While debugging an issue with a program crashing on a mangled pointer being dereferenced, I ran lldb
and did a disassembly of the crashing function. While perusing the disassembled code, I noticed this odd-looking choice of instructions:
0x100002b06 <+86>: cmpl $0x0, %eax 0x100002b09 <+89>: je 0x100002b14 0x100002b0f <+95>: jmp 0x10000330e 0x100002b14 <+100>: jmp 0x100002c1d
I would expect the code to look like this instead:
0x100002b06 <+86>: cmpl $0x0, %eax 0x100002b09 <+89>: je 0x100002c1d 0x100002b0f <+95>: jmp 0x10000330e
I'm curious as to why Clang made this choice. Is it some sort of branch prediction optimization since this is a NULL pointer check that's very unlikely to match?
edit: This is the originating C code, specifically the line with the NULL pointer check.
traverse = travdone_head;
while (1) {
if (traverse == NULL) nullptr("grokdir() traverse");
/* Don't re-traverse directories we've already seen */
if (inode == traverse->inode && device == traverse->device) {
-O0 -g3
. It still seems a bit strange that it produced a jump to a jump, but that would probably explain it.