/export/starexec/sandbox/solver/bin/starexec_run_default /export/starexec/sandbox/benchmark/theBenchmark.xml /export/starexec/sandbox/output/output_files -------------------------------------------------------------------------------- YES Problem 1: (VAR X X1 X2 Y) (RULES active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ) Problem 1: Dependency Pairs Processor: -> Pairs: ACTIVE(from(X)) -> CONS(X,from(s(X))) ACTIVE(from(X)) -> FROM(s(X)) ACTIVE(from(X)) -> MARK(cons(X,from(s(X)))) ACTIVE(from(X)) -> S(X) ACTIVE(length(cons(X,Y))) -> LENGTH1(Y) ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length(cons(X,Y))) -> S(length1(Y)) ACTIVE(length(nil)) -> MARK(0) ACTIVE(length1(X)) -> LENGTH(X) ACTIVE(length1(X)) -> MARK(length(X)) CONS(active(X1),X2) -> CONS(X1,X2) CONS(mark(X1),X2) -> CONS(X1,X2) CONS(X1,active(X2)) -> CONS(X1,X2) CONS(X1,mark(X2)) -> CONS(X1,X2) FROM(active(X)) -> FROM(X) FROM(mark(X)) -> FROM(X) LENGTH(active(X)) -> LENGTH(X) LENGTH(mark(X)) -> LENGTH(X) LENGTH1(active(X)) -> LENGTH1(X) LENGTH1(mark(X)) -> LENGTH1(X) MARK(cons(X1,X2)) -> ACTIVE(cons(mark(X1),X2)) MARK(cons(X1,X2)) -> CONS(mark(X1),X2) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> FROM(mark(X)) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) MARK(s(X)) -> S(mark(X)) S(active(X)) -> S(X) S(mark(X)) -> S(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1: SCC Processor: -> Pairs: ACTIVE(from(X)) -> CONS(X,from(s(X))) ACTIVE(from(X)) -> FROM(s(X)) ACTIVE(from(X)) -> MARK(cons(X,from(s(X)))) ACTIVE(from(X)) -> S(X) ACTIVE(length(cons(X,Y))) -> LENGTH1(Y) ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length(cons(X,Y))) -> S(length1(Y)) ACTIVE(length(nil)) -> MARK(0) ACTIVE(length1(X)) -> LENGTH(X) ACTIVE(length1(X)) -> MARK(length(X)) CONS(active(X1),X2) -> CONS(X1,X2) CONS(mark(X1),X2) -> CONS(X1,X2) CONS(X1,active(X2)) -> CONS(X1,X2) CONS(X1,mark(X2)) -> CONS(X1,X2) FROM(active(X)) -> FROM(X) FROM(mark(X)) -> FROM(X) LENGTH(active(X)) -> LENGTH(X) LENGTH(mark(X)) -> LENGTH(X) LENGTH1(active(X)) -> LENGTH1(X) LENGTH1(mark(X)) -> LENGTH1(X) MARK(cons(X1,X2)) -> ACTIVE(cons(mark(X1),X2)) MARK(cons(X1,X2)) -> CONS(mark(X1),X2) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> FROM(mark(X)) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) MARK(s(X)) -> S(mark(X)) S(active(X)) -> S(X) S(mark(X)) -> S(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: S(active(X)) -> S(X) S(mark(X)) -> S(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->->Cycle: ->->-> Pairs: LENGTH1(active(X)) -> LENGTH1(X) LENGTH1(mark(X)) -> LENGTH1(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->->Cycle: ->->-> Pairs: LENGTH(active(X)) -> LENGTH(X) LENGTH(mark(X)) -> LENGTH(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->->Cycle: ->->-> Pairs: FROM(active(X)) -> FROM(X) FROM(mark(X)) -> FROM(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->->Cycle: ->->-> Pairs: CONS(active(X1),X2) -> CONS(X1,X2) CONS(mark(X1),X2) -> CONS(X1,X2) CONS(X1,active(X2)) -> CONS(X1,X2) CONS(X1,mark(X2)) -> CONS(X1,X2) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->->Cycle: ->->-> Pairs: ACTIVE(from(X)) -> MARK(cons(X,from(s(X)))) ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(cons(X1,X2)) -> ACTIVE(cons(mark(X1),X2)) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) The problem is decomposed in 6 subproblems. Problem 1.1: Subterm Processor: -> Pairs: S(active(X)) -> S(X) S(mark(X)) -> S(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Projection: pi(S) = 1 Problem 1.1: SCC Processor: -> Pairs: Empty -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: There is no strongly connected component The problem is finite. Problem 1.2: Subterm Processor: -> Pairs: LENGTH1(active(X)) -> LENGTH1(X) LENGTH1(mark(X)) -> LENGTH1(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Projection: pi(LENGTH1) = 1 Problem 1.2: SCC Processor: -> Pairs: Empty -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: There is no strongly connected component The problem is finite. Problem 1.3: Subterm Processor: -> Pairs: LENGTH(active(X)) -> LENGTH(X) LENGTH(mark(X)) -> LENGTH(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Projection: pi(LENGTH) = 1 Problem 1.3: SCC Processor: -> Pairs: Empty -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: There is no strongly connected component The problem is finite. Problem 1.4: Subterm Processor: -> Pairs: FROM(active(X)) -> FROM(X) FROM(mark(X)) -> FROM(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Projection: pi(FROM) = 1 Problem 1.4: SCC Processor: -> Pairs: Empty -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: There is no strongly connected component The problem is finite. Problem 1.5: Subterm Processor: -> Pairs: CONS(active(X1),X2) -> CONS(X1,X2) CONS(mark(X1),X2) -> CONS(X1,X2) CONS(X1,active(X2)) -> CONS(X1,X2) CONS(X1,mark(X2)) -> CONS(X1,X2) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Projection: pi(CONS) = 1 Problem 1.5: SCC Processor: -> Pairs: CONS(X1,active(X2)) -> CONS(X1,X2) CONS(X1,mark(X2)) -> CONS(X1,X2) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: CONS(X1,active(X2)) -> CONS(X1,X2) CONS(X1,mark(X2)) -> CONS(X1,X2) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.5: Subterm Processor: -> Pairs: CONS(X1,active(X2)) -> CONS(X1,X2) CONS(X1,mark(X2)) -> CONS(X1,X2) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Projection: pi(CONS) = 2 Problem 1.5: SCC Processor: -> Pairs: Empty -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: There is no strongly connected component The problem is finite. Problem 1.6: Reduction Pair Processor: -> Pairs: ACTIVE(from(X)) -> MARK(cons(X,from(s(X)))) ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(cons(X1,X2)) -> ACTIVE(cons(mark(X1),X2)) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) -> Usable rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [active](X) = X [cons](X1,X2) = X1 + 1 [from](X) = X + 2 [length](X) = 2 [length1](X) = 2 [mark](X) = X [s](X) = X [0] = 1 [nil] = 1 [ACTIVE](X) = 2.X + 2 [MARK](X) = 2.X + 2 Problem 1.6: SCC Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(cons(X1,X2)) -> ACTIVE(cons(mark(X1),X2)) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(cons(X1,X2)) -> ACTIVE(cons(mark(X1),X2)) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.6: Reduction Pair Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(cons(X1,X2)) -> ACTIVE(cons(mark(X1),X2)) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) -> Usable rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [active](X) = X [cons](X1,X2) = X1 + 1 [from](X) = 2.X + 2 [length](X) = 0 [length1](X) = 0 [mark](X) = 2.X [s](X) = X [0] = 0 [nil] = 2 [ACTIVE](X) = 2 [MARK](X) = 2.X + 2 Problem 1.6: SCC Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.6: Reduction Pair Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(cons(X1,X2)) -> MARK(X1) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) -> Usable rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [active](X) = X [cons](X1,X2) = X1 + 1 [from](X) = 2.X + 2 [length](X) = 0 [length1](X) = 0 [mark](X) = 2.X [s](X) = 2.X [0] = 0 [nil] = 0 [ACTIVE](X) = X + 2 [MARK](X) = 2.X + 2 Problem 1.6: SCC Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.6: Reduction Pair Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(from(X)) -> ACTIVE(from(mark(X))) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) -> Usable rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [active](X) = 2 [cons](X1,X2) = 0 [from](X) = 0 [length](X) = 2 [length1](X) = 2 [mark](X) = 2 [s](X) = 0 [0] = 2 [nil] = 0 [ACTIVE](X) = X [MARK](X) = 2 Problem 1.6: SCC Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.6: Reduction Pair Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(from(X)) -> MARK(X) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) -> Usable rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [active](X) = X [cons](X1,X2) = 2.X1 + 2 [from](X) = 2.X + 2 [length](X) = 0 [length1](X) = 0 [mark](X) = X [s](X) = 2.X [0] = 0 [nil] = 1 [ACTIVE](X) = 2.X + 2 [MARK](X) = 2.X + 2 Problem 1.6: SCC Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.6: Reduction Pair Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> ACTIVE(s(mark(X))) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) -> Usable rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [active](X) = 2.X [cons](X1,X2) = 0 [from](X) = 1 [length](X) = 1 [length1](X) = 1 [mark](X) = 2 [s](X) = 0 [0] = 0 [nil] = 1 [ACTIVE](X) = 2.X [MARK](X) = 2 Problem 1.6: SCC Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.6: Reduction Pair Processor: -> Pairs: ACTIVE(length(cons(X,Y))) -> MARK(s(length1(Y))) ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) -> Usable rules: length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [active](X) = 2.X [cons](X1,X2) = 2.X2 + 2 [length](X) = 2.X + 2 [length1](X) = 2.X + 2 [mark](X) = 2.X [s](X) = 2.X + 1 [ACTIVE](X) = 2.X + 1 [MARK](X) = 2.X + 1 Problem 1.6: SCC Processor: -> Pairs: ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.6: Reduction Pair Processor: -> Pairs: ACTIVE(length1(X)) -> MARK(length(X)) MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) -> Usable rules: length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) ->Interpretation type: Linear ->Coefficients: Natural Numbers ->Dimension: 1 ->Bound: 2 ->Interpretation: [active](X) = X [length](X) = 2.X + 1 [length1](X) = 2.X + 2 [mark](X) = 2.X [s](X) = 2.X [ACTIVE](X) = 2.X + 2 [MARK](X) = 2.X + 2 Problem 1.6: SCC Processor: -> Pairs: MARK(length(X)) -> ACTIVE(length(X)) MARK(length1(X)) -> ACTIVE(length1(X)) MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: ->->Cycle: ->->-> Pairs: MARK(s(X)) -> MARK(X) ->->-> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) Problem 1.6: Subterm Processor: -> Pairs: MARK(s(X)) -> MARK(X) -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Projection: pi(MARK) = 1 Problem 1.6: SCC Processor: -> Pairs: Empty -> Rules: active(from(X)) -> mark(cons(X,from(s(X)))) active(length(cons(X,Y))) -> mark(s(length1(Y))) active(length(nil)) -> mark(0) active(length1(X)) -> mark(length(X)) cons(active(X1),X2) -> cons(X1,X2) cons(mark(X1),X2) -> cons(X1,X2) cons(X1,active(X2)) -> cons(X1,X2) cons(X1,mark(X2)) -> cons(X1,X2) from(active(X)) -> from(X) from(mark(X)) -> from(X) length(active(X)) -> length(X) length(mark(X)) -> length(X) length1(active(X)) -> length1(X) length1(mark(X)) -> length1(X) mark(cons(X1,X2)) -> active(cons(mark(X1),X2)) mark(from(X)) -> active(from(mark(X))) mark(length(X)) -> active(length(X)) mark(length1(X)) -> active(length1(X)) mark(s(X)) -> active(s(mark(X))) mark(0) -> active(0) mark(nil) -> active(nil) s(active(X)) -> s(X) s(mark(X)) -> s(X) ->Strongly Connected Components: There is no strongly connected component The problem is finite.