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I am learning assembly language on x86 and made a simple programe that will tell number is prime or not.

I think I am doing right but still not getting the desired result,below is code

section .bss
b db
section .data
x db "Number is Prime",10,0
y db "Number is not Prime",10,0
z db "value is=%d",10,0

section .text
global main
extern printf
mov eax,17
mov ebx,2
mov [b],eax
div ebx
mov eax,[b]
cmp edx,0
jz Print_not_Prime
inc ebx

 cmp ebx,17
 jnz loop
 push x
 call printf
 add esp,4

 push y
 call printf
 add esp,4

In above code I am checking with number 17 and output of programe telling its not prime number.

Could anybody let me know where I am doing wrong

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Why the c tag? –  chux Jun 26 '13 at 15:28

2 Answers 2

up vote 2 down vote accepted

I see at least two problems with this:

b db
mov [b],eax

You're only reserving space for a byte at b but storing a dword (4 bytes). You should use dd instead of db.

div ebx 

You should use cdq (or xor edx,edx) prior to div in order to clear edx, since this division will divide edx:eax by ebx.

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Thanks Michael for your answer but why we really need to clean the edx prior to div,anyway old value in edx is getting overwritten with new value everytime div is called. –  Amit Singh Tomar Jun 26 '13 at 13:17
@AmitSinghTomar It is overwritten, but div takes it's operand from both registers in case you want to divide a number that doesn't fit into a 32-bit register. Allows you to divide up to 128-bit numbers in 64-bit mode. Same reason why imul outputs to two registers. Multiplying two 64-bit integers can potentially yield a 128-bit long number. –  Sergey L. Jun 26 '13 at 13:19
Thanks Sergey for the response but could you please explain it in more simpler way. –  Amit Singh Tomar Jun 26 '13 at 13:21
@AmitSinghTomar If you multiply a n-bit number with an m-bit number then the result will be a n+m -1-bit number. So the result from multiplying two 32-bit registers potentially won't fit into a single 32-bit register. As a result the imul instruction outputs to two resgisters. In order to be fully reversible div accepts two registers as input, always. –  Sergey L. Jun 26 '13 at 13:28
@AmitSinghTomar: div ebx is dividing the 64-bit number in edx:eax by ebx. That's why the value of edx prior to the division matters. –  Michael Jun 26 '13 at 13:29

You need to zero edx before each divide. The dividend for div comes as a double-register operand in edx:eax.

If you have a remainder in there from the last trial division then it will screw up your results.

Also it's better to store your dividend in a register (ecx, esi, edi are still unused) or at least on the stack then in memory which as Michael pointed out is insufficient to store a dword.

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