YES 0.9480000000000001
H-Termination proof of /home/matraf/haskell/eval_FullyBlown_Fast/List.hs
H-Termination of the given Haskell-Program with start terms could successfully be proven:
↳ HASKELL
↳ BR
mainModule List
|
| ((genericLength :: [a] -> Float) :: [a] -> Float) |
module List where
| | import qualified Maybe
import qualified Prelude
|
| | genericLength :: Num b => [a] -> b
| genericLength | [] | = | 0 |
| genericLength | (_ : l) | = | 1 + genericLength l |
|
module Maybe where
| | import qualified List
import qualified Prelude
|
Replaced joker patterns by fresh variables and removed binding patterns.
↳ HASKELL
↳ BR
↳ HASKELL
↳ COR
mainModule List
|
| ((genericLength :: [a] -> Float) :: [a] -> Float) |
module List where
| | import qualified Maybe
import qualified Prelude
|
| | genericLength :: Num a => [b] -> a
| genericLength | [] | = | 0 |
| genericLength | (vw : l) | = | 1 + genericLength l |
|
module Maybe where
| | import qualified List
import qualified Prelude
|
Cond Reductions:
The following Function with conditions
is transformed to
| undefined0 | True | = undefined |
| undefined1 | | = undefined0 False |
↳ HASKELL
↳ BR
↳ HASKELL
↳ COR
↳ HASKELL
↳ NumRed
mainModule List
|
| ((genericLength :: [a] -> Float) :: [a] -> Float) |
module List where
| | import qualified Maybe
import qualified Prelude
|
| | genericLength :: Num a => [b] -> a
| genericLength | [] | = | 0 |
| genericLength | (vw : l) | = | 1 + genericLength l |
|
module Maybe where
| | import qualified List
import qualified Prelude
|
Num Reduction: All numbers are transformed to thier corresponding representation with Pos, Neg, Succ and Zero.
↳ HASKELL
↳ BR
↳ HASKELL
↳ COR
↳ HASKELL
↳ NumRed
↳ HASKELL
↳ Narrow
mainModule List
|
| (genericLength :: [a] -> Float) |
module List where
| | import qualified Maybe
import qualified Prelude
|
| | genericLength :: Num b => [a] -> b
| genericLength | [] | = | fromInt (Pos Zero) |
| genericLength | (vw : l) | = | fromInt (Pos (Succ Zero)) + genericLength l |
|
module Maybe where
| | import qualified List
import qualified Prelude
|
Haskell To QDPs
↳ HASKELL
↳ BR
↳ HASKELL
↳ COR
↳ HASKELL
↳ NumRed
↳ HASKELL
↳ Narrow
↳ QDP
↳ QDPSizeChangeProof
Q DP problem:
The TRS P consists of the following rules:
new_genericLength(:(vz30, vz31), ba) → new_genericLength(vz31, ba)
R is empty.
Q is empty.
We have to consider all minimal (P,Q,R)-chains.
By using the subterm criterion [20] together with the size-change analysis [32] we have proven that there are no infinite chains for this DP problem. From the DPs we obtained the following set of size-change graphs:
- new_genericLength(:(vz30, vz31), ba) → new_genericLength(vz31, ba)
The graph contains the following edges 1 > 1, 2 >= 2