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dev-0/out.tsv
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dev-0/out.tsv
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dev-0/out_bayes.tsv
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dev-0/out_bayes.tsv
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run.py
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run.py
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import numpy as np
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import pandas as pd
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import torch
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import csv
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import lzma
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import nltk
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from sklearn.naive_bayes import MultinomialNB
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from sklearn.feature_extraction.text import TfidfVectorizer
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import gensim.downloader
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from nltk import word_tokenize
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#print('wczytanie danych')
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x_train = pd.read_table('train/in.tsv.xz', compression='xz', sep='\t', header=None, quoting=3)
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y_train = pd.read_table('train/expected.tsv', sep='\t', header=None, quoting=3)
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x_dev = pd.read_table('dev-0/in.tsv.xz', compression='xz', sep='\t', header=None, quoting=3)
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x_test = pd.read_table('test-A/in.tsv.xz', compression='xz', sep='\t', header=None, quoting=3)
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#print('inicjalizacja modelu')
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class NeuralNetworkModel(torch.nn.Module):
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def __init__(self):
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super(NeuralNetworkModel, self).__init__()
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self.l01 = torch.nn.Linear(300, 300)
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self.l02 = torch.nn.Linear(300, 1)
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def forward(self, x):
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x = self.l01(x)
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x = torch.relu(x)
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x = self.l02(x)
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x = torch.sigmoid(x)
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return x
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with lzma.open("train/in.tsv.xz", "rt", encoding="utf-8") as train_file:
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in_train = [x.strip().lower() for x in train_file.readlines()]
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#print('przygotowanie danych')
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with open("train/expected.tsv", "r", encoding="utf-8") as train_file:
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out_train = [int(x.strip()) for x in train_file.readlines()]
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x_train = x_train[0].str.lower()
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y_train = y_train[0]
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x_dev = x_dev[0].str.lower()
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x_test = x_test[0].str.lower()
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with lzma.open("dev-0/in.tsv.xz", "rt", encoding="utf-8") as dev_file:
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in_dev = [x.strip().lower() for x in dev_file.readlines()]
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x_train = [word_tokenize(x) for x in x_train]
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x_dev = [word_tokenize(x) for x in x_dev]
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x_test = [word_tokenize(x) for x in x_test]
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with lzma.open("test-A/in.tsv.xz", "rt", encoding="utf-8") as test_file:
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in_test = [x.strip().lower() for x in test_file.readlines()]
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word2vec = gensim.downloader.load('word2vec-google-news-300')
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x_train = [np.mean([word2vec[word] for word in content if word in word2vec] or [np.zeros(300)], axis=0) for content in x_train]
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x_dev = [np.mean([word2vec[word] for word in content if word in word2vec] or [np.zeros(300)], axis=0) for content in x_dev]
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x_test = [np.mean([word2vec[word] for word in content if word in word2vec] or [np.zeros(300)], axis=0) for content in x_test]
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tfidf_vectorizer=TfidfVectorizer()
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IN_train = tfidf_vectorizer.fit_transform(in_train)
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classifier = MultinomialNB()
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y_pred = classifier.fit(IN_train, out_train)
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y_prediction = y_pred.predict(tfidf_vectorizer.transform(in_test))
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with open("test-A/out.tsv", "w", encoding="utf-8") as test_out_file:
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for single_pred in y_prediction:
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test_out_file.writelines(f"{str(single_pred)}\n")
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#print('trenowanie modelu')
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model = NeuralNetworkModel()
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BATCH_SIZE = 5
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criterion = torch.nn.BCELoss()
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optimizer = torch.optim.SGD(model.parameters(), lr=0.01)
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pred_dev = y_pred.predict(tfidf_vectorizer.transform(in_test))
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with open("dev-0/out.tsv", "w", encoding="utf-8") as dev_out_file:
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for single_pred in pred_dev:
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dev_out_file.writelines(f"{str(single_pred)}\n")
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for epoch in range(BATCH_SIZE):
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model.train()
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for i in range(0, y_train.shape[0], BATCH_SIZE):
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X = x_train[i:i + BATCH_SIZE]
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X = torch.tensor(X)
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y = y_train[i:i + BATCH_SIZE]
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y = torch.tensor(y.astype(np.float32).to_numpy()).reshape(-1, 1)
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optimizer.zero_grad()
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outputs = model(X.float())
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loss = criterion(outputs, y)
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loss.backward()
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optimizer.step()
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#print('predykcja wynikow')
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y_dev = []
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y_test = []
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model.eval()
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with torch.no_grad():
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for i in range(0, len(x_dev), BATCH_SIZE):
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X = x_dev[i:i + BATCH_SIZE]
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X = torch.tensor(X)
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outputs = model(X.float())
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prediction = (outputs > 0.5)
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y_dev += prediction.tolist()
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for i in range(0, len(x_test), BATCH_SIZE):
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X = x_test[i:i + BATCH_SIZE]
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X = torch.tensor(X)
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outputs = model(X.float())
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y = (outputs >= 0.5)
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y_test += prediction.tolist()
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# print('eksportowanie do plików')
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y_dev = np.asarray(y_dev, dtype=np.int32)
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y_test = np.asarray(y_test, dtype=np.int32)
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y_dev.tofile('./dev-0/out.tsv', sep='\n')
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y_test.tofile('./test-A/out.tsv', sep='\n')
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run_bayes.py
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run_bayes.py
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import lzma
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import nltk
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from sklearn.naive_bayes import MultinomialNB
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from sklearn.feature_extraction.text import TfidfVectorizer
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with lzma.open("train/in.tsv.xz", "rt", encoding="utf-8") as train_file:
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in_train = [x.strip().lower() for x in train_file.readlines()]
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with open("train/expected.tsv", "r", encoding="utf-8") as train_file:
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out_train = [int(x.strip()) for x in train_file.readlines()]
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with lzma.open("dev-0/in.tsv.xz", "rt", encoding="utf-8") as dev_file:
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in_dev = [x.strip().lower() for x in dev_file.readlines()]
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with lzma.open("test-A/in.tsv.xz", "rt", encoding="utf-8") as test_file:
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in_test = [x.strip().lower() for x in test_file.readlines()]
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tfidf_vectorizer=TfidfVectorizer()
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IN_train = tfidf_vectorizer.fit_transform(in_train)
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classifier = MultinomialNB()
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y_pred = classifier.fit(IN_train, out_train)
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y_prediction = y_pred.predict(tfidf_vectorizer.transform(in_test))
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with open("test-A/out.tsv", "w", encoding="utf-8") as test_out_file:
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for single_pred in y_prediction:
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test_out_file.writelines(f"{str(single_pred)}\n")
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pred_dev = y_pred.predict(tfidf_vectorizer.transform(in_test))
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with open("dev-0/out.tsv", "w", encoding="utf-8") as dev_out_file:
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for single_pred in pred_dev:
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dev_out_file.writelines(f"{str(single_pred)}\n")
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7214
test-A/out.tsv
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test-A/out.tsv
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5152
test-A/out_bayes.tsv
Normal file
5152
test-A/out_bayes.tsv
Normal file
File diff suppressed because it is too large
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