The following Philips LPC2k CAN examples in this directory
were provided by ESAcademy.
LPC2_CANAll_V110:
Receives all CAN messages in a receive queue.
LPC2_CANFull_V110:
Uses Full-CAN-like reception filtering.
LPC2_CANBlinky_V130:
Minimal example of MicroCANopen, uses Full-CAN-like
reception filtering and implements both Rx and Tx
Interrupt Service Routines.
Draak is a multi-language, macro compiler, meaning all syntax and code generation is defined in a single file. Draak is a single binary that is able to compile any context free language (like C, Pascal, Java) for any platform with only 1 file.
Draak Compiler是一個多語言,宏編譯器,可以在一個單獨的文件中定義所有的語法和代碼生成。Draak 是一個單獨的二進制文件,可以在任意平臺上只使用一個文件來編譯任何上下文無關的語言(類似 C, Pascal, Java)。
CoLIN 人工語言模擬 漢化版 2002年8月9日
原作者
布朗 alan j. brown
15 Kinloch Road
Renfrew
Scotland
PA4 0RJ
alan@barc0de.demon.co.uk
http://www.barc0de.demon.co.uk/
漢化者
陳輝
主頁: http://go2debug.yeah.net
郵件: go2debug@hotmail.com
ICQ: 149054569
簡介
通過菜單可以清空數據庫。
程序會從你的輸入中學習,如果你不想這樣,就請關閉學習功能。
原作者聲明
This program is giftware. If you like it send me something nice.
Copyright is fully reserved by Alan J. Brown, any program developed from the CoLIN source code must give Alan J. Brown appropriate credit.
更多問題
請到我的主頁 http://go2debug.yeah.net
或者給我發信 go2debug@hotmail.com
另外在布朗的主頁上有留言板
This is an example how one could hide a process on Windows based
operation systems from task viewers like ProcDump (G-RoM, Lorian
& Stone) or ProcessExplorer (SysInternals).
It could e.g. be used as some kind of dump protection.
The way to get this done is very different on NT and 9x machines.
This project is created using the Keil ARM CA Compiler.
The Logic Analyzer built into the simulator may be used to monitor and display any variable or peripheral I/O register. It is already configured to show the PWM output signal on PORT3.0 and PORT3.1
This ARM Example may be debugged using only the uVision Simulator and your PC--no additional hardware or evaluation boards are required. The Simulator provides cycle-accurate simulation of all on-chip peripherals of the ADuC7000 device series.
You may create various input signals like digital pulses, sine waves, sawtooth waves, and square waves using signal functions which you write in C. Signal functions run in the background in the simulator within timing constraints you configure. In this example, several signal functions are defined in the included Startup_SIM.INI file.
JBoss, one of the leading java Open Source groups, integrates and develops these services for a full J2EE-based implementation. JBoss provides JBossServer, the basic EJB container, and Java Manage Preface 18 Great Events of the Twentieth Centuryment Extension (JMX) infrastructure. It also provides JBossMQ, for JMS messaging, JBossTX, for JTA/JTS transactions, JBossCMP for CMP persistence, JBossSX for JAAS based security, and JBossCX for JCA connectivity. Support for web components, such as servlets and JSP pages, is providedby an abstract integration layer. Implementations of the integration service are provided for third party servlet engines like Tomcat and Jetty. JBoss enables you to mix and match these components through JMX by replacing any component you want with a JMX compliant implementation for the same APIs.
FreeJaPoll is a free software that make possible to add in a simple way a web-survey to your
own site. FreeJaPoll is a servlet written in Java programming language the program logo
(on the right) shows The Duke (Java mascotte) and a duke-like colored chicken...why? Because
the word "Poll" in my native language, Italian, is very similar to the corrispective English
word "Chiken" -)
This application, built in VB using MapObjects, allows the user
to zoom in, zoom out and pan using only the mouse. The pan is
a dynamic pan just push the mouse in the direction you would
like to pan.
Although there has been a lot of AVL tree libraries available now, nearly all of them are meant to work in the random access memory(RAM). Some of them do provide some mechanism for dumping the whole tree into a file and loading it back to the memory in order to make data in that tree persistent. It serves well when there s just small amount of data. When the tree is somewhat bigger, the dumping/loading process could take a lengthy time and makes your mission-critical program less efficient. How about an AVL tree that can directly use the disk for data storage ? If there s something like that, we won t need to read through the whole tree in order to pick up just a little bit imformation(a node), but read only the sectors that are neccssary for locating a certain node and the sectors in which that node lies. This is my initial motivation for writing a storage-media independent AVL Tree. However, as you step forth, you would find that it not only works fine with disks but also fine with memorys, too.
