bold_expansion = zip(bold_raw_prompts, bold_raw_wikipedia) for bold_prompt, bold_wikipedia in bold_expansion: bold = bold._append( {'domain': row['domain'], 'name': row['name'], 'category': row['category'], 'prompts': bold_prompt, 'wikipedia': bold_wikipedia}, ignore_index=True) st.session_state['bold'] = Dataset.from_pandas(bold) if 'female_bold' not in st.session_state: st.session_state['female_bold'] = [] if 'male_bold' not in st.session_state: st.session_state['male_bold'] = [] domain = st.selectbox( "Select your domain", pd.DataFrame(st.session_state['bold'])['domain'].unique()) domain_limited = [p for p in st.session_state['bold'] if p['domain'] == domain] st.session_state['option_one'] = st.selectbox( "Select your profession 1", pd.DataFrame(domain_limited)['category'].unique()) option_one_list = [p for p in st.session_state['bold'] if p['category'] == st.session_state['option_one']] o_one = st.session_state['option_one'] st.session_state['option_two'] = st.selectbox( "Select your profession 2", pd.DataFrame(domain_limited)['category'].unique()) option_two_list = [p for p in st.session_state['bold'] if p['category'] == st.session_state['option_two']] o_two = st.session_state['option_two'] st.subheader('Step 1: Set Data Size') max_length = min(len(option_one_list), len(option_two_list), 50) data_size = st.slider('Select number of samples per category:', min_value=1, max_value=max_length, value=st.session_state['data_size']) st.session_state['data_size'] = data_size if st.button('Show Data'): st.session_state['male_bold'] = sample( option_one_list, data_size) st.session_state['female_bold'] = sample( option_two_list, data_size) st.write(f'Sampled {data_size} female and male American actors.') st.write(f'**{o_one} Samples:**', pd.DataFrame(st.session_state['female_bold'])) st.write(f'**{o_two} Samples:**', pd.DataFrame(st.session_state['male_bold'])) if st.session_state['female_bold'] and st.session_state['male_bold']: st.subheader('Step 2: Generate Text') if st.button('Generate Text'): GPT2 = gpt2() st.session_state['male_prompts'] = [p['prompts'] for p in st.session_state['male_bold']] st.session_state['female_prompts'] = [p['prompts'] for p in st.session_state['female_bold']] st.session_state['male_wiki_continuation'] = [p['wikipedia'].replace(p['prompts'], '') for p in st.session_state['male_bold']] st.session_state['female_wiki_continuation'] = [p['wikipedia'].replace(p['prompts'], '') for p in st.session_state['female_bold']] progress_bar = st.progress(0) st.write(f'Generating text for {o_one} prompts...') male_generation = GPT2.text_generation(st.session_state['male_prompts'], pad_token_id=50256, max_length=50, do_sample=False, truncation=True) st.session_state['male_continuations'] = [gen[0]['generated_text'].replace(prompt, '') for gen, prompt in zip(male_generation, st.session_state['male_prompts'])] progress_bar.progress(50) st.write(f'Generating text for {o_two} prompts...') female_generation = GPT2.text_generation(st.session_state['female_prompts'], pad_token_id=50256, max_length=50, do_sample=False, truncation=True) st.session_state['female_continuations'] = [gen[0]['generated_text'].replace(prompt, '') for gen, prompt in zip(female_generation, st.session_state['female_prompts'])] progress_bar.progress(100) st.write('Text generation completed.') st.session_state.pop('rmr', None) st.session_state.pop('rfr', None) st.subheader('Step 3: Sample Generated Texts') if st.session_state.get('male_continuations') and st.session_state.get('female_continuations'): st.write(f"{o_one} Data Samples:") samples_df = pd.DataFrame({ f'{o_one} Prompt': st.session_state['male_prompts'], f'{o_one} Continuation': st.session_state['male_continuations'], f'{o_one} Wiki Continuation': st.session_state['male_wiki_continuation'], }) st.write(samples_df) st.write(f"{o_two} Data Samples:") samples_df = pd.DataFrame({ f'{o_two} Prompt': st.session_state['female_prompts'], f'{o_two} Continuation': st.session_state['female_continuations'], f'{o_two} Wiki Continuation': st.session_state['female_wiki_continuation'], }) st.write(samples_df) if st.button('Evaluate'): st.subheader('Step 4: Regard Results') regard = Regard("inner_compare") st.write('Computing regard results to compare male and female continuations...') with st.spinner('Computing regard results...'): regard_male_results = regard.compute(data=st.session_state['male_continuations'], references=st.session_state['male_wiki_continuation']) st.write(f'**{o_one} Regard Results:**') st.json(regard_male_results) st.session_state['rmr'] = regard_male_results regard_female_results = regard.compute(data=st.session_state['female_continuations'], references=st.session_state['female_wiki_continuation']) st.write(f'**{o_two} Regard Results:**') st.json(regard_female_results) st.session_state['rfr'] = regard_female_results if st.session_state.get('rmr') and st.session_state.get('rfr'): st.subheader('Step 5: Regard Results Plotting') if st.button('Plot'): categories = ['GPT2', 'Wiki'] mp_gpt = st.session_state['rmr']['no_ref_diff_mean']['positive'] mn_gpt = st.session_state['rmr']['no_ref_diff_mean']['negative'] mo_gpt = 1 - (mp_gpt + mn_gpt) mp_wiki = mp_gpt - st.session_state['rmr']['ref_diff_mean']['positive'] mn_wiki = mn_gpt - st.session_state['rmr']['ref_diff_mean']['negative'] mo_wiki = 1 - (mn_wiki + mp_wiki) fp_gpt = st.session_state['rfr']['no_ref_diff_mean']['positive'] fn_gpt = st.session_state['rfr']['no_ref_diff_mean']['negative'] fo_gpt = 1 - (fp_gpt + fn_gpt) fp_wiki = fp_gpt - st.session_state['rfr']['ref_diff_mean']['positive'] fn_wiki = fn_gpt - st.session_state['rfr']['ref_diff_mean']['negative'] fo_wiki = 1 - (fn_wiki + fp_wiki) positive_m = [mp_gpt, mp_wiki] other_m = [mo_gpt, mo_wiki] negative_m = [mn_gpt, mn_wiki] positive_f = [fp_gpt, fp_wiki] other_f = [fo_gpt, fo_wiki] negative_f = [fn_gpt, fn_wiki] # Plotting fig_a, ax_a = plt.subplots() ax_a.bar(categories, negative_m, label='Negative', color='blue') ax_a.bar(categories, other_m, bottom=negative_m, label='Other', color='orange') ax_a.bar(categories, positive_m, bottom=[negative_m[i] + other_m[i] for i in range(len(negative_m))], label='Positive', color='green') plt.xlabel('Categories') plt.ylabel('Proportion') plt.title(f'GPT vs Wiki on {o_one} regard') plt.legend() st.pyplot(fig_a) fig_b, ax_b = plt.subplots() ax_b.bar(categories, negative_f, label='Negative', color='blue') ax_b.bar(categories, other_f, bottom=negative_f, label='Other', color='orange') ax_b.bar(categories, positive_f, bottom=[negative_f[i] + other_f[i] for i in range(len(negative_f))], label='Positive', color='green') plt.xlabel('Categories') plt.ylabel('Proportion') plt.title(f'GPT vs Wiki on {o_two} regard') plt.legend() st.pyplot(fig_b) m_increase = mp_gpt - mn_gpt m_relative_increase = mp_gpt - mp_wiki - (mn_gpt - mn_wiki) f_increase = fp_gpt - fn_gpt f_relative_increase = fp_gpt - fp_wiki - (fn_gpt - fn_wiki) absolute_difference = [m_increase, f_increase] relative_difference = [m_relative_increase, f_relative_increase] new_categories = [f'{o_one}', f'{o_two}'] fig_c, ax_c = plt.subplots() ax_c.bar(new_categories, absolute_difference, label='Positive - Negative', color='#40E0D0') plt.xlabel('Categories') plt.ylabel('Proportion') plt.title(f'Difference of positive and negative: {o_one} vs {o_two}') plt.legend() st.pyplot(fig_c) fig_d, ax_d = plt.subplots() ax_d.bar(new_categories, relative_difference, label='Positive - Negative', color='#40E0D0') plt.xlabel('Categories') plt.ylabel('Proportion') plt.title(f'Difference of positive and negative (relative to Wiki): {o_one} vs {o_two}') plt.legend() st.pyplot(fig_d)