Type-based alias analysis

Amer Diwan, K. McKinley, J. Moss
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引用次数: 182

Abstract

This paper evaluates three alias analyses based on programming language types. The first analysis uses type compatibility to determine aliases. The second extends the first by using additional high-level information such as field names. The third extends the second with a flow-insensitive analysis. Although other researchers suggests using types to disambiguate memory references, none evaluates its effectiveness. We perform both static and dynamic evaluations of type-based alias analyses for Modula-3, a statically-typed type-safe language. The static analysis reveals that type compatibility alone yields a very imprecise alias analysis, but the other two analyses significantly improve alias precision. We use redundant load elimination (RLE) to demonstrate the effectiveness of the three alias algorithms in terms of the opportunities for optimization, the impact on simulated execution times, and to compute an upper bound on what a perfect alias analysis would yield. We show modest dynamic improvements for (RLE), and more surprisingly, that on average our alias analysis is within 2.5% of a perfect alias analysis with respect to RLE on 8 Modula-3 programs. These results illustrate that to explore thoroughly the effectiveness of alias analyses, researchers need static, dynamic, and upper-bound analysis. In addition, we show that for type-safe languages like Modula-3 and Java, a fast and simple alias analysis may be sufficient for many applications.
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基于类型的别名分析
本文对基于编程语言类型的三种别名分析方法进行了评价。第一个分析使用类型兼容性来确定别名。第二个通过使用额外的高级信息(如字段名)扩展了第一个。第三种方法用流动不敏感分析扩展了第二种方法。尽管其他研究人员建议使用类型来消除内存引用的歧义,但没有人评估其有效性。我们为静态类型的类型安全语言Modula-3执行基于类型的别名分析的静态和动态计算。静态分析表明,仅类型兼容性就会产生非常不精确的别名分析,但其他两个分析可以显著提高别名的精度。我们使用冗余负载消除(RLE)来演示三种别名算法在优化机会、对模拟执行时间的影响方面的有效性,并计算一个完美的别名分析将产生的上限。我们对(RLE)进行了适度的动态改进,更令人惊讶的是,在8个Modula-3程序上,我们的别名分析平均在完美别名分析的RLE的2.5%以内。这些结果表明,为了深入探索别名分析的有效性,研究人员需要静态、动态和上限分析。此外,我们还展示了对于像Modula-3和Java这样的类型安全语言,快速而简单的别名分析可能对许多应用程序来说已经足够了。
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