Publication Type

Journal Article

Version

publishedVersion

Publication Date

2-2021

Abstract

To complete tasks faster, developers often have to sacrifice the quality of the software. Such compromised practice results in the increasing burden to developers in future development. The metaphor, technical debt, describes such practice. Prior research has illustrated the negative impact of technical debt, and many researchers investigated how developers deal with a certain type of technical debt. However, few studies focused on the removal of different types of technical debt in practice. To fill this gap, we use the introduction and removal of different types of self-admitted technical debt (i.e., SATD) in 7 deep learning frameworks as an example. This is because deep learning frameworks are some of the most important software systems today due to their prevalent use in life-impacting deep learning applications. Moreover, the field of the development of different deep learning frameworks is the same, which enables us to find common behaviors on the removal of different types of technical debt across projects. By mining the file history of these frameworks, we find that design debt is introduced the most along the development process. As for the removal of technical debt, we find that requirement debt is removed the most, and design debt is removed the fastest. Most of test debt, design debt, and requirement debt are removed by the developers who introduced them. Based on the introduction and removal of different types of technical debt, we discuss the evolution of the frequencies of different types of technical debt to depict the unresolved sub-optimal trade-offs or decisions that are confronted by developers along the development process. We also discuss the removal patterns of different types of technical debt, highlight future research directions, and provide recommendations for practitioners.

Keywords

Self-admitted technical debt, Deep learning, Categorization, Empirical study

Discipline

Databases and Information Systems | Software Engineering

Research Areas

Information Systems and Management

Publication

Empirical Software Engineering

Volume

26

Issue

16

First Page

1

Last Page

36

ISSN

1382-3256

Identifier

10.1007%2Fs10664-020-09917-5

Publisher

Springer Verlag (Germany)

Additional URL

https://xin-xia.github.io/publication/emse202.pdf

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