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tried returning a long int from asm proc through eax, and later tried through dx:ax. both didn't work for me as the C printf prints a different number than the required 320L.


.model SMALL
.stack 100h
; extern int get_buffered_long(long int **arr, int num_of_elements, int i);
;                                   [BP+4]      [BP+6]              [BP+8]
PUBLIC _get_bufferred_long 
_get_bufferred_long PROC NEAR
        push BP
        mov BP,SP
        push SI
        push DI
        push BX
        call locate_slot            
        ;mov EAX, DWORD PTR [DI]     ;something here doesn't work. the way i return a long int to borland C, or other issue.
        mov ax,[DI]
        mov dx,[DI+2]
        pop BX
        pop DI
        pop SI
        pop BP
_get_bufferred_long ENDP
; extern void set_bufferred_long(long int *arr[], int buff_size, int i,long int value);
;                                       [BP+4]      [BP+6]      [BP+8]      [BP+10]
PUBLIC _set_bufferred_long
_set_bufferred_long PROC NEAR
    push BP
    mov BP,SP
    call locate_slot
    mov EAX,[BP+10]
    mov DWORD PTR [DI],EAX
    pop BP
_set_bufferred_long ENDP
; helper function that makes DI point to the slot wanted.
locate_slot PROC NEAR
        mov SI,[BP+4]
        mov AX,[BP+8]
        mov BX,[BP+6]
        xor DX,DX
        div BX
        shl AX,1
        add SI,AX
        mov DI,[SI]
        shl DX,2
        add DI,DX
locate_slot ENDP


#include "stdio.h"
#include "stdlib.h"

extern int get_bufferred_long(long int**,int,int);
extern void set_bufferred_long(long int**,int,int,long int);

int main(){
    long int **arr;
    int i,j,n,m;
    n = 5;
    m = 4;
    arr=(long int**)malloc(n*sizeof(long int*));
    for(i=0; i < n; i = i + 2) arr[i] = malloc( m*sizeof(long int));
    for(i=1; i < n; i = i + 2) arr[i] = malloc( m*sizeof(long int));
    for(i=0; i < n; i++)
        for(j=0; j < m; j++) 
            set_bufferred_long(arr, m, i*m+j, i*100+j*10);

    printf("get_bufferred_long(arr, %d, %d) = %ld\n", m, 14, get_bufferred_long(arr,m, 14));
    return 0;

the set function works (array looks exactly like needed to). the get function works too, it fetches 320L in asm, but when passed to C, something's wrong.

no compile errors or warnings. borland c++ 5.02

share|improve this question
Have you thought perhaps of upgrading your toolchain to something that's been released a little more recently than 15 years ago? gcc is both beer-free and speech-free while Visual C++ Express is at least beer-free. I hope you have a good reason for developing on dead technology. –  paxdiablo Dec 18 '12 at 3:04
@paxdiablo: uni hw, overpowered. –  ckid Dec 18 '12 at 3:07

1 Answer 1

up vote 2 down vote accepted

Well, on a 386 bcc does use AX:DX in 16-bit mode; don't know about 32 bits.

But look at your code!

    mov dx,[DI+2]
    mov ax,[DI]
    mov dx,[DI+2]
    pop DX

You are loading the DX register with the result and then popping the stack into it, blowing away the value it had. DX does not have to be saved by push/pop in a simple procedure (only e.g. in a DOS ISR).


Okay I see you fixed the problem above in the code. The next problem is likely to be that you're declaring

/* After execution, return value is assumed to be in AX. */ 
extern int get_bufferred_long(long int**,int,int);

and then expecting a 32-bit return value. You mentioned that the printf is pushing the AX register. This implies you're compiling to 16-bit code. If you want a 32-bit return value in 16-bit code, you must declare the return value long and place it in DX:AX.

/* After execution, return value is assumed to be in DX:AX reg pair. */
extern long get_bufferred_long(long int**,int,int);

You can verify the right return convention by compiling a tiny program to assembly with the -S option. Try for example:

long val(void) { return 0x12345678L; }

Look at the generated assembly to see what the compiler does to return this long value.

share|improve this answer
about the pop dx, yeah, something i left in the code by mistake (edited it out the post before you commented). still doesn't matter. printf prints a weird number and not 320L. "You can verify this by compiling to assembly in the mode being used by your printf and checking." can you explain? –  ckid Dec 18 '12 at 3:55
EAX has existed in 32 bit mode since the 386. –  caf Dec 18 '12 at 5:55
@Gene well. i've viewed the c code in turbo debugger in CPU window (assembly form of the c code), after "call _get.." ax=140h. which is great. after that the compiler did "push ax" and the rest of the variables given to printf. –  ckid Dec 18 '12 at 8:25
I guess I see it now. Your get_bufferred_long is declared in C to return int. In 16-bit bcc, this will be in the AX register. So pushing AX is exactly the right thing for the compiler to do. If you want to return a long, say extern long get_bufferred_long. Then the printf call should push DX:AX as desired. –  Gene Dec 18 '12 at 14:12

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