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算法——字符串匹配之有限自动机算法

时间:2014-10-09 02:19:47      阅读:151      评论:0      收藏:0      [点我收藏+]

标签:有限自动机字符串匹配算法   算法导论   字符串匹配   

前言

    上篇文章介绍《Rabin-Karp字符串匹配算法》,这里介绍有限自动机(Finite Automata)字符串匹配算法,有限自动机(Finite Automata)字符串匹配算法最主要的是计算出转移函数。即给定一个当前状态k和一个字符x,计算下一个状态;计算方法为:找出模式pat的最长前缀prefix,同时也是pat[0...k-1]x(注意:字符串下标是从0开始)的后缀,则prefix的长度即为下一个状态。匹配的过程是比较输入文本子串和模式串的状态值,若相等则存在,若不想等则不存在。有关理论知识参考《算法导论》,这里不对理论知识进行讲解。

有限自动机字符串匹配算法

    若模式串pat的长度为m,则状态值为0-m,即有m+1个状态,初始状态为0其中numbers=NO_OF_CHARS为输入字符表的个数,从以下的源码可以知道,计算转移函数(即预处理)的时间复杂度为bubuko.com,布布扣,匹配时间复杂度为bubuko.com,布布扣。该算法可以根据后面介绍的KMP算法进行改进,对求解转移函数的过程进行改进可以得到比较好的时间复杂度bubuko.com,布布扣

    以下是模式串为P=abababaca的自动机执行过程

bubuko.com,布布扣

源码实现

#include<iostream>
#include<string>

using namespace std;

const int NO_OF_CHARS = 256;//the numbers of input alphabet

int getNextState(const string &pat, int M, int state, int x)
{
    // If the character c is same as next character in pattern,
    // then simply increment state
    if (state < M && x == pat[state])
        return state+1;
 
    int ns, i;  // ns stores the result which is next state
 
    // ns finally contains the longest prefix which is also suffix
    // in "pat[0..state-1]c"
 
    // Start from the largest possible value and stop when you find
    // a prefix which is also suffix
    for (ns = state; ns > 0; ns--)
    {
        if(pat[ns-1] == x)
        {
            for(i = 0; i < ns-1; i++)
            {
                if (pat[i] != pat[state-ns+1+i])
                    break;
            }
            if (i == ns-1)
                return ns;
        }
    }
 
    return 0;
}
 
/* This function builds the TF table which represents Finite Automata for a
   given pattern  */
void compute_Transition_Function(const string &pat, int M, int TF[][NO_OF_CHARS])
{
    int state, x;
    for (state = 0; state <= M; ++state)
        for (x = 0; x < NO_OF_CHARS; ++x)//for each charater c in the inout alphabet table
           TF[state][x] = getNextState(pat, M,  state, x);
}
 
/* Prints all occurrences of pat in txt */
void Finite_Automata_search(const string &pat, const string &txt)
{
    int M = pat.length();
    int N = txt.length();
	
    int TF_len = M+1;
    //this is supported by C++11
	int TF[TF_len][NO_OF_CHARS];//the state of transform table, stores the states.
 
    compute_Transition_Function(pat, M, TF);//compute the state of Transition Function 
 
    // Process txt over FA.
    int state=0;//inite the state
    for (int i = 0; i < N; i++)
    {
       state = TF[state][txt[i]];
       if (state == M)
			cout<<"patterb found at index is:"<<i-M+1<<endl;
       
    }
}
 
int main()
{
   string txt = "Finite Automata Algorithm: Finite Automata";
   string pat = "Auto";
   Finite_Automata_search(pat, txt);
   system("pause");
   return 0;
}

参考资料:

《算法导论》

http://www.geeksforgeeks.org/searching-for-patterns-set-5-finite-automata/

http://my.oschina.net/amince/blog/182210


算法——字符串匹配之有限自动机算法

标签:有限自动机字符串匹配算法   算法导论   字符串匹配   

原文地址:http://blog.csdn.net/chenhanzhun/article/details/39897709

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