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StanfordNLP for JAVA demo

最近工作需要,研究学习 NLP ,但是 苦于官方文档太过纷繁,容易找不到重点,于是打算自己写一份学习线路

NLP 路线图
好博客韩小阳
斯坦福NLP公开课
统计学习方法
好博客

链接地址:https://pan.baidu.com/s/1myVT-yMzqzJIcl50mGs2JA
提取密码:tw6r

参考文档:

StanfordNLPAPI

依照 印度小哥的 视频 跑了一个小 demo

step 1 用 IDEA 构建一个 maven 项目,引入 相关依赖包,当前依赖包最新版本为 3.9.2

<dependency>
            <groupId>edu.stanford.nlp</groupId>
            <artifactId>stanford-corenlp</artifactId>
            <version>3.9.2</version>
        </dependency>
        <dependency>
            <groupId>edu.stanford.nlp</groupId>
            <artifactId>stanford-corenlp</artifactId>
            <version>3.9.2</version>
            <classifier>models</classifier>
        </dependency>

        <!--添加中文支持-->

        <dependency>
            <groupId>edu.stanford.nlp</groupId>
            <artifactId>stanford-corenlp</artifactId>
            <version>3.9.2</version>
            <classifier>models-chinese</classifier>
        </dependency>

step 2 使用 nlp 包

package com.ghc.corhort.query.utils;

import edu.stanford.nlp.coref.CorefCoreAnnotations;
import edu.stanford.nlp.coref.data.CorefChain;
import edu.stanford.nlp.ling.CoreAnnotations;
import edu.stanford.nlp.ling.CoreLabel;
import edu.stanford.nlp.pipeline.*;
import edu.stanford.nlp.semgraph.SemanticGraph;
import edu.stanford.nlp.semgraph.SemanticGraphCoreAnnotations;
import edu.stanford.nlp.trees.Tree;
import edu.stanford.nlp.trees.TreeCoreAnnotations;
import edu.stanford.nlp.util.CoreMap;

import java.util.*;

/**
 * @author :Frank Li
 * @date :Created in 2019/8/7 13:39
 * @description:${description}
 * @modified By:
 * @version: $version$
 */
public class Demo {
    public static void main(String[] args) {
        // creates a StanfordCoreNLP object, with POS tagging, lemmatization, NER, parsing, and coreference resolution
        Properties props = new Properties();
        props.setProperty("annotators", "tokenize, ssplit, pos, lemma, ner, parse, dcoref");
        StanfordCoreNLP pipeline = new StanfordCoreNLP(props);

        // read some text in the text variable
        String text = "I like eat apple!";

        // create an empty Annotation just with the given text
        Annotation document = new Annotation(text);

        // run all Annotators on this text
        pipeline.annotate(document);



        // these are all the sentences in this document
// a CoreMap is essentially a Map that uses class objects as keys and has values with custom types
        List<CoreMap> sentences = document.get(CoreAnnotations.SentencesAnnotation.class);

        for(CoreMap sentence: sentences) {
            // traversing the words in the current sentence
            // a CoreLabel is a CoreMap with additional token-specific methods
            for (CoreLabel token: sentence.get(CoreAnnotations.TokensAnnotation.class)) {
                // this is the text of the token
                String word = token.get(CoreAnnotations.TextAnnotation.class);
                // this is the POS tag of the token
                String pos = token.get(CoreAnnotations.PartOfSpeechAnnotation.class);
                // this is the NER label of the token
                String ne = token.get(CoreAnnotations.NamedEntityTagAnnotation.class);

                System.out.println("word:"+word+"-->pos:"+pos+"-->ne:"+ne);
            }

            // this is the parse tree of the current sentence
            Tree tree = sentence.get(TreeCoreAnnotations.TreeAnnotation.class);

            System.out.println(String.format("tree:\n%s",tree.toString()));
            // this is the Stanford dependency graph of the current sentence
            SemanticGraph dependencies = sentence.get(SemanticGraphCoreAnnotations.CollapsedCCProcessedDependenciesAnnotation.class);
        }

// This is the coreference link graph
// Each chain stores a set of mentions that link to each other,
// along with a method for getting the most representative mention
// Both sentence and token offsets start at 1!
        Map<Integer, CorefChain> graph =
                document.get(CorefCoreAnnotations.CorefChainAnnotation.class);
    }
}


输出结果

浅度原理


stanford corenlp的TokensRegex
最近做一些音乐类、读物类的自然语言理解,就调研使用了下Stanford corenlp,记录下来。

功能
Stanford Corenlp是一套自然语言分析工具集包括:

POS(part of speech tagger)-标注词性
NER(named entity recognizer)-实体名识别
Parser树-分析句子的语法结构,如识别出短语词组、主谓宾等
Coreference Resolution-指代消解,找出句子中代表同一个实体的词。下文的I/my,Nader/he表示的是同一个人
  





Sentiment Analysis-情感分析
Bootstrapped pattern learning-自展的模式学习(也不知道翻译对不对,大概就是可以无监督的提取一些模式,如提取实体名)
Open IE(Information Extraction)-从纯文本中提取有结构关系组,如"Barack Obama was born in Hawaii" =》 (Barack Obama; was born in; Hawaii)
需求
语音交互类的应用(如语音助手、智能音箱echo)收到的通常是口语化的自然语言,如:我想听一个段子,给我来个牛郎织女的故事,要想精确的返回结果,就需要提出有用的主题词,段子/牛郎织女/故事。看了一圈就想使用下corenlp的TokensRegex,基于tokens序列的正则表达式。因为它提供的可用的工具有:正则表达式、分词、词性、实体类别,另外还可以自己指定实体类别,如指定牛郎织女是READ类别的实体。

接下来要做 nlp2sql 的事情了



posted @ 2019-08-09 10:56  云雾散人  阅读(2021)  评论(0编辑  收藏  举报

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