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How can I code the C '&&' operator in x86? For example:

int a = ...
int b = ...
int c = a && b;

What would be the equivalent of the last line in x86?

EDIT: I want to do the above without any jumps.

EDIT: g++ generates this, but I don't understand it:

testl   %edi, %edi
setne   %dl
xorl    %eax, %eax
testl   %esi, %esi
setne   %al
andl    %edx, %eax
share|improve this question
There are no jumps required for that example; the code in question has a very direct translation to assembly. @Ivan has your answer for you already. –  Jonathan Grynspan Jul 17 '11 at 0:00
An easy way would be to compile a simple program with these lines using g++ -S file.cpp. Alternatively, you can compile it in Visual Studio with assembly output. Both should give you the few lines of code to accomplish this. –  Mike Bantegui Jul 17 '11 at 0:02
I tried that, but the gcc output didn't make any sense (see above) –  Matt Fichman Jul 17 '11 at 0:09

4 Answers 4

up vote 10 down vote accepted

Here is how GCC implements it at -O3.

    movl    8(%esp), %edx  ;; load argument into edx
    xorl    %eax, %eax     ;; eax = 0
    movl    4(%esp), %ecx  ;; load other argument into ecx
    testl   %edx, %edx     ;; Is EDX nonzero?
    setne   %al            ;; al = 1 if Z = 0
    xorl    %edx, %edx     ;; EDX = 0
    testl   %ecx, %ecx     ;; Is ECX nonzero?
    setne   %dl            ;; dc = 1 if Z = 0
    andl    %edx, %eax     ;; edx &= eax

Note that this code does not short-circuit; this is because in this case GCC can prove that there are no side effects from the second argument. If the second argument has side-effects, you must implement it using jumps. For example:

int test(int *a, int *b) {
  return (*a)++ && (*b)++;


        pushl   %ebx            ;; save ebx
        movl    8(%esp), %eax   ;; load a into eax
        movl    12(%esp), %ecx  ;; load b in to ecx
        movl    (%eax), %edx    ;; *a -> edx
        leal    1(%edx), %ebx   ;; ebx = edx + 1
        movl    %ebx, (%eax)    ;; *a <- ebx
        xorl    %eax, %eax      ;; eax = 0
        testl   %edx, %edx      ;; if the old value of *a was 0...
        je      .L2             ;; jump to the end
        movl    (%ecx), %eax    ;; *a -> eax
        testl   %eax, %eax      ;; does *a = 0?
        leal    1(%eax), %edx   ;; edx = *a + 1 (does not set flags!)
        setne   %al             ;; al = 1 if Z (ie, if a = 0 at the testl above)
        movl    %edx, (%ecx)    ;; save edx to *a (increment *a)
        movzbl  %al, %eax       ;; zero-extend al to eax
        popl    %ebx            ;; restore ebx
        ret                     ;; return
share|improve this answer
Is there any way for you to reduce the above code to what is needed? Last time I checked (for example), NASM didn't have .cfi_startproc –  Chrono Kitsune Jul 17 '11 at 0:34
Just remove the cfi junk. It's only used for high-level debugging and C++ exception handling. –  R.. Jul 17 '11 at 1:05

You can't do it without jumps because && is a short-circuit operator.

    XOR ecx, ecx
    MOV eax, <value of A>
    MOV ebx, <value of B>
    TEST eax, eax
    JZ testDone
    TEST ebx, ebx
    JZ testDone
    INC ecx
share|improve this answer
Nice, excellent point. However, how would you do it if && was not short-circuited? i.e., if I had 2 registers, eax and ebx, and wanted to put the logical AND into ecx. –  Matt Fichman Jul 17 '11 at 0:11
If the second argument has no side-effects (or you don't care about short-circuiting), you can avoid jumps on x86 (see my answer for an example) –  bdonlan Jul 17 '11 at 0:16
@DigitalRoss, assuming the right-hand-side is side-effect-free, yes –  bdonlan Jul 17 '11 at 0:31
@bdonian, agreed. Even without side effects C99 seems to prohibit evaluating the second operand at all and so I don't think it's really possible on any architecture to avoid a branch. –  DigitalRoss Jul 17 '11 at 18:21

You are right, the obvious implementation uses branches. My original idea was to convert each operand into either 0 or -1 via a sign-extending bit shift, and then using the bitwise and instruction, but gcc(1) has reminded me of the setxy x86 instruction, so that seems easier.

The following function implements: int f(int a, int b) { return a && b; }

.globl f
  cmpl   $0, 4(%esp)
  setne  %dl
  cmpl   $0, 8(%esp)
  setne  %al
  movzbl %al, %eax
  andl   %edx, %eax

As it happens, the correct value for the expression can be computed without branches or jumps, but by defining my implementation as a function I'm kind of cheating because it forces both operands to be evaluated in order to make the function call, at which point the function does no harm by reading both operands without the short-circuit because the parameters are known to be copies.

But for open code, whether this can be done without a jump depends entirely on whether the right-hand operand can be evaluated without side-effects. So, it depends on the type. Imagine the case where the right hand operand is a function call, perhaps an I/O op or a kernel system call. The generated code cannot evaluate it at all if the left hand operand is false, and I don't see how that could be done without a branch or jump.

It's interesting that gcc -O (which generates similar code) seems to violate C99 6.5.13(4) which states flatly "If the first operand compares equal to 0, the second operand is not evaluated." In the case of assembling f() it apparently decides that since a value parameter can't have side effects, then there is no harm in compiling code contrary to C99's literal specification.

share|improve this answer
Very nice. I didn't know about the set[XY] family of functions. My knowledge of assembly is admittedly rather limited. ^_^ Now if only x86 assembly didn't have so many instructions... LOL. Thanks for the lesson. :) –  Chrono Kitsune Jul 17 '11 at 0:40
compl doesn't seem to work with a literal; the answer you had before with test worked though. –  Matt Fichman Jul 17 '11 at 0:41
This only works if the operands have no side effects. If there are side effects you must perform separate conditional jumps for each. –  R.. Jul 17 '11 at 1:08
Matt, if you have a literal you don't need to test it -- you know if it's true or false. Or you can assign the literal to a reg for the cmpl. –  Hot Licks Jul 17 '11 at 11:29
@R, good point, it's only possible to compute the same value without a branch so I've updated my answer to reference the side-effect problem. –  DigitalRoss Jul 17 '11 at 18:19

This will work (and is the fastest piece of code) only if a and b variables are normalized, i.e. it contains a boolean value 1 to mark true or 0 to mark false.

MOV eax, <value>  ; a = ...
MOV ebx, <value>  ; b = ...
MOV ecx, eax
AND ecx, ebx      ; c = a & b
share|improve this answer
Did you mean xor ecx, ecx on the third line? –  Mike Bantegui Jul 17 '11 at 0:00
Ehh... note that this may fail if a and b aren't boolean values. @Mike: Probably meant MOV ecx, eax; otherwise, the first line is a dead store. –  duskwuff Jul 17 '11 at 0:00
a and b can be arbitrary integers. –  Matt Fichman Jul 17 '11 at 0:02
Bitwise AND doesn't do the job of &&. –  Hot Licks Jul 17 '11 at 0:11
I've edited the comment on the last line of code to at least accurately state what it's doing. –  duskwuff Jul 17 '11 at 2:15

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