Let's imagine I define a local array of ints with a default value of 0 in my function:

void test() {
    int array[256] = {0};

My understanding of this is that:

the array will be stored in the stack, by pushing 256 zeroes to the stack and consequently increasing the stack pointer. If there was no default value for the array, increasing the stack pointer would have been enough.

Now this is the assembly code produced by the previous snippet:

    pushl   %ebp
    .cfi_def_cfa_offset 8
    .cfi_offset 5, -8
    movl    %esp, %ebp
    .cfi_def_cfa_register 5
    pushl   %edi
    pushl   %ebx
    subl    $1024, %esp
    .cfi_offset 7, -12
    .cfi_offset 3, -16
    leal    -1032(%ebp), %ebx
    movl    $0, %eax
    movl    $256, %edx
    movl    %ebx, %edi
    movl    %edx, %ecx
    rep stosl
    addl    $1024, %esp
    popl    %ebx
    .cfi_restore 3
    popl    %edi
    .cfi_restore 7
    popl    %ebp
    .cfi_restore 5
    .cfi_def_cfa 4, 4
    .size   test, .-test

I realize this may be a silly question and I am aware that each compiler may act differently, but I'm wondering where the allocation of the array with 256 zeros is happening. Were my assumptions correct or this is happening differently?

(I've not been writing assembly for quite a long time and I'm having some difficulties understanding what's going on)

  • Maybe movl $0, %eax? – ForceBru Feb 6 '16 at 19:06
  • 1
    Examine the code starting with subl $1024, %esp and ending with addl $1024, %esp. Go through each instruction, noting what it does, including its effect on registers and memory. Draw diagrams, etc. Best of luck. – Bob Jarvis - Reinstate Monica Feb 6 '16 at 19:08
  • @templatetypedef: I tend to take the question in the largest font as the most relevant question. – too honest for this site Feb 6 '16 at 19:16
  • You are right @MichaelPetch, that produces a different code because it doesn't fill the whole array with the same default value. I thought {1} would have copied all ones in the array, but actually it copies 1 in the first element and uses zero for all the remaining elements. This means my question also should be updated actually. I had a wrong assumption. Anyway adding back that the default value is zero in the title should clear the ambiguities. Thanks for pointing this out – Domenico De Felice Feb 7 '16 at 11:13

The allocation is happening here:

    subl    $1024, %esp                 

It is a sub on the stack pointer esp, because a stack grows down.

The array is cleared here:

    movl    $0, %eax
    movl    $256, %edx     
    movl    %ebx, %edi 
    movl    %edx, %ecx
    rep stosl

What this does is:

  • rep : repeat the string operation ecx times
  • stosl: store eax in the memory pointed to by edi and add 4 to edi, or subtract 4, depending on the direction flag. If it's clear (cld), edi gets incremented, and decremented otherwise. Note that ebx is set to point to the start of the array a bit earlier in the code.

And finally, here the array is released:

    addl    $1024, %esp

These are the highlights, but there are a few more instructions of note, so here's the complete listing of the (non-optimized) code:

pushl   %ebp                # preserve caller's ebp (decrements esp by 4)
movl    %esp, %ebp          # copy stack pointer to ebp
pushl   %edi                # preserve for caller
pushl   %ebx                # preserve for caller
subl    $1024, %esp         # allocate 1kb on the stack
leal    -1032(%ebp), %ebx   # esp + 1024 + 4 + 4 = ebp; equivalent to mov %esp, %ebx
movl    $0, %eax            # the {0}
movl    $256, %edx          # the repeat count - could have been stored in ecx directly
movl    %ebx, %edi          # init edi to the start of the array
movl    %edx, %ecx          # put 256 in ecx
rep stosl                   # repeat 'mov %eax, %(edi); add $4, %edi' ecx times
addl    $1024, %esp         # release the array
popl    %ebx                # and the preserved registers
popl    %edi
popl    %ebp                
  • Looks like the operative command here is rep stosl, which actually does the zeroing. – templatetypedef Feb 6 '16 at 19:10
  • Did you mean "stosl : store eax into the memory location pointed to by edi..."? – Bob Jarvis - Reinstate Monica Feb 6 '16 at 19:12
  • Also - does a segment register come into play here? (I'm rather rusty on my x86 protected mode 64-bit assembler concepts - sorry... :-) – Bob Jarvis - Reinstate Monica Feb 6 '16 at 19:13
  • Yes - esp uses ss, and stos uses es:edi (and movs uses ds:esi -> es:edi. But these days, ds, es and ss are usually the same. – Kenney Feb 6 '16 at 19:16
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    As @chqrlie points out direction flag as to be set properly, however most calling conventions default the direction flag to being clear (CLD) for forward movement. The general rule is that if you write a function that does STD to reverse the direction, that it should be set back to clear (with CLD) before your function returns. In this case of course you want forward movement so the default of forward movement is already correct. – Michael Petch Feb 6 '16 at 19:21

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