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import gradio as gr |
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import openai |
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import re |
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import threading |
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import json |
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from collections import Counter |
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from llm_utils import * |
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from utils import * |
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from retrieval_utils import * |
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openai.api_key = "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" |
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COT_PROMPT = "Let's think step by step." |
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DIRECT_ANS_PROMPT = "The answer is" |
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EXAMPLES = ['Take the last letters of each words in \"Kristopher Deb Jake Tammy\" and concatenate them.', \ |
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'is the brain located in the torso?', 'Is entire Common Era minuscule to lifespan of some trees?', 'Did the Football War last at least a month?', \ |
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'What would someone use a personal key for? Answer Choices: (A) car stand (B) at hotel (C) own home (D) front door (E) bus depot', \ |
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'A coin is heads up. Isela flips the coin. Leslie flips the coin. Stacy flips the coin. Ingrid does not flip the coin. Is the coin still heads up? Note that \"flip\" here means \"reverse\".', \ |
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'Marco and his dad went strawberry picking. Together they collected strawberries that weighed 36 pounds. On the way back Marco \' dad lost 8 pounds of strawberries. Marco\'s strawberries now weighed 12 pounds. How much did his dad\'s strawberries weigh now?'] |
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global lock |
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lock = threading.Lock() |
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def answer_extraction_prompt(datatype): |
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if datatype == "commonsense-mc": |
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ans_prompt = "\nTherefore, among A through E, the answer is" |
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elif datatype == "commonsense-verify": |
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ans_prompt = "\nTherefore, the answer (Yes or No) is" |
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elif datatype == "arithmetic": |
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ans_prompt = "\nTherefore, the answer (arabic numerals) is" |
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elif datatype == "symbolic-letter": |
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ans_prompt = "\nTherefore, the answer is" |
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elif datatype == "symbolic-coin": |
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ans_prompt = "\nTherefore, the answer (Yes or No) is" |
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else: |
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ans_prompt = "\nTherefore, the answer is" |
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return ans_prompt |
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def zero_shot(datatype, question, engine): |
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ANS_EXTRACTION_PROMPT = answer_extraction_prompt(datatype) |
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ANS_EXTRACTION_PROMPT = ANS_EXTRACTION_PROMPT.replace("\nTherefore, ", "") |
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ANS_EXTRACTION_PROMPT = ANS_EXTRACTION_PROMPT[0].upper() + ANS_EXTRACTION_PROMPT[1:] |
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input = "Q: " + question + "\n" + "A: " + ANS_EXTRACTION_PROMPT |
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ans_response = decoder_for_gpt3(input, max_length=32, engine=engine) |
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ans_response = answer_cleansing_zero_shot(datatype, ans_response) |
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if ans_response == "": |
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ans_response = "VOID" |
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return ans_response |
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def highlight_knowledge(entities, retrieved_knowledge): |
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str_md = retrieved_knowledge |
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for ent in entities: |
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ent_md = {} |
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m_pos = re.finditer(ent, retrieved_knowledge, re.IGNORECASE) |
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for m in m_pos: |
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s, e = m.start(), m.end() |
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if retrieved_knowledge[s:e] not in ent_md.keys(): |
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ent_ = retrieved_knowledge[s:e] |
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ent_md[ent_] = '<span style="background-color: lightcoral"> **' + ent_ + '** </span>' |
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for e_ori, e_md in ent_md.items(): |
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print(e_ori) |
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print(e_md) |
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str_md = str_md.replace(e_ori, e_md) |
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return str_md |
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def zero_cot_consi(question, engine): |
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input = "Q: " + question + "\n" + "A: " + COT_PROMPT |
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cot_responses = decoder_for_gpt3_consistency(input,max_length=256, engine=engine) |
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return cot_responses |
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def auto_cot_consi(question, demo_text, engine): |
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input = demo_text + "Q: " + question + "\n" + "A: " + COT_PROMPT |
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cot_responses = decoder_for_gpt3_consistency(input,max_length=256, engine=engine) |
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return cot_responses |
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def cot_revision(datatype, question, ori_cots, knowledge, engine): |
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ANS_EXTRACTION_PROMPT = answer_extraction_prompt(datatype) |
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corrected_rationales = [] |
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corrected_answers = [] |
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correction_prompt = "Question: " + "[ " + question + "]\n" |
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correction_prompt += "Knowledge: " + "[ " + knowledge + "]\n" |
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for ori_r in ori_cots: |
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cor_p = correction_prompt + "Original rationale: " + "[ " + ori_r + "]\n" |
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cor_p += "With Knowledge given, output the revised rationale for Question in a precise and certain style by thinking step by step: " |
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corrected_rationale = decoder_for_gpt3(cor_p,max_length=256, temperature=0.7, engine=engine) |
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corrected_rationale = corrected_rationale.strip() |
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corrected_rationales.append(corrected_rationale) |
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input = "Q: " + question + "\n" + "A: " + corrected_rationale + ANS_EXTRACTION_PROMPT |
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ans = decoder_for_gpt3(input, max_length=32, temperature=0.7, engine=engine) |
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ans = answer_cleansing_zero_shot(datatype, ans) |
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corrected_answers.append(ans) |
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return corrected_rationales, corrected_answers |
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def consistency(arr): |
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len_ans = len(arr) |
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arr_acounts = Counter(arr) |
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ans_freq_tuple = arr_acounts.most_common(len_ans) |
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most_frequent_item, _ = ans_freq_tuple[0] |
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ans_dict = {} |
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for ans_freq in ans_freq_tuple: |
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ans, times = ans_freq |
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ans_dict[ans] = times/len_ans |
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return most_frequent_item, ans_dict |
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def record_feedback(single_data, feedback, store_flag): |
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global lock |
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print(f"Logging feedback...") |
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datatype = single_data['datatype'] |
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data_dir = './data_pool/{dataname}_feedback'.format(dataname=datatype) |
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lock.acquire() |
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if store_flag: |
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single_data.update({'feedback':feedback}) |
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with open(data_dir, "a") as f: |
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data_json = json.dumps(single_data) |
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f.write(data_json + "\n") |
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lock.release() |
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print(f"Logging finished...") |
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return gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), \ |
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gr.update(value="π Thank you for your valuable feedback!") |
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def record_feedback_agree(input_question, datatype, our_ans, zshot_ans, self_know, kb_know, refine_know, cor_ans, store_flag): |
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single_data = { |
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'question': input_question, 'datatype': datatype, 'zshot_ans': zshot_ans, |
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'adapter_ans': our_ans, 'self_know': self_know, 'kb_know': kb_know, |
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'refine_know': refine_know, 'cor_ans': cor_ans, 'feedback': ""} |
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return record_feedback(single_data, 'agree', store_flag) |
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def record_feedback_disagree(input_question, datatype, our_ans, zshot_ans, self_know, kb_know, refine_know, cor_ans, store_flag): |
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single_data = { |
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'question': input_question, 'datatype': datatype, 'zshot_ans': zshot_ans, |
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'adapter_ans': our_ans, 'self_know': self_know, 'kb_know': kb_know, |
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'refine_know': refine_know, 'cor_ans': cor_ans, 'feedback': ""} |
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return record_feedback(single_data, "disagree", store_flag) |
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def record_feedback_uncertain(input_question, datatype, our_ans, zshot_ans, self_know, kb_know, refine_know, cor_ans, store_flag): |
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single_data = { |
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'question': input_question, 'datatype': datatype, 'zshot_ans': zshot_ans, |
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'adapter_ans': our_ans, 'self_know': self_know, 'kb_know': kb_know, |
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'refine_know': refine_know, 'cor_ans': cor_ans, 'feedback': ""} |
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return record_feedback(single_data, 'uncertain', store_flag) |
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def reset(): |
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return gr.update(value=""), gr.update(value=""), \ |
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gr.update(visible=False), gr.update(value="", label=""), gr.update(value="", label=""), gr.update(value="", label=""), \ |
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gr.update(value=""), gr.update(value=""), gr.update(value=""), gr.update(value="") |
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def identify_type(question, engine): |
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with open('./demos/type', 'r') as f: |
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typedemo = f.read() |
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typedemo += "Question: " + question + "\nOutput the Type, choosing from <'arithmetic','commonsense-mc','commonsense-verify','symbolic-coin', 'symbolic-letter'>: " |
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response = decoder_for_gpt3(typedemo, 32, temperature=0, engine=engine) |
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response = response.strip().lower() |
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response = type_cleasing(response) |
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return response |
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def load_examples(datatype): |
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return gr.update(examples=EXAMPLES[datatype]) |
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def self_construction(datatype): |
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if datatype == "arithmetic": |
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fig_adr = './figs/multiarith.png' |
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demo_path = './demos/multiarith' |
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elif datatype == "commonsense-mc": |
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fig_adr = './figs/commonsensqa.png' |
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demo_path = './demos/commonsensqa' |
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elif datatype == "commonsense-verify": |
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fig_adr = './figs/strategyqa.png' |
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demo_path = './demos/strategyqa' |
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elif datatype == "symbolic-coin": |
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fig_adr = './figs/coin_flip.png' |
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demo_path = './demos/coin_flip' |
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elif datatype == "symbolic-letter": |
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fig_adr = './figs/last_letters.png' |
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demo_path = './demos/last_letters' |
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else: |
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pass |
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x, z, y =[], [], [] |
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with open(demo_path, encoding="utf-8") as f: |
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json_data = json.load(f) |
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json_data = json_data["demo"] |
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for line in json_data: |
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x.append(line["question"]) |
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z.append(line["rationale"]) |
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y.append(line["pred_ans"]) |
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index_list = list(range(len(x))) |
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demo_md, demo_text = "", "" |
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for i in index_list: |
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demo_text += x[i] + " " + z[i] + " " + \ |
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DIRECT_ANS_PROMPT + " " + y[i] + ".\n\n" |
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demo_md += '<span style="background-color: #E0A182">' + "Q: "+ '</span>' + x[i][3:-3] + \ |
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"<br>" + '<span style="background-color: #DD97AF">' + "A: "+ '</span>' + z[i] + " " + \ |
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DIRECT_ANS_PROMPT + " " + y[i] + ".\n\n" |
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return gr.update(value="## π Self construction..."), gr.update(visible=True, label="Visualization of clustering", value=fig_adr), \ |
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gr.update(visible=True, value=demo_md), gr.update(value=demo_text), \ |
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gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False) |
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def self_retrieval(input_question, engine): |
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entities, self_retrieve_knowledge, kb_retrieve_knowledge = retrieve_for_question(input_question, engine) |
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entities_string = ", ".join(entities) |
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retr_md = "### ENTITIES:" + "<br>" + "> "+ entities_string + "\n\n" |
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retr_md += "### LLM-KNOWLEDGE:" + "<br>" + "> " + highlight_knowledge(entities,self_retrieve_knowledge) + "\n\n" |
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retr_md += "### KB-KNOWLEDGE:" + "<br>" + "> " + highlight_knowledge(entities, kb_retrieve_knowledge) + "\n\n" |
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return gr.update(value="## π Self retrieval..."), gr.update(visible=True, label="", value='./figs/self-retrieval.png'), \ |
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gr.update(value=retr_md), \ |
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gr.update(value=entities_string), gr.update(value=self_retrieve_knowledge), gr.update(value=kb_retrieve_knowledge), \ |
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gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False) |
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def self_refinement(input_question, entities, self_retrieve_knowledge, kb_retrieve_knowledge, engine): |
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refine_knowledge = refine_for_question(input_question, engine, self_retrieve_knowledge, kb_retrieve_knowledge) |
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retr_md = "### ENTITIES:" + "<br>" + "> " + entities + "\n\n" |
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entities = entities.strip().strip('<p>').strip('</p>').split(", ") |
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retr_md += "### LLM-KNOWLEDGE:" + "<br>" + "> " + highlight_knowledge(entities, self_retrieve_knowledge) + "\n\n" |
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retr_md += "### KB-KNOWLEDGE:" + "<br>" + "> " + highlight_knowledge(entities, kb_retrieve_knowledge) + "\n\n" |
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refine_md = retr_md + "### REFINED-KNOWLEDGE:" + "<br>" + "> " |
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refine_md += highlight_knowledge(entities, refine_knowledge) |
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return gr.update(value="## πͺ Self refinement..."), gr.update(visible=True, label="", value='./figs/self-refinement.png'), \ |
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gr.update(value=refine_md), gr.update(value=refine_knowledge), \ |
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gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False) |
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def self_revision(input_question, datatype, demo_text, refined_knowledge, engine): |
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print(demo_text) |
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print(refined_knowledge) |
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ori_cots = auto_cot_consi(input_question, demo_text, engine) |
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cor_cots, cor_ans = cot_revision(datatype, input_question, ori_cots, refined_knowledge, engine) |
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cor_cots_md = "### Revised Rationales:" + "\n\n" |
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for cor_cot in cor_cots: |
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cor_cots_md += "> " + cor_cot + "\n\n" |
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cor_ans = ", ".join(cor_ans) |
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return gr.update(value="## π§ Self revision..."), gr.update(visible=True, label="", value='./figs/self-revision.png'), \ |
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gr.update(value=cor_cots_md), gr.update(value=cor_ans), \ |
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gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False) |
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def self_consistency(cor_ans, datatype, question, engine): |
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cor_ans = cor_ans.strip().split(", ") |
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our_ans, ans_dict = consistency(cor_ans) |
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zeroshot_ans = zero_shot(datatype, question, engine) |
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return gr.update(value="## π³ Self consistency..."), gr.update(visible=True, label="", value='./figs/self-consistency.png'), \ |
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gr.update(value=""), gr.update(value=ans_dict, visible=True), \ |
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gr.update(visible=True, value=our_ans), gr.update(visible=True, value=zeroshot_ans), \ |
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gr.update(visible=True), gr.update(visible=True), gr.update(visible=True), \ |
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gr.update(visible=True, value='We would appreciate it very much if you could share your feedback. ') |
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def reset(): |
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return gr.update(value=""), gr.update(value=""), gr.update(value=""), \ |
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gr.update(visible=False), gr.update(value=""), gr.update(visible=False), gr.update(visible=False), gr.update(visible=False),\ |
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gr.update(visible=False), gr.update(visible=False), gr.update(visible=False), gr.update(value="") |
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with gr.Blocks(theme="bethecloud/storj_theme", css="#process_btn {background-color:#8BA3C5}") as demo: |
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gr.Markdown("# π ιη¨θͺιεΊηζ¨ηε’εΌΊη³»η» (Unified-Adapter) π") |
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with gr.Row(): |
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with gr.Column(scale=4): |
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input_question = gr.Textbox(placeholder="Input question here, or select an example from below.", label="Input Question",lines=2) |
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store_flag = gr.Checkbox(label="Store data",value=True, interactive=True, info="If you agree to store data for research and development use:") |
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single_data = gr.JSON(visible=False) |
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with gr.Column(scale=3): |
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engine = gr.Dropdown(choices=['gpt-3.5-turbo','text-davinci-003', 'text-davinci-002', 'text-curie-001', 'text-babbage-001', 'text-ada-001'], |
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label="Engine", value="text-davinci-003", interactive=True, info="Choose the engine and have a try!") |
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reset_btn = gr.Button(value='RESET') |
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examples = gr.Examples(examples=EXAMPLES, inputs=[input_question]) |
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with gr.Row(): |
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with gr.Column(scale=1): |
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type_btn = gr.Button(value="Self-identification", variant='primary', scale=1, elem_id="process_btn") |
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with gr.Column(scale=3): |
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datatype = gr.Dropdown(choices=['arithmetic','commonsense-mc','commonsense-verify','symbolic-letter','symbolic-coin','UNDEFINED'], |
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label="Input Type", info="If you disagree with our output, please select manually.", scale=3) |
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demo_text = gr.Textbox(visible=False) |
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entities = gr.Textbox(visible=False) |
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self_know = gr.Textbox(visible=False) |
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kb_know = gr.Textbox(visible=False) |
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refine_know = gr.Textbox(visible=False) |
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cor_ans = gr.Textbox(visible=False) |
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with gr.Row(): |
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const_btn = gr.Button(value='Self-construction', variant='primary', elem_id="process_btn") |
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retr_btn = gr.Button(value='Self-retrieval', variant='primary', elem_id="process_btn") |
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refine_btn = gr.Button(value='Self-refinement', variant='primary', elem_id="process_btn") |
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revis_btn = gr.Button(value='Self-revision', variant='primary', elem_id="process_btn") |
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consis_btn = gr.Button(value='Self-consistency', variant='primary', elem_id="process_btn") |
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sub_title = gr.Markdown() |
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with gr.Row(): |
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with gr.Column(scale=2): |
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plot = gr.Image(label="Visualization of clustering", visible=False) |
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with gr.Column(scale=3): |
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md = gr.Markdown() |
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label = gr.Label(visible=False, label="Consistency Predictions") |
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ans_ours = gr.Textbox(label="Unified-Adapter Answer",visible=False) |
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ans_zeroshot = gr.Textbox(label="Zero-shot Answer", visible=False) |
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with gr.Row(): |
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feedback_agree = gr.Button(value='π Agree', variant='secondary', visible=False) |
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feedback_disagree = gr.Button(value='π Disagree', variant='secondary', visible=False) |
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feedback_uncertain = gr.Button(value='π€ Uncertain', variant='secondary', visible=False) |
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feedback_ack = gr.Markdown(value='', visible=True, interactive=False) |
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type_btn.click(identify_type, inputs=[input_question, engine], outputs=[datatype]) |
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const_btn.click(self_construction, inputs=[datatype], outputs=[sub_title, plot, md, demo_text, label, ans_ours, ans_zeroshot, feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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retr_btn.click(self_retrieval, inputs=[input_question, engine], outputs=[sub_title, plot, md, entities, self_know, kb_know, label, ans_ours, ans_zeroshot, feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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refine_btn.click(self_refinement, inputs=[input_question, entities, self_know, kb_know, engine], outputs=[sub_title, plot, md, refine_know, label, ans_ours, ans_zeroshot, feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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revis_btn.click(self_revision, inputs=[input_question, datatype, demo_text, refine_know, engine], outputs=[sub_title, plot, md, cor_ans, label, ans_ours, ans_zeroshot, feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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consis_btn.click(self_consistency, inputs=[cor_ans, datatype, input_question, engine], outputs=[sub_title, plot, md, label, ans_ours, ans_zeroshot, feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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reset_btn.click(reset, inputs=[], outputs=[input_question, datatype, sub_title, plot, md, label, ans_ours, ans_zeroshot, feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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feedback_agree.click(record_feedback_agree, inputs=[input_question, datatype, ans_ours, ans_zeroshot, self_know, kb_know, refine_know, cor_ans ,store_flag], outputs=[feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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feedback_disagree.click(record_feedback_disagree, inputs=[input_question, datatype, ans_ours, ans_zeroshot, self_know, kb_know, refine_know, cor_ans ,store_flag], outputs=[feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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feedback_uncertain.click(record_feedback_uncertain, inputs=[input_question, datatype, ans_ours, ans_zeroshot, self_know, kb_know, refine_know, cor_ans ,store_flag], outputs=[feedback_agree, feedback_disagree, feedback_uncertain, feedback_ack]) |
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demo.launch() |
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