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TRS Relative pair #487081816
details
property
value
status
complete
benchmark
rt-rw4.xml
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n141.star.cs.uiowa.edu
space
Mixed_relative_TRS
run statistics
property
value
solver
NaTT v.1.6c
configuration
Default
runtime (wallclock)
3.37259 seconds
cpu usage
4.23
user time
3.76
system time
0.47
max virtual memory
356744.0
max residence set size
9588.0
stage attributes
key
value
starexec-result
MAYBE
output
MAYBE Input TRS: 1: RAo(R()) -> R() 2: RAn(R()) -> R() 3: WAo(W()) -> W() 4: WAn(W()) -> W() 5: Rw() ->= RIn(Rw()) 6: Ww() ->= WIn(Ww()) 7: top(ok(sys_r(read(r,RIo(x)),write(W(),Ww())))) ->= top(check(sys_r(read(RAo(r),x),write(W(),Ww())))) 8: top(ok(sys_w(read(r,RIo(x)),write(W(),Ww())))) ->= top(check(sys_w(read(RAo(r),x),write(W(),Ww())))) 9: top(ok(sys_r(read(r,RIn(x)),write(W(),Ww())))) ->= top(check(sys_r(read(RAn(r),x),write(W(),Ww())))) 10: top(ok(sys_w(read(r,RIn(x)),write(W(),Ww())))) ->= top(check(sys_w(read(RAn(r),x),write(W(),Ww())))) 11: top(ok(sys_r(read(R(),Rw()),write(W(),WIn(y))))) ->= top(check(sys_r(read(R(),Rw()),write(WAn(W()),y)))) 12: top(ok(sys_w(read(R(),Rw()),write(W(),WIn(y))))) ->= top(check(sys_w(read(R(),Rw()),write(WAn(W()),y)))) 13: top(ok(sys_r(read(R(),Rw()),write(W(),WIo(y))))) ->= top(check(sys_r(read(R(),Rw()),write(WAo(W()),y)))) 14: top(ok(sys_w(read(R(),Rw()),write(W(),WIo(y))))) ->= top(check(sys_w(read(R(),Rw()),write(WAo(W()),y)))) 15: top(ok(sys_r(read(r,RIo(x)),write(W(),y)))) ->= top(check(sys_w(read(RAo(r),x),write(W(),y)))) 16: top(ok(sys_r(read(r,RIn(x)),write(W(),y)))) ->= top(check(sys_w(read(RAn(r),x),write(W(),y)))) 17: top(ok(sys_w(read(R(),x),write(W(),WIo(y))))) ->= top(check(sys_r(read(R(),x),write(WAo(W()),y)))) 18: top(ok(sys_w(read(R(),x),write(W(),WIn(y))))) ->= top(check(sys_r(read(R(),x),write(WAn(W()),y)))) 19: check(RIo(x)) ->= ok(RIo(x)) 20: check(RAo(x)) ->= RAo(check(x)) 21: check(RAn(x)) ->= RAn(check(x)) 22: check(WAo(x)) ->= WAo(check(x)) 23: check(WAn(x)) ->= WAn(check(x)) 24: check(RIo(x)) ->= RIo(check(x)) 25: check(RIn(x)) ->= RIn(check(x)) 26: check(WIo(x)) ->= WIo(check(x)) 27: check(WIn(x)) ->= WIn(check(x)) 28: check(sys_r(x,y)) ->= sys_r(check(x),y) 29: check(sys_r(x,y)) ->= sys_r(x,check(y)) 30: check(sys_w(x,y)) ->= sys_w(check(x),y) 31: check(sys_w(x,y)) ->= sys_w(x,check(y)) 32: RAo(ok(x)) ->= ok(RAo(x)) 33: RAn(ok(x)) ->= ok(RAn(x)) 34: WAo(ok(x)) ->= ok(WAo(x)) 35: WAn(ok(x)) ->= ok(WAn(x)) 36: RIn(ok(x)) ->= ok(RIn(x)) 37: WIo(ok(x)) ->= ok(WIo(x)) 38: WIn(ok(x)) ->= ok(WIn(x)) 39: sys_r(ok(x),y) ->= ok(sys_r(x,y)) 40: sys_r(x,ok(y)) ->= ok(sys_r(x,y)) 41: sys_w(ok(x),y) ->= ok(sys_w(x,y)) 42: sys_w(x,ok(y)) ->= ok(sys_w(x,y)) Number of strict rules: 4 Direct POLO(bPol) ... removes: 15 8 1 3 17 7 14 13 sys_w w: x1 + 2 * x2 + 31103 RAo w: x1 + 3107 RIo w: x1 + 1920 read w: x1 + 2 * x2 + 16019 W w: 1 WIn w: 2 * x1 top w: x1 WAo w: x1 + 7722 Ww w: 0 WIo w: x1 + 7723 check w: x1 ok w: x1 Rw w: 14861 R w: 0 WAn w: x1 RIn w: x1 write w: x1 + x2 + 13861 RAn w: x1 sys_r w: x1 + 2 * x2 + 31103 Number of strict rules: 2 Direct POLO(bPol) ... failed. Uncurrying ... failed. Dependency Pairs: #1: #check(sys_r(x,y)) ->? #check(y) #2: #WAn(ok(x)) ->? #WAn(x) #3: #top(ok(sys_r(read(r,RIn(x)),write(W(),Ww())))) ->? #top(check(sys_r(read(RAn(r),x),write(W(),Ww())))) #4: #top(ok(sys_r(read(r,RIn(x)),write(W(),Ww())))) ->? #check(sys_r(read(RAn(r),x),write(W(),Ww()))) #5: #top(ok(sys_r(read(r,RIn(x)),write(W(),Ww())))) ->? #RAn(r) #6: #top(ok(sys_r(read(R(),Rw()),write(W(),WIn(y))))) ->? #top(check(sys_r(read(R(),Rw()),write(WAn(W()),y)))) #7: #top(ok(sys_r(read(R(),Rw()),write(W(),WIn(y))))) ->? #check(sys_r(read(R(),Rw()),write(WAn(W()),y))) #8: #top(ok(sys_r(read(R(),Rw()),write(W(),WIn(y))))) ->? #WAn(W()) #9: #check(RIo(x)) ->? #check(x) #10: #check(WAn(x)) ->? #WAn(check(x)) #11: #check(WAn(x)) ->? #check(x) #12: #top(ok(sys_w(read(R(),Rw()),write(W(),WIn(y))))) ->? #top(check(sys_w(read(R(),Rw()),write(WAn(W()),y)))) #13: #top(ok(sys_w(read(R(),Rw()),write(W(),WIn(y))))) ->? #check(sys_w(read(R(),Rw()),write(WAn(W()),y))) #14: #top(ok(sys_w(read(R(),Rw()),write(W(),WIn(y))))) ->? #WAn(W()) #15: #check(sys_w(x,y)) ->? #check(y) #16: #check(sys_w(x,y)) ->? #check(x) #17: #check(RIn(x)) ->? #check(x) #18: #check(RAo(x)) ->? #check(x) #19: #top(ok(sys_w(read(r,RIn(x)),write(W(),Ww())))) ->? #top(check(sys_w(read(RAn(r),x),write(W(),Ww())))) #20: #top(ok(sys_w(read(r,RIn(x)),write(W(),Ww())))) ->? #check(sys_w(read(RAn(r),x),write(W(),Ww()))) #21: #top(ok(sys_w(read(r,RIn(x)),write(W(),Ww())))) ->? #RAn(r) #22: #RAn(ok(x)) ->? #RAn(x) #23: #check(sys_r(x,y)) ->? #check(x) #24: #check(WAo(x)) ->? #check(x) #25: #check(WIn(x)) ->? #check(x) #26: #check(WIo(x)) ->? #check(x) #27: #check(RAn(x)) ->? #RAn(check(x)) #28: #check(RAn(x)) ->? #check(x) #29: #top(ok(sys_r(read(r,RIn(x)),write(W(),y)))) ->? #top(check(sys_w(read(RAn(r),x),write(W(),y)))) #30: #top(ok(sys_r(read(r,RIn(x)),write(W(),y)))) ->? #check(sys_w(read(RAn(r),x),write(W(),y))) #31: #top(ok(sys_r(read(r,RIn(x)),write(W(),y)))) ->? #RAn(r)
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