Autor: |
Haryono, Stefanus A., Thung, Ferdian, Lo, David, Jiang, Lingxiao, Lawall, Julia, Kang, Hong Jin, Serrano, Lucas, Muller, Gilles |
Rok vydání: |
2020 |
Předmět: |
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Druh dokumentu: |
Working Paper |
Popis: |
The Android operating system is frequently updated, with each version bringing a new set of APIs. New versions may involve API deprecation; Android apps using deprecated APIs need to be updated to ensure the apps' compatibility withold and new versions of Android. Updating deprecated APIs is a time-consuming endeavor. Hence, automating the updates of Android APIs can be beneficial for developers. CocciEvolve is the state-of-the-art approach for this automation. However, it has several limitations, including its inability to resolve out-of-method-boundary variables and the low code readability of its update due to the addition of temporary variables. In an attempt to further improve the performance of automated Android API update, we propose an approach named AndroEvolve, which addresses the limitations of CocciEvolve through the addition of data flow analysis and variable name denormalization. Data flow analysis enables AndroEvolve to resolve the value of any variable within the file scope. Variable name denormalization replaces temporary variables that may present in the CocciEvolve update with appropriate values in the target file. We have evaluated the performance of AndroEvolve and the readability of its updates on 360 target files. AndroEvolve produces 26.90% more instances of correct updates compared to CocciEvolve. Moreover, our manual and automated evaluation shows that AndroEvolve updates are more readable than CocciEvolve updates. |
Databáze: |
arXiv |
Externí odkaz: |
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