Self-contained development environments

Proceedings of the 14th ACM SIGPLAN International Symposium on Dynamic Languages Pub Date : 2018-10-24 DOI:10.1145/3276945.3276948

Guido Chari, Javier Pimás, J. Vitek, O. Flückiger

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Abstract

Operating systems are traditionally implemented in low- level, performance-oriented programming languages. These languages typically rely on minimal runtime support and provide unfettered access to the underlying hardware. Tra- dition has benefits: developers control the resources that the operating system manages and few performance bottle- necks cannot be overcome with clever feats of programming. On the other hand, this makes operating systems harder to understand and maintain. Furthermore, those languages have few built-in barriers against bugs. This paper is an ex- periment in side-stepping operating systems, and pushing functionality into the runtime of high-level programming languages. The question we try to answer is how much sup- port is needed to run an application written in, say, Smalltalk or Python on bare metal, that is, with no underlying oper- ating system. We present a framework named NopSys that allows this, and we validate it with the implementation of CogNos a Smalltalk virtual machine running on bare x86 hardware. Experimental results suggest that this approach is promising.

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独立的开发环境

传统上，操作系统是用低级的、面向性能的编程语言实现的。这些语言通常依赖于最小的运行时支持，并提供对底层硬件的自由访问。传统的好处是:开发人员可以控制操作系统管理的资源，并且很少有性能瓶颈不能通过聪明的编程技巧来克服。另一方面，这使得操作系统更难以理解和维护。此外，这些语言几乎没有内置的防止bug的屏障。本文是一个关于回避操作系统，将功能推入高级编程语言运行时的实验。我们试图回答的问题是，在裸机上运行一个用Smalltalk或Python编写的应用程序需要多少支持，也就是说，没有底层操作系统。我们提出了一个名为NopSys的框架，它允许这样做，并使用运行在裸x86硬件上的Smalltalk虚拟机的CogNos实现对其进行验证。实验结果表明，这种方法是有希望的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 14th ACM SIGPLAN International Symposium on Dynamic Languages

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