Copyright | (c) 2003 Graham Klyne 2009 Vasili I Galchin 2011 2016 2022 Douglas Burke |
---|---|
License | GPL V2 |
Maintainer | Douglas Burke |
Stability | experimental |
Portability | CPP, DerivingStrategies |
Safe Haskell | Safe-Inferred |
Language | Haskell2010 |
This module defines a framework for constructing proofs over some expression form. It is intended to be used with RDF graphs, but the structures aim to be quite generic with respect to the expression forms allowed.
It does not define any proof-finding strategy.
Synopsis
- data Proof ex = Proof {
- proofContext :: [Ruleset ex]
- proofInput :: Formula ex
- proofResult :: Formula ex
- proofChain :: [Step ex]
- data Step ex = Step {}
- checkProof :: (Expression ex, Ord ex) => Proof ex -> Bool
- explainProof :: (Expression ex, Ord ex) => Proof ex -> Maybe String
- checkStep :: Ord ex => [Rule ex] -> [ex] -> Step ex -> Bool
- showProof :: ShowLines ex => String -> Proof ex -> String
- showsProof :: ShowLines ex => String -> Proof ex -> ShowS
- showsFormula :: ShowLines ex => String -> Formula ex -> ShowS
Documentation
Proof is a structure that presents a chain of rule applications that yield a result expression from a given expression
Proof | |
|
Step in proof chain
The display name for a proof step comes from the display name of its consequence formula.
checkProof :: (Expression ex, Ord ex) => Proof ex -> Bool Source #
Check consistency of given proof. The supplied rules and axioms are assumed to be correct.
explainProof :: (Expression ex, Ord ex) => Proof ex -> Maybe String Source #
Check proof. If there is an error then return information about the failing step.
:: Ord ex | |
=> [Rule ex] | rules |
-> [ex] | antecedants |
-> Step ex | the step to validate |
-> Bool |
|
A proof step is valid if rule is in list of rules and the antecedents are sufficient to obtain the conclusion and the antecedents are in the list of formulae already proven.
Note: this function depends on the ruleName of any rule being unique among all rules. In particular the name of the step rule being in correspondence with the name of one of the indicated valid rules of inference.
Returns a simple string representation of a proof.
Create a displayable form of a proof, returned as a ShowS
value.
This function is intended to allow the calling function some control of multiline displays by providing:
- the first line of the proof is not preceded by any text, so it may be appended to some preceding text on the same line,
- the supplied newline string is used to separate lines of the formatted text, and may include any desired indentation, and
- no newline is output following the final line of text.