API usage recommendation via multi-view heterogeneous graph representation learning

Y Chen, C Gao, X Ren, Y Peng, X Xia… - IEEE Transactions on …, 2023 - ieeexplore.ieee.org
IEEE Transactions on Software Engineering, 2023ieeexplore.ieee.org
Developers often need to decide which APIs to use for the functions being implemented.
With the ever-growing number of APIs and libraries, it becomes increasingly difficult for
developers to find appropriate APIs, indicating the necessity of automatic API usage
recommendation. Previous studies adopt statistical models or collaborative filtering methods
to mine the implicit API usage patterns for recommendation. However, they rely on the
occurrence frequencies of APIs for mining usage patterns, thus prone to fail for the low …
Developers often need to decide which APIs to use for the functions being implemented. With the ever-growing number of APIs and libraries, it becomes increasingly difficult for developers to find appropriate APIs, indicating the necessity of automatic API usage recommendation. Previous studies adopt statistical models or collaborative filtering methods to mine the implicit API usage patterns for recommendation. However, they rely on the occurrence frequencies of APIs for mining usage patterns, thus prone to fail for the low-frequency APIs. Besides, prior studies generally regard the API call interaction graph as homogeneous graph, ignoring the rich information (e.g., edge types) in the structure graph. In this work, we propose a novel method named MEGA for improving the recommendation accuracy especially for the low-frequency APIs. Specifically, besides call interaction graph , MEGA considers another two new heterogeneous graphs: global API co-occurrence graph enriched with the API frequency information and hierarchical structure graph enriched with the project component information. With the three multi-view heterogeneous graphs, MEGA can capture the API usage patterns more accurately. Experiments on three Java benchmark datasets demonstrate that MEGA significantly outperforms the baseline models by at least 19% with respect to the Success Rate@1 metric. Especially, for the low-frequency APIs, MEGA also increases the baselines by at least 55% regarding the Success Rate@1 score.
ieeexplore.ieee.org
Showing the best result for this search. See all results