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eclat
- A program to find frequent itemsets (also closed and maximal) with the eclat algorithm ,which carries out a depth first search on the subset lattice and determines the support of itemsets by intersecting transaction lists. -A program to find frequent
基于AI的问题求解
- 提供了深度优先搜索,广度优先搜索,添加启发信息的最小代价搜索,查找多个解,查找最优解的范例程序.-a depth-first search, breadth - first search, add the information inspired the minimum price for a search of solutions to search, find out the optimal solution sample programs.
adj1
- 基于伴随算子的优化算法,伴随算子作为一个当今优化领域中一个比较有前途的算法,欧美各国都对此作了比较深入的研究,他大大缩短了多参数优化中所需要的时间,可以一次求出所以的下降梯度,求解时间和求解一次流场的时间相当。-Adjoint operator-based optimization algorithm, with the operator as an optimization of today' s one of the more promising algorithms, Europea
datastructure
- 数据结构二叉树实验报告,包括 (1)创建二叉树 (2)递归算法先序遍历二叉树 (3)非递归算法中序遍历二叉树 (4)递归算法后序遍历二叉树 (5)求二叉树叶子结点个数 (6)按层次遍历二叉树 (7)求二叉树树深 -A binary tree data structure, experimental report, including (1) Create a binary tree (2) recursive algorithm for preorder trav
structure
- 数据结构二叉树实现代码:功能如下: (1)创建二叉树 (2)递归算法先序遍历二叉树 (3)非递归算法中序遍历二叉树 (4)递归算法后序遍历二叉树 (5)求二叉树叶子结点个数 (6)按层次遍历二叉树 (7)求二叉树树深 -A binary tree data structure to achieve the code: Function is as follows: (1) Create a binary tree (2) recursive alg
TreeOperation
- 数据结构树的操作,包括输入二叉树用广义表表示的字符串,前序,中序,后序,按层遍历,查找树中元素,还有树的深度-Tree data structure operations, including input binary string representation of generalized table, pre-order, in order, the order, according to the layer through to find the tree of elements, as
IntroductionToAlgorithm
- 算法导论 经典中的经典 找了很久才找到 内容我就不深入介绍了 大家自己看吧 不需要账号直接下载-Introduction to the classic algorithm to find the classic for a long time to find the contents of my depth not introduce himself and see the U.S. do not need to account direct download
winep_code
- 这是一个典型的产生式系统的算法题.用的是有界深度优先的递归算法,是用C++Builder4.0写的.这也是人工智能或者程序设计竞赛题中最基本最常用的算法.如果自己动手编程实现了一个这样的题目,那么很多相关的题目也就都一样可以做了,比如"四皇后问题","推箱子问题","传教士和野人问题"等等。 利用深度优先的算法都是不一定能找到最优路径的,而且如果解路径过长的话还可能会搜索失败.如果保证要找到最优路径需要用另一些算法,比如宽度优先算法.无论是哪一种算法,如果问题稍微复杂一点的话,都要解决"
WebSpider
- 可以对网络进行爬寻,具体爬寻方式可以设置为深度优先或者广度优先。-Climbing on the network can find the specific way of climbing can be set to look for depth-first or breadth-first.
sjjg
- Josephu问题,一元多项式的相加问题,模拟停车场管理问题,线性表的逆置算法,合并有序表,遍历二叉树(递归算法),求二叉树的节点数、叶子数和深度(递归算法),交换二叉树的左右孩子,有序表的折半查找,按递减次序输出二叉树中大于X的各元素的值,按递减次序输出二叉树中小于X的各元素的值,整理关键字使负值在前,冒泡排序-Josephu problem, the sum of one dollar polynomial problem, the issue of car park management
TreeDepth
- 通过遍历二叉树,求二叉树的深度 使用是先输入各节点的数据,再得出二叉树的深度-By traversing a binary tree, find the depth of use is the first binary input data on each node, and then arrive at the depth of binary tree
generallist
- 求广义表的深度 利用数组传值,建立单链表并将其初始化。 利用递归求出每个子表的深度,进而求出广义表的深度。 先看两个表的深度是否相同,若相同,对表A中的每个元素i,扫描表B中的每个元素,对与i深度相同的元素j,再将i中的每个元素与j中的每个元素进行比较。(运用递归算法)-Seeking a broad depth of the table The use of an array passed by value, establish a single list of its in
ai1
- 带回溯的深度优先策略:解决经典野人传教士过河问题的求解:三个修道士和三个野人过河,船一次最多只能载两个人,在任何时候修道士的人数不能少于野人人数,否则野人会吃掉修道士。找出六个人顺利过河的所有方案。 采用带回溯的深度优先搜索策略,共定义了7种合法操作{2,0,0},{1,0,0},{1,1,0},{0,1,0},{0,2,0},{0,1,1},{1,0,1}代表上船的人数,根据船所在位置决定在状态上是加或者减操作。扩展结点时按顺序应用操作,知道回溯到初始状态且所有操作用完,程序结束。-Wi
eclat.tar
- 很好的实现eclat算法的程序。A program to find frequent item sets (also closed and maximal) with the eclat algorithm (Zaki et al. 1997), which carries out a depth first search on the subset lattice and determines the support of item sets by intersecting transacti
DFS
- A program to find the depth first search on a given graph.It contains a source code, input file and an output file.
Binary_Tree
- 根据二叉树的抽象数据类型的定义,使用二叉链表实现一个二叉树。 二叉树的基本功能: 1、二叉树的建立 2、前序遍历二叉树 3、中序遍历二叉树 4、后序遍历二叉树 5、按层序遍历二叉树 6、求二叉树的深度 7、求指定结点到根的路径 8、二叉树的销毁 -According to the abstract data type binary definition, use two forks to implement a binary tree
bianli
- 二叉树的遍历,先序建立二叉树结构,包括前序、中序、后序遍历的递归和非递归遍历,求二叉树的深度。-Binary tree traversal, binary tree structure, the establishment of the first order, including the former order, in order, after traversing the recursive and non recursive traversal, find the depth of a
Depth_image
- Algorithm to find Depth of Image
An-In-Depth-Look-into-the-Win32
- 你可能想知道为什么要关注可执行文件的格式。答案永远是:操作系统的可执行文件格式和数据结构展现了操作系统内部许多信息。通过理解 EXE和 DLL 的内部情况,你会发现你已经变成你周围一个更优秀的程序员。 -You may want to know why the attention to executable file format. The answer is always: operating system executable file format and data structu
Maze-depth-first-algorithm
- 迷宫深度优先算法,深度优先是按照一定的顺序查找完一个分支,再查找另外一个分支,直到找到目标为止。-Depth first is according to certain order to find a branch, then find another branch, until find the target.