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A Lexical and Semantical Analysis on REST Cloud Computing APIs

  • Fabio Petrillo
  • Philippe Merle
  • Francis Palma
  • Naouel Moha
  • Yann-Gaël Guéhéneuc
Conference paper
Part of the Communications in Computer and Information Science book series (CCIS, volume 864)

Abstract

Cloud computing is a popular Internet-based computing paradigm that provides on-demand computational services and resources, generally offered by Cloud providers’ REpresentational State Transfer (REST) APIs. Developers use REST APIs by invoking these APIs by their names and, thus, the lexicons used in the APIs are important to ease the developers’ comprehension. In this paper, we study the lexicons and the linguistic (anti)patterns from 16 providers of REST Cloud Computing APIs. We observe that, although the 16 REST APIs describe the same domain (Cloud computing), contrary to what one might expect, their lexicons do not share a large number of common terms and 90% of the terms (3,561/3,947) are just used by one provider. Thus, the APIs are lexically heterogeneous and there is not a consensus on which terms to use in Cloud computing. Further, we observe that the majority of the URIs, 54%, follow the Contextualised Resource Names pattern, which is considered a good practice in REST API design. However, a majority of the URIs, 62.82%, suffer from the Non-pertinent Documentation antipattern. Thus, we present three main contributions: (1) a tooled approach, called CloudLex, for extracting and analysing REST Cloud computing lexicons; (2) our analysis of the terms used in 16 REST APIs in 59,677 term occurrences; (3) our analysis of the linguistic (anti)patterns in more than 23,000 URIs of the 142 services of the 16 Cloud providers. We also show that CloudLex has an average precision of 84.82%, recall of 63.57%, and F1-measure of 71.03% on one complete API, Docker Engine, which confirms the accuracy of our semantic analyses for the detection of linguistic (anti)patterns.

Notes

Acknowledgment

This work is partially supported by the OCCIware research and development project (http://www.occiware.org) funded by French Programme d’Investis sements d’Avenir (PIA). It is also co-funded by the Natural Sciences and Engineering Research Council of Canada (NSERC).

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Copyright information

© Springer International Publishing AG, part of Springer Nature 2018

Authors and Affiliations

  • Fabio Petrillo
    • 1
  • Philippe Merle
    • 2
  • Francis Palma
    • 3
  • Naouel Moha
    • 4
  • Yann-Gaël Guéhéneuc
    • 1
  1. 1.Concordia UniversityMontréalCanada
  2. 2.Inria Lille - Nord EuropeVilleneuve d’AscqFrance
  3. 3.Linnaeus UniversityVäxjöSweden
  4. 4.Université du Québec à MontréalMontréalCanada

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