Litcius/Paper detail

SAGA: Efficient and Large-Scale Detection of Near-Miss Clones with GPU Acceleration

Guanhua Li, Yijian Wu, Chanchal K. Roy, Jun Sun, Xin Peng, Nanjie Zhan, Bin Hu, Jingyi Ma

202022 citationsDOI

Abstract

Clone detection on large code repository is necessary for many big code analysis tasks. The goal is to provide rich information on identical and similar code across projects. Detecting near-miss code clones on big code is challenging since it requires intensive computing and memory resources as the scale of the source code increases. In this work, we propose SAGA, an efficient suffix-array based code clone detection tool designed with sophisticated GPU optimization. SAGA not only detects Type-l and Type-2 clones but also does so for cross-project large repositories and for the most computationally expensive Type-3 clones. Meanwhile, it also works at segment granularity, which is even more challenging. It detects code clones in 100 million lines of code within 11 minutes (with recall and precision comparable to state-of-the-art approaches), which is more than 10 times faster than state-of-the-art tools. It is the only tool that efficiently detects Type-3 near-miss clones at segment granularity in large code repository (e.g., within 11 hours on 1 billion lines of code). We conduct a preliminary case study on 85,202 GitHub Java projects with 1 billion lines of code and exhibit the distribution of clones across projects. We find about 1.23 million Type-3 clone groups, containing 28 million lines of code at arbitrary segment granularity, which are only detectable with SAGA. We believe SAGA is useful in many software engineering applications such as code provenance analysis, code completion, change impact analysis, and many more.

Topics & Concepts

Computer scienceCode (set theory)Source lines of codeGranularityJavaSource codeCode generationParallel computingProgramming languageRedundant codeclone (Java method)Unreachable codeSoftwareOperating systemGeneticsKey (lock)DNABiologySet (abstract data type)Software Engineering ResearchSoftware Testing and Debugging TechniquesAdvanced Malware Detection Techniques
SAGA: Efficient and Large-Scale Detection of Near-Miss Clones with GPU Acceleration | Litcius