As the web-resources on this is sparse, I will, for the benefit of future searches, begin by listing the address modes for IA-32 Assembly Language (NASM) and then follow up with a quick question.

  1. Register addressing
    • mov eax, ebx: Copies what is in ebx into eax
    • mov esi, var: Copies address of var (say 0x0040120e) into esi
  2. Immediate addressing (second operand is an immediate constant)
    • mov bx, 20: 16-bit register bx gets the actual value 20
  3. Direct memory addressing (directly loads from memory through a specified address)
    • mov ax, [1000h]: loads a 2-byte object from the byte at address 4096 (0x1000 in hexadecimal) into a 16-bit register called 'ax'
    • mov [1000h], ax: memory at address 1000h gets the value of ax
  4. Direct offset addressing (same as 3, just using arithmetics to modify address)
    • mov al, [byte_tbl+2]
  5. Register indirect (accessing memory by using addresses stored in registers)
    • mov ax, [di]: copies value at memory address specified by di, into ax
    • mov dword [eax], var1: copies value in var1 into the memory slot specified by eax

Please note that the above is for NASM. For MASM/TASM you'd use "mov esi, OFFSET foo" to get the address, while "mov esi, foo" and "mov esi, [foo]" both would get the value (creds to @Michael).

So, onto my question. It is in in relation to an example at the bottom of page 29 of the following tutorial: http://www.tutorialspoint.com/assembly_programming/assembly_tutorial.pdf

It basically lists the below code as an example of indirect memory addressing.

MY_TABLE TIMES 10 DW 0 ; Allocates 10 words (2 bytes) each initialized to 0 
MOV EBX, [MY_TABLE] ; Effective Address of MY_TABLE in EBX 
MOV [EBX], 110 ; MY_TABLE[0] = 110 
ADD EBX, 2 ; EBX = EBX +2 
MOV [EBX], 123 ; MY_TABLE[1] = 123 

My questions:

  1. Should not "MOV EBX, [MY_TABLE]" in fact be "MOV EBX, MY_TABLE", as we want to put the address of the table in EBX, not the value itself?
  2. Surely it is MY_TABLE[2] that is equal to 123 at the end, not MY_TABLE[1]?
  • The web resources are sparse?! The Intel manual explain all this in great detail. – Kerrek SB Dec 16 '13 at 12:46
  • 2
    I did quite a bit of searching and did not think it was straight forward to find a list with simple examples, in particular one that had the example in the second sub-bullet to the first main point. So in case someone else finds themselves in my shoes, or are confused by the difference between NASM/MASM/TASM on this topic, they might find the summary useful. – Magnus Dec 16 '13 at 13:06
  • See also stackoverflow.com/a/34058400/224132 for a rundown on addressing modes. And other links in stackoverflow.com/tags/x86/info – Peter Cordes Feb 10 '16 at 11:19
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    Thanks a lot! Intel goes about this depth, but this simple explanation helped me a lot. – Sebb May 7 '16 at 13:23
  • That tutorial is not valid NASM code. MOV [EBX], 110 won't assemble because neither operand implies an operand-size. (I think even MASM won't assemble it.) – Peter Cordes Nov 29 '17 at 20:32
  1. In NASM syntax, that instruction should be MOV EBX, MY_TABLE. What MOV EBX, [MY_TABLE] would do is load the first 4 bytes located at MY_TABLE into EBX. Another alternative would be to use LEA, as in LEA EBX, [MY_TABLE].

  2. In this case the tutorial is right. MY_TABLE is defined as an array of words. A word on the x86 is 2 bytes, so the second element of MY_TABLE is indeed located at MY_TABLE + 2.

  • 1. Does it load the first 4 bytes because the mov instruction always copies 32 bit on IA-32? Why is that? 2. Ah, so does +2 mean add 2 bytes? – Magnus Dec 16 '13 at 11:29
  • 1. It loads 4 bytes because the destination register is EBX, which is 4 bytes in size. 2. Right. If MY_TABLE was located at address 0 and you did MOV EBX, [MY_TABLE+2] you'd be reading the DWORD starting at address 2. There's no implicit scaling of offsets like in C. – Michael Dec 16 '13 at 11:37
  • But, if you scroll up on the same page of the pdf tutorial it says that word_table+3 also gives element 4. Is that not right then? – Magnus Dec 16 '13 at 11:53
  • Yes, WORD_TABLE+3 would not get the 4th element of WORD_TABLE. – Michael Dec 16 '13 at 12:20
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    Oh man, this book is packed with mistakes it seems... – Magnus Dec 16 '13 at 12:42

That tutorial is not even valid NASM code. For links to x86 guides / resources / manuals that don't suck, see the x86 tag wiki here on SO.

MOV [EBX], 110 won't assemble because neither operand implies an operand-size. (I think even MASM won't assemble it, but some bad assemblers like emu8086 have a default operand size for instructions like this.) mov word [ebx], 110 would do a 16-bit store.

MOV EBX, [MY_TABLE] will assemble but it loads the first 2 words from the table. mov ebx, MY_TABLE will put the address into a register.

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