Accession Number:

ADA598225

Title:

Protocol Programmability

Descriptive Note:

Doctoral thesis

Corporate Author:

CARNEGIE-MELLON UNIV PITTSBURGH PA SCHOOL OF COMPUTER SCIENCE

Personal Author(s):

Report Date:

2013-12-01

Pagination or Media Count:

177.0

Abstract:

Application Programming Interfaces APIs often define protocols-- restrictions on the order of client calls to API methods. API protocols are common and difficult to follow, which has generated tremendous research into the specification and verification of protocols. However, verification techniques do little to alleviate several major challenges programmers face when using API protocols fixing protocol violations, learning protocol rules, and finding state transitions. To understand these challenges better, I mined developer forums to identify problems that developers have with protocols. Then, I performed a think-aloud observational study, in which I systematically observed professional programmers struggle with these same problems to get more detail on the nature of their struggles and how they used available resources. In my observations, programmer time was spent primarily on four types of searches of the protocol state space. To alleviate the protocol programmability challenges, I embed state modeling techniques directly into code and developer documentation. I design and formalize a programming language, Plaid, in which objects are modeled not just in terms of classes, but in terms of changing abstract states. Each state may have its own fields and methods, as well as methods that transition the object into a new state. I also developed a documentation tool called Plaiddoc, which is like Javadoc except it organizes methods by state instead of by class and it includes explicit state transitions, state-based type specifications, and rich state relationships. I evaluate Plaid through a series of examples taken from the Plaid compiler and standard libraries of Smalltalk and Java. These examples show how Plaid can more closely model state-based designs, enhancing understandability, automating error checking, and providing reuse benefits.

Subject Categories:

  • Computer Programming and Software

Distribution Statement:

APPROVED FOR PUBLIC RELEASE