文件名称:trees
- 所属分类:
- Windows编程
- 资源属性:
- [Windows] [Visual C] [源码]
- 上传时间:
- 2012-11-26
- 文件大小:
- 868kb
- 下载次数:
- 0次
- 提 供 者:
- skya****
- 相关连接:
- 无
- 下载说明:
- 别用迅雷下载,失败请重下,重下不扣分!
介绍说明--下载内容均来自于网络,请自行研究使用
树的和
★问题描述
LISP是一种高级语言,可以用它来表示其它的数据结构,例如二叉树。二叉树由LISP的S
表达式来表示,其规则如下:
空树=()
树= (整数 左子树 右子树)
叶节点=(整数 () ())
★编程任务
问题是给定一棵由LISP的S表达式决定的二叉树,问是否存在一条从根到叶节点的路径
P,使这条路径上所有节点的和等于一个给定的整数I。
★数据输入
由文件input.txt给出输入数据。每个输入数据包含多组数据,每组数据包含一个整数I和
一个S表达式T(代表二叉树),整数I后可以跟多个空格。S表达式可以跨越多行,可以包含多余
的空格。
★结果输出
将计算结果输出到文件output.txt。如果存在一条路径p,使路径上所有节点的和等于I,
则输出”yes”,否则输出”no”。
输入文件示例输出文件示例
input.txt output.txt
22 (5(4(11(7()())(2()()))
())
(8(13()())(4()(1()()))))
20 (5(4(11(7()())(2()()))
())
(8(13()())(4()(1()()))))
10 (3
(2 (4 () () )
(8 () () ) )
(1 (6 () () )
(4 () () ) ) )
5 ()
yes
no
yes
no
-Descr iption of the problem ★
LISP is a high-level language, you can use it to that other data structures, such as binary tree. Binary tree by the LISP S-
Expression to that of its rules as follows:
Empty tree = ()
Tree = (Integer left subtree right subtree)
Leaf node = (integer () ())
★ programming tasks
The problem is given by an S-expression LISP decision tree to ask whether there is a leaf node from the root to the path
P, so that all nodes on the path and equal to a given integer I.
★ data entry
Given by the input data file input.txt. Each input data includes multiple sets of data, each data contains an integer I and
An S expression T (on behalf of binary tree), integral I can be with a number of spaces. S expression across multiple lines, may contain redundant
Spaces.
★ output
The results will be output to the file output.txt. If there is a path p, so that the path on all nodes and equal to I,
Then output "yes", otherwise output "no".
Sample input file output file
★问题描述
LISP是一种高级语言,可以用它来表示其它的数据结构,例如二叉树。二叉树由LISP的S
表达式来表示,其规则如下:
空树=()
树= (整数 左子树 右子树)
叶节点=(整数 () ())
★编程任务
问题是给定一棵由LISP的S表达式决定的二叉树,问是否存在一条从根到叶节点的路径
P,使这条路径上所有节点的和等于一个给定的整数I。
★数据输入
由文件input.txt给出输入数据。每个输入数据包含多组数据,每组数据包含一个整数I和
一个S表达式T(代表二叉树),整数I后可以跟多个空格。S表达式可以跨越多行,可以包含多余
的空格。
★结果输出
将计算结果输出到文件output.txt。如果存在一条路径p,使路径上所有节点的和等于I,
则输出”yes”,否则输出”no”。
输入文件示例输出文件示例
input.txt output.txt
22 (5(4(11(7()())(2()()))
())
(8(13()())(4()(1()()))))
20 (5(4(11(7()())(2()()))
())
(8(13()())(4()(1()()))))
10 (3
(2 (4 () () )
(8 () () ) )
(1 (6 () () )
(4 () () ) ) )
5 ()
yes
no
yes
no
-Descr iption of the problem ★
LISP is a high-level language, you can use it to that other data structures, such as binary tree. Binary tree by the LISP S-
Expression to that of its rules as follows:
Empty tree = ()
Tree = (Integer left subtree right subtree)
Leaf node = (integer () ())
★ programming tasks
The problem is given by an S-expression LISP decision tree to ask whether there is a leaf node from the root to the path
P, so that all nodes on the path and equal to a given integer I.
★ data entry
Given by the input data file input.txt. Each input data includes multiple sets of data, each data contains an integer I and
An S expression T (on behalf of binary tree), integral I can be with a number of spaces. S expression across multiple lines, may contain redundant
Spaces.
★ output
The results will be output to the file output.txt. If there is a path p, so that the path on all nodes and equal to I,
Then output "yes", otherwise output "no".
Sample input file output file
(系统自动生成,下载前可以参看下载内容)
下载文件列表
trees
.....\Debug
.....\.....\trees.exe
.....\.....\trees.ilk
.....\.....\trees.obj
.....\.....\trees.pch
.....\.....\trees.pdb
.....\.....\vc60.idb
.....\.....\vc60.pdb
.....\ReadMe.txt
.....\StdAfx.cpp
.....\StdAfx.h
.....\trees.cpp
.....\trees.dsp
.....\trees.dsw
.....\trees.ncb
.....\trees.opt
.....\trees.pdf
.....\trees.plg
.....\trees.ppt
.....\trees.txt
.....\Debug
.....\.....\trees.exe
.....\.....\trees.ilk
.....\.....\trees.obj
.....\.....\trees.pch
.....\.....\trees.pdb
.....\.....\vc60.idb
.....\.....\vc60.pdb
.....\ReadMe.txt
.....\StdAfx.cpp
.....\StdAfx.h
.....\trees.cpp
.....\trees.dsp
.....\trees.dsw
.....\trees.ncb
.....\trees.opt
.....\trees.pdf
.....\trees.plg
.....\trees.ppt
.....\trees.txt