/export/starexec/sandbox/solver/bin/starexec_run_default /export/starexec/sandbox/benchmark/theBenchmark.xml /export/starexec/sandbox/output/output_files


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YES

Problem 1: 

(VAR v_NonEmpty:S l:S x:S y:S z:S)
(RULES
*(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
*(0,x:S) -> 0
*(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
*(x:S,0) -> 0
+(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
+(0,x:S) -> x:S
+(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
+(x:S,0) -> x:S
prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
prod(nil) -> s(0)
sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
sum(nil) -> 0
)

Problem 1: 

Dependency Pairs Processor:
-> Pairs:
 *#(*(x:S,y:S),z:S) -> *#(x:S,*(y:S,z:S))
 *#(*(x:S,y:S),z:S) -> *#(y:S,z:S)
 *#(s(x:S),s(y:S)) -> *#(x:S,y:S)
 *#(s(x:S),s(y:S)) -> +#(*(x:S,y:S),+(x:S,y:S))
 *#(s(x:S),s(y:S)) -> +#(x:S,y:S)
 +#(+(x:S,y:S),z:S) -> +#(x:S,+(y:S,z:S))
 +#(+(x:S,y:S),z:S) -> +#(y:S,z:S)
 +#(s(x:S),s(y:S)) -> +#(x:S,y:S)
 PROD(cons(x:S,l:S)) -> *#(x:S,prod(l:S))
 PROD(cons(x:S,l:S)) -> PROD(l:S)
 SUM(cons(x:S,l:S)) -> +#(x:S,sum(l:S))
 SUM(cons(x:S,l:S)) -> SUM(l:S)
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0

Problem 1: 

SCC Processor:
-> Pairs:
 *#(*(x:S,y:S),z:S) -> *#(x:S,*(y:S,z:S))
 *#(*(x:S,y:S),z:S) -> *#(y:S,z:S)
 *#(s(x:S),s(y:S)) -> *#(x:S,y:S)
 *#(s(x:S),s(y:S)) -> +#(*(x:S,y:S),+(x:S,y:S))
 *#(s(x:S),s(y:S)) -> +#(x:S,y:S)
 +#(+(x:S,y:S),z:S) -> +#(x:S,+(y:S,z:S))
 +#(+(x:S,y:S),z:S) -> +#(y:S,z:S)
 +#(s(x:S),s(y:S)) -> +#(x:S,y:S)
 PROD(cons(x:S,l:S)) -> *#(x:S,prod(l:S))
 PROD(cons(x:S,l:S)) -> PROD(l:S)
 SUM(cons(x:S,l:S)) -> +#(x:S,sum(l:S))
 SUM(cons(x:S,l:S)) -> SUM(l:S)
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Strongly Connected Components:
->->Cycle:
->->-> Pairs:
 +#(+(x:S,y:S),z:S) -> +#(x:S,+(y:S,z:S))
 +#(+(x:S,y:S),z:S) -> +#(y:S,z:S)
 +#(s(x:S),s(y:S)) -> +#(x:S,y:S)
->->-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->->Cycle:
->->-> Pairs:
 SUM(cons(x:S,l:S)) -> SUM(l:S)
->->-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->->Cycle:
->->-> Pairs:
 *#(*(x:S,y:S),z:S) -> *#(x:S,*(y:S,z:S))
 *#(*(x:S,y:S),z:S) -> *#(y:S,z:S)
 *#(s(x:S),s(y:S)) -> *#(x:S,y:S)
->->-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->->Cycle:
->->-> Pairs:
 PROD(cons(x:S,l:S)) -> PROD(l:S)
->->-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0


The problem is decomposed in 4 subproblems.

Problem 1.1: 

Subterm Processor:
-> Pairs:
 +#(+(x:S,y:S),z:S) -> +#(x:S,+(y:S,z:S))
 +#(+(x:S,y:S),z:S) -> +#(y:S,z:S)
 +#(s(x:S),s(y:S)) -> +#(x:S,y:S)
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Projection:
 pi(+#) = 1

Problem 1.1: 

SCC Processor:
-> Pairs:
 Empty
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Strongly Connected Components:
 There is no strongly connected component

The problem is finite.

Problem 1.2: 

Subterm Processor:
-> Pairs:
 SUM(cons(x:S,l:S)) -> SUM(l:S)
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Projection:
 pi(SUM) = 1

Problem 1.2: 

SCC Processor:
-> Pairs:
 Empty
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Strongly Connected Components:
 There is no strongly connected component

The problem is finite.

Problem 1.3: 

Subterm Processor:
-> Pairs:
 *#(*(x:S,y:S),z:S) -> *#(x:S,*(y:S,z:S))
 *#(*(x:S,y:S),z:S) -> *#(y:S,z:S)
 *#(s(x:S),s(y:S)) -> *#(x:S,y:S)
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Projection:
 pi(*#) = 1

Problem 1.3: 

SCC Processor:
-> Pairs:
 Empty
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Strongly Connected Components:
 There is no strongly connected component

The problem is finite.

Problem 1.4: 

Subterm Processor:
-> Pairs:
 PROD(cons(x:S,l:S)) -> PROD(l:S)
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Projection:
 pi(PROD) = 1

Problem 1.4: 

SCC Processor:
-> Pairs:
 Empty
-> Rules:
 *(*(x:S,y:S),z:S) -> *(x:S,*(y:S,z:S))
 *(0,x:S) -> 0
 *(s(x:S),s(y:S)) -> s(+(*(x:S,y:S),+(x:S,y:S)))
 *(x:S,0) -> 0
 +(+(x:S,y:S),z:S) -> +(x:S,+(y:S,z:S))
 +(0,x:S) -> x:S
 +(s(x:S),s(y:S)) -> s(s(+(x:S,y:S)))
 +(x:S,0) -> x:S
 prod(cons(x:S,l:S)) -> *(x:S,prod(l:S))
 prod(nil) -> s(0)
 sum(cons(x:S,l:S)) -> +(x:S,sum(l:S))
 sum(nil) -> 0
->Strongly Connected Components:
 There is no strongly connected component

The problem is finite.