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I've been reading around and with the 8086 Instruction Set, it says that a CMP (compare) can set the Carry Flag. I understand that a compare subtracts two operands but I was wondering if anyone can provide an example when that is the case.

I just can't grasp the idea of adding a number and a negative number will set the carry flag. I've read into the borrow flag but I just needed an example to clarify my understanding of a compare instruction.

Also, I understand that if 3 - 5 = -2 would set the negative flag... when is carry set?

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The statement "I need to make an example" makes this sound like homework. If you just debug through some existing code, and watch the CY flag, I'm sure you will see it set after some ADD instructions. – Raymond Chen Nov 7 '11 at 0:52
Well I'm creating my own Instruction Set Architecture and I'm just reading up on 8086 instructions and wondering how a compare (which subtracts 2 operands and sets the respective flags) can set the carry flag. I know when the ADD sets the carry, but I'm a little skeptical on subtract/carry (not to be confused with borrow). – faul Nov 7 '11 at 1:00
on the 8086 (and many others), the carry flag does double duty and represents the borrow in subtraction or compare operations. If you do a compare where the value being compared is larger than what's in the register, there is a borrow, e.g., the CY flag is set. If the value is the same or smaller than the register, there's no borrow, and CY is cleared. – JustJeff Nov 7 '11 at 1:42
I'm confused, you talk about CMP and subtraction, but then you ask "how can adding a number and a negative number set the carry flag?" (Easy: Add +1 and -1. Boom, carry set.) The Intel manual explains how the status flags work. (Section 3.2: Binary arithmetic instructions.) – Raymond Chen Nov 7 '11 at 16:03
@faul: the CPU treats the two numbers as unsigned to set the carry flag after ADD/ADC and SUB/SBB. After ADD/ADC the carry tells if the unsigned sum overflowed. After SUB/SBB the carry tells if the unsigned difference underflowed. The CPU treats these same two numbers as signed to set the overflow flag. This flag has the same function for signed numbers as the carry for unsigned numbers. The CPU doesn't care how you treat the numbers. It just sets 2 different overflow/underflow indicators, carry for unsigned numbers, overflow for signed. It's up to you which one of them to use. – Alexey Frunze Nov 9 '11 at 11:19
  • The carry flag is set after an operation that resulted in an underflow or overflow. For example, subtracting 10 from 6 will result in an underflow and set the carry flag. Similarly, adding 1 to the maximum value of the register will result in an overflow and set the carry flag.
  • The carry flag is also modified during a shift operation, it is set to the value of the last bit shifted out of the destination register.
  • Bit testing will place the value of the tested bit into the carry flag. Opcodes that do this: BT, BTC, BTR, and BTS.
  • Instructions that affect the Carry Flag directly: CLC, CMC, and STC.
  • During a comparison, the carry flag is set just as if the two operands had been subtracted.
  • During a negation (NEG), the carry flag is set unless the operand is zero, in which case it is cleared.
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Carry flag is normally set when using unsigned arithmetic. For example, adding two unsigned (whose result does not fit in register) numbers would not raise the overflow flag but only carry flag. However, when using signed arithmetic, overflow flag is set in such event.

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You can find examples of when the carry and overflow flags are set to 0 and 1 following addition or subtraction of integer numbers in this answer to a related question.
You can also find there sample C code emulating the add with carry and subtract with borrow instructions for 8-bit numbers and you can play with that, maybe get more examples.

The output format there is something like this:
127( 127) - 255( -1) - 1 = 127( 127) CY=1 OV=0
Where each number is represented as both unsigned and parenthesized signed (2's complement) next to it. The number before = is the carry flag before ADC/SBB. CY= and OV= show the carry and overflow flags after ADC/SBB.

Compare does pretty much the same thing as subtract without borrow, except it only affects the carry, overflow, sign and zero flags (and parity and auxiliary carry, but they're unimportant here) without modifying any number in a register/memory.

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