19 research outputs found
Outcome Separation Logic: Local Reasoning for Correctness and Incorrectness with Computational Effects
The compositionality and local reasoning properties of separation logic have
led to significant advances in scalable static analysis. But new requirements
for program analysis have emerged -- many programs display computational
effects (such as randomization) and, orthogonally, static analysis for
incorrectness has proved to be very effective. We present Outcome Separation
Logic (OSL), the first variant of separation logic that is sound for both
correctness and incorrectness reasoning with varying computational effects. OSL
has a frame rule that resembles that of standard Separation Logic, however we
make different underlying assumptions in order to lift restrictions imposed by
SL that preclude reasoning about incorrectness and effects.
Building on this fundamental theory, we also define symbolic execution
algorithms that use bi-abduction to derive specifications for programs with
effects. This involves a new tri-abduction procedure to analyze programs whose
execution branches due to effects such as nondeterministic or probabilistic
choice. This work furthers the compositionality promised by separation logic by
opening up the possibility for greater reuse of analysis tools across two
dimensions: bug-finding and verification across programs with varying effects
Upland farming in perspective : an essay on motivations and the role of government
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