I am trying to write a small library for highly optimised x86-64 bit operation code and am fiddling with inline asm.
While testing this particular case has caught my attention:
unsigned long test = 0; unsigned long bsr; // bit test and set 39th bit __asm__ ("btsq\t%1, %0 " : "+rm" (test) : "rJ" (39) ); // bit scan reverse (get most significant bit id) __asm__ ("bsrq\t%1, %0" : "=r" (bsr) : "rm" (test) ); printf("test = %lu, bsr = %d\n", test, bsr);
compiles and runs fine in both gcc and icc, but when I inspect the assembly I get differences
gcc -S -fverbose-asm -std=gnu99 -O3
movq $0, -8(%rbp) ## InlineAsm Start btsq $39, -8(%rbp) ## InlineAsm End movq -8(%rbp), %rax movq %rax, -16(%rbp) ## InlineAsm Start bsrq -16(%rbp), %rdx ## InlineAsm End movq -8(%rbp), %rsi leaq L_.str(%rip), %rdi xorb %al, %al callq _printf
I am wondering why so complicated? I am writing high performance code in which the number of instructions is critical. I am especially wondering why gcc makes a copy of my variable
test before passing it to the second inline asm?
Same code compiled with icc gives far better results:
xorl %esi, %esi # test = 0 movl $.L_2__STRING.0, %edi # has something to do with printf orl $32832, (%rsp) # part of function initiation xorl %eax, %eax # has something to do with printf ldmxcsr (%rsp) # part of function initiation btsq $39, %rsi #106.0 bsrq %rsi, %rdx #109.0 call printf #111.2
despite the fact that gcc decides to keep my variables on the stack rather then in registers, what I do not understand is why make a copy of
test before passing it to the second asm?
If I put
test in as an input/output variable in the second asm
__asm__ ("bsrq\t%1, %0" : "=r" (bsr) , "+rm" (test) );
then those lines disappear.
movq $0, -8(%rbp) ## InlineAsm Start btsq $39, -8(%rbp) ## InlineAsm End ## InlineAsm Start bsrq -8(%rbp), %rdx ## InlineAsm End movq -8(%rbp), %rsi leaq L_.str(%rip), %rdi xorb %al, %al callq _printf
Is this gcc screwed up optimisation or am I missing some vital compiler switches? I do have icc for my production system, but if I decide to distribute the source code at some point then it will have to be able to compile with gcc too.
gcc version 4.2.1 (Based on Apple Inc. build 5658) (LLVM build 2336.1.00)
icc Version 12.0.2