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Why are we able to move a memory operand to a segment register in these ways using a MOV instruction in x86 assembly language?

Why are these valid?

Mov DS,[Bx]

Mov DS,[2345H]
  • its a machine code. MOV is machine command. – Ajit Medhekar Apr 15 '16 at 7:53
  • Why wouldn't they be? MOV Sreg,r/m16 is listed in the insn set reference manual. The machine-code encoding just uses the normal mod/rm byte to allow the source to be a register or memory operand. See the x86 tag wiki for links to the manual. – Peter Cordes Apr 15 '16 at 8:31
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    I'm voting to close this question as off-topic because there's no value for future readers. The manual completely answers the entire question, so just RTFM. – Peter Cordes Apr 15 '16 at 8:32
  • No you dont undrestand my mean.lock mov [bx],[si] in not valid so why mov ds,[bx] is valid??? – ela he Apr 15 '16 at 9:16
  • ds is a register, not a memory location. You should edit that invalid case into your question and explain why you think it's like mov ds, [si]. But the answer is still "because mov ds, [bx] is encodable, but there's no way to encode mov [bx],[si] in machine code." – Peter Cordes Apr 15 '16 at 11:33
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Because those are valid forms of the MOV instruction. The MOV instruction allows the following moves (I'm omitting moves to/from control and debug registers; see your CPU manuals for further details):

general-purpose register <- integer constant
memory <- integer constant

general-purpose register <- general-purpose register
memory <- general-purpose register
general-purpose register <- memory

segment register <- general-purpose register
segment register <- memory
general-purpose register <- segment register
memory <- segment register

The CPU does not support the following moves with the MOV instruction:

segment register <- segment register
segment register <- integer constant
memory <- memory

If you wonder why, it simplifies things in the CPU. There are fewer different instructions that the CPU needs to decode and similarly there are fewer possible operand encodings. It's likely that there are also fewer special cases to handle when an instruction can access at most one memory location. And most instructions are like that. This makes the design simpler and the CPU cheaper. There are a few instructions that can access two memory locations, but they are very specialized and their memory locations aren't very flexible (they are tied to specific registers). PUSH and POP can move data between memory and stack (stack is memory). MOVSB/MOVSW/MOVSD moves data from memory at DS:(E|R)SI to memory at ES:(E|R)DI.

Your assembler doesn't let you MOV WORD [BX], [SI] because it knows that the CPU can't do it, the CPU simply doesn't have such an instruction. That's all there's to know about it for you now.

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