Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have two macros, one is written in assembly and the other in C. The second macro uses the first macro. However, I also want to write the second macro in assembly with volatile, so I can control its placement in the code. And please note that tid is a runtime value, not a constant like n.

What is a good way to write that in assembly? Also, is it possible to control placement of a C code like assembly with volatile?

#define SAVE_SP(n) __asm__ __volatile__ ("movq %rsp, msp"#n";" \
     "movq ts"#n", %rsp;" \

#define SAVE_STACK_POINTER( tid ) \
    switch( tid ) \
    { \
        case 0: \
            SAVE_SP( 0 ); \
            break; \
        case 1: \
            SAVE_SP( 1 ); \
            break; \
        case 2: \
            SAVE_SP( 2 ); \
            break; \
        case 3: \
            SAVE_SP( 3 ); \
            break; \
share|improve this question
tid is a runtime value, not a constant like n. – MetallicPriest Nov 25 '11 at 16:38
(Never mind, that was nonsense.) – Kerrek SB Nov 25 '11 at 16:38
Is it possible to store the tsp<n> and msp<n> values in an array? – Brett Hale Nov 25 '11 at 16:44
Which compiler/assembler are you using? For which processor? Inline assembler is not standardized, so the syntax to use C variables in inline assembly is highly dependent on those choices. – Johan Bezem Nov 25 '11 at 16:45
Why is SAVE_STACK_POINTER called at all, instead of calling SAVE_SP directly? – Jim Clay Nov 25 '11 at 16:52
up vote 6 down vote accepted

You can ask gcc its idea of how to write your code in assembly: gcc -S foo.c or gcc -Wa,-alh=foo.s -c foo.c. You may want to improve on the results, of course. You will need to do a little extra: use %0 for the parameter that you pass for the assembly chunk, and declare the registers that you've clobbered. Look up Assembler Instructions with C Expression Operands in the GCC manual if you aren't familiar. Here's how this might look like (warning, typed directly into the browser, and don't really know x86 assembly syntax).

#define SAVE_STACK_POINTER(tid) __asm__ __volatile__ (" \
        cmpl $0, %0                                   \n\
        je .SAVE_STACK_POINTER_0                      \n\
        cmpl $1, %0                                   \n\
        je .SAVE_STACK_POINTER_1                      \n\
        cmpl $2, %0                                   \n\
        je .SAVE_STACK_POINTER_2                      \n\
        cmpl $3, %0                                   \n\
        je .SAVE_STACK_POINTER_3                      \n\
        jmp .SAVE_STACK_POINTER_done                  \n\
      .SAVE_STACK_POINTER_0:                          \n\
        movq %%rsp, msp0                              \n\
        movq ts0, %%rsp                               \n\
        jmp SAVE_STACK_POINTER_done                   \n\
      .SAVE_STACK_POINTER_1:                          \n\
        movq %%rsp, msp1                              \n\
        movq ts1, %%rsp                               \n\
        jmp SAVE_STACK_POINTER_done                   \n\
      .SAVE_STACK_POINTER_2:                          \n\
        movq %%rsp, msp2                              \n\
        movq ts2, %%rsp                               \n\
        jmp SAVE_STACK_POINTER_done                   \n\
      .SAVE_STACK_POINTER_3:                          \n\
        movq %%rsp, msp3                              \n\
        movq ts3, %%rsp                               \n\
      .SAVE_STACK_POINTER_done:                       \n\
    " : : "r" (tid))

A fancier method would involve figuring out how many bytes each movq-movq-jmp block takes (note: I haven't checked, I use 8) and making a computed jump into it; something like

__asm__("                        \n\
    movl %0, %eax                \n\
    mul  8, %eax                 \n\
    add  4, %eax                 \n\
    jmp . + %eax                 \n\
    movq %%rsp, msp0             \n\
    movq ts0, %%rsp              \n\
    jmp .SAVE_STACK_POINTER_done \n\
  .SAVE_STACK_POINTER_done:      \n\
" : : "r" (tid) : "%eax")
share|improve this answer

Assuming you're using GCC, you could try to use a GNU extension to map the stack pointer register to a C variable:

static register int stack_pointer0 asm("msp0");

void myfn () {
  saved_stack_pointer = stack_pointer0;

OK, that probably doesn't do what your original code did (it wasn't clear to me what the goal was), but you should be able to figure out the rest from that.

I think I got the syntax right, but apologies if not. I know this works for general registers, and I'm pretty confident GCC knows what to do for special registers, but you never know.

Hope that helps.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.