Call by Meaning

Hesam Samimi, Yoshiki Ohshima, Alex Warth
Communications Design Group

Todd Millstein
University of California, Los Angeles

Chris Deaton


Software development involves stitching existing components together. These data/service components are usually not well understood, as they are made by others and often obtained from somewhere on the Internet. This makes software development a daunting challenge, requiring programmers to manually discover the resources they need, understand their capabilities, adapt these resources to their needs, and update the system as external components change.

Software researchers have long realized the problem why automation seems impossible: the lack of semantic "understanding" on the part of the machine about those components. A multitude of solutions have been proposed under the umbrella term Semantic Web (SW), in which semantic markup of the components with concepts from semantic ontologies and the ability to invoke queries over those concepts enables a form of automated discovery and mediation among software services.

On another front, programming languages rarely provide mechanisms for anchoring objects/data to real-world concepts. Inspired by the aspirations of SW, in this paper we reformulate its visions from the perspective of a programming model, i.e., that components themselves should be able to interact using semantic ontologies, rather than having a separate markup language and composition platform. In the vision, a rich specification language and common sense knowledge base over real-world concepts serves as a lingua franca to describe software components. Components can query the system to automatically (1) discover other components that provide needed functionality/data (2) discover the appropriate API within that component in order to obtain what is intended, and even (3) implicitly interpret the provided data in the desired form independent of the form originally presented by the provider component.

By demonstrating a successful case of realization of this vision on a microexample, we hope to show how a programming languages (PL) approach to SW can be superior to existing engineered solutions, since the generality and expressiveness in the language can be harnessed, and encourage PL researchers to jump on the SW bandwagon.



Read the paper from Onward!'14