test
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241
run2.py
241
run2.py
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import pandas as pd
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import csv
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import itertools
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import lzma
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import regex as re
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import kenlm
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from english_words import english_words_alpha_set
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from nltk import word_tokenize
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from math import log10
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from pathlib import Path
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import os
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import torch
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from nltk.tokenize import RegexpTokenizer
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from torch import nn
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from torch.utils.data import DataLoader, IterableDataset
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from torchtext.vocab import build_vocab_from_iterator
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VOCAB_SIZE = 40000
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EMBED_SIZE = 100
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DEVICE = "cuda"
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tokenizer = RegexpTokenizer(r"\w+")
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KENLM_BUILD_PATH = Path("/home/bartek/Pulpit/challenging-america-word-gap-prediction/kenlm/build")
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KENLM_LMPLZ_PATH = KENLM_BUILD_PATH / "bin" / "lmplz"
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KENLM_BUILD_BINARY_PATH = KENLM_BUILD_PATH / "bin" / "build_binary"
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SUDO_PASSWORD = ""
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PREDICTION = 'the:0.03 be:0.03 to:0.03 of:0.025 and:0.025 a:0.025 in:0.020 that:0.020 have:0.015 I:0.010 it:0.010 for:0.010 not:0.010 on:0.010 with:0.010 he:0.010 as:0.010 you:0.010 do:0.010 at:0.010 :0.77'
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def read_file(file):
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for line in file:
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text = line.split("\t")
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yield re.sub(
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r"[^\w\d'\s]+",
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"",
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re.sub(" +", " ", text[6].replace("\\n", " ").replace("\n", "").lower()),
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)
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def clean(text):
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text = str(text).lower().replace("-\\n", "").replace("\\n", " ")
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return re.sub(r"\p{P}", "", text)
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def get_words(line):
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line = line.rstrip()
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yield "<s>"
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for m in re.finditer(r"[\p{L}0-9\*]+|\p{P}+", line):
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yield m.group(0).lower()
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yield "</s>"
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def create_train_data():
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data = pd.read_csv(
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"train/in.tsv.xz",
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sep="\t",
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error_bad_lines=False,
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header=None,
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quoting=csv.QUOTE_NONE,
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nrows=10000
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)
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train_labels = pd.read_csv(
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"train/expected.tsv",
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sep="\t",
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error_bad_lines=False,
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header=None,
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quoting=csv.QUOTE_NONE,
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nrows=10000
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def get_line(file_path):
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with lzma.open(file_path, mode="rt") as file:
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for _, line in enumerate(file):
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text = line.split("\t")
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yield get_words(
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re.sub(
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r"[^\w\d'\s]+",
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"",
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re.sub(
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" +",
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" ",
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" ".join([text[6], text[7]])
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.replace("\\n", " ")
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.replace("\n", "")
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.lower(),
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),
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)
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)
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def buidl_vocab():
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vocab = build_vocab_from_iterator(
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get_line("train/in.tsv.xz"), max_tokens=VOCAB_SIZE, specials=["<unk>"]
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)
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train_data = data[[6, 7]]
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train_data = pd.concat([train_data, train_labels], axis=1)
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return train_data[6] + train_data[0] + train_data[7]
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vocab.set_default_index(vocab["<unk>"])
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return vocab
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def create_train_file(filename="train.txt"):
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with open(filename, "w") as f:
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for line in create_train_data():
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f.write(clean(line) + "\n")
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def look_ahead_iterator(gen):
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prev = None
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for item in gen:
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if prev is not None:
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yield (prev, item)
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prev = item
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def train_model():
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lmplz_command = f"{KENLM_LMPLZ_PATH} -o 4 < train.txt > model.arpa"
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build_binary_command = f"{KENLM_BUILD_BINARY_PATH} model.arpa model.binary"
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os.system('echo %s|sudo -S %s' % (SUDO_PASSWORD, lmplz_command))
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os.system('echo %s|sudo -S %s' % (SUDO_PASSWORD, build_binary_command))
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def predict(model, before, after):
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prob = 0.0
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best = []
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for word in english_words_alpha_set:
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text = ' '.join([before, word, after])
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text_score = model.score(text, bos=False, eos=False)
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if len(best) < 12:
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best.append((word, text_score))
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else:
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worst_score = None
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for score in best:
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if not worst_score:
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worst_score = score
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class SimpleBigramNeuralLanguageModel(nn.Module):
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def __init__(self, vocabulary_size, embedding_size):
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super(SimpleBigramNeuralLanguageModel, self).__init__()
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self.model = nn.Sequential(
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nn.Embedding(vocabulary_size, embedding_size),
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nn.Linear(embedding_size, vocabulary_size),
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nn.Softmax(),
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)
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def forward(self, x):
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return self.model(x)
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class Bigrams(IterableDataset):
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def __init__(self, text_file, vocabulary_size):
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self.vocab = build_vocab_from_iterator(
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get_line(text_file), max_tokens=vocabulary_size, specials=["<unk>"]
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)
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self.vocab.set_default_index(self.vocab["<unk>"])
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self.vocabulary_size = vocabulary_size
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self.text_file = text_file
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def __iter__(self):
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return look_ahead_iterator(
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(
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self.vocab[t]
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for t in itertools.chain.from_iterable(get_line(self.text_file))
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)
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)
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vocab = buidl_vocab()
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def train():
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batch_size = 10000
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train_dataset = Bigrams("train/in.tsv.xz", VOCAB_SIZE)
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device = "cuda"
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model = SimpleBigramNeuralLanguageModel(VOCAB_SIZE, EMBED_SIZE).to(device)
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train_data_loader = DataLoader(train_dataset, batch_size=batch_size)
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optimizer = torch.optim.Adam(model.parameters())
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criterion = torch.nn.NLLLoss()
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model.train()
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step = 0
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for x, y in train_data_loader:
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x = x.to(device)
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y = y.to(device)
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optimizer.zero_grad()
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ypredicted = model(x)
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loss = criterion(torch.log(ypredicted), y)
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if step % 100 == 0:
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print(step, loss)
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step += 1
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loss.backward()
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optimizer.step()
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torch.save(model.state_dict(), "model1.bin")
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def predict(word, model):
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ixs = torch.tensor(vocab.forward([word])).to(DEVICE)
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out = model(ixs)
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top = torch.topk(out[0], 8)
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top_indices = top.indices.tolist()
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top_probs = top.values.tolist()
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top_words = vocab.lookup_tokens(top_indices)
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str_predictions = ""
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lht = 1.0
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for pred_word in list(zip(top_words, top_indices, top_probs)):
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if lht - pred_word[2] >= 0:
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str_predictions += f"{pred_word[0]}:{pred_word[2]} "
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lht -= pred_word[2]
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if lht != 1.0:
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str_predictions += f":{lht}"
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return str_predictions
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def generate_predictions(input_file, output_file, model):
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with open(output_file, "w") as outputf:
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with lzma.open(input_file, mode="rt") as file:
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for _, text in enumerate(read_file(file)):
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tokens = tokenizer.tokenize(text)
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if len(tokens) < 4:
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prediction = "the:0.2 be:0.2 to:0.2 of:0.1 and:0.1 a:0.1 :0.1"
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else:
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if worst_score[1] > score[1]:
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worst_score = score
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if worst_score[1] < text_score:
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best.remove(worst_score)
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best.append((word, text_score))
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probs = sorted(best, key=lambda tup: tup[1], reverse=True)
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pred_str = ''
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for word, prob in probs:
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pred_str += f'{word}:{prob} '
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pred_str += f':{log10(0.99)}'
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return pred_str
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def make_prediction(model, path, result_path):
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data = pd.read_csv(path, sep='\t', header=None, quoting=csv.QUOTE_NONE)
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with open(result_path, 'w', encoding='utf-8') as file_out:
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for _, row in data.iterrows():
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before, after = word_tokenize(clean(str(row[6]))), word_tokenize(clean(str(row[7])))
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if len(before) < 2 or len(after) < 2:
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pred = PREDICTION
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else:
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pred = predict(model, before[-1], after[0])
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file_out.write(pred + '\n')
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prediction = predict(tokens[-1], model)
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outputf.write(prediction + "\n")
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if __name__ == "__main__":
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create_train_file()
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train_model()
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model = kenlm.Model('model.arpa')
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make_prediction(model, "dev-0/in.tsv.xz", "dev-0/out.tsv")
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make_prediction(model, "test-A/in.tsv.xz", "test-A/out.tsv")
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train()
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model = SimpleBigramNeuralLanguageModel(VOCAB_SIZE, EMBED_SIZE).to(DEVICE)
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model.load_state_dict(torch.load("model1.bin"))
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model.eval()
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generate_predictions("dev-0/in.tsv.xz", "dev-0/out.tsv", model)
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generate_predictions("test-A/in.tsv.xz", "test-A/out.tsv", model)
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