linear regression
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predict.py
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predict.py
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import sys
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import pickle
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import pickle
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import sys
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import math
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import math
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from normalize import normalize
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import fileinput
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model = pickle.load(open("model.pkl", "rb"))
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model = pickle.load(open("model.pkl", "rb"))
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word_index, vocabulary, weights, words_count = model
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pskeptic, vocabulary_size,skeptick_words_total, paranormal_words_total, skeptic_count,paranormal_count = model
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def predict():
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output = []
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for line in sys.stdin:
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for line in fileinput.input(openhook=fileinput.hook_encoded("utf-8")):
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document = line.rstrip()
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line = line.rstrip()
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terms = normalize(document)
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fields = line.split('\t')
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label = fields[0].strip()
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log_prob_skeptic = math.log(pskeptic)
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document = fields[0]
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log_prob_paranormal = math.log(1-pskeptic)
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terms = document.split(' ')
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for term in terms:
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for term in terms:
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if term not in skeptic_count:
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if term in words_count:
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skeptic_count[term] = 0
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words_count[term] += 1
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if term not in paranormal_count:
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paranormal_count[term] = 0
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log_prob_skeptic += math.log((skeptic_count[term]+1)/(skeptick_words_total + vocabulary_size))
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log_prob_paranormal += math.log((paranormal_count[term]+1)/(paranormal_words_total + vocabulary_size))
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if log_prob_skeptic > log_prob_paranormal:
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print("S")
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else:
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else:
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print("P")
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words_count[term] = 1
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expected = weights[0]
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for t in terms:
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if t in vocabulary:
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expected +=(words_count[t]/len(words_count)*(weights[word_index[t]]))
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if expected > 0.9:
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output.append(1)
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else:
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output.append(0)
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with open("out.tsv", "w") as out:
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for val in output:
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out.write(str(val)+"\n")
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predict()
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97
prgram.py
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97
prgram.py
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#!/usr/bin/env python3
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import pickle
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import fileinput
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import random
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import math
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import random
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import re
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from _collections import defaultdict
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def define_vocabulary(file_to_learn_new_words):
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word_counts = {'count': defaultdict(int)}
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with open(file_to_learn_new_words, encoding='utf-8') as in_file:
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for line in in_file:
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text, timestamp = line.rstrip('\n').split('\t')
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tokens = text.lower().split(' ')
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for token in tokens:
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word_counts['count'][token] += 1
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in_file.close()
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return word_counts
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def tokenize_list(string_input):
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words=[]
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string=string_input.replace('\\n',' ')
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text=re.sub(r'\w+:\/{2}[\d\w-]+(\.[\d\w-]+)*(?:(?:\/[^\s/]*))*', '', string)
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string=''
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for word in text:
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string+=word
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words=re.split(';+|,+|\*+|\n+| +|\_+|\%+|\t+|\[+|\]+|\.+|\(+|\)+|\++|\\+|\/+|[0-9]+|\#+|\'+|\"+|\-+|\=+|\&+|\:+|\?+|\!+|\^+|\·+',string)
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regex=re.compile(r'http|^[a-zA-Z]$|org')
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filtered_values=[
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word
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for word in words if not regex.match(word)
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]
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filtered_values[:] = (
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value.lower()
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for value in filtered_values if len(value)!=0
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)
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return filtered_values
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def train(vocabulary,input_train,expected_train):
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learning_rate=0.001
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learning_precision=0.00001
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words_vocabulary={}
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with open(input_train,encoding='utf-8') as input_file, open(expected_train,encoding='utf-8') as expected_file:
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for line, exp in zip(input_file,expected_file):
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words_vocabulary[line]=int(exp)
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weights={}
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weight={}
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delta=1
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iteration=0
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loss_sum=0.0
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error=10.0
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max_iteration=len(vocabulary)
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for i in vocabulary['count'].keys():
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weights[i]=random.uniform(-0.01,0.01)
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while delta>learning_precision and iteration<max_iteration:
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d,y = random.choice(list(words_vocabulary.items()))
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y_hat=0
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tokens=tokenize_list(d)
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for token in tokens:
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if token in vocabulary['count'].keys():
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y_hat += weights[token] * tokens.count(token)
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delta=(y_hat-y) * learning_rate
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for word in tokens:
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if word in words_vocabulary:
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weights[word] -= (tokens.count(word)) * delta
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loss = (y_hat - y)**2.0
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loss_sum += loss
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if iteration%1000 == 0:
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if (error>(loss_sum/1000)):
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weight=weights
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error=loss_sum/1000
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loss_sum=0.0
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iteration += 1
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input_file.close()
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expected_file.close()
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return weight, vocabulary
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def prediction(input,output,weights,vocabulary):
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with open(input,encoding='utf-8') as input_file, open(output,'w+',encoding='utf-8') as output:
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for line in input_file:
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y_hat=0
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tokens=tokenize_list(line)
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for token in tokens:
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if token in vocabulary['count'].keys():
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y_hat += weights[token] * (token.count(token))
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if y_hat>0.0:
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output.write('1\n')
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else:
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output.write('0\n')
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output.close()
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input_file.close()
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vocabulary=define_vocabulary('train/in.tsv');
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weights, words = train(vocabulary,'train/in.tsv','train/expected.tsv')
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prediction('dev-0/in.tsv','dev-0/out.tsv',weights,words)
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prediction('test-A/in.tsv','test-A/out.tsv',weights,words)
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