Paper Info
Title
Which of my transient type checks are not (almost) free?
Abstract
One form of type checking used in gradually typed language is transient type checking: whenever an object ‘flows’ through code with a type annotation, the object is dynamically checked to ensure it has the methods required by the annotation. Just-in-time compilation and optimisation in virtual machines can eliminate much of the overhead of run-time transient type checks. Unfortunately this optimisation is not uniform: some type checks will significantly decrease, or even increase, a program’s performance. In this paper, we refine the so called “Takikawa” protocol, and use it to identify which type annotations have the greatest effects on performance. In particular, we show how graphing the performance of such benchmarks when varying which type annotations are present in the source code can be used to discern potential patterns in performance. We demonstrate our approach by testing the Moth virtual machine: for many of the benchmarks where Moth’s transient type checking impacts performance, we have been able to identify one or two specific type annotations that are the likely cause. Without these type annotations, the performance impact of transient type checking becomes negligible. Using our technique programmers can optimise programs by removing expensive type checks, and VM engineers can identify new opportunities for compiler optimisation.
Year
DOI
Venue
2019
10.1145/3358504.3361232
Proceedings of the 11th ACM SIGPLAN International Workshop on Virtual Machines and Intermediate Languages
Keywords
DocType
ISBN
Grace, benchmarking, dynamic type checking, gradual types, object-oriented programming, optional types, performance evaluation
Conference
978-1-4503-6987-9
Citations 
PageRank 
References 
0
0.34
0
Authors
5
Name
Order
Citations
PageRank
Isaac Oscar Gariano101.69
richard j roberts294.63
Stefan Marr312421.54
Michael Homer44610.38
James Noble51683163.52