Continuation semantics for fixpoint modal logic and computation tree logics
Continuation semantics for fixpoint modal logic and computation tree logics
We introduce continuation semantics for both fixpoint modal logic (FML) and Computation Tree Logic* (CTL*), param- eterised by a choice of branching type and quantitative predicate lifting. Our main contribution is proving that they are equivalent to coalgebraic semantics, for all branching types. Our continuation semantics is defined over coalgebras of the continuation monad whose answer type coincides with the domain of truth values of the formulas. By identifying predicates and continuations, such a coalgebra has a canonical interpretation of the modality by evaluation of continuations. We show that this continuation semantics is equivalent to the coalgebraic semantics for fixpoint modal logic. We then reformulate the current construction for coalgebraic models of CTL*. These models are usually required to have an infinitary trace/maximal execution map, characterized as the greatest fixpoint of a special operator. Instead, we allow coalgebraic models of CTL* to employ non-maximal fixpoints, which we call execution maps. Under this reformulation, we establish a general result on transferring execution maps via monad morphisms. From this result, we obtain that continuation semantics is equivalent to the coalgebraic semantics for CTL*. We also identify a sufficient condition under which CTL can be encoded into fixpoint modal logic under continuation semantics.
Kojima, Ryota
d01773fa-38d6-4233-8ad2-bba48100e4dc
Cirstea, Corina
ce5b1cf1-5329-444f-9a76-0abcc47a54ea
Kojima, Ryota
d01773fa-38d6-4233-8ad2-bba48100e4dc
Cirstea, Corina
ce5b1cf1-5329-444f-9a76-0abcc47a54ea
Kojima, Ryota and Cirstea, Corina
(2025)
Continuation semantics for fixpoint modal logic and computation tree logics.
41st Conference on Mathematical Foundations of Programming Semantics MFPS XLI (MFPS 2025), , Glasgow, United Kingdom.
18 - 20 Jun 2025.
22 pp
.
(In Press)
Record type:
Conference or Workshop Item
(Paper)
Abstract
We introduce continuation semantics for both fixpoint modal logic (FML) and Computation Tree Logic* (CTL*), param- eterised by a choice of branching type and quantitative predicate lifting. Our main contribution is proving that they are equivalent to coalgebraic semantics, for all branching types. Our continuation semantics is defined over coalgebras of the continuation monad whose answer type coincides with the domain of truth values of the formulas. By identifying predicates and continuations, such a coalgebra has a canonical interpretation of the modality by evaluation of continuations. We show that this continuation semantics is equivalent to the coalgebraic semantics for fixpoint modal logic. We then reformulate the current construction for coalgebraic models of CTL*. These models are usually required to have an infinitary trace/maximal execution map, characterized as the greatest fixpoint of a special operator. Instead, we allow coalgebraic models of CTL* to employ non-maximal fixpoints, which we call execution maps. Under this reformulation, we establish a general result on transferring execution maps via monad morphisms. From this result, we obtain that continuation semantics is equivalent to the coalgebraic semantics for CTL*. We also identify a sufficient condition under which CTL can be encoded into fixpoint modal logic under continuation semantics.
Text
MFPS25-24
- Accepted Manuscript
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Accepted/In Press date: June 2025
Venue - Dates:
41st Conference on Mathematical Foundations of Programming Semantics MFPS XLI (MFPS 2025), , Glasgow, United Kingdom, 2025-06-18 - 2025-06-20
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Local EPrints ID: 504012
URI: http://eprints.soton.ac.uk/id/eprint/504012
PURE UUID: 749fb3ab-5bd6-4a70-a828-184a7b115041
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Date deposited: 21 Aug 2025 15:21
Last modified: 22 Aug 2025 01:52
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Contributors
Author:
Ryota Kojima
Author:
Corina Cirstea
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