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https://iceshrimp.dev/limepotato/jormungandr-bite.git
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wip
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parent
e1c2697fe1
commit
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5 changed files with 334 additions and 23 deletions
1
.gitignore
vendored
1
.gitignore
vendored
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/node_modules
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/built
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/uploads
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/data
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npm-debug.log
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*.pem
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run.bat
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@ -64,6 +64,7 @@
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"@types/webpack": "3.0.10",
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"@types/webpack-stream": "3.2.7",
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"@types/websocket": "0.0.34",
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"@types/msgpack-lite": "^0.1.5",
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"chai": "4.1.2",
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"chai-http": "3.0.0",
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"css-loader": "0.28.7",
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@ -97,7 +98,6 @@
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"accesses": "2.5.0",
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"animejs": "2.0.2",
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"autwh": "0.0.1",
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"bayes": "0.0.7",
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"bcryptjs": "2.4.3",
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"body-parser": "1.17.2",
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"cafy": "2.4.0",
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@ -126,6 +126,7 @@
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"monk": "6.0.3",
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"morgan": "1.8.2",
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"ms": "2.0.0",
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"msgpack-lite": "^0.1.26",
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"multer": "1.3.0",
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"nprogress": "0.2.0",
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"os-utils": "0.0.14",
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@ -68,6 +68,9 @@ type Source = {
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hook_secret: string;
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username: string;
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};
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categorizer?: {
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mecab_command?: string;
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};
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};
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/**
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@ -1,34 +1,40 @@
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import * as fs from 'fs';
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const bayes = require('bayes');
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const bayes = require('./naive-bayes.js');
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const MeCab = require('mecab-async');
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import * as msgpack from 'msgpack-lite';
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import Post from '../../api/models/post';
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import config from '../../conf';
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/**
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* 投稿を学習したり与えられた投稿のカテゴリを予測します
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*/
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export default class Categorizer {
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classifier: any;
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categorizerDbFilePath: string;
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mecab: any;
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private classifier: any;
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private categorizerDbFilePath: string;
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private mecab: any;
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constructor(categorizerDbFilePath: string, mecabCommand: string = 'mecab -d /usr/share/mecab/dic/mecab-ipadic-neologd') {
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this.categorizerDbFilePath = categorizerDbFilePath;
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constructor() {
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this.categorizerDbFilePath = `${__dirname}/../../../data/category`;
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this.mecab = new MeCab();
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this.mecab.command = mecabCommand;
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if (config.categorizer.mecab_command) this.mecab.command = config.categorizer.mecab_command;
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// BIND -----------------------------------
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this.tokenizer = this.tokenizer.bind(this);
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}
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tokenizer(text: string) {
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private tokenizer(text: string) {
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return this.mecab.wakachiSync(text);
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}
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async init() {
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public async init() {
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try {
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const db = fs.readFileSync(this.categorizerDbFilePath, {
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encoding: 'utf8'
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});
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const buffer = fs.readFileSync(this.categorizerDbFilePath);
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const db = msgpack.decode(buffer);
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this.classifier = bayes.fromJson(db);
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this.classifier = bayes.import(db);
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this.classifier.tokenizer = this.tokenizer;
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} catch (e) {
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this.classifier = bayes({
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}
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}
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async learn(id, category) {
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public async learn(id, category) {
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const post = await Post.findOne({ _id: id });
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Post.update({ _id: id }, {
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this.save();
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}
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async categorize(id) {
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public async categorize(id) {
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const post = await Post.findOne({ _id: id });
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const category = this.classifier.categorize(post.text);
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});
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}
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async test(text) {
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public async test(text) {
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return this.classifier.categorize(text);
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}
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save() {
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fs.writeFileSync(this.categorizerDbFilePath, this.classifier.toJson(), {
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encoding: 'utf8'
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});
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private save() {
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const buffer = msgpack.encode(this.classifier.export());
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fs.writeFileSync(this.categorizerDbFilePath, buffer);
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}
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}
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302
src/tools/ai/naive-bayes.js
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302
src/tools/ai/naive-bayes.js
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// Original source code: https://github.com/ttezel/bayes/blob/master/lib/naive_bayes.js (commit: 2c20d3066e4fc786400aaedcf3e42987e52abe3c)
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// CUSTOMIZED BY SYUILO
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/*
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Expose our naive-bayes generator function
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*/
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module.exports = function (options) {
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return new Naivebayes(options)
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}
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// keys we use to serialize a classifier's state
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var STATE_KEYS = module.exports.STATE_KEYS = [
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'categories', 'docCount', 'totalDocuments', 'vocabulary', 'vocabularySize',
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'wordCount', 'wordFrequencyCount', 'options'
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];
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/**
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* Initializes a NaiveBayes instance from a JSON state representation.
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* Use this with classifier.toJson().
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*
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* @param {String} jsonStr state representation obtained by classifier.toJson()
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* @return {NaiveBayes} Classifier
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*/
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module.exports.fromJson = function (jsonStr) {
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var parsed;
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try {
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parsed = JSON.parse(jsonStr)
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} catch (e) {
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throw new Error('Naivebayes.fromJson expects a valid JSON string.')
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}
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// init a new classifier
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var classifier = new Naivebayes(parsed.options)
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// override the classifier's state
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STATE_KEYS.forEach(function (k) {
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if (!parsed[k]) {
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throw new Error('Naivebayes.fromJson: JSON string is missing an expected property: `'+k+'`.')
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}
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classifier[k] = parsed[k]
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})
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return classifier
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}
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/**
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* Given an input string, tokenize it into an array of word tokens.
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* This is the default tokenization function used if user does not provide one in `options`.
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*
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* @param {String} text
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* @return {Array}
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*/
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var defaultTokenizer = function (text) {
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//remove punctuation from text - remove anything that isn't a word char or a space
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var rgxPunctuation = /[^(a-zA-ZA-Яa-я0-9_)+\s]/g
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var sanitized = text.replace(rgxPunctuation, ' ')
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return sanitized.split(/\s+/)
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}
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/**
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* Naive-Bayes Classifier
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*
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* This is a naive-bayes classifier that uses Laplace Smoothing.
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*
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* Takes an (optional) options object containing:
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* - `tokenizer` => custom tokenization function
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*
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*/
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function Naivebayes (options) {
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// set options object
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this.options = {}
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if (typeof options !== 'undefined') {
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if (!options || typeof options !== 'object' || Array.isArray(options)) {
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throw TypeError('NaiveBayes got invalid `options`: `' + options + '`. Pass in an object.')
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}
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this.options = options
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}
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this.tokenizer = this.options.tokenizer || defaultTokenizer
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//initialize our vocabulary and its size
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this.vocabulary = {}
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this.vocabularySize = 0
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//number of documents we have learned from
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this.totalDocuments = 0
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//document frequency table for each of our categories
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//=> for each category, how often were documents mapped to it
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this.docCount = {}
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//for each category, how many words total were mapped to it
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this.wordCount = {}
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//word frequency table for each category
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//=> for each category, how frequent was a given word mapped to it
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this.wordFrequencyCount = {}
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//hashmap of our category names
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this.categories = {}
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}
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/**
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* Initialize each of our data structure entries for this new category
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*
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* @param {String} categoryName
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*/
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Naivebayes.prototype.initializeCategory = function (categoryName) {
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if (!this.categories[categoryName]) {
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this.docCount[categoryName] = 0
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this.wordCount[categoryName] = 0
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this.wordFrequencyCount[categoryName] = {}
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this.categories[categoryName] = true
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}
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return this
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}
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/**
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* train our naive-bayes classifier by telling it what `category`
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* the `text` corresponds to.
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*
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* @param {String} text
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* @param {String} class
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*/
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Naivebayes.prototype.learn = function (text, category) {
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var self = this
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//initialize category data structures if we've never seen this category
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self.initializeCategory(category)
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//update our count of how many documents mapped to this category
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self.docCount[category]++
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//update the total number of documents we have learned from
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self.totalDocuments++
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//normalize the text into a word array
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var tokens = self.tokenizer(text)
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//get a frequency count for each token in the text
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var frequencyTable = self.frequencyTable(tokens)
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/*
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Update our vocabulary and our word frequency count for this category
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*/
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Object
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.keys(frequencyTable)
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.forEach(function (token) {
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//add this word to our vocabulary if not already existing
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if (!self.vocabulary[token]) {
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self.vocabulary[token] = true
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self.vocabularySize++
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}
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var frequencyInText = frequencyTable[token]
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//update the frequency information for this word in this category
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if (!self.wordFrequencyCount[category][token])
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self.wordFrequencyCount[category][token] = frequencyInText
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else
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self.wordFrequencyCount[category][token] += frequencyInText
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//update the count of all words we have seen mapped to this category
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self.wordCount[category] += frequencyInText
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})
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return self
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}
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/**
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* Determine what category `text` belongs to.
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*
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* @param {String} text
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* @return {String} category
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*/
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Naivebayes.prototype.categorize = function (text) {
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var self = this
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, maxProbability = -Infinity
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, chosenCategory = null
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var tokens = self.tokenizer(text)
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var frequencyTable = self.frequencyTable(tokens)
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//iterate thru our categories to find the one with max probability for this text
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Object
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.keys(self.categories)
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.forEach(function (category) {
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//start by calculating the overall probability of this category
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//=> out of all documents we've ever looked at, how many were
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// mapped to this category
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var categoryProbability = self.docCount[category] / self.totalDocuments
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//take the log to avoid underflow
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var logProbability = Math.log(categoryProbability)
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//now determine P( w | c ) for each word `w` in the text
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Object
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.keys(frequencyTable)
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.forEach(function (token) {
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var frequencyInText = frequencyTable[token]
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var tokenProbability = self.tokenProbability(token, category)
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// console.log('token: %s category: `%s` tokenProbability: %d', token, category, tokenProbability)
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//determine the log of the P( w | c ) for this word
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logProbability += frequencyInText * Math.log(tokenProbability)
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})
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if (logProbability > maxProbability) {
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maxProbability = logProbability
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chosenCategory = category
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}
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})
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return chosenCategory
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}
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/**
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* Calculate probability that a `token` belongs to a `category`
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*
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* @param {String} token
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* @param {String} category
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* @return {Number} probability
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*/
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Naivebayes.prototype.tokenProbability = function (token, category) {
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//how many times this word has occurred in documents mapped to this category
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var wordFrequencyCount = this.wordFrequencyCount[category][token] || 0
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//what is the count of all words that have ever been mapped to this category
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var wordCount = this.wordCount[category]
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//use laplace Add-1 Smoothing equation
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return ( wordFrequencyCount + 1 ) / ( wordCount + this.vocabularySize )
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}
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/**
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* Build a frequency hashmap where
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* - the keys are the entries in `tokens`
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* - the values are the frequency of each entry in `tokens`
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*
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* @param {Array} tokens Normalized word array
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* @return {Object}
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*/
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Naivebayes.prototype.frequencyTable = function (tokens) {
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var frequencyTable = Object.create(null)
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tokens.forEach(function (token) {
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if (!frequencyTable[token])
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frequencyTable[token] = 1
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else
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frequencyTable[token]++
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})
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return frequencyTable
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}
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/**
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* Dump the classifier's state as a JSON string.
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* @return {String} Representation of the classifier.
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*/
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Naivebayes.prototype.toJson = function () {
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var state = {}
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var self = this
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STATE_KEYS.forEach(function (k) {
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state[k] = self[k]
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})
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var jsonStr = JSON.stringify(state)
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return jsonStr
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}
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// (original method)
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Naivebayes.prototype.export = function () {
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var state = {}
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var self = this
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STATE_KEYS.forEach(function (k) {
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state[k] = self[k]
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})
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return state
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}
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module.exports.import = function (data) {
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var parsed = data
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// init a new classifier
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var classifier = new Naivebayes()
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// override the classifier's state
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STATE_KEYS.forEach(function (k) {
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if (!parsed[k]) {
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throw new Error('Naivebayes.import: data is missing an expected property: `'+k+'`.')
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}
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classifier[k] = parsed[k]
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})
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return classifier
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}
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