I'm very new to assembly, and have some very basic questions.

What is the difference between these four commands?

mov ebx, eax
mov [ebx], eax
mov ebx, [eax]
mov [ebx], [eax]

They say that the brackets mean "get the value of the address". But what, then, does that very first line really do? Does it not move the value of eax into ebx? If it does, then what are the point of the brackets?

  • 1
    The point of the brackets is to access memory. You can think of it as the * operator in C. Also, the last one is invalid. – Jester Feb 4 at 13:15
  • But doesn't the first example access memory without the brackets? – ineedahero Feb 4 at 13:17
  • 1
    @ineedahero: The last line is invalid because there is no way to copy from memory to memory. In [ebx],[eax], ebx and eax contain addresses, i.e. both are referencing memory. and you can't copy from memory to memory directly: the processor doesn't have instructions for that. – Rudy Velthuis Feb 4 at 14:00
  • 1
    @RudyVelthuis: not quite true: the instruction set doesn't give a way to encode any instructions with two explicit memory operands. But movs, push [mem] and pop [mem] all copy memory to memory, with one or both operands being implicit. x86 instructions have at most one modrm + optional displacement explicit addressing mode. That's why mov doesn't work but other instructions do. – Peter Cordes Feb 4 at 14:18
  • 1
    What brackets mean in MASM: stackoverflow.com/questions/25129743/… – Ross Ridge Feb 4 at 18:28
up vote 3 down vote accepted

Let's make a very simple example and imagine we have a CPU with only two registers, EAX and EBX.

mov ebx, eax

Simply copies the value in eax to the ebx register

 | EAX : 0123456 |   ---->   | EAX : 0123456 |
 | EBX : 0000000 |   ====>   | EBX : 0123456 |

Now let's add some memory space

ADDRESS         VALUE
000000          6543210
000004          5189784
000008          1698791
00000C          9816517
000010          9816875
000014          5498156

mov [ebx], eax

Moves the value in eax to the memory address contained in ebx.

 | EAX : 0123456 |   --no-->   | EAX : 0123456 |
 | EBX : 0000008 | --change--> | EBX : 0000008 |

ADDRESS         VALUE           VALUE
000000          6543210   ----> 6543210   
000004          5189784   ----> 5189784   
000008          1698791   ====> 0123456
00000C          9816517   ----> 9816517   
000010          9816875   ----> 9816875   
000014          5498156   ----> 5498156   

mov ebx, [eax]

Moves the value from the memory address contained in eax to ebx.

 | EAX : 0000008 |   ---->   | EAX : 0000008 |
 | EBX : 0123456 |   ====>   | EBX : 1698791 |

ADDRESS         VALUE    
000000          6543210    
000004          5189784  
000008          1698791  
00000C          9816517   
000010          9816875    
000014          5498156    

mov [ebx], [eax]

This, finally, you would think would move the value from the memory address contained in eax to the memory address contained in ebx.

 | EAX : 0000008 |   --no-->   | EAX : 0000008 |
 | EBX : 000000c | --change--> | EBX : 000000c |

ADDRESS         VALUE           VALUE
000000          6543210   ----> 6543210   
000004          5189784   ----> 5189784   
000008          1698791   ----> 1698791   
00000C          9816517   ====> 1698791   
000010          9816875   ----> 9816875   
000014          5498156   ----> 5498156 

But this combination is disallowed by the x86 architecture. You cannot move from memory to memory.

The use of brackets is therefore equivalent to a dereferencing operation.

  • So in order for the second line to make sense, the VALUE of ebx must be an ADDRESS in memory? – ineedahero Feb 4 at 13:36
  • @ineedahero yes, it must be a valid memory address. – J... Feb 4 at 13:37
  • Ok thank you. That was the secret I was missing, and your answer was the only one to address it. – ineedahero Feb 4 at 13:39
  • How come everyone else says the last line is invalid? – ineedahero Feb 4 at 13:40
  • @ineedahero Because it is - I've updated the answer. – J... Feb 4 at 13:42

You were missing the operand delimiter , in the instructions. I don't know (yet) of any assembler without it. I fixed that in the quotes.

In x86 assembly some registers can be used as data registers or as address registers (a difference to other architectures). These registers are called GPRs ("General Purpose Registers"). They can contain 32-bit-values or 32-bit addresses. Their "names" are EAX,EBX,ECX,EDX,ESI,EDI,ESP,EBP.

mov ebx, eax

does move the value in EAX to EBX.

mov [ebx], eax

does move the value in EAX to the 32-bit DWORD value pointed to by the 32-bit address in EBX

mov ebx, [eax]

does move the 32-bit DWORD value pointed to by the 32-bit address in EAX to EBX

mov [ebx], [eax]

is an invalid instruction in 32-bit Intel assembly, because basic x86 assembly does not support two memory operands in one (two-operand) instruction. Newer instructions (SSE, AVX) with three or four operands are able to use more than one memory operand. This is a result of a more complex instruction encoding (using instruction prefixes).

  • What is the difference between "the value in EAX" and "the 32-bit DWORD value pointed to by the 32-bit address in EAX"? That is to say, what practical difference is there between the first two lines? – ineedahero Feb 4 at 13:29
  • How could the last line be invalid and not the second line? – ineedahero Feb 4 at 13:41

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