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Compl Integ Trans Syste 26843 pair #381745142
details
property
value
status
complete
benchmark
byron-4.koat
ran by
Akihisa Yamada
cpu timeout
1200 seconds
wallclock timeout
300 seconds
memory limit
137438953472 bytes
execution host
n055.star.cs.uiowa.edu
space
T2
run statistics
property
value
solver
AProVE
configuration
complexity
runtime (wallclock)
2.179666996 seconds
cpu usage
4.837140296
max memory
3.0298112E8
stage attributes
key
value
output-size
11999
starexec-result
WORST_CASE(Omega(n^1), O(n^1))
output
/export/starexec/sandbox2/solver/bin/starexec_run_complexity /export/starexec/sandbox2/benchmark/theBenchmark.koat /export/starexec/sandbox2/output/output_files -------------------------------------------------------------------------------- WORST_CASE(Omega(n^1), O(n^1)) proof of /export/starexec/sandbox2/benchmark/theBenchmark.koat # AProVE Commit ID: 48fb2092695e11cc9f56e44b17a92a5f88ffb256 marcel 20180622 unpublished dirty The runtime complexity of the given CpxIntTrs could be proven to be BOUNDS(n^1, n^1). (0) CpxIntTrs (1) Koat Proof [FINISHED, 93 ms] (2) BOUNDS(1, n^1) (3) Loat Proof [FINISHED, 511 ms] (4) BOUNDS(n^1, INF) ---------------------------------------- (0) Obligation: Complexity Int TRS consisting of the following rules: f0(A, B, C) -> Com_1(f3(-(A), B, C)) :|: TRUE f3(A, B, C) -> Com_1(f7(0, D, C)) :|: A >= 0 && A <= 0 f4(A, B, C) -> Com_1(f7(0, D, C)) :|: A >= 0 && A <= 0 f6(A, B, C) -> Com_1(f4(A, B, 1)) :|: A >= 1 f3(A, B, C) -> Com_1(f4(-(1) - A, B, 1)) :|: 0 >= A + 1 && 0 >= C f3(A, B, C) -> Com_1(f4(-(1) - A, B, 1)) :|: 0 >= A + 1 && C >= 2 f3(A, B, C) -> Com_1(f4(-(1) - A, B, 1)) :|: A >= 1 && 0 >= C f3(A, B, C) -> Com_1(f4(-(1) - A, B, 1)) :|: A >= 1 && C >= 2 f4(A, B, C) -> Com_1(f3(1 - A, B, 0)) :|: 0 >= A + 1 && C >= 1 && C <= 1 f4(A, B, C) -> Com_1(f3(1 - A, B, 0)) :|: A >= 1 && C >= 1 && C <= 1 f5(A, B, C) -> Com_1(f3(1 - A, B, 0)) :|: 0 >= A + 1 && C >= 1 && C <= 1 f5(A, B, C) -> Com_1(f3(1 - A, B, 0)) :|: A >= 1 && C >= 1 && C <= 1 The start-symbols are:[f6_3] ---------------------------------------- (1) Koat Proof (FINISHED) YES(?, 2*ar_0 + 3) Initial complexity problem: 1: T: (Comp: ?, Cost: 1) f0(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0, ar_1, ar_2)) (Comp: ?, Cost: 1) f3(ar_0, ar_1, ar_2) -> Com_1(f7(0, d, ar_2)) [ ar_0 = 0 ] (Comp: ?, Cost: 1) f4(ar_0, ar_1, ar_2) -> Com_1(f7(0, d, ar_2)) [ ar_0 = 0 ] (Comp: ?, Cost: 1) f6(ar_0, ar_1, ar_2) -> Com_1(f4(ar_0, ar_1, 1)) [ ar_0 >= 1 ] (Comp: ?, Cost: 1) f3(ar_0, ar_1, ar_2) -> Com_1(f4(-ar_0 - 1, ar_1, 1)) [ 0 >= ar_0 + 1 /\ 0 >= ar_2 ] (Comp: ?, Cost: 1) f3(ar_0, ar_1, ar_2) -> Com_1(f4(-ar_0 - 1, ar_1, 1)) [ 0 >= ar_0 + 1 /\ ar_2 >= 2 ] (Comp: ?, Cost: 1) f3(ar_0, ar_1, ar_2) -> Com_1(f4(-ar_0 - 1, ar_1, 1)) [ ar_0 >= 1 /\ 0 >= ar_2 ] (Comp: ?, Cost: 1) f3(ar_0, ar_1, ar_2) -> Com_1(f4(-ar_0 - 1, ar_1, 1)) [ ar_0 >= 1 /\ ar_2 >= 2 ] (Comp: ?, Cost: 1) f4(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0 + 1, ar_1, 0)) [ 0 >= ar_0 + 1 /\ ar_2 = 1 ] (Comp: ?, Cost: 1) f4(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0 + 1, ar_1, 0)) [ ar_0 >= 1 /\ ar_2 = 1 ] (Comp: ?, Cost: 1) f5(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0 + 1, ar_1, 0)) [ 0 >= ar_0 + 1 /\ ar_2 = 1 ] (Comp: ?, Cost: 1) f5(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0 + 1, ar_1, 0)) [ ar_0 >= 1 /\ ar_2 = 1 ] (Comp: 1, Cost: 0) koat_start(ar_0, ar_1, ar_2) -> Com_1(f6(ar_0, ar_1, ar_2)) [ 0 <= 0 ] start location: koat_start leaf cost: 0 Testing for reachability in the complexity graph removes the following transitions from problem 1: f0(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0, ar_1, ar_2)) f3(ar_0, ar_1, ar_2) -> Com_1(f4(-ar_0 - 1, ar_1, 1)) [ 0 >= ar_0 + 1 /\ ar_2 >= 2 ] f3(ar_0, ar_1, ar_2) -> Com_1(f4(-ar_0 - 1, ar_1, 1)) [ ar_0 >= 1 /\ 0 >= ar_2 ] f3(ar_0, ar_1, ar_2) -> Com_1(f4(-ar_0 - 1, ar_1, 1)) [ ar_0 >= 1 /\ ar_2 >= 2 ] f4(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0 + 1, ar_1, 0)) [ 0 >= ar_0 + 1 /\ ar_2 = 1 ] f5(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0 + 1, ar_1, 0)) [ 0 >= ar_0 + 1 /\ ar_2 = 1 ] f5(ar_0, ar_1, ar_2) -> Com_1(f3(-ar_0 + 1, ar_1, 0)) [ ar_0 >= 1 /\ ar_2 = 1 ]
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