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import sys
import torch
import random
import hashlib
import numpy as np
from tqdm import tqdm
from transformers import GPT2Tokenizer, GPT2Model, GPT2LMHeadModel
from transformers import OPTForCausalLM, GPTNeoForCausalLM
from transformers import RobertaTokenizer, RobertaForCausalLM, RobertaConfig
from transformers import XLMRobertaTokenizer, XLMRobertaForCausalLM, XLMRobertaConfig
from transformers import BartTokenizer, BartForCausalLM
import nltk
import pandas as pd
nltk.download('punkt')
sys.path.insert(0, '.')
from critic.perturbations import get_local_neighbors_char_level, get_local_neighbors_word_level
from utils.spacy_tokenizer import spacy_tokenize_gec
import streamlit as st
st.subheader('Exploring Unsupervised Grammatical Error Correction with Transformer-Based Models')
st.write('This live demonstration is adapted from the paper [LM-Critic: Language Models for Unsupervised Grammatical Error Correction](https://aclanthology.org/2021.emnlp-main.611.pdf) (EMNLP 2021) by Michihiro Yasunaga, Jure Leskovec, Percy Liang.')
st.write('The below demo first loads several LMs that we use in the LM-Critic. You will be prompted to enter a sentence which will then be scored by each of the LM-Critics using different LMs.')
def get_gpt2_loss(model, tokenizer, input_ids, attention_mask, labels):
with torch.no_grad():
outputs = model(input_ids=input_ids, attention_mask=attention_mask, labels=labels)
lm_logits = outputs[1] #[bsize, seqlen, vocab]
if labels is not None:
shift_logits = lm_logits[..., :-1, :].contiguous()
shift_labels = labels[..., 1:].contiguous()
shift_mask = attention_mask[..., 1:].contiguous()
loss_fct = torch.nn.CrossEntropyLoss(reduction='none')
bsize, seqlen = input_ids.size()
loss = loss_fct(shift_logits.view(-1, shift_logits.size(-1)), shift_labels.view(-1)).view(bsize, seqlen-1)
loss = (loss * shift_mask).sum(dim=1) #[bsize, ]
return loss
MAX_LENGTH = 66
def run_gpt2(sents, model, tokenizer, cuda=False, model_name=None):
assert isinstance(sents, list)
_sents = [tokenizer.bos_token + s for s in sents]
inputs = tokenizer(_sents, return_tensors="pt", padding=True)
if inputs['input_ids'].size(1) > MAX_LENGTH:
return None
if cuda:
inputs = {k: v.cuda() for k, v in inputs.items()}
loss = get_gpt2_loss(model, tokenizer, input_ids=inputs['input_ids'], attention_mask=inputs['attention_mask'], labels=inputs['input_ids'])
logps = - loss.detach().cpu()
return logps
def gpt2_critic_char_level_only(sent, verbose=1, cuda=False, fp16=True, seed='auto', n_samples=100):
return_string = []
if seed == 'auto':
seed = int(hashlib.md5(sent.encode()).hexdigest(), 16) % (2**32) #Seed must be between 0 and 2**32 - 1
if verbose > 1:
print ('seed', seed)
np.random.seed(seed); random.seed(seed)
is_good = True
for _ in range(1):
sent_perturbations = get_local_neighbors_char_level(sent, max_n_samples=n_samples)
if verbose > 1:
print ("#sent_perturbations (char-level)", len(sent_perturbations))
return_string.append(f"#sent_perturbations (char-level){len(sent_perturbations)}\n")
sents = [sent] + list(sent_perturbations)
if fp16:
with torch.cuda.amp.autocast():
logps = run_gpt2(sents, cuda)
else:
logps = run_gpt2(sents, cuda)
if logps is None:
if verbose:
print ('Invalid input. Maybe the sentence is too long.')
return_string.append('Invalid input. Maybe the sentence is too long.\n')
return None
best_idx = int(logps.argmax())
if best_idx != 0:
is_good = False
break
if verbose:
if is_good:
print ('Good! Your sentence log(p) = {:.3f}'.format(float(logps[0])))
return_string.append('Good! Your sentence log(p) = {:.3f}\n'.format(float(logps[0])))
else:
print ('Bad! Your sentence log(p) = {:.3f}'.format(float(logps[0])))
return_string.append('Bad! Your sentence log(p) = {:.3f}\n'.format(float(logps[0])))
print ('Neighbor sentence with highest log(p): {} (= {:.3f})'.format(sents[best_idx], float(logps[best_idx])))
return_string.append('Neighbor sentence with highest log(p): {} (= {:.3f})\n'.format(sents[best_idx], float(logps[best_idx])))
counter_example = None
if not is_good:
counter_example = [sents[best_idx], float(logps[best_idx])]
return is_good, float(logps[0]), counter_example
def gpt2_critic(sent, model, tokenizer, verbose=1, cuda=False, fp16=True, seed='auto', n_samples=100, word_level_mode='refine'):
return_string = []
if seed == 'auto':
seed = int(hashlib.md5(sent.encode()).hexdigest(), 16) % (2**32) #Seed must be between 0 and 2**32 - 1
if verbose > 1:
print ('seed', seed)
return_string.append(f'seed{seed}\n')
np.random.seed(seed); random.seed(seed)
sent_toked = spacy_tokenize_gec(sent)
is_good = True
for _ in range(1):
sent_perturbations_w, orig_sent = get_local_neighbors_word_level(sent_toked, max_n_samples=n_samples//2, mode=word_level_mode)
sent_perturbations_c = get_local_neighbors_char_level(orig_sent, max_n_samples=n_samples//2)
if verbose > 1:
print ("#sent_perturbations (char-level)", len(sent_perturbations_c))
return_string.append("#sent_perturbations (char-level)\n", len(sent_perturbations_c))
print ("#sent_perturbations (word-level)", len(sent_perturbations_w))
return_string.append("#sent_perturbations (word-level)\n", len(sent_perturbations_w))
sents = [orig_sent] + list(sent_perturbations_c.union(sent_perturbations_w))
if fp16:
with torch.cuda.amp.autocast():
logps = run_gpt2(sents, model, tokenizer, cuda)
else:
logps = run_gpt2(sents, model, tokenizer, cuda)
if logps is None:
if verbose:
print ('Invalid input. Maybe the sentence is too long.')
return_string.append('Invalid input. Maybe the sentence is too long.\n')
return None
best_idx = int(logps.argmax())
if best_idx != 0:
is_good = False
break
if verbose:
if is_good:
print ('Good! Your sentence log(p) = {:.3f}'.format(float(logps[0])))
return_string.append('Good! Your sentence log(p) = {:.3f}\n'.format(float(logps[0])))
else:
print ('Bad! Your sentence log(p) = {:.3f}'.format(float(logps[0])))
return_string.append('Bad! Your sentence log(p) = {:.3f}\n'.format(float(logps[0])))
print ('Neighbor sentence with highest log(p): {} (= {:.3f})'.format(sents[best_idx], float(logps[best_idx])))
return_string.append('Neighbor sentence with highest log(p): {} (= {:.3f})\n'.format(sents[best_idx], float(logps[best_idx])))
counter_example = None
if not is_good:
counter_example = [sents[best_idx], float(logps[best_idx])]
return is_good, float(logps[0]), counter_example, return_string
def init_lms():
placeholder_lm_name = st.empty()
prog = 0
my_bar = st.progress(prog)
if "nice_name_gpt2" not in st.session_state:
## GPT-2 LM (original LM-critic)
model_name_gpt2 = 'gpt2'
nice_name_gpt2 = "GPT-2"
placeholder_lm_name.text(f"Initializing {nice_name_gpt2}...")
tokenizer_gpt2 = GPT2Tokenizer.from_pretrained(model_name_gpt2)
tokenizer_gpt2.pad_token = tokenizer_gpt2.eos_token
model_gpt2 = GPT2LMHeadModel.from_pretrained(model_name_gpt2)
model_gpt2.eval()
model_gpt2.cpu()
st.session_state["model_gpt2"] = model_gpt2
st.session_state["tokenizer_gpt2"] = tokenizer_gpt2
st.session_state["nice_name_gpt2"] = nice_name_gpt2
prog += 10
my_bar.progress(prog)
if "nice_name_opt" not in st.session_state:
## OPT LM
model_name_opt = "facebook/opt-350m"
nice_name_opt = "OPT"
placeholder_lm_name.text(f"Initializing {nice_name_opt}...")
model_opt = OPTForCausalLM.from_pretrained(model_name_opt)
tokenizer_opt = GPT2Tokenizer.from_pretrained(model_name_opt)
tokenizer_opt.pad_token = tokenizer_opt.eos_token
model_opt.eval()
model_opt.cpu()
st.session_state["model_opt"] = model_opt
st.session_state["tokenizer_opt"] = tokenizer_opt
st.session_state["nice_name_opt"] = nice_name_opt
prog += 10
my_bar.progress(prog)
if "nice_name_gptneo" not in st.session_state:
## GPT NEO
model_name_gptneo = "EleutherAI/gpt-neo-1.3B"
nice_name_gptneo = "GPT NEO"
placeholder_lm_name.text(f"Initializing {nice_name_gptneo}...")
model_gptneo = GPTNeoForCausalLM.from_pretrained(model_name_gptneo)
tokenizer_gptneo = GPT2Tokenizer.from_pretrained(model_name_gptneo)
tokenizer_gptneo.pad_token = tokenizer_gptneo.eos_token
model_gptneo.eval()
model_gptneo.cpu()
st.session_state["model_gptneo"] = model_gptneo
st.session_state["tokenizer_gptneo"] = tokenizer_gptneo
st.session_state["nice_name_gptneo"] = nice_name_gptneo
prog += 10
my_bar.progress(prog)
if "nice_name_roberta" not in st.session_state:
## RoBERTa
model_name_roberta = "roberta-base"
nice_name_roberta = "RoBERTa"
placeholder_lm_name.text(f"Initializing {nice_name_roberta}...")
tokenizer_roberta = RobertaTokenizer.from_pretrained(model_name_roberta)
config_roberta = RobertaConfig.from_pretrained(model_name_roberta)
config_roberta.is_decoder = True
model_roberta = RobertaForCausalLM.from_pretrained(model_name_roberta, config=config_roberta)
tokenizer_roberta.pad_token = tokenizer_roberta.eos_token
model_roberta.eval()
model_roberta.cpu()
st.session_state["model_roberta"] = model_gptneo
st.session_state["tokenizer_roberta"] = tokenizer_roberta
st.session_state["nice_name_roberta"] = nice_name_roberta
prog += 10
my_bar.progress(prog)
if "nice_name_bart" not in st.session_state:
## BART
model_name_bart = "facebook/bart-base"
nice_name_bart = "BART"
placeholder_lm_name.text(f"Initializing {nice_name_bart}...")
tokenizer_bart = BartTokenizer.from_pretrained(model_name_bart)
model_bart = BartForCausalLM.from_pretrained(model_name_bart, add_cross_attention=False)
assert model_bart.config.is_decoder, f"{model_bart.__class__} has to be configured as a decoder."
tokenizer_bart.pad_token = tokenizer_bart.eos_token
model_bart.eval()
model_bart.cpu()
st.session_state["model_bart"] = model_bart
st.session_state["tokenizer_bart"] = tokenizer_bart
st.session_state["nice_name_bart"] = nice_name_bart
prog += 10
my_bar.progress(prog)
if "nice_name_xlmroberta" not in st.session_state:
## XLM RoBERTa
model_name_xlmroberta = 'xlm-roberta-base'
nice_name_xlmroberta = 'XLM RoBERTa'
placeholder_lm_name.text(f"Initializing {nice_name_xlmroberta}...")
tokenizer_xlmroberta = XLMRobertaTokenizer.from_pretrained(model_name_xlmroberta)
config_xlmroberta = XLMRobertaConfig.from_pretrained(model_name_xlmroberta)
config_xlmroberta.is_decoder = True
model_xlmroberta = XLMRobertaForCausalLM.from_pretrained(model_name_xlmroberta, config=config_xlmroberta)
tokenizer_xlmroberta.pad_token = tokenizer_xlmroberta.eos_token
model_xlmroberta.eval()
model_xlmroberta.cpu()
st.session_state["model_xlmroberta"] = model_xlmroberta
st.session_state["tokenizer_xlmroberta"] = tokenizer_xlmroberta
st.session_state["nice_name_xlmroberta"] = nice_name_xlmroberta
prog += 10
my_bar.progress(prog)
placeholder_lm_name.empty()
my_bar.empty()
def main():
if "GPT-2" not in st.session_state:
init_lms()
sent = st.text_input('Enter a sentence:', value="")
### LMs we are trying:
if sent != '':
st.markdown(f"**Input Sentence**: {sent}")
results = {}
with st.spinner('Running with GPT-2 LM...'):
## GPT-2 LM (original LM-critic)
is_good, score, counter_example, return_string_GPT2 = gpt2_critic(sent, st.session_state['model_gpt2'], st.session_state['tokenizer_gpt2'])
st.markdown("**Results with GPT-2 LM:**")
st.write('\n'.join(return_string_GPT2))
results[st.session_state['nice_name_gpt2']] = ["Good" if is_good else "Bad", str(round(score, 3)), "N/A" if not counter_example else str(counter_example[0]), "N/A" if not counter_example else str(round(counter_example[1], 3))]
with st.spinner('Running with OPT LM...'):
## OPT LM
is_good, score, counter_example, return_string_OPT = gpt2_critic(sent, st.session_state['model_opt'], st.session_state['tokenizer_opt'])
st.markdown("**Results with OPT LM:**")
st.write('\n'.join(return_string_OPT))
results[st.session_state['nice_name_opt']] = ["Good" if is_good else "Bad", str(round(score, 3)), "N/A" if not counter_example else str(counter_example[0]), "N/A" if not counter_example else str(round(counter_example[1], 3))]
with st.spinner('Running with GPT NEO LM...'):
## GPT NEO
is_good, score, counter_example, return_string_GPTNEO = gpt2_critic(sent, st.session_state['model_gptneo'], st.session_state['tokenizer_gptneo'])
st.markdown("**Results with GPT NEO LM:**")
st.write('\n'.join(return_string_GPTNEO))
results[st.session_state['nice_name_gptneo']] = ["Good" if is_good else "Bad", str(round(score, 3)), "N/A" if not counter_example else str(counter_example[0]), "N/A" if not counter_example else str(round(counter_example[1], 3))]
with st.spinner('Running with RoBERTa LM...'):
## RoBERTa
is_good, score, counter_example, return_string_RoBERTa = gpt2_critic(sent, st.session_state['model_roberta'], st.session_state['tokenizer_roberta'])
st.markdown("**Results with RoBERTa LM:**")
st.write('\n'.join(return_string_RoBERTa))
results[st.session_state['nice_name_roberta']] = ["Good" if is_good else "Bad", str(round(score, 3)), "N/A" if not counter_example else str(counter_example[0]), "N/A" if not counter_example else str(round(counter_example[1], 3))]
with st.spinner('Running with BART LM...'):
## BART
is_good, score, counter_example, return_string_BART = gpt2_critic(sent, st.session_state['model_bart'], st.session_state['tokenizer_bart'])
st.markdown("**Results with BART LM:**")
st.write('\n'.join(return_string_BART))
results[st.session_state['nice_name_bart']] = ["Good" if is_good else "Bad", str(round(score, 3)), "N/A" if not counter_example else str(counter_example[0]), "N/A" if not counter_example else str(round(counter_example[1], 3))]
with st.spinner('Running with XLM RoBERTa LM...'):
## XLM RoBERTa
is_good, score, counter_example, return_string_XLMRoBERTa = gpt2_critic(sent, st.session_state['model_xlmroberta'], st.session_state['tokenizer_xlmroberta'])
st.markdown("**Results with XLM RoBERTa LM:**")
st.write('\n'.join(return_string_XLMRoBERTa))
results[st.session_state['nice_name_xlmroberta']] = ["Good" if is_good else "Bad", str(round(score, 3)), "N/A" if not counter_example else str(counter_example[0]), "N/A" if not counter_example else str(round(counter_example[1], 3))]
df = pd.DataFrame.from_dict(results,
orient = 'index',
columns=['Judgement', 'Score (log(p))', 'Neighbor sentence with highest score (log(p))', 'Neighbor sentence score (log(p))'])
st.markdown("**Tabular summary of results:**")
st.table(df)
st.write("Input another sentence!")
if __name__ == '__main__':
main() |