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Haskell pair #487598700
details
property
value
status
complete
benchmark
FiniteMap_addToFM_C_10.hs
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n027.star.cs.uiowa.edu
space
full_haskell
run statistics
property
value
solver
AProVE
configuration
standard
runtime (wallclock)
9.93191003799 seconds
cpu usage
25.037014383
max memory
3.549437952E9
stage attributes
key
value
output-size
896078
starexec-result
YES
output
/export/starexec/sandbox/solver/bin/starexec_run_standard /export/starexec/sandbox/benchmark/theBenchmark.hs /export/starexec/sandbox/output/output_files -------------------------------------------------------------------------------- YES proof of /export/starexec/sandbox/benchmark/theBenchmark.hs # AProVE Commit ID: 794c25de1cacf0d048858bcd21c9a779e1221865 marcel 20200619 unpublished dirty H-Termination with start terms of the given HASKELL could be proven: (0) HASKELL (1) LR [EQUIVALENT, 0 ms] (2) HASKELL (3) CR [EQUIVALENT, 0 ms] (4) HASKELL (5) IFR [EQUIVALENT, 0 ms] (6) HASKELL (7) BR [EQUIVALENT, 0 ms] (8) HASKELL (9) COR [EQUIVALENT, 0 ms] (10) HASKELL (11) LetRed [EQUIVALENT, 0 ms] (12) HASKELL (13) NumRed [SOUND, 0 ms] (14) HASKELL (15) Narrow [SOUND, 0 ms] (16) AND (17) QDP (18) QDPSizeChangeProof [EQUIVALENT, 0 ms] (19) YES (20) QDP (21) QDPSizeChangeProof [EQUIVALENT, 0 ms] (22) YES (23) QDP (24) DependencyGraphProof [EQUIVALENT, 0 ms] (25) AND (26) QDP (27) QDPSizeChangeProof [EQUIVALENT, 0 ms] (28) YES (29) QDP (30) QDPSizeChangeProof [EQUIVALENT, 0 ms] (31) YES (32) QDP (33) QDPSizeChangeProof [EQUIVALENT, 0 ms] (34) YES (35) QDP (36) QDPSizeChangeProof [EQUIVALENT, 229 ms] (37) YES (38) QDP (39) QDPSizeChangeProof [EQUIVALENT, 0 ms] (40) YES (41) QDP (42) QDPSizeChangeProof [EQUIVALENT, 0 ms] (43) YES (44) QDP (45) QDPSizeChangeProof [EQUIVALENT, 0 ms] (46) YES ---------------------------------------- (0) Obligation: mainModule Main module FiniteMap where { import qualified Main; import qualified Maybe; import qualified Prelude; data FiniteMap b a = EmptyFM | Branch b a Int (FiniteMap b a) (FiniteMap b a) ; instance (Eq a, Eq b) => Eq FiniteMap a b where { (==) fm_1 fm_2 = sizeFM fm_1 == sizeFM fm_2 && fmToList fm_1 == fmToList fm_2; } addToFM_C :: Ord b => (a -> a -> a) -> FiniteMap b a -> b -> a -> FiniteMap b a; addToFM_C combiner EmptyFM key elt = unitFM key elt; addToFM_C combiner (Branch key elt size fm_l fm_r) new_key new_elt | new_key < key = mkBalBranch key elt (addToFM_C combiner fm_l new_key new_elt) fm_r | new_key > key = mkBalBranch key elt fm_l (addToFM_C combiner fm_r new_key new_elt) | otherwise = Branch new_key (combiner elt new_elt) size fm_l fm_r; emptyFM :: FiniteMap b a; emptyFM = EmptyFM; findMax :: FiniteMap a b -> (a,b); findMax (Branch key elt _ _ EmptyFM) = (key,elt); findMax (Branch key elt _ _ fm_r) = findMax fm_r; findMin :: FiniteMap a b -> (a,b); findMin (Branch key elt _ EmptyFM _) = (key,elt); findMin (Branch key elt _ fm_l _) = findMin fm_l; fmToList :: FiniteMap a b -> [(a,b)]; fmToList fm = foldFM (\key elt rest ->(key,elt) : rest) [] fm; foldFM :: (a -> c -> b -> b) -> b -> FiniteMap a c -> b; foldFM k z EmptyFM = z; foldFM k z (Branch key elt _ fm_l fm_r) = foldFM k (k key elt (foldFM k z fm_r)) fm_l;
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