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There is an assembly instruction ADC. I've found this means "Add with carry". But I don't know what that means. Or how to write this instruction in C++. And I know it isn't the same as ADD. So making a simple summation is not correct.

Compiled in Windows. I'm using a 32-bit Windows Installation. My processor is Core 2 Duo from Intel.


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which processor? –  Chubsdad Nov 11 '10 at 11:23
@Chubsdad: I've done my best to add some information. I hope it is enough. –  Martijn Courteaux Nov 11 '10 at 11:26
Which compiler? To access the carry flag, you have to embed assembler code in your C++ code. How you do this depends on the compiler that you are using. –  TonyK Nov 11 '10 at 11:34

4 Answers 4

up vote 11 down vote accepted

ADC is the same as ADD but adds an extra 1 if processor's carry flag is set.

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Alright! Thank you. But now, I have to know IF the flag is set. Is this possible in C++? –  Martijn Courteaux Nov 11 '10 at 11:28
Not with standard C++, you have to use an "asm" code block. I don't remember the exact syntax, but you'll lose code portability. –  Simone Nov 11 '10 at 11:34
The idea of ADC is not to know the carry flag, but to do an ADD before ADC, so the carry will be set when the ADD overflows –  stefaanv Nov 11 '10 at 11:47
@Martijn, if you want to know the carry flag status you may do something like this: pushfd; pop eax; now carry flag is at bit 0 of eax. –  Simone Nov 11 '10 at 11:56

The ADC behaviour can be simulated in both C and C++. The following example adds two numbers (stored as arrays of unsigned as they are too large to fit into a single unsigned).

unsigned first[10];
unsigned second[10];
unsigned result[11];

....   /* first and second get defined */

unsigned carry = 0;
for (i = 0; i < 10; i++) {
    result[i] = first[i] + second[i] + carry;
    carry = (first[i] > result[i]);
result[10] = carry;

Hope this helps.

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From here

However, Intel processor has a special instruction called adc. This command behaves similarly as the add command. The only extra thing is that it also add the value carry flag along. So, this may be very handy to add large integers. Suppose you'd like to add a 32-bit integers with 16-bit registers. How can we do that? Well, let's say that the first integer is held on the register pair DX:AX, and the second one is on BX:CX. This is how:

add  ax, cx    adc  dx, bx  Ah, so first, the lower 16-bit is added by

add ax, cx. Then the higher 16-bit is added using adc instead of add. It is because: if there are overflows, the carry bit is automatically added in the higher 16-bit. So, no cumbersome checking. This method can be extended to 64 bits and so on... Note that: If the 32-bit integer addition overflows too at the higher 16-bit, the result will not be correct and the carry flag is set, e.g. Adding 5 billion to 5 billion.

Everything from here on, remember that it falls pretty much into the zone of implementation defined behavior.

Here's a small sample that works for VS 2010 (32-bit, WinXp)

Caveat: $7.4/1- "The asm declaration is conditionally-supported; its meaning is implementation-defined. [ Note: Typically it is used to pass information through the implementation to an assembler. —end note ]"

int main(){
   bool carry = false;
   int x = 0xffffffff + 0xffffffff;
   __asm {
      jc setcarry
      mov carry, 1
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I can't block quote the 'Caveat....' portion in my response. Sometimes this formating just doesn't behave right. –  Chubsdad Nov 11 '10 at 11:41
0xffffffff is either -1 or UINT_MAX, which is being stored in an int. Perhaps 'x' should be an unsigned int, or the summands should be INT_MAX (0x7fffffff). If we take the summands to be the same type as the result (ie, signed integer), then OVERFLOW flag is not set - the result is -2 (0xfffffffe). –  jww Jun 21 '11 at 2:15

There is a bug in this. Try this input:

unsigned first[10] =  {0x00000001};
unsigned second[10] = {0xffffffff, 0xffffffff};

The result should be {0, 0, 1, ...} but the result is {0, 0, 0, ...}

Changing this line:

carry = (first[i] > result[i]);

to this:

if (carry)
    carry = (first[i] >= result[i]);
    carry = (first[i] > result[i]);

fixes it.

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carry=(carry&&first[i]>=result[i])||(!carry&&first[i]>result[i]) avoids branching and does the same thing, if anyone is interested. –  Hassedev Jun 15 '13 at 11:08

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