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On the Bug-proneness of Structures Inspired by Functional Programming in JavaScript Projects

Language constructs inspired by functional programming have made their way into most mainstream programming languages. Many researchers and developers consider that these constructs lead to programs that are more concise, reusable, and easier to understand. However, few studies investigate the implications of using them in mainstream programming languages. This paper quantifies the prevalence of four concepts typically associated with functional programming in JavaScript: recursion, immutability, lazy evaluation, and functions as values. We focus on JavaScript programs due to the availability of some of these concepts in the language since its inception, its inspiration from functional programming languages, and its popularity. We mine 91 GitHub repositories (22+ million LOC) written mostly in JavaScript (over 50% of the code), measuring the usage of these concepts from both static and temporal perspectives. We also measure the likelihood of bug-fixing commits removing uses of these concepts (which would hint at bug-proneness) and their association with the presence of code comments (which would hint at code that is hard to understand). We find that these concepts are in widespread use (1 for every 46.65 LOC, 43.59% of LOC). In addition, the usage of higher-order functions, immutability, and lazy evaluation-related structures has been growing throughout the years for the analyzed projects, while the usage of recursion and callbacks & promises has decreased. We also find statistical evidence that removing these structures, with the exception of the ones associated to immutability, is less common in bug-fixing commits than in other commits. In addition, their presence is not correlated with comment size. Our findings suggest that functional programming concepts are important for developers using a multi-paradigm language, and their usage does not make programs harder to understand.