# Finding Smallest Number in NASM 2D Array

So I have the following code that worked for finding the LARGEST number in any given n by m matrix.

``````segment .bss
num: resw 1 ;For storing a number, to be read of printed....
nod: resb 1 ;For storing the number of digits....
temp: resb 2
matrix1: resw 200
m: resw 1
n: resw 1
i: resw 1
j: resw 1
buff resb 4

segment .data
msg1: db "Enter the number of rows in the matrix : "
msg_size1: equ \$-msg1
msg2:  db "Enter the elements one by one(row by row) : "
msg_size2: equ \$-msg2
msg3: db "Enter the number of columns in the matrix : "
msg_size3: equ \$-msg3
msg4: db "The smallest Number is... : "
msg_size4: equ \$-msg4

tab: db  9 ;ASCII for vertical tab
new_line: db 10 ;ASCII for new line

segment .text

global _start

_start:
mov eax, 4
mov ebx, 1
mov ecx, msg1
mov edx, msg_size1
int 80h

mov ecx, 0
mov cx, word[num]
mov word[m], cx

mov eax, 4
mov ebx, 1
mov ecx, msg3
mov edx, msg_size3
int 80h

mov ecx, 0
mov cx, word[num]
mov word[n], cx

mov eax, 4
mov ebx, 1
mov ecx, msg2
mov edx, msg_size2
int 80h

;Reading each element of the matrix........
mov eax, 0
mov ebx, matrix1

mov word[i], 0
mov word[j], 0

i_loop:
mov word[j], 0
j_loop:

mov dx , word[num]
;eax will contain the array index and each element is 2 bytes(1 word) long
mov  word[ebx + 2 * eax], dx

inc eax    ;Incrementing array index by one....

inc word[j]
mov cx, word[j]
cmp cx, word[n]
jb j_loop

inc word[i]
mov cx, word[i]
cmp cx, word[m]
jb i_loop
xor     esp, [matrix1]
; esp initialized to first element in array, & is first smallest value

;Loop through the matrix, check each number if its
;larger than the first number in the array. AT the end print said number.

;Reading each element of the matrix.(Storing the elements in row major order).......
mov ebp, 0
mov edi, matrix1
mov esp, 0

mov word[i], 0
mov word[j], 0

i_loop2:
mov word[j], 0
j_loop2:

;eax will contain the array index and each element is 2 bytes(1 word) long
mov  dx, word[edi+2*ebp]   ;
mov word[num] , dx

cmp esp, [num] ; compares current smallest number with current element iterated.
jle   skip
mov esp, [num] ; stores new smallest number
mov esi, ebp   ; Stores pointer to the smallest element (never used..?)

skip:
inc ebp
inc word[j]
mov cx, word[j]
cmp cx, word[n]
jb j_loop2

inc word[i]
mov cx, word[i]
cmp cx, word[m]
jb i_loop2

;outut
mov eax, 4
mov ebx, 1
mov ecx, msg4
mov edx, msg_size4
int 80h
mov ecx, 0

mov eax, 4  ; system_write
mov ebx, 1  ; stdout
mov ecx, esp    ; move smallest element to accumulator
add ecx, 48         ; convert to ascii representation
mov [buff], ecx     ; move to memory
mov ecx, buff
mov edx, 4          ; size, 4 bytes
int 80h

exit:
mov eax, 1
mov ebx, 0
int 80h

;Function to read a number from console and to store that in num

pusha
mov word[num], 0

mov eax, 3
mov ebx, 0
mov ecx, temp
mov edx, 1
int 80h

cmp byte[temp], 10

mov ax, word[num]
mov bx, 10
mul bx
mov bl, byte[temp]
sub bl, 30h
mov bh, 0
mov word[num], ax

popa

ret
``````

I've identified the problem is likely mov esp, 0 but without that line the results are even worse, with it the answer is always '0'. Without it it result in either nothing or gibberish.

Again, it original works for finding the LARGEST number but now I want to find the smallest, logically this should've meant just changing jge to jle but either it keeps zero (likely because of mov esp, 0 ) or gibberish if I try to make it something else?

How can I fix this so I do find the smallest number with the least amount of changes? The code did originally work albeit only after significant trial and error almost at random with my fiddling.

Additionally the gibberish outputted is this: â½µÿ

If I remove mov esp, 0 but keep it as jge, it still works for the LARGEST number, but if I switch it to jle, it outputs â½µÿ. This makes zero sense.

-
I know I am tired, but your not really doing `mov esp, 0` or other mods of `esp` now are you? –  Gunner Nov 13 '13 at 5:19
There's only 4 lines that fiddle with esp, and another that movs from esp to whats to be outputted. The complete code is in my post, no missing lines. –  RaenirSalazar Nov 13 '13 at 5:27