Haskell 2019-04-01 06.52 pair #433315934

details

property	value
status	complete
benchmark	FiniteMap_eltsFM_GE_9.hs
ran by	Akihisa Yamada
cpu timeout	1200 seconds
wallclock timeout	300 seconds
memory limit	137438953472 bytes
execution host	n081.star.cs.uiowa.edu
space	full_haskell

run statistics

property	value
solver	AProVE
configuration	standard
runtime (wallclock)	11.8644 seconds
cpu usage	30.4048
user time	29.2172
system time	1.18758
max virtual memory	1.8285568E7
max residence set size	3926384.0

stage attributes

key	value
starexec-result	YES

output

26.93/10.89	YES
30.22/11.76	proof of /export/starexec/sandbox/benchmark/theBenchmark.hs
30.22/11.76	# AProVE Commit ID: 48fb2092695e11cc9f56e44b17a92a5f88ffb256 marcel 20180622 unpublished dirty
30.22/11.76	
30.22/11.76	
30.22/11.76	H-Termination with start terms of the given HASKELL could be proven:
30.22/11.76	
30.22/11.76	(0) HASKELL
30.22/11.76	(1) LR [EQUIVALENT, 0 ms]
30.22/11.76	(2) HASKELL
30.22/11.76	(3) CR [EQUIVALENT, 0 ms]
30.22/11.76	(4) HASKELL
30.22/11.76	(5) IFR [EQUIVALENT, 0 ms]
30.22/11.76	(6) HASKELL
30.22/11.76	(7) BR [EQUIVALENT, 0 ms]
30.22/11.76	(8) HASKELL
30.22/11.76	(9) COR [EQUIVALENT, 7 ms]
30.22/11.76	(10) HASKELL
30.22/11.76	(11) LetRed [EQUIVALENT, 0 ms]
30.22/11.76	(12) HASKELL
30.22/11.76	(13) NumRed [SOUND, 0 ms]
30.22/11.76	(14) HASKELL
30.22/11.76	(15) Narrow [SOUND, 0 ms]
30.22/11.76	(16) AND
30.22/11.76	    (17) QDP
30.22/11.76	        (18) QDPSizeChangeProof [EQUIVALENT, 0 ms]
30.22/11.76	        (19) YES
30.22/11.76	    (20) QDP
30.22/11.76	        (21) QDPSizeChangeProof [EQUIVALENT, 0 ms]
30.22/11.76	        (22) YES
30.22/11.76	    (23) QDP
30.22/11.76	        (24) TransformationProof [EQUIVALENT, 1728 ms]
30.22/11.76	        (25) QDP
30.22/11.76	        (26) TransformationProof [EQUIVALENT, 0 ms]
30.22/11.76	        (27) QDP
30.22/11.76	        (28) TransformationProof [EQUIVALENT, 0 ms]
30.22/11.76	        (29) QDP
30.22/11.76	        (30) TransformationProof [EQUIVALENT, 0 ms]
30.22/11.76	        (31) QDP
30.22/11.76	        (32) QDPSizeChangeProof [EQUIVALENT, 0 ms]
30.22/11.76	        (33) YES
30.22/11.76	    (34) QDP
30.22/11.76	        (35) TransformationProof [EQUIVALENT, 1361 ms]
30.22/11.76	        (36) QDP
30.22/11.76	        (37) TransformationProof [EQUIVALENT, 0 ms]
30.22/11.76	        (38) QDP
30.22/11.76	        (39) TransformationProof [EQUIVALENT, 0 ms]
30.22/11.76	        (40) QDP
30.22/11.76	        (41) TransformationProof [EQUIVALENT, 1 ms]
30.22/11.76	        (42) QDP
30.22/11.76	        (43) QDPSizeChangeProof [EQUIVALENT, 0 ms]
30.22/11.76	        (44) YES
30.22/11.76	    (45) QDP
30.22/11.76	        (46) QDPSizeChangeProof [EQUIVALENT, 34 ms]
30.22/11.76	        (47) YES
30.22/11.76	    (48) QDP
30.22/11.76	        (49) QDPSizeChangeProof [EQUIVALENT, 0 ms]
30.22/11.76	        (50) YES
30.22/11.76	    (51) QDP
30.22/11.76	        (52) QDPSizeChangeProof [EQUIVALENT, 0 ms]
30.22/11.76	        (53) YES
30.22/11.76	    (54) QDP
30.22/11.76	        (55) QDPSizeChangeProof [EQUIVALENT, 0 ms]
30.22/11.76	        (56) YES
30.22/11.76	
30.22/11.76	
30.22/11.76	----------------------------------------
30.22/11.76	
30.22/11.76	(0)
30.22/11.76	Obligation:
30.22/11.76	mainModule Main 
30.22/11.76	module FiniteMap where {
30.22/11.76	import qualified Main;
30.22/11.76	import qualified Maybe;
30.22/11.76	import qualified Prelude;
30.22/11.76	data FiniteMap b a = EmptyFM  | Branch b a Int (FiniteMap b a) (FiniteMap b a) ;
30.22/11.76	
30.22/11.76	instance (Eq a, Eq b) => Eq FiniteMap a b where { 
30.22/11.76	(==) fm_1 fm_2 = sizeFM fm_1 == sizeFM fm_2 && fmToList fm_1 == fmToList fm_2;
30.22/11.76	}
30.22/11.76	eltsFM_GE :: Ord a => FiniteMap a b  ->  a  ->  [b];
30.22/11.76	eltsFM_GE fm fr = foldFM_GE (\key elt rest ->elt : rest) [] fr fm;
30.22/11.76	
30.22/11.76	fmToList :: FiniteMap a b  ->  [(a,b)];
30.22/11.76	fmToList fm = foldFM (\key elt rest ->(key,elt) : rest) [] fm;
30.22/11.76	
30.22/11.76	foldFM :: (a  ->  c  ->  b  ->  b)  ->  b  ->  FiniteMap a c  ->  b;
30.22/11.76	foldFM k z EmptyFM = z;
30.22/11.76	foldFM k z (Branch key elt _ fm_l fm_r) = foldFM k (k key elt (foldFM k z fm_r)) fm_l;
30.22/11.76	
30.22/11.76	foldFM_GE :: Ord b => (b  ->  c  ->  a  ->  a)  ->  a  ->  b  ->  FiniteMap b c  ->  a;
30.22/11.76	foldFM_GE k z fr EmptyFM = z;
30.22/11.76	foldFM_GE k z fr (Branch key elt _ fm_l fm_r)  | key >= fr = foldFM_GE k (k key elt (foldFM_GE k z fr fm_r)) fr fm_l
30.22/11.76	 | otherwise = foldFM_GE k z fr fm_r;
30.22/11.76	
30.22/11.76	sizeFM :: FiniteMap a b  ->  Int;
30.22/11.76	sizeFM EmptyFM = 0;
30.22/11.76	sizeFM (Branch _ _ size _ _) = size;
30.22/11.76	
30.22/11.76	}

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