I Cannot seem to tell the difference between the Carry Flag, Auxiliary Flag and Overflow Flag in Assembly. I'm currently studying it in school and the teacher didn't go into any details. Please help me to understand, I will be needing it for the exam. I will be really grateful!! From what I seem to know by now is that the Carry Flag is used when you try, let's say, 255+9 when you only have 8 bits for data, The Auxiliary Flag is the same, but only for the 4 last bits?? And The Overflow is used when you have 7 bits for the binary number and the 8(left-most ) is used for the sign???

  • What microprocessor are you talking about? If it's x86, then here are links to all of the flags, with detailed descriptions: en.wikipedia.org/wiki/FLAGS_register. But in x86, it's actually "adjust flag" not "auxiliary flag". – lurker Oct 10 '13 at 16:43
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    Yes, you got that about right. Generally carry is for unsigned, overflow is for signed, and auxiliary carry is an obscure thing not really used :) But it's indeed the carry from the low 4 bits to the high 4 bits. – Jester Oct 10 '13 at 16:45
  • Well I would like to know the difference with each type of processors so I could better understand it. – user2322960 Oct 10 '13 at 16:45
  • what about 16 bit processors or x64? – user2322960 Oct 10 '13 at 16:46
  • it should be all the same for each processor on this planet ;) – Michał Walenciak Oct 10 '13 at 16:51
up vote 17 down vote accepted

Carry Flag is a flag set when:

a) two unsigned numbers were added and the result is larger than "capacity" of register where it is saved. Ex: we wanna add two 8 bit numbers and save result in 8 bit register. In your example: 255 + 9 = 264 which is more that 8 bit register can store. So the value "8" will be saved there (264 & 255 = 8) and CF flag will be set.

b) two unsigned numbers were subtracted and we subtracted the bigger one from the smaller one. Ex: 1-2 will give you 255 in result and CF flag will be set.

Auxiliary Flag is used as CF but when working with BCD. So AF will be set when we have overflow or underflow on in BCD calculations. For example: considering 8 bit ALU unit, Auxiliary flag is set when there is carry from 3rd bit to 4th bit i.e. carry from lower nibble to higher nibble. (Wiki link)

Overflow Flag is used as CF but when we work on signed numbers. Ex we wanna add two 8 bit signed numbers: 127 + 2. the result is 129 but it is too much for 8bit signed number, so OF will be set. Similar when the result is too small like -128 - 1 = -129 which is out of scope for 8 bit signed numbers.

You can read more about flags on wikipedia

Carry Flag

The rules for turning on the carry flag in binary/integer math are two:

  1. The carry flag is set if the addition of two numbers causes a carry out of the most significant (leftmost) bits added. 1111 + 0001 = 0000 (carry flag is turned on)

  2. The carry (borrow) flag is also set if the subtraction of two numbers requires a borrow into the most significant (leftmost) bits subtracted. 0000 - 0001 = 1111 (carry flag is turned on) Otherwise, the carry flag is turned off (zero).

    • 0111 + 0001 = 1000 (carry flag is turned off [zero])
    • 1000 - 0001 = 0111 (carry flag is turned off [zero])

In unsigned arithmetic, watch the carry flag to detect errors.

In signed arithmetic, the carry flag tells you nothing interesting.

Overflow Flag

The rules for turning on the overflow flag in binary/integer math are two:

  1. If the sum of two numbers with the sign bits off yields a result number with the sign bit on, the "overflow" flag is turned on. 0100 + 0100 = 1000 (overflow flag is turned on)

  2. If the sum of two numbers with the sign bits on yields a result number with the sign bit off, the "overflow" flag is turned on. 1000 + 1000 = 0000 (overflow flag is turned on)

Otherwise the "overflow" flag is turned off

  • 0100 + 0001 = 0101 (overflow flag is turned off)
  • 0110 + 1001 = 1111 (overflow flag turned off)
  • 1000 + 0001 = 1001 (overflow flag turned off)
  • 1100 + 1100 = 1000 (overflow flag is turned off)

Note that you only need to look at the sign bits (leftmost) of the three numbers to decide if the overflow flag is turned on or off.

If you are doing two's complement (signed) arithmetic, overflow flag on means the answer is wrong - you added two positive numbers and got a negative, or you added two negative numbers and got a positive.

If you are doing unsigned arithmetic, the overflow flag means nothing and should be ignored.

For more clarification please refer: http://teaching.idallen.com/dat2343/10f/notes/040_overflow.txt

name: Carry flag

Type:Status flag

Bit(s):0 in EFLAGS register

Description: Set if a carry or borrow was generated from the most significant bit during the previous instruction.

name: Overflow flag

Type:Status flag

Bit(s):11 in EFLAGS register

Description: Set when a value is overflowed by the previous instruction, such as when ADD is performed on a positive value and the result is a negative value.

name: ( Adjust or Auxiliary ) flag

Type:Status flag

Bit(s):4 in EFLAGS register

Description: Same as the carry flag, but considers the 4 least significant bits, used in binary-coded decimal .

Overflow Flag (OF): indicates the overflow of a high-order bit (leftmost bit) of data after a signed arithmetic operation.

 Direction Flag (DF): determines left or right direction for moving or comparing string data. When the DF value is 0, the string operation takes left-to-right direction and when the value is set to 1, the string operation takes right-to-left direction.

 Interrupt Flag (IF): determines whether the external interrupts like keyboard entry, etc., are to be ignored or processed. It disables the external interrupt when the value is 0 and enables interrupts when set to 1.

 Trap Flag (TF): allows setting the operation of the processor in single-step mode. The DEBUG program we used sets the trap flag, so we could step through the execution one instruction at a time.

Sign Flag (SF): shows the sign of the result of an arithmetic operation. This flag is set according to the sign of a data item following the arithmetic operation. The sign is indicated by the high-order of leftmost bit. A positive result clears the value of SF to 0 and negative result sets it to 1.

 Zero Flag (ZF): indicates the result of an arithmetic or comparison operation. A nonzero result clears the zero flag to 0, and a zero result sets it to 1.

 Auxiliary Carry Flag (AF): contains the carry from bit 3 to bit 4 following an arithmetic operation; used for specialized arithmetic. The AF is set when a 1-byte arithmetic operation causes a carry from bit 3 into bit 4.

 Parity Flag (PF): indicates the total number of 1-bits in the result obtained from an arithmetic operation. An even number of 1-bits clears the parity flag to 0 and an odd number of 1-bits sets the parity flag to 1.

 Carry Flag (CF): Contains the carry of 0 or 1 from a high-order bit (leftmost) after an arithmetic operation. It also stores the contents of last bit of a shift or rotates operation.

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    As this has been copied from the internet or from computer science course material from you should tell people where this text came from or it would appear to be plagiarism. – Michael Petch Jul 31 at 18:01
  • PF is only set based on the low 8 bits of the result, even for a 32-bit instruction like add eax, ecx. The description of OF is also pretty vague and won't help people understand that it's always updated regardless of whether you're adding signed or unsigned data because the CPU doesn't care. Is this summary of flags from an Intel manual or something? I'd hope Intel would do better with precise language (e.g. SF is cleared on zero as well as positive), but they don't always. – Peter Cordes Jul 31 at 19:28

protected by Peter Cordes Jul 31 at 19:24

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