I recently needed to debug a program at assembly level. I don't have a lot of assembler experience, so I figured I'd write some simple C programs and single-step through them in order to get a feeling for the language before I'd start debugging other peoples code. However, I really don't get what gcc made of these two lines (compiled with -ggdb -O0):
items[tail] = i; tail = (tail+1) % MAX_SIZE;
where MAX_SIZE is #defined to be 5 and i is a local variable (stored in 0x8(%ebp), i guess). According to gdb, this becomes:
0x08048394 <queue+17>: mov 0x8049634,%edx 0x0804839a <queue+23>: mov 0x8(%ebp),%eax 0x0804839d <queue+26>: mov %eax,0x804963c(,%edx,4) 0x080483a4 <queue+33>: mov 0x8049634,%eax 0x080483a9 <queue+38>: lea 0x1(%eax),%ecx 0x080483ac <queue+41>: movl $0x66666667,-0xc(%ebp) 0x080483b3 <queue+48>: mov -0xc(%ebp),%eax 0x080483b6 <queue+51>: imul %ecx 0x080483b8 <queue+53>: sar %edx 0x080483ba <queue+55>: mov %ecx,%eax 0x080483bc <queue+57>: sar $0x1f,%eax 0x080483bf <queue+60>: mov %edx,%ebx 0x080483c1 <queue+62>: sub %eax,%ebx 0x080483c3 <queue+64>: mov %ebx,-0x8(%ebp) 0x080483c6 <queue+67>: mov -0x8(%ebp),%eax 0x080483c9 <queue+70>: shl $0x2,%eax 0x080483cc <queue+73>: add -0x8(%ebp),%eax 0x080483cf <queue+76>: mov %ecx,%edx 0x080483d1 <queue+78>: sub %eax,%edx 0x080483d3 <queue+80>: mov %edx,-0x8(%ebp) 0x080483d6 <queue+83>: mov -0x8(%ebp),%ebx 0x080483d9 <queue+86>: mov %ebx,0x804963
Since 0x804963c is the address of items, i can see how the first line of C code works. Also, 0x8049634 is the address of tail, so I guess queue+33 and queue+38 are equivalent to %ecx = tail+1...but I have no idea what is happening afterwards. Who would have thought a simple modulo could be this complicated?