1 int a(int);
2 int b(int);
3 int c(int);
4 const char *print_string = "aaaaaaaaaa\n";
5
a(int val)6 int a(int val)
7 {
8 int return_value = val; // basic break at the start of b
9
10 if (val <= 1)
11 {
12 return_value = b(val); // break here to stop in a before calling b
13 }
14 else if (val >= 3)
15 {
16 return_value = c(val);
17 }
18
19 return return_value;
20 }
21
b(int val)22 int b(int val)
23 {
24 int rc = c(val); // thread step-out while stopped at "c(2)"
25 return rc;
26 }
27
c(int val)28 int c(int val)
29 {
30 return val + 3; // Find the line number of function "c" here.
31 }
32
complex(int first,int second,int third)33 int complex (int first, int second, int third)
34 {
35 return first + second + third; // Step in targeting complex should stop here
36 }
37
main(int argc,char const * argv[])38 int main (int argc, char const *argv[])
39 {
40 int A1 = a(1); // frame select 2, thread step-out while stopped at "c(1)"
41
42 int B2 = b(2); // assignment to B2
43
44 int A3 = a(3); // frame select 1, thread step-out while stopped at "c(3)"
45
46 int A4 = complex (a(1), b(2), c(3)); // Stop here to try step in targeting b.
47
48 int A5 = complex (a(2), b(3), c(4)); // Stop here to try step in targeting complex.
49
50 int A6 = complex (a(4), b(5), c(6)); // Stop here to step targeting b and hitting breakpoint.
51
52 int A7 = complex (a(5), b(6), c(7)); // Stop here to make sure bogus target steps over.
53
54 return A1 + B2 + A3 + A4 + A5 + A6 + A7 + *print_string;
55 }
56