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I am trying to use following macro:

#define M_MA(out, L_v, var1, var2)({ \
    asm volatile(  \
    "movswl %2, %%edi\n\t" \
    "movswl %3, %%ebx\n\t" \
    "imull %%edi, %%ebx\n\t" \
    "sall $1,%%ebx\n\t" \
    "cmpl %4,%%ebx\n\t" \
    "cmove %5,%%ebx\n\t" \
    "addl %1, %%ebx\n\t" \
    "jno out%=\n\t" \
    "cmovg %5, %%ebx\n\t" \
    "cmovl %4, %%ebx\n\t" \
    "out%=: nop\n\t" \
    "movl %%ebx, %0\n\t" : "=r"(out) : "r"(L_v), "m"(var1), "m"(var2), "r"(-2147483648), "r"(+2147483647) : "%ebx","%edi");  })

When it is used inside a file compiled using optimizations I get:

error: ‘asm’ operand has impossible constraints

var1 and var2 are 16 bits words. out and L_v are 32 bits words.

After some reading I think the problem is that the compiler need more registers than available but I am not sure about it. If that is the problem I have no idea how to use less registers than now or how to mend the mistake.

I am using gcc over Linux in a 32 bits platform.

Anyone could clarify something about that?


share|improve this question
Is there any particular reason why you want to load %ebx and %edi with var1 and var2 manually? Wouldn't removing the movswl instructions+clobber list and changing the constraints of to [...] "D"((int32_t)var1), "b"((int32_t)var2) work? –  user786653 Aug 26 '11 at 17:31
Why do out and L_v need to be in registers, and var1 and var2 in memory? If it doesn't matter, you could use the constraints of "r,m" to allow either memory or register. (Even better, use "g" for L_v, since it can be an immediate value too.) –  ughoavgfhw Aug 26 '11 at 17:49

1 Answer 1

"I have no idea how to use less registers than now" -- how about using immediates instead of registers for the two maxint/minint constants? (Ah, cmov does not take immediates. But you can store the constants in %edi for yourself instead of requiring the compiler to set it up in a different register in advance).

Also, why do you want to construct everything in %ebx and then copy it to a different register at the very end? None of the operations are ones for which %ebx has a special meaning, so simply replacing %%ebx with %0 throughout and declaring it "&=r" instead of "=r" will be either a win or at least not a loss.

share|improve this answer
+1 If the OP wants to keep them as parameters they are great candidates for the "m" constraint (though they of course need to be loaded manually to a free register). –  user786653 Aug 26 '11 at 17:50
What will I get using "&=r"? –  LooPer Aug 26 '11 at 18:33
An early-clobber output register, i.e. one that is guaranteed to be different from any input register. See here. –  Henning Makholm Aug 26 '11 at 18:34
Applying some of your tips (using %i instead %ebx, using casting instead doing it inside macro) I solved the problem but when I apply -O3 flag to gcc I get bad results sometimes. Do you know why? Current code seems as Code Macro is defined as volatile so I don't know why I get differents results depending on apllying optimization flags. –  LooPer Aug 27 '11 at 13:57
If you can reproduce the wrong behavior, an obvious avenue would be to inspect the generated code with gcc -S. Another possibility is that somewhere outside the inline macro you're doing something dodgy that confuses the optimizer (signed integer overflow and variable aliasing through wild pointer casts are classics). –  Henning Makholm Aug 27 '11 at 14:19

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