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I am trying to use an assembly(ARM) macro for fixed-point multiplication:

    #define MULT(a,b) __asm__ __volatile__ ( \
        "SMULL r2, r3, %0, %1\n\t" \
        "ADD r2, r2, #0x8000\n\t" \
        "ADC r3, r3, #0\n\t" \
        "MOV %0, r2, ASR#16\n\t" \
        "ORR %0, %0, r3, ASL#16" \
        : "=r" (a) : "0"(a), "1"(b) : "r2", "r3" );

but when trying to compile I get error(s): expected expression before 'asm'

(You can ignore everything below this if you value your time but it would be nice if you took a look at it, the main question here is how to make the above work)

I tried this:

    static inline GLfixed MULT(GLfixed a, GLfixed b){
       asm volatile(
        "SMULL r2, r3, %[a], %[b]\n"
        "ADD r2, r2, #0x8000\n"
        "ADC r3, r3, #0\n"
        "MOV %[a], r2, ASR#16\n"
        "ORR %[a], %[a], r3, ASL#16\n"
        : "=r" (a)
        : [a] "r" (a), [b] "r" (b)
        : "r2", "r3");
     return a; }

This compiles but there seems to be a problem because when I use constants ex: MULT(65536,65536) it works but when I use variables it seems to f**k up:

GLfixed m[16];
m[0]=costab[player_ry];//1(65536 integer representation)
m[5]=costab[player_rx];//1(65536 integer representation)
m[6]=-sintab[player_rx];//0
m[8]=-sintab[player_ry];//0
LOG("%i,%i,%i",m[6],m[8],MULT(m[6],m[8]));
m[1]=MULT(m[6],m[8]);
m[2]=MULT(m[5],-m[8]);
m[9]=MULT(-m[6],m[0]);
m[10]=MULT(m[5],m[0]);
m[12]=MULT(m[0],0)+MULT(m[8],0);
m[13]=MULT(m[1],0)+MULT(m[5],0)+MULT(m[9],0);
m[14]=MULT(m[2],0)+MULT(m[6],0)+MULT(m[10],0);
m[15]=0x00010000;//1(65536 integer representation)

int i=0;
while(i<16)
{
    LOG("%i,%i,%i,%i",m[i],m[i+1],m[i+2],m[i+3]);
    i+=4;
}

The above code will print(LOG is like printf here):

0,0,-1411346156
65536,65536,65536,440
-2134820096,65536,0,-1345274311
0,65536,22,220
65536,196608,131072,65536

When the correct result would be(obviously alot of junk in the above):

0,0,0
65536,0,0,0
0,65536,0,0
0,0,65536,0
0,0,0,65536
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2  
LEARN TO WORK YOUR SHIFT KEY INSTEAD OF SHOUTING. Typing in all CAPS makes your message harder to read, and doesn't help you get answers faster. –  Ken White May 25 '11 at 0:18

2 Answers 2

up vote 3 down vote accepted

Have you tried simple C-code instead of assembly? On my system with GCC 4.5.3 the compiler generates code that is at least as good as your hand written assembler:

int mul (int a, int b)
{
  long long x = ((long long)a * b + 0x8000);
  return x>>16;
}

compiles to the following asm-code:

# input: r0, r1
mov    r3, #32768
mov    r4, #0
smlal  r3, r4, r0, r1
mov    r0, r3, lsr #16
orr    r0, r0, r4, asl #16
# result in r0

(Function call epilog and prolog removed)

The code becomes even better if you have multiple multiplications in a single function because the compiler will remove the redundant mov r3, #32768 instructions.

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The first part is easy enough: the problem is that an __asm__ block is a statement, not an expression.

You can use GCC's statement expressions extension to achieve what you want - something like this:

#define MULT(a,b) \
  ({ \
    __asm__ __volatile__ ( \
      /* ... asm stuff here ... */
    ); \
    a; \
  })

The second part is due to problems in the input and output operand specifications. You have two different versions here, and both are wrong. In the macro version, you've said:

: "=r" (a) : "0"(a), "1"(b) : "r2", "r3"

which constrains

  • the output a to a register (this is operand 0);
  • the input a to be the same as operand 0, i.e. the same register (this is operand 1);
  • the input b to be the same as operand 1, i.e. the same again (this is operand 2).

You need "r"(b) here, and can refer to it as %2.

In the inline version, you've said:

: "=r" (a) : [a] "r" (a), [b] "r" (b) : "r2", "r3"

which constrains the output a and the input a and b to registers, but

  • it does not declare any relationship between them;
  • the asm never explicitly refers to the output operand (you haven't given the output operand a name, and the asm code doesn't refer to %0).

You should be able to fix the original version with:

: "=r" (a) : "0" (a), "r" (b) : "r2", "r3"

and refer to the a as either %0 or %1, and b as %2.

The inline version can be fixed like this:

: [a] "=r" (a) : "[a]" (a), [b] "r" (b) : "r2", "r3"

and refer the operands as %[a] and %[b].

If you want to use names in the macro version, you'll need something along the lines of

: [arg_a] "=r" (a) : "[arg_a]" (a), [arg_b] "r" (b) : "r2", "r3"

(and refer to %[arg_a] and %[arg_b]) because otherwise the preprocessor will expand the a and b inside [a] and [b].

Note the subtlety in the named argument cases: when a name is being given to an argument (as in the output a) you write [a] - no quotes - but when you are referring to the name of another already-named operand (as in the input a) you need to put it inside quotes: "[a]".

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