计数不可变bean:为纯函数式编程优化的引用计数

Proceedings of the 31st Symposium on Implementation and Application of Functional Languages Pub Date : 2019-08-01 DOI:10.1145/3412932.3412935

Sebastian Ullrich, L. D. Moura

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引用次数: 16

摘要

大多数函数式语言都依赖于某种垃圾收集来实现自动内存管理。它们通常避免引用计数，而采用跟踪垃圾收集器，这样在运行时的簿记开销更少。另一方面，拥有每个值的精确引用计数可以实现诸如破坏性更新之类的优化。我们将在纯函数式编程语言的上下文中探讨这些优化机会。我们提出了一种新的机制来有效地回收非共享值使用的内存，减少对全局内存分配器的压力。我们描述了一种使用借用引用最小化引用计数更新数量的方法，以及一种自动推断借用注释的启发式方法。我们在一个支持多线程的纯函数式编程语言的新编译器中实现了所有这些技术。我们的初步实验结果表明，我们的方法具有竞争力，并且通常优于最先进的编译器。

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Counting immutable beans: reference counting optimized for purely functional programming

Most functional languages rely on some kind of garbage collection for automatic memory management. They usually eschew reference counting in favor of a tracing garbage collector, which has less bookkeeping overhead at runtime. On the other hand, having an exact reference count of each value can enable optimizations such as destructive updates. We explore these optimization opportunities in the context of an eager, purely functional programming language. We propose a new mechanism for efficiently reclaiming memory used by nonshared values, reducing stress on the global memory allocator. We describe an approach for minimizing the number of reference counts updates using borrowed references and a heuristic for automatically inferring borrow annotations. We implemented all these techniques in a new compiler for an eager and purely functional programming language with support for multi-threading. Our preliminary experimental results demonstrate our approach is competitive and often outperforms state-of-the-art compilers.

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Proceedings of the 31st Symposium on Implementation and Application of Functional Languages

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