Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

working on inverting my array, i have code already taht will print it out, i was thinking of creating a second array, storing it into it, then printing that one out, but is there an easier way?

segment .bss  
    newarray    resd    40  
    segment .data  
    arrayis     db  "Inverted Array is: ", 0  
    space       db  ", ", 0  
    thanks      db  "Thanks", 0  
segment .text
    extern readdouble,print_string, read_int, writedouble, print_nl, print_int
    global invertarray
    mov ebx, [ebp]  ;moves starting location of array1 into ebx
    mov edi, [ebp+12]   ;move quantity into edi 
    mov esi, 0      ;set esi to 0
    mov eax, arrayis    ;
    call    print_string    ;

    fld qword [ebx]
    mov ecx, [ebx]  ;move higher order into ecx
    mov edx, [ebx+4]    ;move lower order into edx
    call    writedouble

    mov eax, space  ;
    call    print_string    ;

    mov ecx, [ebx]  ;move higher order into ecx
    mov edx, [ebx+4]    ;move lower order into edx

    fld qword [ebx] ;move the first item of the stack onto st0
    add ebx, 8      ;increment to next location
    inc esi

    mov ecx, [ebx]  ;move first set of bits
    mov edx, [ebx+4]    ;move the second set of bits
    call    writedouble ;write the number

    mov eax, space  ;
    call    print_string    ;

    cmp esi, edi    ;compare to see if all items have been printed
    jz  done_loop   ;
    jmp topofloop   ;go back to top of the loop

share|improve this question

2 Answers 2

I think i would use stosb and lodsb in order to do that. Lodsb gets a byte to al from esi and stosb stores it to edi. using repnz you can also combine it with ecx being non zero (it's a loop till ecx = 0).

share|improve this answer
hum not following how to do that, got an example? –  John Mar 18 '11 at 23:35

String instructions (stos*, lod*, scas*, cmps*) and the loop instruction are deprecated and slow (I heard that somewhere). I'd rather use something like:

    mov    esi, start_of_array       # esi points to array's begin
    mov    edi, esi
    add    edi, length_of_array      # and edi to array's end
    dec    edi                       # skip terminating null byte

    mov al, [esi]                   # load the dwords
    mov bl, [edi]
    mov [edi], al                   # and save them
    mov [esi], bl
    inc esi
    dec esi
    cmp esi, edi                     # check if we are before in array's middle
    jb loop

This should word fine. Note that I load eax with what's in [esi] but save it in [edi], same speech for ebx. Of course you have to adjust operands' size according to typeof(array).

EDIT: if you want something faster try this:

    mov ax, [esi]
    mov bx, [edi]
    xchg al, ah
    xchg bl, bh
    mov [esi], bx
    mov [edi], ax
    add esi, 2
    dec edi, 2
    cmp esi, edi
    jb loop

This allows you to swap 2 bytes at time, so it should be two times faster. If you're wondering, xchg, the xor swap and the and swap take both 3 clock cycles to complete, so no advantage in using them.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.