Sound, fine-grained traversal fusion for heterogeneous trees

Proceedings of the 40th ACM SIGPLAN Conference on Programming Language Design and Implementation Pub Date : 2019-04-11 DOI:10.1145/3314221.3314626

Laith Sakka, Kirshanthan Sundararajah, Ryan Newton, Milind Kulkarni

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引用次数: 8

Abstract

Applications in many domains are based on a series of traversals of tree structures, and fusing these traversals together to reduce the total number of passes over the tree is a common, important optimization technique. In applications such as compilers and render trees, these trees are heterogeneous: different nodes of the tree have different types. Unfortunately, prior work for fusing traversals falls short in different ways: they do not handle heterogeneity; they require using domain-specific languages to express an application; they rely on the programmer to aver that fusing traversals is safe, without any soundness guarantee; or they can only perform coarse-grain fusion, leading to missed fusion opportunities. This paper addresses these shortcomings to build a framework for fusing traversals of heterogeneous trees that is automatic, sound, and fine-grained. We show across several case studies that our approach is able to allow programmers to write simple, intuitive traversals, and then automatically fuse them to substantially improve performance.

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异构树的声音，细粒度的遍历融合

许多领域的应用都是基于对树结构的一系列遍历，将这些遍历融合在一起以减少遍历树的总次数是一种常见的、重要的优化技术。在诸如编译器和呈现树之类的应用程序中，这些树是异构的:树的不同节点具有不同的类型。不幸的是，先前的融合遍历的工作在不同的方面都有不足:它们没有处理异质性;它们需要使用特定于领域的语言来表达应用程序;它们依赖于程序员保证融合遍历是安全的，而不需要任何可靠性保证;或者它们只能进行粗粒融合，导致错过融合机会。本文解决了这些缺点，构建了一个融合异构树遍历的框架，该框架是自动的、健全的和细粒度的。我们通过几个案例研究表明，我们的方法能够让程序员编写简单、直观的遍历，然后自动地将它们融合在一起，从而大大提高性能。

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 40th ACM SIGPLAN Conference on Programming Language Design and Implementation

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