First off, this isn't a stupid question :)
To understand why you can't accomplish this with any special trickery, we need to step down to the assembly that gets generated by an if-statement (particularly, the assembly for an Intel processor with gcc 4.2.1 -- different architectures will result in different assembly).
Take this simple C program:
if (i == 8)
If the user enters a non-zero integer, we return 100; otherwise we return 3. The actual condition doesn't really matter here, because we're only interested in the assembly generated for
movl -4(%rbp), %eax
cmpl $8, %eax
movl $100, -20(%rbp)
movl $3, -20(%rbp)
movl -20(%rbp), %eax
I'm going to assume you have no knowledge of assembly -- but don't worry, this example isn't terribly hard to keep up with. What's happening here is that we
call scanf, and we
compare the result of it (
i) with 8.
Next, there's a
Equal instruction to the label L2. This means that if
i is equal to 8, the following instructions executed are:
- Move 3 into
- Leave (thereby returning the value 3 from the program).
i is not equal to 8, then when we hit the
jne instruction, we don't jump. Instead, we:
- Move 100 into
mp unconditionally to the label L4
eax and end up returning 100 from the program.
With the assembly generated here, there are really only two possible branches. You can't arbitrarily reorder the code.
So would it be possible to execute both branches (when they aren't both
return statements)? Yes, on the condition that your compiler is incapable of correctly producing branching code. But that would never happen on a production-level compiler.