import streamlit as st import numpy as np import pandas as pd import os import torch import torch.nn as nn from transformers.activations import get_activation from transformers import AutoTokenizer, AutoModelForCausalLM st.title('GPT2: To see all prompt outlines: https://huggingface.co/BigSalmon/InformalToFormalLincoln64Paraphrase') device = torch.device("cuda" if torch.cuda.is_available() else "cpu") @st.cache(allow_output_mutation=True) def get_model(): tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln91Paraphrase") model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln91Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln90Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln90Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln88Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln88Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln86Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln86Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln82Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln82Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln79Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln79Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln74Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln74Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln72Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln72Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln64Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln64Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln60Paraphrase") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln60Paraphrase") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/GPTNeo1.3BInformalToFormal") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/GPTNeo1.3BInformalToFormal") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln55") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln55") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln51") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln51") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln45") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln49") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln43") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln43") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln41") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln41") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln38") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln38") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln37") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln37") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln36") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln36") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/MediumInformalToFormalLincoln") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/MediumInformalToFormalLincoln") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln35") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln35") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln31") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln31") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/InformalToFormalLincoln21") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/InformalToFormalLincoln21") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/PointsOneSent") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/PointsOneSent") #tokenizer = AutoTokenizer.from_pretrained("BigSalmon/PointsToSentence") #model = AutoModelForCausalLM.from_pretrained("BigSalmon/PointsToSentence") return model, tokenizer model, tokenizer = get_model() g = """informal english: garage band has made people who know nothing about music good at creating music. Translated into the Style of Abraham Lincoln: garage band ( offers the uninitiated in music the ability to produce professional-quality compositions / catapults those for whom music is an uncharted art the ability the realize masterpieces / stimulates music novice's competency to yield sublime arrangements / begets individuals of rudimentary musical talent the proficiency to fashion elaborate suites ). informal english: chrome extensions can make doing regular tasks much easier to get done. Translated into the Style of Abraham Lincoln: chrome extensions ( yield the boon of time-saving convenience / ( expedite the ability to / unlock the means to more readily ) accomplish everyday tasks / turbocharges the velocity with which one can conduct their obligations ). informal english: broadband is finally expanding to rural areas, a great development that will thrust them into modern life. Translated into the Style of Abraham Lincoln: broadband is ( ( finally / at last / after years of delay ) arriving in remote locations / springing to life in far-flung outposts / inching into even the most backwater corners of the nation ) that will leap-frog them into the twenty-first century. informal english: google translate has made talking to people who do not share your language easier. Translated into the Style of Abraham Lincoln: google translate ( imparts communicability to individuals whose native tongue differs / mitigates the trials of communication across linguistic barriers / hastens the bridging of semantic boundaries / mollifies the complexity of multilingual communication / avails itself to the internationalization of discussion / flexes its muscles to abet intercultural conversation / calms the tides of linguistic divergence ). informal english: corn fields are all across illinois, visible once you leave chicago. Translated into the Style of Abraham Lincoln: corn fields ( permeate illinois / span the state of illinois / ( occupy / persist in ) all corners of illinois / line the horizon of illinois / envelop the landscape of illinois ), manifesting themselves visibly as one ventures beyond chicago. informal english: """ number_of_outputs = st.sidebar.slider("Number of Outputs", 5, 100) log_nums = st.sidebar.slider("How Many Log Outputs?", 50, 600) def BestProbs(prompt): prompt = prompt.strip() text = tokenizer.encode(prompt) myinput, past_key_values = torch.tensor([text]), None myinput = myinput logits, past_key_values = model(myinput, past_key_values = past_key_values, return_dict=False) logits = logits[0,-1] probabilities = torch.nn.functional.softmax(logits) best_logits, best_indices = logits.topk(10) best_words = [tokenizer.decode([idx.item()]) for idx in best_indices] for i in best_words[0:10]: print("_______") st.write(f"${i} $\n") f = (f"${i} $\n") m = (prompt + f"{i}") BestProbs2(m) return f def BestProbs2(prompt): prompt = prompt.strip() text = tokenizer.encode(prompt) myinput, past_key_values = torch.tensor([text]), None myinput = myinput logits, past_key_values = model(myinput, past_key_values = past_key_values, return_dict=False) logits = logits[0,-1] probabilities = torch.nn.functional.softmax(logits) best_logits, best_indices = logits.topk(20) best_words = [tokenizer.decode([idx.item()]) for idx in best_indices] for i in best_words[0:20]: print(i) st.write(i) def LogProbs(prompt): col1 = [] col2 = [] prompt = prompt.strip() text = tokenizer.encode(prompt) myinput, past_key_values = torch.tensor([text]), None myinput = myinput logits, past_key_values = model(myinput, past_key_values = past_key_values, return_dict=False) logits = logits[0,-1] probabilities = torch.nn.functional.softmax(logits) best_logits, best_indices = logits.topk(10) best_words = [tokenizer.decode([idx.item()]) for idx in best_indices] for i in best_words[0:10]: print("_______") f = i col1.append(f) m = (prompt + f"{i}") #print("^^" + f + " ^^") prompt = m.strip() text = tokenizer.encode(prompt) myinput, past_key_values = torch.tensor([text]), None myinput = myinput logits, past_key_values = model(myinput, past_key_values = past_key_values, return_dict=False) logits = logits[0,-1] probabilities = torch.nn.functional.softmax(logits) best_logits, best_indices = logits.topk(20) best_words = [tokenizer.decode([idx.item()]) for idx in best_indices] for i in best_words[0:20]: #print(i) col2.append(i) #print(col1) #print(col2) d = {col1[0]: [col2[0], col2[1], col2[2], col2[3], col2[4], col2[5], col2[6], col2[7], col2[8], col2[9], col2[10], col2[11], col2[12], col2[13], col2[14], col2[15], col2[16], col2[17], col2[18], col2[19]], col1[1]: [col2[20], col2[21], col2[22], col2[23], col2[24], col2[25], col2[26], col2[27], col2[28], col2[29], col2[30], col2[31], col2[32], col2[33], col2[34], col2[35], col2[36], col2[37], col2[38], col2[39]], col1[2]: [col2[40], col2[41], col2[42], col2[43], col2[44], col2[45], col2[46], col2[47], col2[48], col2[49], col2[50], col2[51], col2[52], col2[53], col2[54], col2[55], col2[56], col2[57], col2[58], col2[59]], col1[3]: [col2[60], col2[61], col2[62], col2[63], col2[64], col2[65], col2[66], col2[67], col2[68], col2[69], col2[70], col2[71], col2[72], col2[73], col2[74], col2[75], col2[76], col2[77], col2[78], col2[79]], col1[4]: [col2[80], col2[81], col2[82], col2[83], col2[84], col2[85], col2[86], col2[87], col2[88], col2[89], col2[90], col2[91], col2[92], col2[93], col2[94], col2[95], col2[96], col2[97], col2[98], col2[99]], col1[5]: [col2[100], col2[101], col2[102], col2[103], col2[104], col2[105], col2[106], col2[107], col2[108], col2[109], col2[110], col2[111], col2[112], col2[113], col2[114], col2[115], col2[116], col2[117], col2[118], col2[119]], col1[6]: [col2[120], col2[121], col2[122], col2[123], col2[124], col2[125], col2[126], col2[127], col2[128], col2[129], col2[130], col2[131], col2[132], col2[133], col2[134], col2[135], col2[136], col2[137], col2[138], col2[139]], col1[7]: [col2[140], col2[141], col2[142], col2[143], col2[144], col2[145], col2[146], col2[147], col2[148], col2[149], col2[150], col2[151], col2[152], col2[153], col2[154], col2[155], col2[156], col2[157], col2[158], col2[159]], col1[8]: [col2[160], col2[161], col2[162], col2[163], col2[164], col2[165], col2[166], col2[167], col2[168], col2[169], col2[170], col2[171], col2[172], col2[173], col2[174], col2[175], col2[176], col2[177], col2[178], col2[179]], col1[9]: [col2[180], col2[181], col2[182], col2[183], col2[184], col2[185], col2[186], col2[187], col2[188], col2[189], col2[190], col2[191], col2[192], col2[193], col2[194], col2[195], col2[196], col2[197], col2[198], col2[199]]} df = pd.DataFrame(data=d) print(df) st.write(df) return df def BestProbs5(prompt): prompt = prompt.strip() text = tokenizer.encode(prompt) myinput, past_key_values = torch.tensor([text]), None myinput = myinput logits, past_key_values = model(myinput, past_key_values = past_key_values, return_dict=False) logits = logits[0,-1] probabilities = torch.nn.functional.softmax(logits) best_logits, best_indices = logits.topk(number_of_outputs) best_words = [tokenizer.decode([idx.item()]) for idx in best_indices] for i in best_words[0:number_of_outputs]: #print(i) print("\n") g = (prompt + i) st.write(g) l = run_generate(g, "hey") st.write(l) def run_generate(text, bad_words): yo = [] input_ids = tokenizer.encode(text, return_tensors='pt') res = len(tokenizer.encode(text)) bad_words = bad_words.split() bad_word_ids = [[7829], [40940]] for bad_word in bad_words: bad_word = " " + bad_word ids = tokenizer(bad_word).input_ids bad_word_ids.append(ids) sample_outputs = model.generate( input_ids, do_sample=True, max_length= res + 5, min_length = res + 5, top_k=50, temperature=1.0, num_return_sequences=3, bad_words_ids=bad_word_ids ) for i in range(3): e = tokenizer.decode(sample_outputs[i]) e = e.replace(text, "") yo.append(e) print(yo) return yo with st.form(key='my_form'): prompt = st.text_area(label='Enter sentence', value=g, height=500) submit_button = st.form_submit_button(label='Submit') submit_button2 = st.form_submit_button(label='Fast Forward') submit_button3 = st.form_submit_button(label='Fast Forward 2.0') submit_button4 = st.form_submit_button(label='Get Top') if submit_button: with torch.no_grad(): text = tokenizer.encode(prompt) myinput, past_key_values = torch.tensor([text]), None myinput = myinput myinput= myinput.to(device) logits, past_key_values = model(myinput, past_key_values = past_key_values, return_dict=False) logits = logits[0,-1] probabilities = torch.nn.functional.softmax(logits) best_logits, best_indices = logits.topk(log_nums) best_words = [tokenizer.decode([idx.item()]) for idx in best_indices] text.append(best_indices[0].item()) best_probabilities = probabilities[best_indices].tolist() words = [] st.write(best_words) if submit_button2: print("----") st.write("___") m = LogProbs(prompt) st.write("___") st.write(m) st.write("___") if submit_button3: print("----") st.write("___") st.write(BestProbs) if submit_button4: BestProbs5(prompt)