Spaces
Explore
Communities
Statistics
Reports
Cluster
Status
Help
Integer_TRS_Innermost 2019-03-21 04.53 pair #429994945
details
property
value
status
complete
benchmark
eratosthenes_small.itrs
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n058.star.cs.uiowa.edu
space
Mixed_ITRS_2014
run statistics
property
value
solver
Ctrl
configuration
Itrs
runtime (wallclock)
0.51471 seconds
cpu usage
0.524542
user time
0.286468
system time
0.238074
max virtual memory
113176.0
max residence set size
8652.0
stage attributes
key
value
starexec-result
MAYBE
output
0.00/0.51 MAYBE 0.00/0.51 0.00/0.51 DP problem for innermost termination. 0.00/0.51 P = 0.00/0.51 isdiv#(x, y) -> isdiv#(x, y - x) [y >= x && x > 0] 0.00/0.51 if#(false, I3, I4, zs) -> filter#(I3, zs) 0.00/0.51 if#(true, I5, I6, B0) -> filter#(I5, B0) 0.00/0.51 filter#(I7, cons(I8, B1)) -> if#(isdiv(I7, I8), I7, I8, B1) 0.00/0.51 filter#(I7, cons(I8, B1)) -> isdiv#(I7, I8) 0.00/0.51 sieve#(cons(I10, ys)) -> sieve#(filter(I10, ys)) 0.00/0.51 sieve#(cons(I10, ys)) -> filter#(I10, ys) 0.00/0.51 nats#(I11, I12) -> nats#(I11 + 1, I12) [I12 >= I11] 0.00/0.51 primes#(I15) -> sieve#(nats(2, I15)) 0.00/0.51 primes#(I15) -> nats#(2, I15) 0.00/0.51 R = 0.00/0.51 isdiv(x, y) -> isdiv(x, y - x) [y >= x && x > 0] 0.00/0.51 isdiv(I0, I1) -> false [I0 > I1 && I1 > 0] 0.00/0.51 isdiv(I2, 0) -> true [I2 > 0] 0.00/0.51 if(false, I3, I4, zs) -> cons(I4, filter(I3, zs)) 0.00/0.51 if(true, I5, I6, B0) -> filter(I5, B0) 0.00/0.51 filter(I7, cons(I8, B1)) -> if(isdiv(I7, I8), I7, I8, B1) 0.00/0.51 filter(I9, nil) -> nil 0.00/0.51 sieve(cons(I10, ys)) -> cons(I10, sieve(filter(I10, ys))) 0.00/0.51 sieve(nil) -> nil 0.00/0.51 nats(I11, I12) -> cons(I11, nats(I11 + 1, I12)) [I12 >= I11] 0.00/0.51 nats(I13, I14) -> nil [I13 > I14] 0.00/0.51 primes(I15) -> sieve(nats(2, I15)) 0.00/0.51 0.00/0.51 The dependency graph for this problem is: 0.00/0.51 0 -> 0 0.00/0.51 1 -> 3, 4 0.00/0.51 2 -> 3, 4 0.00/0.51 3 -> 1, 2 0.00/0.51 4 -> 0 0.00/0.51 5 -> 5, 6 0.00/0.51 6 -> 3, 4 0.00/0.51 7 -> 7 0.00/0.51 8 -> 5, 6 0.00/0.51 9 -> 7 0.00/0.51 Where: 0.00/0.51 0) isdiv#(x, y) -> isdiv#(x, y - x) [y >= x && x > 0] 0.00/0.51 1) if#(false, I3, I4, zs) -> filter#(I3, zs) 0.00/0.51 2) if#(true, I5, I6, B0) -> filter#(I5, B0) 0.00/0.51 3) filter#(I7, cons(I8, B1)) -> if#(isdiv(I7, I8), I7, I8, B1) 0.00/0.51 4) filter#(I7, cons(I8, B1)) -> isdiv#(I7, I8) 0.00/0.51 5) sieve#(cons(I10, ys)) -> sieve#(filter(I10, ys)) 0.00/0.51 6) sieve#(cons(I10, ys)) -> filter#(I10, ys) 0.00/0.51 7) nats#(I11, I12) -> nats#(I11 + 1, I12) [I12 >= I11] 0.00/0.51 8) primes#(I15) -> sieve#(nats(2, I15)) 0.00/0.51 9) primes#(I15) -> nats#(2, I15) 0.00/0.51 0.00/0.51 We have the following SCCs. 0.00/0.51 { 5 } 0.00/0.51 { 1, 2, 3 } 0.00/0.51 { 0 } 0.00/0.51 { 7 } 0.00/0.51 0.00/0.51 DP problem for innermost termination. 0.00/0.51 P = 0.00/0.51 nats#(I11, I12) -> nats#(I11 + 1, I12) [I12 >= I11] 0.00/0.51 R = 0.00/0.51 isdiv(x, y) -> isdiv(x, y - x) [y >= x && x > 0] 0.00/0.51 isdiv(I0, I1) -> false [I0 > I1 && I1 > 0] 0.00/0.51 isdiv(I2, 0) -> true [I2 > 0] 0.00/0.51 if(false, I3, I4, zs) -> cons(I4, filter(I3, zs)) 0.00/0.51 if(true, I5, I6, B0) -> filter(I5, B0) 0.00/0.51 filter(I7, cons(I8, B1)) -> if(isdiv(I7, I8), I7, I8, B1) 0.00/0.51 filter(I9, nil) -> nil 0.00/0.51 sieve(cons(I10, ys)) -> cons(I10, sieve(filter(I10, ys))) 0.00/0.51 sieve(nil) -> nil 0.00/0.51 nats(I11, I12) -> cons(I11, nats(I11 + 1, I12)) [I12 >= I11] 0.00/0.51 nats(I13, I14) -> nil [I13 > I14] 0.00/0.51 primes(I15) -> sieve(nats(2, I15)) 0.00/0.51 0.00/0.51 We use the reverse value criterion with the projection function NU: 0.00/0.51 NU[nats#(z1,z2)] = z2 + -1 * z1 0.00/0.51 0.00/0.51 This gives the following inequalities: 0.00/0.51 I12 >= I11 ==> I12 + -1 * I11 > I12 + -1 * (I11 + 1) with I12 + -1 * I11 >= 0 0.00/0.51 0.00/0.51 All dependency pairs are strictly oriented, so the entire dependency pair problem may be removed. 0.00/0.51 0.00/0.51 DP problem for innermost termination. 0.00/0.51 P = 0.00/0.51 isdiv#(x, y) -> isdiv#(x, y - x) [y >= x && x > 0] 0.00/0.51 R = 0.00/0.51 isdiv(x, y) -> isdiv(x, y - x) [y >= x && x > 0] 0.00/0.51 isdiv(I0, I1) -> false [I0 > I1 && I1 > 0] 0.00/0.51 isdiv(I2, 0) -> true [I2 > 0] 0.00/0.51 if(false, I3, I4, zs) -> cons(I4, filter(I3, zs)) 0.00/0.51 if(true, I5, I6, B0) -> filter(I5, B0) 0.00/0.51 filter(I7, cons(I8, B1)) -> if(isdiv(I7, I8), I7, I8, B1) 0.00/0.51 filter(I9, nil) -> nil 0.00/0.51 sieve(cons(I10, ys)) -> cons(I10, sieve(filter(I10, ys))) 0.00/0.51 sieve(nil) -> nil 0.00/0.51 nats(I11, I12) -> cons(I11, nats(I11 + 1, I12)) [I12 >= I11] 0.00/0.51 nats(I13, I14) -> nil [I13 > I14] 0.00/0.51 primes(I15) -> sieve(nats(2, I15)) 0.00/0.51 0.00/0.51 We use the reverse value criterion with the projection function NU:
popout
output may be truncated. 'popout' for the full output.
job log
popout
actions
all output
return to Integer_TRS_Innermost 2019-03-21 04.53