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Hello. I am trying to create a program in ARM assembly language for my Raspberry Pi that multiplies a 4x4 matrix and a 4x1 vector. My problem at the moment is that I get segmentation error, and when I run a debug program it would seem that the error occurs at _vectoradress.

From what I have gathered from some Googling, the likely cause of the segmentation error is that I am attempting to access a non-existent memory address or somehow the program is trying to access some memory to which it does not have access. However, I can't understand how that can be in my case.

It would be awesome if someone can tell me what I'm doing wrong that is causing the segmentation error.

My code:


.section    .data

.align      2

.global     _matrixadress
.global     _vectoradress

        .word 1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,15

        .word 1,2,3,4

.section    .text

    ldr r1, matrixadress
    bx   lr

    ldr     r2, vectoradress
    bx  lr

    .word _vector
    .word _matrix

/* e.o.f. */

File 2

.section .data

.align 2

.global _start
.global Resultat
.global adressR

    .zero 256 

.section .text

    blal _matrixadress

    mov r4, #0              /*initialises a counter in r4 with the value 0, this counter will be used to control Resultat */
    mov r5, #0              /*initiates r5 with the value 0, to be used as a counter for the inner loop */
    mov r6, #0              /* intitiated r6 with the value 0, to be used as a counter for the outer loop*/
    mov r0, #0              /* initiates r0 with value 0, to be used for addition in the loop*/
    ldr r4, Resultat

    blal _vectoradress

    loop:                       /*the start of the loop*/

        mul r0,r2,r1            /*multiplies two elements of the matrix and the vectors*/
        add r3,r0           /* adds the result from r0 into r3 */
        mov r0, #0          /*restores 0 to r0 to be used in the next iteration*/

        add r1, r1, #16         /*adds 16 to r1 to be able to get the next value of the matrix */
        add r2, r2, #16         /*adds 16 to r2 to be able to get the next value of the vector */
        add r5, r5, #1          /*adds 1 to r5, since it is time to add to the counter*/

        cmp r5, #4              /*compares r5 to 4  for the loop control statement below */
        bne loop                /*if r4 and r5 was not equal, return to the loop for the next miltiplication */
        mov r5, #0          /*resets teh counter in r5 */
        add r6, r6, #1          /* add 1 to the counter, because it is time to count - hell yeah */
        str r3, [r4]            /* stores the value of r3 (the result of the multiplication) */ 
        add r4, r4, #16
        bal _vectoradress           /* restores the original adress for the vector, to start over with the vector */
        cmp r6, #4              /* compares r6 and 4, if they are equal we have multiplied all that matters */
        bne loop                /* goes back to loop if r6 and r4 were not equal, because we are not done yet, YOLO */

    mov r1, r3
    mov r2, #50
    mov r7, #4
    mov r7,#1
    swi 0x0

    .word adressR

/* e.o.f. */

share|improve this question
and register values and address of the crash were? –  marko May 3 '14 at 21:11
1) Check out the ADR instruction - about a third of that code is monkeying around with pointers completely unnecessarily and could be removed. 2) Are the elements of the vector (and indeed the elements in each row of the matrix) really 16 bytes apart? (hint: no) 3) This is the sort of thing debuggers are for. –  Notlikethat May 4 '14 at 12:12
You're faulting at the str instruction. You should also be very suspicious that you have no ldr instructions in your loop. –  Richard Pennington May 4 '14 at 14:16
The AL conditional on your branches threw me for a loop. I haven't ever seen that used before. For anyone who doesn't know, AL is the condition for always. –  rjp May 5 '14 at 14:50

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