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I was looking at the different instructions in assembly and I am confused on how the lengths of different operands and opcodes are decided upon.

Is it something you ought to know from experience, or is there a way to find out which operand/operator combination takes up how many bytes?

For eg:

push %ebp ; takes up one byte

mov %esp, %ebp ; takes up two bytes

So the question is:-

Upon seeing a given instruction, how can I deduce how many bytes its opcode will require?

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4 Answers 4

up vote 4 down vote accepted

There's no hard and fast rule for x86 without a database as the instruction encoding is pretty complex (and the opcode itself can vary from 1 to 3 bytes). You can consult the Intel® 64 and IA-32 Architectures Software Developer’s Manual 2A document (Chapter 2: Instruction Format) to see how instructions and their operands are encoded:

Intel 64 Software Developer's Manual 2A - Figure 2-1

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Yes, In other architectures instructions are cataloged by type (Register-Register, Storage-Register, Storage-Storage, etc) and each type has a clearly established length. –  belisarius Dec 31 '10 at 3:42

Usually, this isn't something you need to know from one instruction to the next when programming in assembly language. If it ever matters (such as if you're trying to fit some particular code into a constrained space), you can look at the listing output from the assembler, or a disassembly listing.

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From my 6510 assembly days, the answer usually pertained to operand addresses and offsets. Opcodes were always 1 byte for the 6510. Addresses were always two bytes. If the Opcode required one address, then I knew the total size was three bytes. If two addresses were specified, then I knew the total size was 5 bytes.

As for offsets, the space they occupied was contingent on the length of the branch. So consider this:

bne FooBar

If the "Foobar" offset was pointing to an address that was less than 128 bytes away, then the operand was a single byte. If the offset pointed to an address beyond that, then a full address was needed. A full address was no longer an offset, and of course addresses occupied two bytes.

So in this latter case, it might not be easy to tell if the opcode + operand required two or three bytes.

So I guess, sometimes you can tell and other times it isn't so obvious.

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You can only have 1 16-bit operand for a maximum instruction size of 3 bytes on the 6502. And conditional branches does not have a long version, so they are always 2 bytes. –  Jens Björnhager Dec 31 '10 at 7:45

The length of the op-code is built with (at least) two criteria in mind

  • the frequency of the op-code (put it on 1 byte if frequently used in programs, and if possible)
  • the information necessary for the op-code to function (if you need an absolute address, the code cannot be encoded on a unique byte)


  • between the initial 8088 to the latest Intel processors (3 decades) a lot of new instructions have been created, and some, while frequently appearing in programs, could not be coded on one single byte, because the whole 256 values were reserved.

Besides the link provided in another answer (that lists specifically the size of a code), see also the processors history.

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