English

Spreadsheet computing with Finite Domain Constraint Enhancements

Artificial Intelligence 2022-03-22 v1

Abstract

Spreadsheet computing is one of the more popular computing methodologies in today's modern society. The spreadsheet application's ease of use and usefulness has enabled non-programmers to perform programming-like tasks in a familiar setting modeled after the tabular "pen and paper" approach. However, spreadsheet applications are limited to bookkeeping-like tasks due to their single-direction data flow. This thesis demonstrates an extension of the spreadsheet computing paradigm in overcoming this limitation to solve constraint satisfaction problems. We present a framework seamlessly incorporating a finite constraint solver with the spreadsheet computing paradigm. This framework allows the individual cells in the spreadsheet to be attached to either a finite domain or a constraint specifying the relationship among the cells. The framework provides an interface for constraint solving and further enhances the spreadsheet computing paradigm by providing a set of spreadsheet-specific constraints that will aid in controlling the scalability of large spreadsheet applications implementations. Finally, we provide examples to demonstrate the usability and usefulness of the extended spreadsheet paradigm. Keywords: Spreadsheet computing, Constraint Logic Programming, Constraint satisfaction, Domain-Specific language, Excel, SWI Prolog, C#

Keywords

Cite

@article{arxiv.2203.10944,
  title  = {Spreadsheet computing with Finite Domain Constraint Enhancements},
  author = {Ezana N. Beyenne},
  journal= {arXiv preprint arXiv:2203.10944},
  year   = {2022}
}

Comments

2008 Master's thesis

R2 v1 2026-06-24T10:20:26.326Z