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TRS Standard pair #487068414
details
property
value
status
complete
benchmark
recursion-5.xml
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n072.star.cs.uiowa.edu
space
TCT_12
run statistics
property
value
solver
muterm 6.0.3
configuration
default
runtime (wallclock)
0.023654 seconds
cpu usage
0.024179
user time
0.012262
system time
0.011917
max virtual memory
113188.0
max residence set size
5764.0
stage attributes
key
value
starexec-result
YES
output
YES Problem 1: (VAR v_NonEmpty:S x:S y:S) (RULES f_0(x:S) -> a f_1(x:S) -> g_1(x:S,x:S) f_2(x:S) -> g_2(x:S,x:S) f_3(x:S) -> g_3(x:S,x:S) f_4(x:S) -> g_4(x:S,x:S) f_5(x:S) -> g_5(x:S,x:S) g_1(s(x:S),y:S) -> b(f_0(y:S),g_1(x:S,y:S)) g_2(s(x:S),y:S) -> b(f_1(y:S),g_2(x:S,y:S)) g_3(s(x:S),y:S) -> b(f_2(y:S),g_3(x:S,y:S)) g_4(s(x:S),y:S) -> b(f_3(y:S),g_4(x:S,y:S)) g_5(s(x:S),y:S) -> b(f_4(y:S),g_5(x:S,y:S)) ) Problem 1: Innermost Equivalent Processor: -> Rules: f_0(x:S) -> a f_1(x:S) -> g_1(x:S,x:S) f_2(x:S) -> g_2(x:S,x:S) f_3(x:S) -> g_3(x:S,x:S) f_4(x:S) -> g_4(x:S,x:S) f_5(x:S) -> g_5(x:S,x:S) g_1(s(x:S),y:S) -> b(f_0(y:S),g_1(x:S,y:S)) g_2(s(x:S),y:S) -> b(f_1(y:S),g_2(x:S,y:S)) g_3(s(x:S),y:S) -> b(f_2(y:S),g_3(x:S,y:S)) g_4(s(x:S),y:S) -> b(f_3(y:S),g_4(x:S,y:S)) g_5(s(x:S),y:S) -> b(f_4(y:S),g_5(x:S,y:S)) -> The term rewriting system is non-overlaping or locally confluent overlay system. Therefore, innermost termination implies termination. Problem 1: Dependency Pairs Processor: -> Pairs: F_1(x:S) -> G_1(x:S,x:S) F_2(x:S) -> G_2(x:S,x:S) F_3(x:S) -> G_3(x:S,x:S) F_4(x:S) -> G_4(x:S,x:S) F_5(x:S) -> G_5(x:S,x:S) G_1(s(x:S),y:S) -> F_0(y:S) G_1(s(x:S),y:S) -> G_1(x:S,y:S) G_2(s(x:S),y:S) -> F_1(y:S) G_2(s(x:S),y:S) -> G_2(x:S,y:S) G_3(s(x:S),y:S) -> F_2(y:S) G_3(s(x:S),y:S) -> G_3(x:S,y:S) G_4(s(x:S),y:S) -> F_3(y:S) G_4(s(x:S),y:S) -> G_4(x:S,y:S) G_5(s(x:S),y:S) -> F_4(y:S) G_5(s(x:S),y:S) -> G_5(x:S,y:S) -> Rules: f_0(x:S) -> a f_1(x:S) -> g_1(x:S,x:S) f_2(x:S) -> g_2(x:S,x:S) f_3(x:S) -> g_3(x:S,x:S) f_4(x:S) -> g_4(x:S,x:S) f_5(x:S) -> g_5(x:S,x:S) g_1(s(x:S),y:S) -> b(f_0(y:S),g_1(x:S,y:S)) g_2(s(x:S),y:S) -> b(f_1(y:S),g_2(x:S,y:S)) g_3(s(x:S),y:S) -> b(f_2(y:S),g_3(x:S,y:S)) g_4(s(x:S),y:S) -> b(f_3(y:S),g_4(x:S,y:S)) g_5(s(x:S),y:S) -> b(f_4(y:S),g_5(x:S,y:S)) Problem 1: SCC Processor: -> Pairs: F_1(x:S) -> G_1(x:S,x:S) F_2(x:S) -> G_2(x:S,x:S) F_3(x:S) -> G_3(x:S,x:S) F_4(x:S) -> G_4(x:S,x:S) F_5(x:S) -> G_5(x:S,x:S) G_1(s(x:S),y:S) -> F_0(y:S) G_1(s(x:S),y:S) -> G_1(x:S,y:S) G_2(s(x:S),y:S) -> F_1(y:S) G_2(s(x:S),y:S) -> G_2(x:S,y:S) G_3(s(x:S),y:S) -> F_2(y:S) G_3(s(x:S),y:S) -> G_3(x:S,y:S) G_4(s(x:S),y:S) -> F_3(y:S) G_4(s(x:S),y:S) -> G_4(x:S,y:S) G_5(s(x:S),y:S) -> F_4(y:S) G_5(s(x:S),y:S) -> G_5(x:S,y:S) -> Rules: f_0(x:S) -> a f_1(x:S) -> g_1(x:S,x:S) f_2(x:S) -> g_2(x:S,x:S) f_3(x:S) -> g_3(x:S,x:S) f_4(x:S) -> g_4(x:S,x:S) f_5(x:S) -> g_5(x:S,x:S) g_1(s(x:S),y:S) -> b(f_0(y:S),g_1(x:S,y:S)) g_2(s(x:S),y:S) -> b(f_1(y:S),g_2(x:S,y:S)) g_3(s(x:S),y:S) -> b(f_2(y:S),g_3(x:S,y:S)) g_4(s(x:S),y:S) -> b(f_3(y:S),g_4(x:S,y:S)) g_5(s(x:S),y:S) -> b(f_4(y:S),g_5(x:S,y:S))
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