In 8086 assembly programming, we can only load a data into a segment register by, first loading it into a general purpose register and then we have to move it from this general register to the segment register.

Why can't we load it directly? Is there any special reason for not being allowed?

What is the difference between mov ax,5000H and mov ax,[5000H]? Does [5000h] mean content in memory location 5000h?

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    This question appears to be off-topic because it is about the design philosophy of a 30 year old processor. – user1864610 Sep 29 '13 at 5:16
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    @MikeW: How is that off topic? If this guy is programming an 8086 why wouldn't SO be a place to get help with that? He's asking a practical question. If I asked "why can't I write to an arbitrary memory location in C?" would you vote to close that for the same reason? Pretty much any question can be summed up as "design decision". That doesn't mean it's not worth asking and knowing the answer to. Yeesh, people around here have become so ridiculously heavy handed with their close buttons. – Ed S. Sep 29 '13 at 5:17
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    @EdS. The OP is asking why a certain operation is not allowed - because the engineers designed it that way. The instruction set is what it is. Debating whether it should be something else won't change it, nor help program it. – user1864610 Sep 29 '13 at 5:26
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    @MikeW: Right, and you can probably "answer" about 90% of the questions here with that same response. Of course, you wouldn't actually be helping anyone, and you wouldn't be making the site any better. Every design choice has a reason behind it (hopefully!) and those reasons are worth knowing. I would much prefer letting a few questionable questions slip through (not that I think this one fits into that category) than to nix useful questions that may help others down the road. – Ed S. Sep 29 '13 at 5:26
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    @EdS.: writing segment registers is allowed in all modes. – Nathan Fellman Sep 29 '13 at 5:37

Remember that the syntax of assembly language (any assembly) is just a human-readable way to write machine code. The rules of what you can do in machine code depend on how the processor's electronics were designed, not on what the assembler syntax could easily support.

So, just because it looks like you could write mov DS, [5000h] and that conceptually it doesn't seem like there is a reason why you shouldn't be able to do it, it's really about "is there a mechanism by which the processor can load a segment register from a memory location's content?"

In the case of 8086 assembly, I figure that the reason is simply that the engineers just didn't create an electric path that could feed a signal from the memory I/O data lines to the lines that write to the segment registers.

Why? I have several theories, but no authoritative knowledge.

The most likely reason is simply one of simplifying the design: it takes extra wiring and gates to do that, and it's an uncommon enough operation (this is the 70's) that it's not worth the real estate in the chip. This is not surprising; the 8086 already went overboard allowing any of the normal registers to be connected to the ALU (arithmetic logic unit) which allows any register to be used as an accumulator. I'm sure that wasn't cheap to do. Most processors at the time only allowed one register (the accumulator) to be used for that purpose.

It's also possible that allowing a segment register to be written from a memory read resulted in several weird edge cases that were hard to get right in the circuitry. After all, the segment register to be written might be used to address the source operand.

As far as the brackets, you are correct. Let's say memory position 5000h contains the number 4321h. mov ax, 5000h puts the value 5000h into ax, while mov ax, [5000h] loads 4321h from memory into ax. Essentially, the brackets act like the * pointer dereference operator in C.

Just to highlight the fact that assembly is an idealized abstraction of what machine code can do, you should note that the two variations are not the same instruction with different parameters, but completely different opcodes. They could have used – say – MOV for the first and MVD (MoVe Direct addressed memory) for the second opcode, but they must have decided that the bracket syntax was easier for programmers to remember.

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    "the segment register to be written might be used to address the source operand" — this doesn't sound plausible. You could say the same about the existing instructions like mov bp,[bp]. – Ruslan Jun 26 '17 at 9:27
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    @Ruslan: more importantly, this answer is totally wrong. mov ds, [5000h] is encodeable: the opcode is mov Sreg, r/m16. An immediate isn't encodeable (mov ds, 4321h) because that would need a different opcode, but the one opcode we do have for move-to-Sreg (8E /r) takes a register or memory source. It's all a question of opcode coding space / decoder complexity, not the segment reg being used during the instruction, because that is the case for mov ds, [5000h]. – Peter Cordes Dec 5 '17 at 10:41
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    @Ruslan: I want to edit this answer so I can change my upvote to a downvote now that I know it's based on a false premise. But I don't think I should edit in a "this is wrong" banner at the top, and I don't see anything else to edit. It attracted another upvote after posting my answer bumped the question... Fortunately it's an ISA-design question, not a programming question directly with bad code people would copy, and x86-16 is mostly dead and buried, so very few people will be negatively affected by getting a wrong answer here. OP is still active, maybe they'll accept my answer :) – Peter Cordes Dec 5 '17 at 11:45
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    And BTW, hi @Euro. Sorry for the comment noise in your answer. It turns out you were mis-remembering how x86 worked when you wrote this, xD. You might want to edit out a lot of the stuff based on the false premise about mov ds, [5000h] not being encodeable, because in fact it is. – Peter Cordes Dec 5 '17 at 11:58
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    I knew that not everything you can write in assembler is actually encodeable and assumed without checking the OP assertion that this was such a case; it's been a while since I've written assembler. I think the basic explanation was good, even if it turns out it didn't apply to the exact instruction picked. I will re-investigate, and edit/fix the answer when I have a chance, hopefully after work tonight. Or delete it if I find it's not fixable. – Euro Micelli Dec 5 '17 at 12:10

x86 machine code only has one opcode for move-to-Sreg. That opcode is
8E /r mov Sreg, r/m16, and allows a register or memory source (but not immediate).

Contrary to some claims in other answers, mov ds, [5000h] runs just fine, assuming the 2 bytes at address 5000h hold a useful segment value for the mode you're in. (Real mode where they're used directly as numbers vs. protected where Sreg values are selectors that index the LDT / GDT).

x86 always uses a different opcode for the immediate form of an instruction (with a constant encoded as part of the machine code) vs. the register/memory source version. e.g. add eax, 123 assembles to a different opcode from add eax, ecx. But add eax, [esi] is the same opcode add r, r/m32 opcode as add eax, ecx, just a different ModR/M byte.

NASM listing, from nasm sreg.asm -l/dev/stdout, assembling a flat binary in 16-bit mode and producing a listing.

I edited by hand to separate the bytes into opcode modrm extra. These are all one-byte opcodes (with no extra opcode bits borrowing space in the /r field of the ModRM byte), so just look at the first byte to see what opcode it is, and notice when two instructions share the same opcode.

   address    machine code         source           ;  comments
 1 00000000 BE 0050           mov si, 5000h     ; mov si, imm16
 2 00000003 A1 0050           mov ax, [5000h]   ; special encoding for AX, no modrm
 3 00000006 8B 36 0050        mov si, [5000h]   ; mov r16, r/m16 disp16
 4 0000000A 89 C6             mov si, ax        ; mov r/m16, r16
 6 0000000C 8E 1E 0050        mov ds, [5000h]   ; mov Sreg, r/m16
 7 00000010 8E D8             mov ds, ax        ; mov Sreg, r/m16
 9                            mov ds, 5000h
 9          ******************       error: invalid combination of opcode and operands

Supporting a mov Sreg, imm16 encoding would need a separate opcode. This would take extra transistors for 8086 to decode, and it would use up more opcode coding space leaving less room for future extensions. I'm not sure which of these was considered more important by the architect(s) of the 8086 ISA.

Notice that 8086 has special mov AL/AX, moffs opcodes which save 1 byte when loading the accumulator from an absolute address. But it couldn't spare an opcode for mov-immediate to Sreg? This design decision makes good sense. How often do you need to reload a segment register? Very infrequently, and in real large programs it often wouldn't be with a constant (I think). But in code using static data, you might be loading / storing the accumulator to a fixed address inside a loop. (8086 had very weak code-fetch, so code-size = speed most of the time).

Also keep in mind that you can use mov Sreg, r/m16 for assemble-time constants with just one extra instruction (like mov ax, 4321h). But if we'd only had mov Sreg, imm16, runtime variable segment values would have required self-modifying code. (So obviously you wouldn't leave out the r/m16 source version.) My point is if you're only going to have one, it's definitely going to be the register/memory source version.

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    For your illustration it'be more useful to have 8B F0 as mov si, ax. Not sure though how to convince NASM to emit this variant. – Ruslan Dec 5 '17 at 11:25
  • Also, I don't quite get what extra instruction you mean in the first sentence of the last paragraph. Do you mean the one clobbering a general-purpose register? – Ruslan Dec 5 '17 at 11:29
  • @Ruslan: Agreed. GAS AT&T syntax could use mov.s %ax, %si instead of mov %ax, %si to select the opposite encoding. – Peter Cordes Dec 5 '17 at 11:30
  • @Ruslan: I meant a mov-immediate. updated. Thanks for reading it through to point out stuff I left unclear. – Peter Cordes Dec 5 '17 at 11:31
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    @Ruslan: I added a db 0x8B, 0xF0 and tried disassembling with ndisasm and objdump. Not even objdump printed mov.s, just mov for both encodings :/ IDK if there's an objdump option to use operand-ordering suffixes; I didn't see one in the man page. (And BTW, I'm not surprised that .s works in .intel_syntax noprefix, I was kind of being overly specific to be clear for future readers that aren't experts on different assembler syntaxes). – Peter Cordes Dec 5 '17 at 11:41

About segment registers

The segment registers are not the same (on hardware level) as the general purpose registers. Of course, as Mike W said in the comments, the exact reason why you can't move directly immediate value into the segment register is known only by the Intel developers. But I suppose, it is because the design is simple this way. Note that this choice does not affects the processor performance, because the segment register operations are very rare. So, one instruction more, one less is not important at all.

About syntax

In all reasonable implementations of x86 assembler syntax, mov reg, something moves the immediate number something to the register reg. For example:

NamedConst = 1234h
    mov  edx, 1234h      ; moves the number 1234h to the register edx
    mov  eax, SomeLabel  ; moves the value (address) of SomeLabel to eax
    mov  ecx, NamedConst ; moves the value (1234h in this case) to ecx

Closing the number in square brackets means that the content of memory with this address is moved to the register:

SomeLabel dd 1234h, 5678h, 9abch

    mov  eax, [SomeLabel+4]  ; moves 5678h to eax
    mov  ebx, dword [100h]   ; moves double word memory content from the 
                             ; address 100h in the data segment (DS) to ebx.
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    The remark about syntax implies that MASM syntax is unreasonable. I don't disagree, but it's important to have in mind that mov ax, myvar \n... myvar dw 1234 will load 1234 into ax in MASM (and TASM in default mode). OTOH, FASM and NASM have done it right (more consistently), getting rid of the offset keyword. – Ruslan Jun 26 '17 at 9:39

I recall reading the reason way back in the day. I don't have that document in front of me, so please forgive my hand-waving.

Loading a segment register from a memory location or a constant involves memory cycles. If the alignment of memory is messed up, reading a 16 bit value could take two memory cycles. In between cycles, the value of the segment register is invalid. Now imagine you are messing with the Stack Segment register and an interrupt happens: here is your handcart; enjoy the ride!

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    Definitely wrong, mov ds,[5000H] is encodeable, but mov ds, 5000H isn't. If there was a mov Sreg, imm16 opcode (which there isn't), it couldn't execute until all its bytes were fetched into the decode buffer. So the only instruction you're proposing a problem with is one of the forms that is encodeable. – Peter Cordes Dec 5 '17 at 10:47

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