This paper presents Soot, a framework for optimizing Java TM bytecode. The framework is implemented in Java and supports three intermediate representations for representing Java bytecode: Baf, a streamlined representation of Java's stack-based bytecode; Jimple, a typed three-address intermediate representation suitable for optimization; and Grimp, an aggregated version of Jimple. Our approach to class file optimization is to first convert the stack-based bytecode into Jimple, a three-address form more amenable to traditional program optimization, and then convert the optimized Jimple back to bytecode. In order to demonstrate that our approach is feasible, we present experimental results showing the effects of processing class files through our framework. In particular, we study the techniques necessary to effectively translate Jimple back to bytecode, without losing performance. Finally, we demonstrate that class file optimization can be quite effective by showing the results of some basic optimizations using our framework. Our experiments were done on ten benchmarks, including seven SPECjvm98 benchmarks, and were executed on five different Java virtual machine implementations.
Abstract. This paper presents a framework for supporting the optimization of Java programs using attributes in Java class files. We show how class file attributes may be used to convey both optimization opportunities and profile information to a variety of Java virtual machines including ahead-of-time compilers and just-in-time compilers. We present our work in the context of Soot, a framework that supports the analysis and transformation of Java bytecode (class files) [21,25,26]. We demonstrate the framework with attributes for elimination of array bounds and null pointer checks, and we provide experimental results for the Kaffe just-in-time compiler, and IBM's High Performance Compiler for Java ahead-of-time compiler.
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