Initial Problem
Start: evalEx1start
Program_Vars: Arg_0, Arg_1, Arg_2, Arg_3
Temp_Vars: E
Locations: evalEx1bb1in, evalEx1bb4in, evalEx1bb5in, evalEx1bb6in, evalEx1bbin, evalEx1entryin, evalEx1returnin, evalEx1start, evalEx1stop
Transitions:
7:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3-1):|:E+1<=0
8:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3-1):|:E+1<=0 && 1<=E
9:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3-1):|:1<=E
10:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3):|:1<=0
11:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3):|:1<=0
12:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2+1,Arg_3-1):|:1<=0
13:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2+1,Arg_3-1):|:1<=0
14:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2+1,Arg_3)
5:evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_2+1<=Arg_3
6:evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb5in(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_3<=Arg_2
15:evalEx1bb5in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb6in(Arg_0+1,Arg_3,Arg_2,Arg_3)
2:evalEx1bb6in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bbin(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_0+1<=Arg_1
3:evalEx1bb6in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1returnin(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_1<=Arg_0
4:evalEx1bbin(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_0+1,Arg_1)
1:evalEx1entryin(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb6in(0,Arg_0,Arg_2,Arg_3)
16:evalEx1returnin(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1stop(Arg_0,Arg_1,Arg_2,Arg_3)
0:evalEx1start(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1entryin(Arg_0,Arg_1,Arg_2,Arg_3)
Preprocessing
Cut unsatisfiable transition 8: evalEx1bb1in->evalEx1bb4in
Cut unsatisfiable transition 10: evalEx1bb1in->evalEx1bb4in
Cut unsatisfiable transition 11: evalEx1bb1in->evalEx1bb4in
Cut unsatisfiable transition 12: evalEx1bb1in->evalEx1bb4in
Cut unsatisfiable transition 13: evalEx1bb1in->evalEx1bb4in
Found invariant 0<=Arg_0 for location evalEx1bb6in
Found invariant Arg_1<=Arg_0 && 0<=Arg_0 for location evalEx1stop
Found invariant Arg_3<=Arg_1 && 2<=Arg_3 && 3<=Arg_2+Arg_3 && 1+Arg_2<=Arg_3 && 4<=Arg_1+Arg_3 && 2<=Arg_0+Arg_3 && 2+Arg_0<=Arg_3 && 1+Arg_2<=Arg_1 && 1<=Arg_2 && 3<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 2<=Arg_1 && 2<=Arg_0+Arg_1 && 2+Arg_0<=Arg_1 && 0<=Arg_0 for location evalEx1bb1in
Found invariant Arg_3<=Arg_2 && Arg_3<=Arg_1 && 1<=Arg_3 && 2<=Arg_2+Arg_3 && Arg_2<=Arg_3 && 2<=Arg_1+Arg_3 && 1<=Arg_0+Arg_3 && 1+Arg_0<=Arg_3 && Arg_2<=Arg_1 && 1<=Arg_2 && 2<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 for location evalEx1bb5in
Found invariant 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 for location evalEx1bbin
Found invariant Arg_1<=Arg_0 && 0<=Arg_0 for location evalEx1returnin
Found invariant Arg_3<=Arg_1 && 1<=Arg_3 && 2<=Arg_2+Arg_3 && Arg_2<=Arg_3 && 2<=Arg_1+Arg_3 && 1<=Arg_0+Arg_3 && 1+Arg_0<=Arg_3 && Arg_2<=Arg_1 && 1<=Arg_2 && 2<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 for location evalEx1bb4in
Problem after Preprocessing
Start: evalEx1start
Program_Vars: Arg_0, Arg_1, Arg_2, Arg_3
Temp_Vars: E
Locations: evalEx1bb1in, evalEx1bb4in, evalEx1bb5in, evalEx1bb6in, evalEx1bbin, evalEx1entryin, evalEx1returnin, evalEx1start, evalEx1stop
Transitions:
7:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3-1):|:Arg_3<=Arg_1 && 2<=Arg_3 && 3<=Arg_2+Arg_3 && 1+Arg_2<=Arg_3 && 4<=Arg_1+Arg_3 && 2<=Arg_0+Arg_3 && 2+Arg_0<=Arg_3 && 1+Arg_2<=Arg_1 && 1<=Arg_2 && 3<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 2<=Arg_1 && 2<=Arg_0+Arg_1 && 2+Arg_0<=Arg_1 && 0<=Arg_0 && E+1<=0
9:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3-1):|:Arg_3<=Arg_1 && 2<=Arg_3 && 3<=Arg_2+Arg_3 && 1+Arg_2<=Arg_3 && 4<=Arg_1+Arg_3 && 2<=Arg_0+Arg_3 && 2+Arg_0<=Arg_3 && 1+Arg_2<=Arg_1 && 1<=Arg_2 && 3<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 2<=Arg_1 && 2<=Arg_0+Arg_1 && 2+Arg_0<=Arg_1 && 0<=Arg_0 && 1<=E
14:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2+1,Arg_3):|:Arg_3<=Arg_1 && 2<=Arg_3 && 3<=Arg_2+Arg_3 && 1+Arg_2<=Arg_3 && 4<=Arg_1+Arg_3 && 2<=Arg_0+Arg_3 && 2+Arg_0<=Arg_3 && 1+Arg_2<=Arg_1 && 1<=Arg_2 && 3<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 2<=Arg_1 && 2<=Arg_0+Arg_1 && 2+Arg_0<=Arg_1 && 0<=Arg_0
5:evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_3<=Arg_1 && 1<=Arg_3 && 2<=Arg_2+Arg_3 && Arg_2<=Arg_3 && 2<=Arg_1+Arg_3 && 1<=Arg_0+Arg_3 && 1+Arg_0<=Arg_3 && Arg_2<=Arg_1 && 1<=Arg_2 && 2<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && Arg_2+1<=Arg_3
6:evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb5in(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_3<=Arg_1 && 1<=Arg_3 && 2<=Arg_2+Arg_3 && Arg_2<=Arg_3 && 2<=Arg_1+Arg_3 && 1<=Arg_0+Arg_3 && 1+Arg_0<=Arg_3 && Arg_2<=Arg_1 && 1<=Arg_2 && 2<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && Arg_3<=Arg_2
15:evalEx1bb5in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb6in(Arg_0+1,Arg_3,Arg_2,Arg_3):|:Arg_3<=Arg_2 && Arg_3<=Arg_1 && 1<=Arg_3 && 2<=Arg_2+Arg_3 && Arg_2<=Arg_3 && 2<=Arg_1+Arg_3 && 1<=Arg_0+Arg_3 && 1+Arg_0<=Arg_3 && Arg_2<=Arg_1 && 1<=Arg_2 && 2<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0
2:evalEx1bb6in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bbin(Arg_0,Arg_1,Arg_2,Arg_3):|:0<=Arg_0 && Arg_0+1<=Arg_1
3:evalEx1bb6in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1returnin(Arg_0,Arg_1,Arg_2,Arg_3):|:0<=Arg_0 && Arg_1<=Arg_0
4:evalEx1bbin(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_0+1,Arg_1):|:1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0
1:evalEx1entryin(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb6in(0,Arg_0,Arg_2,Arg_3)
16:evalEx1returnin(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1stop(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_1<=Arg_0 && 0<=Arg_0
0:evalEx1start(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1entryin(Arg_0,Arg_1,Arg_2,Arg_3)
MPRF for transition 7:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3-1):|:Arg_3<=Arg_1 && 2<=Arg_3 && 3<=Arg_2+Arg_3 && 1+Arg_2<=Arg_3 && 4<=Arg_1+Arg_3 && 2<=Arg_0+Arg_3 && 2+Arg_0<=Arg_3 && 1+Arg_2<=Arg_1 && 1<=Arg_2 && 3<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 2<=Arg_1 && 2<=Arg_0+Arg_1 && 2+Arg_0<=Arg_1 && 0<=Arg_0 && E+1<=0 of depth 1:
new bound:
Arg_0+1 {O(n)}
MPRF:
evalEx1bb1in [Arg_3-1 ]
evalEx1bb5in [Arg_3-1 ]
evalEx1bb6in [Arg_1-1 ]
evalEx1bbin [Arg_1-1 ]
evalEx1bb4in [Arg_3-1 ]
MPRF for transition 9:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3-1):|:Arg_3<=Arg_1 && 2<=Arg_3 && 3<=Arg_2+Arg_3 && 1+Arg_2<=Arg_3 && 4<=Arg_1+Arg_3 && 2<=Arg_0+Arg_3 && 2+Arg_0<=Arg_3 && 1+Arg_2<=Arg_1 && 1<=Arg_2 && 3<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 2<=Arg_1 && 2<=Arg_0+Arg_1 && 2+Arg_0<=Arg_1 && 0<=Arg_0 && 1<=E of depth 1:
new bound:
Arg_0+1 {O(n)}
MPRF:
evalEx1bb1in [Arg_3-1 ]
evalEx1bb5in [Arg_3-1 ]
evalEx1bb6in [Arg_1-1 ]
evalEx1bbin [Arg_1-1 ]
evalEx1bb4in [Arg_3-1 ]
MPRF for transition 6:evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb5in(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_3<=Arg_1 && 1<=Arg_3 && 2<=Arg_2+Arg_3 && Arg_2<=Arg_3 && 2<=Arg_1+Arg_3 && 1<=Arg_0+Arg_3 && 1+Arg_0<=Arg_3 && Arg_2<=Arg_1 && 1<=Arg_2 && 2<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && Arg_3<=Arg_2 of depth 1:
new bound:
Arg_0 {O(n)}
MPRF:
evalEx1bb1in [Arg_3-Arg_0 ]
evalEx1bb5in [Arg_3-Arg_0-1 ]
evalEx1bb6in [Arg_1-Arg_0 ]
evalEx1bbin [Arg_1-Arg_0 ]
evalEx1bb4in [Arg_3-Arg_0 ]
MPRF for transition 15:evalEx1bb5in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb6in(Arg_0+1,Arg_3,Arg_2,Arg_3):|:Arg_3<=Arg_2 && Arg_3<=Arg_1 && 1<=Arg_3 && 2<=Arg_2+Arg_3 && Arg_2<=Arg_3 && 2<=Arg_1+Arg_3 && 1<=Arg_0+Arg_3 && 1+Arg_0<=Arg_3 && Arg_2<=Arg_1 && 1<=Arg_2 && 2<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 of depth 1:
new bound:
Arg_0+1 {O(n)}
MPRF:
evalEx1bb1in [Arg_3+1-Arg_0 ]
evalEx1bb5in [Arg_3+1-Arg_0 ]
evalEx1bb6in [Arg_1+1-Arg_0 ]
evalEx1bbin [Arg_1+1-Arg_0 ]
evalEx1bb4in [Arg_3+1-Arg_0 ]
MPRF for transition 2:evalEx1bb6in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bbin(Arg_0,Arg_1,Arg_2,Arg_3):|:0<=Arg_0 && Arg_0+1<=Arg_1 of depth 1:
new bound:
Arg_0+1 {O(n)}
MPRF:
evalEx1bb1in [Arg_1-Arg_0 ]
evalEx1bb5in [Arg_2-Arg_0 ]
evalEx1bb6in [Arg_1+1-Arg_0 ]
evalEx1bbin [Arg_1-Arg_0 ]
evalEx1bb4in [Arg_1-Arg_0 ]
MPRF for transition 4:evalEx1bbin(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_0+1,Arg_1):|:1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 of depth 1:
new bound:
Arg_0 {O(n)}
MPRF:
evalEx1bb1in [Arg_1-Arg_0-1 ]
evalEx1bb5in [Arg_3-Arg_0-1 ]
evalEx1bb6in [Arg_1-Arg_0 ]
evalEx1bbin [Arg_1-Arg_0 ]
evalEx1bb4in [Arg_1-Arg_0-1 ]
MPRF for transition 14:evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb4in(Arg_0,Arg_1,Arg_2+1,Arg_3):|:Arg_3<=Arg_1 && 2<=Arg_3 && 3<=Arg_2+Arg_3 && 1+Arg_2<=Arg_3 && 4<=Arg_1+Arg_3 && 2<=Arg_0+Arg_3 && 2+Arg_0<=Arg_3 && 1+Arg_2<=Arg_1 && 1<=Arg_2 && 3<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 2<=Arg_1 && 2<=Arg_0+Arg_1 && 2+Arg_0<=Arg_1 && 0<=Arg_0 of depth 1:
new bound:
3*Arg_0*Arg_0+3*Arg_0 {O(n^2)}
MPRF:
evalEx1bb1in [2*Arg_1-Arg_2 ]
evalEx1bb4in [2*Arg_1-Arg_2 ]
evalEx1bb5in [Arg_1 ]
evalEx1bb6in [Arg_1 ]
evalEx1bbin [Arg_1 ]
MPRF for transition 5:evalEx1bb4in(Arg_0,Arg_1,Arg_2,Arg_3) -> evalEx1bb1in(Arg_0,Arg_1,Arg_2,Arg_3):|:Arg_3<=Arg_1 && 1<=Arg_3 && 2<=Arg_2+Arg_3 && Arg_2<=Arg_3 && 2<=Arg_1+Arg_3 && 1<=Arg_0+Arg_3 && 1+Arg_0<=Arg_3 && Arg_2<=Arg_1 && 1<=Arg_2 && 2<=Arg_1+Arg_2 && 1<=Arg_0+Arg_2 && 1+Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && Arg_2+1<=Arg_3 of depth 1:
new bound:
2*Arg_0*Arg_0+2*Arg_0 {O(n^2)}
MPRF:
evalEx1bb1in [Arg_3-Arg_2-1 ]
evalEx1bb4in [Arg_3-Arg_2 ]
evalEx1bb5in [Arg_3-Arg_2 ]
evalEx1bb6in [0 ]
evalEx1bbin [0 ]
All Bounds
Timebounds
Overall timebound:5*Arg_0*Arg_0+11*Arg_0+8 {O(n^2)}
7: evalEx1bb1in->evalEx1bb4in: Arg_0+1 {O(n)}
9: evalEx1bb1in->evalEx1bb4in: Arg_0+1 {O(n)}
14: evalEx1bb1in->evalEx1bb4in: 3*Arg_0*Arg_0+3*Arg_0 {O(n^2)}
5: evalEx1bb4in->evalEx1bb1in: 2*Arg_0*Arg_0+2*Arg_0 {O(n^2)}
6: evalEx1bb4in->evalEx1bb5in: Arg_0 {O(n)}
15: evalEx1bb5in->evalEx1bb6in: Arg_0+1 {O(n)}
2: evalEx1bb6in->evalEx1bbin: Arg_0+1 {O(n)}
3: evalEx1bb6in->evalEx1returnin: 1 {O(1)}
4: evalEx1bbin->evalEx1bb4in: Arg_0 {O(n)}
1: evalEx1entryin->evalEx1bb6in: 1 {O(1)}
16: evalEx1returnin->evalEx1stop: 1 {O(1)}
0: evalEx1start->evalEx1entryin: 1 {O(1)}
Costbounds
Overall costbound: 5*Arg_0*Arg_0+11*Arg_0+8 {O(n^2)}
7: evalEx1bb1in->evalEx1bb4in: Arg_0+1 {O(n)}
9: evalEx1bb1in->evalEx1bb4in: Arg_0+1 {O(n)}
14: evalEx1bb1in->evalEx1bb4in: 3*Arg_0*Arg_0+3*Arg_0 {O(n^2)}
5: evalEx1bb4in->evalEx1bb1in: 2*Arg_0*Arg_0+2*Arg_0 {O(n^2)}
6: evalEx1bb4in->evalEx1bb5in: Arg_0 {O(n)}
15: evalEx1bb5in->evalEx1bb6in: Arg_0+1 {O(n)}
2: evalEx1bb6in->evalEx1bbin: Arg_0+1 {O(n)}
3: evalEx1bb6in->evalEx1returnin: 1 {O(1)}
4: evalEx1bbin->evalEx1bb4in: Arg_0 {O(n)}
1: evalEx1entryin->evalEx1bb6in: 1 {O(1)}
16: evalEx1returnin->evalEx1stop: 1 {O(1)}
0: evalEx1start->evalEx1entryin: 1 {O(1)}
Sizebounds
7: evalEx1bb1in->evalEx1bb4in, Arg_0: Arg_0+1 {O(n)}
7: evalEx1bb1in->evalEx1bb4in, Arg_1: Arg_0 {O(n)}
7: evalEx1bb1in->evalEx1bb4in, Arg_2: 3*Arg_0*Arg_0+4*Arg_0+2 {O(n^2)}
7: evalEx1bb1in->evalEx1bb4in, Arg_3: Arg_0 {O(n)}
9: evalEx1bb1in->evalEx1bb4in, Arg_0: Arg_0+1 {O(n)}
9: evalEx1bb1in->evalEx1bb4in, Arg_1: Arg_0 {O(n)}
9: evalEx1bb1in->evalEx1bb4in, Arg_2: 3*Arg_0*Arg_0+4*Arg_0+2 {O(n^2)}
9: evalEx1bb1in->evalEx1bb4in, Arg_3: Arg_0 {O(n)}
14: evalEx1bb1in->evalEx1bb4in, Arg_0: Arg_0+1 {O(n)}
14: evalEx1bb1in->evalEx1bb4in, Arg_1: Arg_0 {O(n)}
14: evalEx1bb1in->evalEx1bb4in, Arg_2: 3*Arg_0*Arg_0+4*Arg_0+2 {O(n^2)}
14: evalEx1bb1in->evalEx1bb4in, Arg_3: Arg_0 {O(n)}
5: evalEx1bb4in->evalEx1bb1in, Arg_0: Arg_0+1 {O(n)}
5: evalEx1bb4in->evalEx1bb1in, Arg_1: Arg_0 {O(n)}
5: evalEx1bb4in->evalEx1bb1in, Arg_2: 3*Arg_0*Arg_0+4*Arg_0+2 {O(n^2)}
5: evalEx1bb4in->evalEx1bb1in, Arg_3: Arg_0 {O(n)}
6: evalEx1bb4in->evalEx1bb5in, Arg_0: Arg_0+1 {O(n)}
6: evalEx1bb4in->evalEx1bb5in, Arg_1: Arg_0 {O(n)}
6: evalEx1bb4in->evalEx1bb5in, Arg_2: 9*Arg_0*Arg_0+13*Arg_0+8 {O(n^2)}
6: evalEx1bb4in->evalEx1bb5in, Arg_3: 4*Arg_0 {O(n)}
15: evalEx1bb5in->evalEx1bb6in, Arg_0: Arg_0+1 {O(n)}
15: evalEx1bb5in->evalEx1bb6in, Arg_1: Arg_0 {O(n)}
15: evalEx1bb5in->evalEx1bb6in, Arg_2: 9*Arg_0*Arg_0+13*Arg_0+8 {O(n^2)}
15: evalEx1bb5in->evalEx1bb6in, Arg_3: 4*Arg_0 {O(n)}
2: evalEx1bb6in->evalEx1bbin, Arg_0: Arg_0+1 {O(n)}
2: evalEx1bb6in->evalEx1bbin, Arg_1: Arg_0 {O(n)}
2: evalEx1bb6in->evalEx1bbin, Arg_2: 9*Arg_0*Arg_0+13*Arg_0+Arg_2+8 {O(n^2)}
2: evalEx1bb6in->evalEx1bbin, Arg_3: 4*Arg_0+Arg_3 {O(n)}
3: evalEx1bb6in->evalEx1returnin, Arg_0: Arg_0+1 {O(n)}
3: evalEx1bb6in->evalEx1returnin, Arg_1: 2*Arg_0 {O(n)}
3: evalEx1bb6in->evalEx1returnin, Arg_2: 9*Arg_0*Arg_0+13*Arg_0+Arg_2+8 {O(n^2)}
3: evalEx1bb6in->evalEx1returnin, Arg_3: 4*Arg_0+Arg_3 {O(n)}
4: evalEx1bbin->evalEx1bb4in, Arg_0: Arg_0+1 {O(n)}
4: evalEx1bbin->evalEx1bb4in, Arg_1: Arg_0 {O(n)}
4: evalEx1bbin->evalEx1bb4in, Arg_2: Arg_0+2 {O(n)}
4: evalEx1bbin->evalEx1bb4in, Arg_3: Arg_0 {O(n)}
1: evalEx1entryin->evalEx1bb6in, Arg_0: 0 {O(1)}
1: evalEx1entryin->evalEx1bb6in, Arg_1: Arg_0 {O(n)}
1: evalEx1entryin->evalEx1bb6in, Arg_2: Arg_2 {O(n)}
1: evalEx1entryin->evalEx1bb6in, Arg_3: Arg_3 {O(n)}
16: evalEx1returnin->evalEx1stop, Arg_0: Arg_0+1 {O(n)}
16: evalEx1returnin->evalEx1stop, Arg_1: 2*Arg_0 {O(n)}
16: evalEx1returnin->evalEx1stop, Arg_2: 9*Arg_0*Arg_0+13*Arg_0+Arg_2+8 {O(n^2)}
16: evalEx1returnin->evalEx1stop, Arg_3: 4*Arg_0+Arg_3 {O(n)}
0: evalEx1start->evalEx1entryin, Arg_0: Arg_0 {O(n)}
0: evalEx1start->evalEx1entryin, Arg_1: Arg_1 {O(n)}
0: evalEx1start->evalEx1entryin, Arg_2: Arg_2 {O(n)}
0: evalEx1start->evalEx1entryin, Arg_3: Arg_3 {O(n)}