Safe Haskell | None |
---|---|
Language | Haskell2010 |
An Abstract domain of relative sizes, i.e., differences between size of formal function parameter and function argument in recursive call; used in the termination checker.
Synopsis
- data Order
- decr :: (?cutoff :: CutOff) => Bool -> Int -> Order
- increase :: Int -> Order -> Order
- decrease :: Int -> Order -> Order
- setUsability :: Bool -> Order -> Order
- (.*.) :: (?cutoff :: CutOff) => Order -> Order -> Order
- supremum :: (?cutoff :: CutOff) => [Order] -> Order
- infimum :: (?cutoff :: CutOff) => [Order] -> Order
- orderSemiring :: (?cutoff :: CutOff) => Semiring Order
- le :: Order
- lt :: Order
- unknown :: Order
- orderMat :: Matrix Int Order -> Order
- collapseO :: (?cutoff :: CutOff) => Order -> Order
- nonIncreasing :: Order -> Bool
- decreasing :: Order -> Bool
- isDecr :: Order -> Bool
- class NotWorse a where
- isOrder :: (?cutoff :: CutOff) => Order -> Bool
Structural orderings
In the paper referred to above, there is an order R with
.Unknown
<=
Le
<=
Lt
This is generalized to
where
Unknown
<=
'Decr k'Decr 1
replaces Lt
and Decr 0
replaces Le
.
A negative decrease means an increase. The generalization
allows the termination checker to record an increase by 1 which
can be compensated by a following decrease by 2 which results in
an overall decrease.
However, the termination checker of the paper itself terminates because
there are only finitely many different call-matrices. To maintain
termination of the terminator we set a cutoff
point which determines
how high the termination checker can count. This value should be
set by a global or file-wise option.
See Call
for more information.
TODO: document orders which are call-matrices themselves.
Decr !Bool !Int | Decrease of callee argument wrt. caller parameter. The UPDATE: Andreas, 2017-07-26: Feature #2331 is unsound due to size quantification in terms. While the infrastructure for usable/unusable decrease remains in place, no unusable decreases are generated by TermCheck. |
Unknown | No relation, infinite increase, or increase beyond termination depth. |
Mat !(Matrix Int Order) | Matrix-shaped order, currently UNUSED. |
Instances
Pretty CallMatrix Source # | |
Defined in Agda.Termination.CallMatrix pretty :: CallMatrix -> Doc Source # prettyPrec :: Int -> CallMatrix -> Doc Source # prettyList :: [CallMatrix] -> Doc Source # | |
Pretty Order Source # | |
CallComb CallMatrix Source # | Call matrix multiplication.
Note the reversed order of multiplication:
The matrix Preconditions:
Postcondition:
|
Defined in Agda.Termination.CallMatrix (>*<) :: CallMatrix -> CallMatrix -> CallMatrix Source # | |
NotWorse CallMatrix Source # | |
Defined in Agda.Termination.CallMatrix notWorse :: CallMatrix -> CallMatrix -> Bool Source # | |
NotWorse Order Source # | It does not get worse then ` |
HasZero Order Source # | |
Defined in Agda.Termination.Order zeroElement :: Order Source # | |
PartialOrd Order Source # | Information order: When having comparable call-matrices, we keep the lesser one. Call graph completion works toward losing the good calls, tending towards Unknown (the least information). |
Defined in Agda.Termination.Order | |
Show Order Source # | |
Eq Order Source # | |
Ord Order Source # | |
Diagonal (CallMatrixAug cinfo) Order Source # | |
Defined in Agda.Termination.CallMatrix diagonal :: CallMatrixAug cinfo -> [Order] Source # |
(.*.) :: (?cutoff :: CutOff) => Order -> Order -> Order Source #
Multiplication of Order
s.
(Corresponds to sequential composition.)
orderSemiring :: (?cutoff :: CutOff) => Semiring Order Source #
We use a record for semiring instead of a type class
since implicit arguments cannot occur in instance constraints,
like instance (?cutoff :: Int) => SemiRing Order
.
orderMat :: Matrix Int Order -> Order Source #
Smart constructor for matrix shaped orders, avoiding empty and singleton matrices.
nonIncreasing :: Order -> Bool Source #
decreasing :: Order -> Bool Source #
Decreasing and usable?
isDecr :: Order -> Bool Source #
Matrix-shaped order is decreasing if any diagonal element is decreasing.
class NotWorse a where Source #
A partial order, aimed at deciding whether a call graph gets worse during the completion.
Instances
NotWorse CallMatrix Source # | |
Defined in Agda.Termination.CallMatrix notWorse :: CallMatrix -> CallMatrix -> Bool Source # | |
NotWorse Order Source # | It does not get worse then ` |
NotWorse (CallMatrixAug cinfo) Source # | |
Defined in Agda.Termination.CallMatrix notWorse :: CallMatrixAug cinfo -> CallMatrixAug cinfo -> Bool Source # | |
(Ord i, HasZero o, NotWorse o) => NotWorse (Matrix i o) Source # | We assume the matrices have the same dimension. |