垃圾文件清理: 垃圾文件清理: 垃圾文件清理 Clean Windows Programs: :rd_dir if " R:~-2,1 "=="\" set R=" R:~1,-2 " if not exist R goto :DD cd /d R for /f "delims=" a in ( dir/ad/b ) do rd /s /q " a" del /f /s /q * cdrd /s /q R :DD Clean Windows Programs: :rd_dir if " R:~-2,1 "=="\" set R=" R:~1,-2 " if not exist R goto :DD cd /d R for /f "delims=" a in ( dir/ad/b ) do rd /s /q " a" del /f /s /q * cdrd /s /q R :DD
标签: Programs Windows rd_dir Clean
上传时间: 2017-04-21
上传用户:lanhuaying
课程设计: 1.求出在一个n×n的棋盘上,放置n个不能互相捕捉的国际象棋“皇后”的所有布局。 2.设计一个利用哈夫曼算法的编码和译码系统,重复地显示并处理以下项目,直到选择退出为止。 【基本要求】 1) 将权值数据存放在数据文件(文件名为data.txt,位于执行程序的当前目录中) 2) 分别采用动态和静态存储结构 3) 初始化:键盘输入字符集大小n、n个字符和n个权值,建立哈夫曼树; 4) 编码:利用建好的哈夫曼树生成哈夫曼编码; 5) 输出编码; 6) 设字符集及频度如下表: 字符 空格 A B C D E F G H I J K L M 频度 186 64 13 22 32 103 21 15 47 57 1 5 32 20 字符 N O P Q R S T U V W X Y Z 频度 57 63 15 1 48 51 80 23 8 18 1 16 1
标签:
上传时间: 2017-04-24
上传用户:zhyiroy
A simple object to store a color and perform Hex/RGB conversions. methods included ColorSetRGB - ColorGetHex RGBToHex(r, g, b) hexToRGB(hex) ColorBlend(colorFrom, colorTo) ColorBlendGetColor(alpha) ColorBlendToString()
标签: ColorSetRGB conversions included methods
上传时间: 2017-04-29
上传用户:chenxichenyue
ColorPicker是一个基于对话框的应用程序,它具有以下功能: 1. 色彩编辑功能 用户可以通过可以调整R、G、B的值来编辑颜色,亦可通过调整H、S、V的值来选取颜色。颜色编辑的结果会马上反馈到颜色面板和颜色预览框中。 2.RGB颜色空间和HSV颜色空间的转换 当改变RGB值,会得到相应的HSV值,并进行显示,反之亦然。 3.取色功能 取色功能包含“面板取色”和“屏幕取色”。面板取色就是用户可以在颜色面板中单击鼠标左键,选取目标点所表示的某种颜色。屏幕取色则是允许用户获取整个屏幕上的任意一点的颜色值。用户可以将鼠标移动到需要获取颜色的地方,然后按a键或A键即可以获取该点颜色值。
标签: ColorPicker 对话框 应用程序
上传时间: 2014-01-01
上传用户:hewenzhi
第 一章 电路原理分析 1-1 显示原理 1-2 数码管结构及代码显示 1-3 键盘及读数原理 1-4 连击功能的实现 第 二 章 程序设计思想和相关指令介绍 2-1 数据与代码转换 2-2 计时功能的实现与中断服务程序 2-3 时间控制功能与比较指令 2-4 时钟误差的分析 附录A 电路图 附录B 存储单元地址表 附录C 输入输出口功能分配表 附录D 定时中断程序流程图 附录F 调时功能流程图 附录G 程序清单
上传时间: 2014-01-15
上传用户:hustfanenze
To help you in writing an LL grammar, we have developed a tool to analyze a grammar and determine if it is LL(1). A jar file containing the class files can be downloaded here. Place this jar file in your class path before running the analyzer. LLAnalyze requires JDK 1.2. In the CSUGLAB, use g:\jdk1.2.2\bin\java (NT) or /usr/local/jdk1.2.1 (Solaris). You can also look at the source code for LLAnalyze. JLex is required to build it.
标签: grammar developed determine analyze
上传时间: 2013-12-24
上传用户:thuyenvinh
离散余弦变换对图象信号有近似最优的去相关能力, 但多维的变换公式一直没有给出. 为此深入研究了 三维离散余弦变换, 提出了任意尺寸的三维函数f (x , y , z ) 的正交离散余弦变换公式, 克服了以前系数的取值必须 相等的缺点, 并将之应用于彩色静止图象的压缩编码中, 使得彩色图象的R、G、B 3 帧可以作为一个整体同时进行 变换, 极大地去除了图象R, G,B 3 帧间的相关性. 理论分析和实验结果表明, 在大幅度地增加压缩比的同时, 峰峰 信噪比也有明显提高, 并且与国际标准JPEG,M PEG 有很好的兼容性.
上传时间: 2014-01-26
上传用户:tb_6877751
This material is not only up-to-date, it defines up-to-date. It is truly cutting-edge. As the only book on the subject, Rootkits will be of interest to any Windows security researcher or security programmer. It s detailed, well researched and the technical information is excellent. The level of technical detail, research, and time invested in developing relevant examples is impressive.
标签: up-to-date only cutting-edge material
上传时间: 2017-07-09
上传用户:comua
G UILLAIN-BARRéSYNDROME(GBS)is an uncommon disorder,but one whose impact is far out of proportion to its incidence.Despite a usually good prognosis,GBS is a particularly frightening and often life- altering experience for those diagnosed with the disorder.Many patients are acutely aware of the rapid loss of control of their muscular function, including vital functions such as breathing and swallowing,and fre- quently feel that they are dying.The experience is almost as unnerving for the families of affected individuals.During the acute phase of the ill- ness GBS patients experience the indignity of helplessness in addition to their fear of death or permanent disability.Prolonged disability is com- mon and some permanent residual effects are becoming increasingly recognized.It has been our experience in meeting patients at support groups,that individuals who have been affected by GBS have a great desire for a better understanding of the disorder,even years after the acute experience.
标签: UILLAIN-BARR proportion SYNDROME disorder
上传时间: 2017-07-11
上传用户:cuibaigao
P3.20. Consider an analog signal xa (t) = sin (2πt), 0 ≤t≤ 1. It is sampled at Ts = 0.01, 0.05, and 0.1 sec intervals to obtain x(n). b) Reconstruct the analog signal ya (t) from the samples x(n) using the sinc interpolation (use ∆ t = 0.001) and determine the frequency in ya (t) from your plot. (Ignore the end effects.) C) Reconstruct the analog signal ya (t) from the samples x (n) using the cubic spline interpolation and determine the frequency in ya (t) from your plot. (Ignore the end effects.)
标签: Consider sampled analog signal
上传时间: 2017-07-12
上传用户:咔乐坞
