# JNZ & CMP Assembly Instructions

Correct me if I am wrong.

This is my understanding of `JNZ` and `CMP`.

`JNZ` - The jump WILL take place if the `Z` Flag is NOT zero (1)

`CMP` - If the two values are equal, the `Z` Flag is set (1) otherwise it is not set (0)

This is a flash tutorial I am watching. It is teaching the solution to a simple CrackMe.

As you can see, the previous instruction compared `AL` with `47h`. They were equal which set the `Z` flag. (You can see it in the Registers windows on the right side)

The next instruction is a `JNZ`. My understanding was that the jump will take place if the `Z` flag is set. The `Z` flag IS set, but the jump doesn't take place!

Why?

-
@nrz Your comment is not very clear - is the OP expected to realise the mistake by looking at the statement really, really hard? –  Michael Foukarakis Feb 12 '13 at 20:47
@nrz Jeez man are you trying to confuse me even more?!?! From the other answers, now I know that with JNZ, the jump only takes place if the zero flag is NOT set (0) –  43.52.4D. Feb 12 '13 at 23:04
@43.52.4D. Sorry, I misread the sentence "JNZ - The jump WILL take place if the Z Flag is NOT zero (1)" in your question, and as a result my comment was possibly confusing, so I deleted it now. Intel x86 JUMP quick reference has a useful table for checking the conditions of branching of different x86 conditional jumps. –  nrz Feb 13 '13 at 0:09

JNZ is short for "Jump if not zero (ZF = 0)", and NOT "Jump if the ZF is set".

If it's any easier to remember, consider that JNZ and JNE (jump if not equal) are equivalent. Therefore, when you're doing `cmp al, 47` and the content of `AL` is equal to 47, the ZF is set, ergo the jump (if Not Equal - JNE) should not be taken.

-

I will make a little bit wider answer here.

There are generally speaking two types of conditional jumps in x86:

1. Arithmetic jumps - like JZ (jump if zero), JC (jump if carry), JNC (jump if not carry), etc.

2. Comparison jumps - JE (jump if equal), JB (jump if below), JAE (jump if above or equal), etc.

So, use the first type only after arithmetic or logical instructions:

``````sub  eax, ebx
jnz  .result_is_not_zero

and  ecx, edx
jz   .the_bit_is_not_set
``````

Use the second group only after CMP instructions:

``````cmp  eax, ebx
jne  .eax_is_not_equal_to_ebx

cmp  ecx, edx
ja   .ecx_is_above_than_edx
``````

This way, the program becomes more readable and you will never be confused.

Note, that sometimes these instructions are actually synonyms. JZ == JE; JC == JB; JNC == JAE and so on. The full table is following. As you can see, there are only 16 conditional jump instructions, but 30 mnemonics - they are provided to allow creation of more readable source code:

``````Mnemonic        Condition tested  Description

jo              OF = 1            overflow
jno             OF = 0            not overflow
jc, jb, jnae    CF = 1            carry / below / not above nor equal
jnc, jae, jnb   CF = 0            not carry / above or equal / not below
je, jz          ZF = 1            equal / zero
jne, jnz        ZF = 0            not equal / not zero
jbe, jna        CF or ZF = 1      below or equal / not above
ja, jnbe        CF or ZF = 0      above / not below or equal
js              SF = 1            sign
jns             SF = 0            not sign
jp, jpe         PF = 1            parity / parity even
jnp, jpo        PF = 0            not parity / parity odd
jl, jnge        SF xor OF = 1     less / not greater nor equal
jge, jnl        SF xor OF = 0     greater or equal / not less
jle, jng    (SF xor OF) or ZF = 1 less or equal / not greater
jg, jnle    (SF xor OF) or ZF = 0 greater / not less nor equal
``````
-