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Program sketching with live bidirectional evaluation

Published: 03 August 2020 Publication History

Abstract

We present a system called Smyth for program sketching in a typed functional language whereby the concrete evaluation of ordinary assertions gives rise to input-output examples, which are then used to guide the search to complete the holes. The key innovation, called live bidirectional evaluation, propagates examples "backward" through partially evaluated sketches. Live bidirectional evaluation enables Smyth to (a) synthesize recursive functions without trace-complete sets of examples and (b) specify and solve interdependent synthesis goals. Eliminating the trace-completeness requirement resolves a significant limitation faced by prior synthesis techniques when given partial specifications in the form of input-output examples.
To assess the practical implications of our techniques, we ran several experiments on benchmarks used to evaluate Myth, a state-of-the-art example-based synthesis tool. First, given expert examples (and no partial implementations), we find that Smyth requires on average 66% of the number of expert examples required by Myth. Second, we find that Smyth is robust to randomly-generated examples, synthesizing many tasks with relatively few more random examples than those provided by an expert. Third, we create a suite of small sketching tasks by systematically employing a simple sketching strategy to the Myth benchmarks; we find that user-provided sketches in Smyth often further reduce the total specification burden (i.e. the combination of partial implementations and examples). Lastly, we find that Leon and Synquid, two state-of-the-art logic-based synthesis tools, fail to complete several tasks on which Smyth succeeds.

Supplementary Material

Presentation at ICFP '20 (a109-lubin-presentation.mp4)

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Published In

cover image Proceedings of the ACM on Programming Languages
Proceedings of the ACM on Programming Languages  Volume 4, Issue ICFP
August 2020
1070 pages
EISSN:2475-1421
DOI:10.1145/3415018
Issue’s Table of Contents
This work is licensed under a Creative Commons Attribution International 4.0 License.

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Association for Computing Machinery

New York, NY, United States

Publication History

Published: 03 August 2020
Published in PACMPL Volume 4, Issue ICFP

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Author Tags

  1. Bidirectional Evaluation
  2. Examples
  3. Program Synthesis
  4. Sketches

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  • National Science Foundation

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  • (2024)Equivalence by Canonicalization for Synthesis-Backed RefactoringProceedings of the ACM on Programming Languages10.1145/36564538:PLDI(1879-1904)Online publication date: 20-Jun-2024
  • (2024)Superfusion: Eliminating Intermediate Data Structures via Inductive SynthesisProceedings of the ACM on Programming Languages10.1145/36564158:PLDI(939-964)Online publication date: 20-Jun-2024
  • (2024)Recursive Program Synthesis using ParamorphismsProceedings of the ACM on Programming Languages10.1145/36563818:PLDI(102-125)Online publication date: 20-Jun-2024
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