Initial Problem
Start: evalfstart
Program_Vars: Arg_0, Arg_1, Arg_2
Temp_Vars: D
Locations: evalfbb1in, evalfbb2in, evalfbb3in, evalfbb4in, evalfbb5in, evalfbb6in, evalfentryin, evalfreturnin, evalfstart, evalfstop
Transitions:
12:evalfbb1in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_2+1)
8:evalfbb2in(Arg_0,Arg_1,Arg_2) -> evalfbb3in(Arg_0,Arg_1,Arg_2):|:Arg_2+1<=Arg_1
7:evalfbb2in(Arg_0,Arg_1,Arg_2) -> evalfbb4in(Arg_0,Arg_1,Arg_2):|:Arg_1<=Arg_2
9:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb1in(Arg_0,Arg_1,Arg_2):|:D+1<=0
10:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb1in(Arg_0,Arg_1,Arg_2):|:1<=D
11:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb4in(Arg_0,Arg_1,Arg_2)
13:evalfbb4in(Arg_0,Arg_1,Arg_2) -> evalfbb5in(Arg_2+1,Arg_1,Arg_2)
3:evalfbb5in(Arg_0,Arg_1,Arg_2) -> evalfbb6in(Arg_0,Arg_1,Arg_2):|:Arg_0+1<=Arg_1
2:evalfbb5in(Arg_0,Arg_1,Arg_2) -> evalfreturnin(Arg_0,Arg_1,Arg_2):|:Arg_1<=Arg_0
4:evalfbb6in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_0):|:D+1<=0
5:evalfbb6in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_0):|:1<=D
6:evalfbb6in(Arg_0,Arg_1,Arg_2) -> evalfreturnin(Arg_0,Arg_1,Arg_2)
1:evalfentryin(Arg_0,Arg_1,Arg_2) -> evalfbb5in(0,Arg_1,Arg_2)
14:evalfreturnin(Arg_0,Arg_1,Arg_2) -> evalfstop(Arg_0,Arg_1,Arg_2)
0:evalfstart(Arg_0,Arg_1,Arg_2) -> evalfentryin(Arg_0,Arg_1,Arg_2)
Preprocessing
Found invariant 0<=Arg_0 for location evalfbb5in
Found invariant 0<=Arg_0 for location evalfreturnin
Found invariant 1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 for location evalfbb1in
Found invariant Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 for location evalfbb2in
Found invariant 1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 for location evalfbb3in
Found invariant 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 for location evalfbb6in
Found invariant 0<=Arg_0 for location evalfstop
Found invariant Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 for location evalfbb4in
Problem after Preprocessing
Start: evalfstart
Program_Vars: Arg_0, Arg_1, Arg_2
Temp_Vars: D
Locations: evalfbb1in, evalfbb2in, evalfbb3in, evalfbb4in, evalfbb5in, evalfbb6in, evalfentryin, evalfreturnin, evalfstart, evalfstop
Transitions:
12:evalfbb1in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_2+1):|:1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0
8:evalfbb2in(Arg_0,Arg_1,Arg_2) -> evalfbb3in(Arg_0,Arg_1,Arg_2):|:Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && Arg_2+1<=Arg_1
7:evalfbb2in(Arg_0,Arg_1,Arg_2) -> evalfbb4in(Arg_0,Arg_1,Arg_2):|:Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && Arg_1<=Arg_2
9:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb1in(Arg_0,Arg_1,Arg_2):|:1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && D+1<=0
10:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb1in(Arg_0,Arg_1,Arg_2):|:1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && 1<=D
11:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb4in(Arg_0,Arg_1,Arg_2):|:1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0
13:evalfbb4in(Arg_0,Arg_1,Arg_2) -> evalfbb5in(Arg_2+1,Arg_1,Arg_2):|:Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0
3:evalfbb5in(Arg_0,Arg_1,Arg_2) -> evalfbb6in(Arg_0,Arg_1,Arg_2):|:0<=Arg_0 && Arg_0+1<=Arg_1
2:evalfbb5in(Arg_0,Arg_1,Arg_2) -> evalfreturnin(Arg_0,Arg_1,Arg_2):|:0<=Arg_0 && Arg_1<=Arg_0
4:evalfbb6in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_0):|:1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && D+1<=0
5:evalfbb6in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_0):|:1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && 1<=D
6:evalfbb6in(Arg_0,Arg_1,Arg_2) -> evalfreturnin(Arg_0,Arg_1,Arg_2):|:1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0
1:evalfentryin(Arg_0,Arg_1,Arg_2) -> evalfbb5in(0,Arg_1,Arg_2)
14:evalfreturnin(Arg_0,Arg_1,Arg_2) -> evalfstop(Arg_0,Arg_1,Arg_2):|:0<=Arg_0
0:evalfstart(Arg_0,Arg_1,Arg_2) -> evalfentryin(Arg_0,Arg_1,Arg_2)
MPRF for transition 12:evalfbb1in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_2+1):|:1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && 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_1 {O(n)}
MPRF:
evalfbb1in [Arg_1-Arg_2 ]
evalfbb3in [Arg_1-Arg_2 ]
evalfbb4in [Arg_1-Arg_2 ]
evalfbb5in [Arg_1-Arg_0 ]
evalfbb6in [Arg_1-Arg_0 ]
evalfbb2in [Arg_1-Arg_2 ]
MPRF for transition 7:evalfbb2in(Arg_0,Arg_1,Arg_2) -> evalfbb4in(Arg_0,Arg_1,Arg_2):|:Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && Arg_1<=Arg_2 of depth 1:
new bound:
Arg_1+1 {O(n)}
MPRF:
evalfbb1in [Arg_1+1-Arg_0 ]
evalfbb3in [Arg_1+1-Arg_0 ]
evalfbb4in [Arg_1-Arg_2 ]
evalfbb5in [Arg_1+1-Arg_0 ]
evalfbb6in [Arg_1+1-Arg_0 ]
evalfbb2in [Arg_1+1-Arg_0 ]
MPRF for transition 8:evalfbb2in(Arg_0,Arg_1,Arg_2) -> evalfbb3in(Arg_0,Arg_1,Arg_2):|:Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && Arg_2+1<=Arg_1 of depth 1:
new bound:
Arg_1+1 {O(n)}
MPRF:
evalfbb1in [Arg_1-Arg_2 ]
evalfbb3in [Arg_1-Arg_2 ]
evalfbb4in [Arg_1-Arg_2 ]
evalfbb5in [Arg_1+1-Arg_0 ]
evalfbb6in [Arg_1+1-Arg_0 ]
evalfbb2in [Arg_1+1-Arg_2 ]
MPRF for transition 9:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb1in(Arg_0,Arg_1,Arg_2):|:1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && D+1<=0 of depth 1:
new bound:
Arg_1 {O(n)}
MPRF:
evalfbb1in [Arg_1-Arg_2-1 ]
evalfbb3in [Arg_1-Arg_2 ]
evalfbb4in [Arg_1-Arg_2 ]
evalfbb5in [Arg_1-Arg_0 ]
evalfbb6in [Arg_1-Arg_0 ]
evalfbb2in [Arg_1-Arg_2 ]
MPRF for transition 10:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb1in(Arg_0,Arg_1,Arg_2):|:1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && Arg_0<=Arg_2 && 1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && 1<=D of depth 1:
new bound:
Arg_1 {O(n)}
MPRF:
evalfbb1in [Arg_1-Arg_2-1 ]
evalfbb3in [Arg_1-Arg_2 ]
evalfbb4in [Arg_1-Arg_2 ]
evalfbb5in [Arg_1-Arg_0 ]
evalfbb6in [Arg_1-Arg_0 ]
evalfbb2in [Arg_1-Arg_2 ]
MPRF for transition 11:evalfbb3in(Arg_0,Arg_1,Arg_2) -> evalfbb4in(Arg_0,Arg_1,Arg_2):|:1+Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && 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_1 {O(n)}
MPRF:
evalfbb1in [Arg_1-Arg_0 ]
evalfbb3in [Arg_1-Arg_0 ]
evalfbb4in [Arg_1-Arg_2-1 ]
evalfbb5in [Arg_1-Arg_0 ]
evalfbb6in [Arg_1-Arg_0 ]
evalfbb2in [Arg_1-Arg_0 ]
MPRF for transition 13:evalfbb4in(Arg_0,Arg_1,Arg_2) -> evalfbb5in(Arg_2+1,Arg_1,Arg_2):|:Arg_2<=Arg_1 && 0<=Arg_2 && 1<=Arg_1+Arg_2 && 0<=Arg_0+Arg_2 && 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_1+1 {O(n)}
MPRF:
evalfbb1in [Arg_1+1-Arg_0 ]
evalfbb3in [Arg_1+1-Arg_0 ]
evalfbb4in [Arg_1+1-Arg_2 ]
evalfbb5in [Arg_1+1-Arg_0 ]
evalfbb6in [Arg_1+1-Arg_0 ]
evalfbb2in [Arg_1+1-Arg_0 ]
MPRF for transition 3:evalfbb5in(Arg_0,Arg_1,Arg_2) -> evalfbb6in(Arg_0,Arg_1,Arg_2):|:0<=Arg_0 && Arg_0+1<=Arg_1 of depth 1:
new bound:
Arg_1 {O(n)}
MPRF:
evalfbb1in [Arg_1-Arg_0-1 ]
evalfbb3in [Arg_1-Arg_0-1 ]
evalfbb4in [Arg_1-Arg_0-1 ]
evalfbb5in [Arg_1-Arg_0 ]
evalfbb6in [Arg_1-Arg_0-1 ]
evalfbb2in [Arg_1-Arg_0-1 ]
MPRF for transition 4:evalfbb6in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_0):|:1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && D+1<=0 of depth 1:
new bound:
Arg_1 {O(n)}
MPRF:
evalfbb1in [Arg_1-Arg_0-1 ]
evalfbb3in [Arg_1-Arg_0-1 ]
evalfbb4in [Arg_1-Arg_0-1 ]
evalfbb5in [Arg_1-Arg_0 ]
evalfbb6in [Arg_1-Arg_0 ]
evalfbb2in [Arg_1-Arg_0-1 ]
MPRF for transition 5:evalfbb6in(Arg_0,Arg_1,Arg_2) -> evalfbb2in(Arg_0,Arg_1,Arg_0):|:1<=Arg_1 && 1<=Arg_0+Arg_1 && 1+Arg_0<=Arg_1 && 0<=Arg_0 && 1<=D of depth 1:
new bound:
Arg_1 {O(n)}
MPRF:
evalfbb1in [Arg_1-Arg_2-1 ]
evalfbb3in [Arg_1-Arg_2-1 ]
evalfbb4in [Arg_1-Arg_2-1 ]
evalfbb5in [Arg_1-Arg_0 ]
evalfbb6in [Arg_1-Arg_0 ]
evalfbb2in [Arg_1-Arg_2-1 ]
All Bounds
Timebounds
Overall timebound:10*Arg_1+8 {O(n)}
12: evalfbb1in->evalfbb2in: Arg_1 {O(n)}
7: evalfbb2in->evalfbb4in: Arg_1+1 {O(n)}
8: evalfbb2in->evalfbb3in: Arg_1+1 {O(n)}
9: evalfbb3in->evalfbb1in: Arg_1 {O(n)}
10: evalfbb3in->evalfbb1in: Arg_1 {O(n)}
11: evalfbb3in->evalfbb4in: Arg_1 {O(n)}
13: evalfbb4in->evalfbb5in: Arg_1+1 {O(n)}
2: evalfbb5in->evalfreturnin: 1 {O(1)}
3: evalfbb5in->evalfbb6in: Arg_1 {O(n)}
4: evalfbb6in->evalfbb2in: Arg_1 {O(n)}
5: evalfbb6in->evalfbb2in: Arg_1 {O(n)}
6: evalfbb6in->evalfreturnin: 1 {O(1)}
1: evalfentryin->evalfbb5in: 1 {O(1)}
14: evalfreturnin->evalfstop: 1 {O(1)}
0: evalfstart->evalfentryin: 1 {O(1)}
Costbounds
Overall costbound: 10*Arg_1+8 {O(n)}
12: evalfbb1in->evalfbb2in: Arg_1 {O(n)}
7: evalfbb2in->evalfbb4in: Arg_1+1 {O(n)}
8: evalfbb2in->evalfbb3in: Arg_1+1 {O(n)}
9: evalfbb3in->evalfbb1in: Arg_1 {O(n)}
10: evalfbb3in->evalfbb1in: Arg_1 {O(n)}
11: evalfbb3in->evalfbb4in: Arg_1 {O(n)}
13: evalfbb4in->evalfbb5in: Arg_1+1 {O(n)}
2: evalfbb5in->evalfreturnin: 1 {O(1)}
3: evalfbb5in->evalfbb6in: Arg_1 {O(n)}
4: evalfbb6in->evalfbb2in: Arg_1 {O(n)}
5: evalfbb6in->evalfbb2in: Arg_1 {O(n)}
6: evalfbb6in->evalfreturnin: 1 {O(1)}
1: evalfentryin->evalfbb5in: 1 {O(1)}
14: evalfreturnin->evalfstop: 1 {O(1)}
0: evalfstart->evalfentryin: 1 {O(1)}
Sizebounds
12: evalfbb1in->evalfbb2in, Arg_0: 4*Arg_1+2 {O(n)}
12: evalfbb1in->evalfbb2in, Arg_1: Arg_1 {O(n)}
12: evalfbb1in->evalfbb2in, Arg_2: 2*Arg_1+1 {O(n)}
7: evalfbb2in->evalfbb4in, Arg_0: 4*Arg_1+2 {O(n)}
7: evalfbb2in->evalfbb4in, Arg_1: Arg_1 {O(n)}
7: evalfbb2in->evalfbb4in, Arg_2: 2*Arg_1+1 {O(n)}
8: evalfbb2in->evalfbb3in, Arg_0: 4*Arg_1+2 {O(n)}
8: evalfbb2in->evalfbb3in, Arg_1: Arg_1 {O(n)}
8: evalfbb2in->evalfbb3in, Arg_2: 2*Arg_1+1 {O(n)}
9: evalfbb3in->evalfbb1in, Arg_0: 4*Arg_1+2 {O(n)}
9: evalfbb3in->evalfbb1in, Arg_1: Arg_1 {O(n)}
9: evalfbb3in->evalfbb1in, Arg_2: 2*Arg_1+1 {O(n)}
10: evalfbb3in->evalfbb1in, Arg_0: 4*Arg_1+2 {O(n)}
10: evalfbb3in->evalfbb1in, Arg_1: Arg_1 {O(n)}
10: evalfbb3in->evalfbb1in, Arg_2: 2*Arg_1+1 {O(n)}
11: evalfbb3in->evalfbb4in, Arg_0: 4*Arg_1+2 {O(n)}
11: evalfbb3in->evalfbb4in, Arg_1: Arg_1 {O(n)}
11: evalfbb3in->evalfbb4in, Arg_2: 2*Arg_1+1 {O(n)}
13: evalfbb4in->evalfbb5in, Arg_0: 2*Arg_1+1 {O(n)}
13: evalfbb4in->evalfbb5in, Arg_1: Arg_1 {O(n)}
13: evalfbb4in->evalfbb5in, Arg_2: 4*Arg_1+2 {O(n)}
2: evalfbb5in->evalfreturnin, Arg_0: 2*Arg_1+1 {O(n)}
2: evalfbb5in->evalfreturnin, Arg_1: 2*Arg_1 {O(n)}
2: evalfbb5in->evalfreturnin, Arg_2: 4*Arg_1+Arg_2+2 {O(n)}
3: evalfbb5in->evalfbb6in, Arg_0: 2*Arg_1+1 {O(n)}
3: evalfbb5in->evalfbb6in, Arg_1: Arg_1 {O(n)}
3: evalfbb5in->evalfbb6in, Arg_2: 4*Arg_1+Arg_2+2 {O(n)}
4: evalfbb6in->evalfbb2in, Arg_0: 2*Arg_1+1 {O(n)}
4: evalfbb6in->evalfbb2in, Arg_1: Arg_1 {O(n)}
4: evalfbb6in->evalfbb2in, Arg_2: 2*Arg_1+1 {O(n)}
5: evalfbb6in->evalfbb2in, Arg_0: 2*Arg_1+1 {O(n)}
5: evalfbb6in->evalfbb2in, Arg_1: Arg_1 {O(n)}
5: evalfbb6in->evalfbb2in, Arg_2: 2*Arg_1+1 {O(n)}
6: evalfbb6in->evalfreturnin, Arg_0: 2*Arg_1+1 {O(n)}
6: evalfbb6in->evalfreturnin, Arg_1: Arg_1 {O(n)}
6: evalfbb6in->evalfreturnin, Arg_2: 4*Arg_1+Arg_2+2 {O(n)}
1: evalfentryin->evalfbb5in, Arg_0: 0 {O(1)}
1: evalfentryin->evalfbb5in, Arg_1: Arg_1 {O(n)}
1: evalfentryin->evalfbb5in, Arg_2: Arg_2 {O(n)}
14: evalfreturnin->evalfstop, Arg_0: 4*Arg_1+2 {O(n)}
14: evalfreturnin->evalfstop, Arg_1: 3*Arg_1 {O(n)}
14: evalfreturnin->evalfstop, Arg_2: 2*Arg_2+8*Arg_1+4 {O(n)}
0: evalfstart->evalfentryin, Arg_0: Arg_0 {O(n)}
0: evalfstart->evalfentryin, Arg_1: Arg_1 {O(n)}
0: evalfstart->evalfentryin, Arg_2: Arg_2 {O(n)}