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translate.py
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translate.py
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from pathlib import Path
from config import get_config, latest_weights_file_path
from model import build_transformer
from tokenizers import Tokenizer
from datasets import load_dataset
from dataset import BilingualDataset
import torch
import sys
def translate(sentence: str):
# Define the device, tokenizers, and model
device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
print("Using device:", device)
config = get_config()
tokenizer_src = Tokenizer.from_file(str(Path(config['tokenizer_file'].format(config['lang_src']))))
tokenizer_tgt = Tokenizer.from_file(str(Path(config['tokenizer_file'].format(config['lang_tgt']))))
model = build_transformer(tokenizer_src.get_vocab_size(), tokenizer_tgt.get_vocab_size(), config["seq_len"], config['seq_len'], d_model=config['d_model']).to(device)
# Load the pretrained weights
model_filename = latest_weights_file_path(config)
state = torch.load(model_filename)
model.load_state_dict(state['model_state_dict'])
# if the sentence is a number use it as an index to the test set
label = ""
if type(sentence) == int or sentence.isdigit():
id = int(sentence)
ds = load_dataset(f"{config['datasource']}", f"{config['lang_src']}-{config['lang_tgt']}", split='all')
ds = BilingualDataset(ds, tokenizer_src, tokenizer_tgt, config['lang_src'], config['lang_tgt'], config['seq_len'])
sentence = ds[id]['src_text']
label = ds[id]["tgt_text"]
seq_len = config['seq_len']
# translate the sentence
model.eval()
with torch.no_grad():
# Precompute the encoder output and reuse it for every generation step
source = tokenizer_src.encode(sentence)
source = torch.cat([
torch.tensor([tokenizer_src.token_to_id('[SOS]')], dtype=torch.int64),
torch.tensor(source.ids, dtype=torch.int64),
torch.tensor([tokenizer_src.token_to_id('[EOS]')], dtype=torch.int64),
torch.tensor([tokenizer_src.token_to_id('[PAD]')] * (seq_len - len(source.ids) - 2), dtype=torch.int64)
], dim=0).to(device)
source_mask = (source != tokenizer_src.token_to_id('[PAD]')).unsqueeze(0).unsqueeze(0).int().to(device)
encoder_output = model.encode(source, source_mask)
# Initialize the decoder input with the sos token
decoder_input = torch.empty(1, 1).fill_(tokenizer_tgt.token_to_id('[SOS]')).type_as(source).to(device)
# Print the source sentence and target start prompt
if label != "": print(f"{f'ID: ':>12}{id}")
print(f"{f'SOURCE: ':>12}{sentence}")
if label != "": print(f"{f'TARGET: ':>12}{label}")
print(f"{f'PREDICTED: ':>12}", end='')
# Generate the translation word by word
while decoder_input.size(1) < seq_len:
# build mask for target and calculate output
decoder_mask = torch.triu(torch.ones((1, decoder_input.size(1), decoder_input.size(1))), diagonal=1).type(torch.int).type_as(source_mask).to(device)
out = model.decode(encoder_output, source_mask, decoder_input, decoder_mask)
# project next token
prob = model.project(out[:, -1])
_, next_word = torch.max(prob, dim=1)
decoder_input = torch.cat([decoder_input, torch.empty(1, 1).type_as(source).fill_(next_word.item()).to(device)], dim=1)
# print the translated word
print(f"{tokenizer_tgt.decode([next_word.item()])}", end=' ')
# break if we predict the end of sentence token
if next_word == tokenizer_tgt.token_to_id('[EOS]'):
break
# convert ids to tokens
return tokenizer_tgt.decode(decoder_input[0].tolist())
#read sentence from argument
translate(sys.argv[1] if len(sys.argv) > 1 else "I am not a very good a student.")