▍1. Cdeepon
C语言深度剖析。请认真阅读自己分析。自己实际连一下。(C deepon。)
这是一个实现找出欧拉路径的的算法,比较完美的解决了欧拉算法(This is an implementation of the algorithm to find Euler path, the more perfect solution to the Euler algorithm)
魔王语言:输入一串字符,可自动翻译成一串语言。(the program of language)
先序创建二叉树,将二叉树所有节点的左右子树交换,再先序遍历输出(create a binary tree in first order, exchange all the nodes of the binary subtree , then preorder output)
C语言插入排序算法及代码 C语言中函数参数的传递有:值传递、地址传递、引用传递这三种形式。题一为值传递,题二为地址传递,题三为引用传递。(Insertion sort algorithm and C language code The parameter of function in C language transfer: transfer value, address, pass by reference to these three forms. Problem a value transfer, the transfer of Title address, three for reference. )
数据结构线性表教学笔记,内容讲基础知识,没基础可以看看(Linear table data structure teaching notes, basic knowledge content says, no base can take a look)
通过冒泡排序法和选择排序法实现对若干数字的排序。(To achieve the order of several numbers)
链表练习 掌握数据的链式存储结构及它们在计算机中的实现方法。(Chain store chain exercises control structure of the data and their implementation in the computer.)
设计一个校园模拟导游程序,为新生或来访的客人通过与机器的“对话“提供最短路径的信息查询服务。(Analog design a campus tour program for freshmen or guests visiting the shortest path information services through the machine "dialogue.")
用模板实现了单向链表的增删改查等功能,并且适用于多种数据结构和类,简单实用,是学习和使用的绝好资料(Template to achieve a one-way linked list CRUD functions, and is suitable for a variety of data structures and classes, simple and practical, is to learn and use excellent information)
用C++编写的队列是用链表实现的一个模版,用VS2012可以直接运行(Written by C++ queue is implemented using a template list, you can directly run by VS2012)
本书是关于计算机科学与工程领域的基础性研究科目之一——数据结构与算法的专著。 本书在简要回顾了基本的C++ 程序设计概念的基础上,全面系统地介绍了队列、堆栈、树、图等基本数据结构,以及贪婪算法、分而治之算法、分枝定界算法等多种算法设计方法,为数据结构与算法的继续学习和研究奠定了一个坚实的基础。更为可贵的是,本书不仅仅介绍了理论知识,还提供了50多个应用实例及600多道练习题。 本书内容广博权威,结构清晰合理,是一本全新的有关数据结构与算法的教材,对于计算机科学与工程领域的从业人员也是一本很好的参考书。 11-15章 (This book is about the field of computer science and engineering subjects of basic research- data structures and algorithms monographs. In a brief review of the book based on the basic concept of C++ programming on a comprehensive and systematic introduction to the queues, stacks, trees, graphs and other basic data structures, and the greedy algorithm, a variety of algorithms divide and conquer algorithms, branch and bound algorithm design method for data structures and algorithms continue to learn and study laid a solid foundation. More valuable is the book not only theoretical knowledge, but also provides more than 50 application examples and more than 600 channel exercises. Book a broad authority, clear and reasonable structure, is a new data structures and algorithms related materials, for the field of computer science and engineering practitioners also a good reference book. Chapter 11-15)
长整数四则运算,利用双向循环链表实现长整数的存储,每个结点含一个整形变量。 (Long integer arithmetic, the use of two-way circular linked list to achieve long integer storage, each node contains an integer variable.)
简单的一个链栈.即用链表实现的一个栈。可以做简单的插入、删除、查找等操作(this is a simple C++ program )
自己用c语言写的一个模块化多电平最近电平调制排序的c程序,希望对大家有帮助(Own use c language written in a modular multi-level modulation level recently sort of c program, we hope to help)
使用C++/C语言实现的红黑树,对于数据结构的学习有所帮助。(Use red-black tree C++/C language for learning data structures helpful.)
单向链表的创建与操作 设单向链表中节点的数据域的数据类型为整型,编写函数实现以下操作: (1)实现单向链表的创建(包括初始化)与输出操作,节点的个数及节点的数据由用户输入。 (源代码:ds3-1.c) (2)查找给定的单链表中的第i个节点,并将其地址返回。若不存在第i个节点,则返回空地址。 (源代码:ds3-2.c) (3)查找给定的单链表中值为n的节点,并将其地址返回。若不存在值为n的节点,则返回空地址。同时,还应通过参数传回该节点的序号。 (源代码:ds3-3.c) (4)删除给定的单链表中的第i个节点,成功返回1,失败返回0。 (源代码:ds3-4.c) (5)删除给定的单链表中值为n的节点,成功返回1,失败返回0。 (源代码:ds3-5.c) (6)在给定的单链表的第i位上插入值为n的节点。 (源代码:ds3-6.c) (7)在给定单链表的值为m的节点的前面插入一个值为n的节点。 (源代码:ds3-7.c) (Creation and operation of a one-way linked list Set up a one-way linked list data type node integer data fields , write a function to achieve the following: ( 1 ) achieve the creation of a one-way linked list ( including initialization ) and output operation , the number of nodes and node data entered by the user . ( Source : ds3-1.c) ( 2 ) Find a single list given in the i-th node and returns its address . Without the presence of the i-th node , returns an empty address. ( Source : ds3-2.c) ( 3 ) Find a given node in a given value of n single list , and return address . Without the presence of the value of n nodes , returns an empty address. Meanwhile, the number should be returned by the parameters of the node . ( Source : ds3-3.c) ( 4 ) Delete the given singly linked list in the i-th node , the successful return 1, else return 0 . ( Source : ds3-4.c) ( 5 ) to delete a single node in the list is given n , the successful return 1, else return 0 . ( Source : ds3-5.c) ( 6 ) )
最短路径算法。 用无向带全图的邻接矩阵存储图,确定从源点出发到其它各点的最短路径。 输入:图中包含的顶点数n 边数m, 各边权值,用邻接矩阵或者邻接表存储。 输出:源点到其它各点的最短路径值。(Shortest path algorithm. Adjacency matrix storage with undirected graph with a full figure, determine the starting point of the shortest path from the source point of each other. Input: Vertices figure included n the number of edges m, the weight of each side, with the adjacency matrix or adjacency table storage. Output: source shortest path to value each other points.)