marl
gruvi
marl | gruvi | |
---|---|---|
1 | 1 | |
1,781 | 94 | |
1.1% | - | |
5.7 | 10.0 | |
5 months ago | over 6 years ago | |
C++ | Python | |
Apache License 2.0 | MIT License |
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marl
gruvi
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Fiber in C++: Understanding the Basics
A disadvantage to the ‘no function coloring’ in fibers is that it makes lockless programming harder. A nested function call can switch from under you without your knowledge, making it hard to know where the preemption points are and whether to take locks when making updates to shared state. With function coloring you know exactly whether a function might switch or not.
I’ve programmed both fiber based systems and coroutines. I even created my own fiber libraries for Python (https://github.com/geertj/gruvi) and C++ (https://github.com/geertj/cgreenlet, mostly an experiment, and incorrectly named coroutines for C++ while it’s really fibers). In the Python version I experimented with some features to help you know whether a nested function might switch.
In the end, for me and for the problem domains I worked in, the explicit async/await co-routine style wins over fibers. It gives you most of the performance and memory benefits of user mode switching while keeping your code mostly lock free.
What are some alternatives?
stack-switching - A repository for the stack switching proposal.
context
ghost-userspace
llvm-project - The LLVM Project is a collection of modular and reusable compiler and toolchain technologies.
cgreenlet - Coroutines for C/C++
assembly - assembly projects
concurrencpp - Modern concurrency for C++. Tasks, executors, timers and C++20 coroutines to rule them all