搜索资源列表
LoopQue
- 使用队列实现环形缓冲区的设计,将算法实现和内存分配分开设计,适用于进程间内存共享等的情况-Queue to the design of the ring buffer, to separate design, algorithm and memory allocation for inter-process shared memory
share
- IPC通讯事例,进程间通过共享内存 system-v共享内存 进行通讯,通过读取文件将文件的信息读到内存,另一进程再在内存中读取信息。-IPC communication examples of communication, inter-process shared memory via a shared memory system- v file information by reading the file into memory, another process to read the i
queue
- 共享内存及信号量PV操作封装 功能:信号量p操作,信号量V操作 共享内存初始化,取出数据, 放入数据,统计共享内存队列长度 -PV Operation package features: shared memory and semaphores semaphore p operation, the semaphore V operation shared memory initialization, remove the data into the data, the sta
linux-multi-thread-synchronization
- linux多线程同步的方法 在线程对共享相同内存操作时,就会出现多个线程对同一资源的使用,为此,需要对这些线程进行同步,以确保它们在访问共享内存的时候不会访问到无效的数值。-linux multi-thread synchronization Threads share the same memory operation, there will be multiple threads use the same resources to do this, you need to synch
shmem.c
- shmem 的用法 创建共享内存 通过检查在共享内存的头部是否标志字符串"START"来确认父进程已经向共享内存写入有效数据-the shmem usage to create a shared memory by examining the head of the shared memory flag string " START" to confirm the parent process to write shared memory data
MuiltiProcessTab
- 一个简单的多进程多标签页浏览器,使用的是进程间通信实现,还使用了共享内存-A simple multi-process multi-tab browser, using inter-process communication, also uses a shared memory
linux_shm_open
- linux 共享内存操作,涉及共享内存的控制读写同步。-linux shared memory operations involved in the control of the shared memory read and write synchronization.
ShareMem
- 自己封装的共享内存库,可实现进程间数据共享-Shared memory library of their own package, to achieve inter-process data sharing
shm.c
- 用共享内存的方法实现在一个文件中找到最大的整数-Find the largest integer in a file with a shared memory
3.10-shared_memory.c.tar
- 操作系统进程通信--内存共享方式,C语言实现-Operating system process communication- shared memory mode
delphi_CreateFileMapping
- delphi 不同进程之间数据交换。采用CreateFileMapping实现的共享内存-the delphi different process data exchange. Using CreateFileMapping implementation of shared memory
msg_ipc
- 进程通信的管道,共享内存,消息队列的三种通行模式的举例代码-Examples of process communication pipe, shared memory, message queues three access modes code
APCOMPARISONPOFPTWOPPARADIGMSPFORPDISTRIBUTEDPSHA
- This paper compares two paradigms for Distributed Shared Memory on loosely coupled computing systems: the shared data-object model as used in Orca, a programming language specially designed for loosely coupled computing systems and the Shared V
allocator
- Memory allocator for shared memory access
double-pipe
- 一个详细的木马管道技术实例。管道技术是重要的木马编程技术。管道(pipe)是一种简单的进程间通信(IPC)机制,实际是一段共享内存,一个进程在向管道写入数据后,另一个进程就可以从管道的另一端将其读取出来.-Instance a detailed Trojans pipeline technology. Pipeline technology is important Trojan programming techniques. Pipes (pipe) is a simple, inter-pr
simple-double-pipe
- 一个简单的木马管道技术实例。管道技术是重要的木马编程技术。管道(pipe)是一种简单的进程间通信(IPC)机制,实际是一段共享内存,一个进程在向管道写入数据后,另一个进程就可以从管道的另一端将其读取出来.-A simple the Trojans pipeline technology instance. Pipeline technology is important Trojan programming techniques. Pipes (pipe) is a simple, inter-
main
- 使用C语言实现生产者消费者流程,生产者产生数据以供消费者使用,双方共享内存。-The producer-consumer processes, producers produce data for consumers to use, and the two sides shared memory.
linux-process-communication
- linux进程通信实际中的应用 ,使用共享内存来进行日志存取-The linux process communication actual application, use shared memory to log access
IPC-RaD
- 一个不错的例子实现RTX与Windows之间的通信,通过共享内存实现了数据的交换。Rtx实时操作系统下的一个应用开发的例子,能调试运行,能帮你快速理解Rtx下的编程。-A good example to realize the communication between the RTX with Windows, through the Shared memory realized data exchange. Rtx real-time operating system of a applic
ACE_study_file
- ACE自适配通信环境(ADAPTIVE Communication Environment)是可自由使用、开放源码的面向对象(OO)构架(framework),它实现了许多用于并发通信软件的核心模式。ACE提供了一组丰富的可重用C++包装外观(wrapper facade)和构架组件,可跨多种平台完成通用的通信软件任务,其中包括:事件多路分离和事件处理器分派、信号处理、服务初始化、进程间通信、共享内存管理、消息路由、分布式服务动态(重)配置、并发执行和同步,等等。 -ACE ADAPTIVE C