I'd like to use intel syntax gcc inline assembly, leaving gcc's default -masm=att dialect untouched.

The following code works fine:

#include <stdio.h>

int main(int argc, char *argv[])
    int a = 123;
    int b = 0;
    printf("before: a = %d\n", a);
    printf("before: b = %d\n", b);
    __asm__ __volatile__ (
        ".intel_syntax noprefix\n\t"
        "mov eax, %[a]\n\t"
        "mov %[b], eax\n\t"
        ".att_syntax prefix\n\t"
        : [b]"+r"(b)
        : [a]"r"(a)
        : "eax"
    printf("after: a = %d\n", a);
    printf("after: b = %d\n", b);
    return 0;
// before: a = 123
// before: b = 0
// after: a = 123
// after: b = 123

But if i change Output Operands Constraint from register('r') to memory('m'), error occurs:

Error: junk `(%rbp)' after expression

In the generated assembly file, I find this:

    .intel_syntax noprefix
    mov eax, -16(%rbp)
    mov -12(%rbp), eax
    .att_syntax prefix

It looks like gcc renders Assembler Template using AT&T Effective-Address dialect.

I searched the web, Extended Asm shows something like "Multiple assembler dialects in asm templates" and "x86 Operand Modifiers", but I still didn't solve the problem.

Is there a way to tell gcc, (maybe some instructions around __asm__, telling gcc to do operand-substitution with Intel-syntax addressing modes temporarily, like -masm=intel do in the whole file), render the Assembler Template using Intel Effective-Address dialect temporarily in __asm__ () block, not the whole file, like this:

    .intel_syntax noprefix
    mov eax, [%rbp - 16]
    mov [%rbp - 12], eax
    .att_syntax prefix
  • There is -masm=intel but it is going to apply to a whole translation unit, or at least a whole function. Commented Feb 9, 2022 at 9:31
  • @MarcGlisse: -masm=intel is the correct way to make all inline asm statements use Intel syntax, and AFAIK the only way to make GCC substitute in Intel-syntax memory operand syntax. (Unfortunately I don't know a way that works with clang). This crappy hack of using .intel_syntax noprefix inside the asm statement only works for registers because GAS happens to still accept %ecx in intel-noprefix mode, and using .att_syntax at the end breaks the later compiler-generated code if you did compile with -masm=intel. I'd never recommend it. Commented Feb 9, 2022 at 13:37
  • @PeterCordes Clang may have made a change to improve this. Haven't checked it myself. Commented Feb 9, 2022 at 19:50
  • @DavidWohlferd: thanks; coincidentally PSkocik just today pointed out that clang-trunk works; now I know why. And have confirmation that previously asm template strings and operand-substitution were unconditionally AT&T. Will have to update How to set gcc to use intel syntax permanently? accordingly. Commented Feb 9, 2022 at 20:15
  • 1
    There is no way to mark a specific asm instruction as intel/att. As Marc pointed out, the only option that affects which assembly is used by the asm instruction is the masm= command line option. Using .intel_syntax is a bad idea for a number of reasons, as peter points out. If that's not going to work for you, all that leaves is writing each statement twice, once in att syntax and once in intel syntax, using dialects. Then your code will work no matter which command line options are used. Commented Feb 10, 2022 at 8:11


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