前面省略，见上一篇。。。。

 #单链表字符串类

 class string(single_list):

     def __init__(self, value):

         self.value = str(value)

         single_list.__init__(self)

         for i in range(len(self.value)-1,-1,-1):

             self.prepend(self.value[i])

     def length(self):

         return self._num

     #获取字符串对象值的列表，方便下面使用

     def get_value_list(self):

         l = []

         p = self._head

         while p:

             l.append(p.elem)

             p = p.next

         return l

     def printall(self):

         p = self._head

         print("字符串结构：",end="")

         while p:

             print(p.elem, end="")

             if p.next:

                 print("-->", end="")

             p = p.next

         print("")

     #朴素的串匹配算法，返回匹配的起始位置

     def naive_matching(self, p):  #self为目标字符串，t为要查找的字符串

         if not isinstance(self, string) and not isinstance(p, string):

             raise stringTypeError

         m, n = p.length(), self.length()

         i, j = 0, 0

         while i < m and j < n:

             if p.get_value_list()[i] == self.get_value_list()[j]:#字符相同，考虑下一对字符

                 i, j = i+1, j+1

             else:               #字符不同，考虑t中下一个位置

                 i, j = 0, j-i+1

         if i == m:              #i==m说明找到匹配,返回其下标

             return j-i

         return -1

     #kmp匹配算法，返回匹配的起始位置

     def matching_KMP(self, p):

         j, i = 0, 0

         n, m = self.length(), p.length()

         while j < n and i < m:

             if i == -1 or self.get_value_list()[j] == p.get_value_list()[i]:

                 j, i = j + 1, i + 1

             else:

                 i = string.gen_next(p)[i]

         if i == m:

             return j - i

         return -1

     # 生成pnext表

     @staticmethod

     def gen_next(p):

         i, k, m = 0, -1, p.length()

         pnext = [-1] * m

         while i < m - 1:

             if k == -1 or p.get_value_list()[i] == p.get_value_list()[k]:

                 i, k = i + 1, k + 1

                 pnext[i] = k

             else:

                 k = pnext[k]

         return pnext

     #把old字符串出现的位置换成new字符串

     def replace(self, old, new):

         if not isinstance(self, string) and not isinstance(old, string) \

                 and not isinstance(new, string):

             raise stringTypeError

         while self.matching_KMP(old) >= 0:

             #删除匹配的旧字符串

             start = self.matching_KMP(old)

             print("依次发现的位置:",start)

             for i in range(old.length()):

                 self.delitem(start)

             #末尾情况下时append追加的，顺序为正；而前面的地方插入为前插；所以要分情况

             if start<self.length():

                 for i in range(new.length()-1, -1, -1):

                     self.insert(start,new.value[i])

             else:

                 for i in range(new.length()):

                     self.insert(start,new.value[i])

 if __name__=="__main__":

     a = string("abc")

     print("字符串长度：",a.length())

     a.printall()

     b = string("abcbccdabc")

     print("字符串长度：", b.length())

     b.printall()

     print("朴素算法_匹配的起始位置：",b.naive_matching(a),end=" ")

     print("KMP算法_匹配的起始位置：",b.matching_KMP(a))

     c = string("xu")

     print("==")

     b.replace(a,c)

     print("替换后的字符串是：")

     b.printall()

     print(b.get_value_list())