# Subtraction without minus sign

How can i do subtraction of integers in C without using either the unary or binary '-' operator?

Or can we do the same for other data types like float/double?

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Why would you want to do this, or is it homework? –  Toon Krijthe Mar 31 '09 at 7:34
What are you subtracting? integers, floats? –  dan gibson Mar 31 '09 at 7:34
no its not a homework.. i faced this question in an interview and thought of asking it here –  SyncMaster Mar 31 '09 at 7:36
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## 17 Answers

have a look at the two's complement

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The C standard does not mandate two's complement integer encoding. –  sigjuice Mar 31 '09 at 7:36
@sigjuice: are you sure? There's nothing special in two's complement and it's the simplest way to support negative integers. –  klew Mar 31 '09 at 8:20
The C99 TC2 standard 6.2.6.2 clause 2 states that there are three possible representations of negation for ints. Only one is two's complement. open-std.org/jtc1/sc22/wg14/www/docs/n1124.pdf –  Pontus Gagge Mar 31 '09 at 13:36
This interview question could differentiate between those who get the job done quickly, and those who get it done safely. The interviewer may be looking for either... –  Pontus Gagge Mar 31 '09 at 13:37
"The C standard does not mandate two's complement integer encoding." But when was the last time that you used a machine that didn't use two's complement? (Last time I used one was in 1979!) –  Stephen C Jun 9 '10 at 10:31
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``````int a = 34;
int b = 50;
``````

You can convert b to negative value using negation and adding 1:

``````int c = a + (~b + 1);

printf("%d\n", c);

-16
``````

This is two's complement sign negation. Processor is doing it when you use '-' operator when you want to negate value or subtrackt it.

Converting float is simpler. Just negate first bit (shoosh gave you example how to do this).

EDIT:

Ok, guys. I give up. Here is my compiler independent version:

``````#include <stdio.h>

unsigned int adder(unsigned int a, unsigned int b) {
unsigned int loop = 1;
unsigned int sum  = 0;
unsigned int ai, bi, ci;

while (loop) {
ai = a & loop;
bi = b & loop;
ci = sum & loop;
sum = sum ^ ai ^ bi;      // add i-th bit of a and b, and add carry bit stored in sum i-th bit
loop = loop << 1;
if ((ai&bi)|(ci&ai)|(ci&bi)) sum = sum^loop; // add carry bit
}

return sum;
}

unsigned int sub(unsigned int a, unsigned int b) {
return adder(a, adder(~b, 1));    // add negation + 1 (two's complement here)
}

int main() {
unsigned int a = 35;
unsigned int b = 40;

printf("%u - %u = %d\n", a, b, sub(a, b)); // printf function isn't compiler independent here

return 0;
}
``````

I'm using unsigned int so that any compiler will treat it the same.

If you want to subtract negative values, then do it that way:

`````` unsgined int negative15 = adder(~15, 1);
``````

Now we are completly independent of signed values conventions. In my approach result all ints will be stored as two's complement - so you have to be careful with bigger ints (they have to start with 0 bit).

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that's assuming the underlying HW implements subtraction like that. That's a good assumption, but in an interview it might be a false assumption. –  Nathan Fellman Mar 31 '09 at 8:07
I don't know any hardware that doesn't support it. Negation is very simple bit operation (NAND). Adding is some XORs and ANDs (both can be done with NAND) connected together. It's very hard to imagine something simpler. –  klew Mar 31 '09 at 8:11
The C99 TC2 standard 6.2.6.2 clause 2 states that there are three possible representations of negation for ints. Only one is two's complement. open-std.org/jtc1/sc22/wg14/www/docs/n1124.pdf –  Pontus Gagge Mar 31 '09 at 13:57
Read carefully, there is said about two possible representations: two's and one's complement. The only difference is in interpretating result bits. If you'd interpretate my result as one's complement, you'd get wrong result. But the interpretation is done on printing result, not during bin operation –  klew Mar 31 '09 at 14:34
Interesting approach... I must confess I'm completely stumped as to how printf() 'knows' to compensate for the nonstandard result if your compiler uses one's complement or even sign-and-magnitude instead... or have you left something out? –  Pontus Gagge Mar 31 '09 at 15:36
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Pontus is right, 2's complement is not mandated by the C standard (even if it is the de facto hardware standard). +1 for Phil's creative answers; here's another approach to getting -1 without using the standard library or the -- operator.

C mandates three possible representations, so you can sniff which is in operation and get a different -1 for each:

``````negation= ~1;
if (negation+1==0)                 /* one's complement arithmetic */
minusone= ~1;
else if (negation+2==0)            /* two's complement arithmetic */
minusone= ~0;
else                               /* sign-and-magnitude arithmetic */
minusone= ~0x7FFFFFFE;

r= a+b*minusone;
``````

The value 0x7FFFFFFFE would depend on the width (number of ‘value bits’) of the type of integer you were interested in; if unspecified, you have more work to find that out!

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Nice solution. Regarding your last comment on sign-and-magnitude, I think you could do the following for any number of bits in the unsigned `minusone`: `minusone = ((~1 << 1) >> 1);` –  tomlogic Jun 9 '10 at 15:16
`~1<<1` results in undefined behavior (signed integer overflow) and the subsequent `>>1` has implementation-defined behavior. –  R.. Aug 13 '10 at 18:43
Try: `#define minusone (~1+1==0 ? ~1 : ~1+2==0 ? ~0 : ~(INT_MAX/2*2))` –  R.. Aug 13 '10 at 18:47
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• + No bit setting
• + Language independent
• + Can be adjusted for different number types (int, float, etc)
• - Almost certainly not your C homework answer (which is likely to be about bits)

Expand a-b:

```a-b = a + (-b)
= a + (-1).b
```

Manufacture -1:

```float:             pi = asin(1.0);
(with    minusone_flt = sin(3.0/2.0*pi);
math.h)           or  = cos(pi)
or  = log10(0.1)
complex: minusone_cpx = (0,1)**2; // i squared
integer: minusone_int = 0; minusone_int--; // or convert one of the floats above
```
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+1 Brilliant for manufacturing -1 :) –  pjc50 Jan 13 '10 at 13:19
+1 I knew I learnt about i for some reason! –  MPritch Jun 9 '10 at 10:21
But your calculation of minusone_int uses a unary negate... –  tomlogic Jun 9 '10 at 15:18
@tomlogic: Well, not really. It's not -(-foo), but a call to the -- decrement operator for the integer variable `minusone_int`. You can probably call it directly if you know an alias for it. –  Phil H Jun 10 '10 at 16:03
All of your floating point examples depend on implementation-specific precision. Some of them are likely not to work due to rounding errors; the only one I'd remotely trust is `asin(1.0)` since it involves only exact arguments. –  R.. Aug 13 '10 at 18:51
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Given that encoding integers to support two's complement is not mandated in C, iterate until done. If they want you to jump through flaming hoops, no need to be efficient about it!

``````int subtract(int a, int b)
{
if ( b < 0 )
return a+abs(b);
while (b-- > 0)
--a;
return a;
}
``````

Silly question... probably silly interview!

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Actually, that's quite a good interview question. A right answer would show an intimate acquaintance with both the language and the hardware and some out-of-the-box thinking. It only sounds silly because it is phrased as a riddle. –  shoosh Mar 31 '09 at 8:05
Answer is easy if you had boolean algebra lessons :) –  klew Mar 31 '09 at 8:15
By the way, you are using '-' operator but hidden in '--' operator. –  klew Mar 31 '09 at 8:18
<LanguageLawyer>Nope, two separate operators, by definition. The tokens just happen to be represented by the same ASCII codes! (The unstaed condition in the question is whether just the binary '-' or also the unary '-' is forbidden.) </LanguageLawyer> –  Pontus Gagge Mar 31 '09 at 8:36
According to your answer, I can write function subtract(int a, int b) {return a-b;} , put it into library and use it in my code. '--' is subtraction: some_value - 1. Hm, maybe it will be simpler using -= operator? :) –  klew Mar 31 '09 at 13:08
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If you want to do it for floats, start from a positive number and change its sign bit like so:

``````float f = 3;
*(int*)&f |= 0x80000000;
// now f is -3.
float m = 4 + f;
// m = 1
``````

You can also do this for doubles using the appropriate 64 bit integer. in visual studio this is __int64 for instance.

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Repeat after me: "undefined behaviour". This interview question seems to sort out those who get things done, from those who do things that (are guaranteed to) work! –  Pontus Gagge Mar 31 '09 at 9:05
Show me a modern processor which has floating point numbers which are not IEEE-754. This question sorts the sane from the anal retentive. –  shoosh Mar 31 '09 at 12:46
This is good answer and it won't give you undefined behaviour. –  klew Mar 31 '09 at 14:45
@shoosh. Perhaps. Or those who have been bitten by their assumptions from those who have yet to be. Depends on who the interviewers are looking for. (Mind you, hacking with undefined behaviour is right and proper at times: I just think those times are the exception.) –  Pontus Gagge Mar 31 '09 at 14:46
@klew/shoosh: Hmmm... rechecking, it might actually be safer, standard-wise, than bit-twiddling ints. Still not sure about byte order issues, but IEEE-754 provides abstraction from hardware dependencies. My apologies. Interesting discussion, though. –  Pontus Gagge Mar 31 '09 at 14:55
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• + No bit setting
• + Language independent
• + Independent of number type (int, float, etc)
• - Requires a>b (ie positive result)
• - Almost certainly not your C homework answer (which is likely to be about bits)
• ```a - b = c
restricting ourselves to the number space 0
(a - b) mod(a+b) = c mod(a+b)
a mod(a+b) - b mod(a+b) = c mod(a+b)
```

simplifying the second term:

```(-b).mod(a+b) = (a+b-b).mod(a+b)
= a.mod(a+b)
```

substituting:

```a.mod(a+b) + a.mod(a+b) = c.mod(a+b)
2a.mod(a+b) = c.mod(a+b)
```

if b>a, then b-a>0, so:

```c.mod(a+b) = c
c = 2a.mod(a+b)
```

So, if a is always greater than b, then this would work.

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But you assume "b>a" to get to the last step! Surely you mean "If a>b then a-b>0". –  Pontus Gagge Mar 31 '09 at 9:10
It seeems edits and votes have been lost. Creative answer! –  Pontus Gagge Mar 31 '09 at 13:58
You should see my other answer! Even better, and even less limited! –  Phil H Mar 31 '09 at 14:45
@Phil H: Yeah, but this answer is so much more elegant (and brain-hurtful -- at first)! –  Pontus Gagge Mar 31 '09 at 15:42
Modulos are indeed a great pain between the ears! –  Phil H Mar 31 '09 at 15:51
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I suppose this

b - a = ~( a + ~b)

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The C99 TC2 standard 6.2.6.2 clause 2 states that there are three possible representations of negation for ints. Only one is two's complement. open-std.org/jtc1/sc22/wg14/www/docs/n1124.pdf –  Pontus Gagge Mar 31 '09 at 13:57
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Assembly (accumulator) style:

``````int result = a;
result -= b;
``````
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You're still using a binary '-' operator. –  Liudvikas Bukys Mar 31 '09 at 16:38
No. -= is a different operator. –  recursive Aug 13 '10 at 18:41
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As the question asked for integers not `int`s, you could implement a small interpreter than uses Church numerals.

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For subtracting in C two integers you only need:

``````int subtract(int a, int b)
{
return a + (~b) + 1;
}
``````

I don't believe that there is a simple an elegant solution for float or double numbers like for integers. So you can transform your float numbers in arrays and apply an algorithm similar with one simulated here

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The C99 TC2 standard 6.2.6.2 clause 2 states that there are three possible representations of negation for ints. Only one is two's complement. open-std.org/jtc1/sc22/wg14/www/docs/n1124.pdf –  Pontus Gagge Mar 31 '09 at 13:59
Therefore, this answer will work on most implementations, but really uses undefined behavious which may bomb in the future. –  Pontus Gagge Mar 31 '09 at 13:59
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Create a lookup table for every possible case of int-int!

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Apart from "normal" votes, each question should have LOL-vote count;) –  el.pescado Jul 6 '10 at 10:12
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Not tested. Without using 2's complement:

``````#include <stdlib.h>
#include <stdio.h>
int sillyNegate(int x) {
if (x <= 0)
return abs(x);
else {
// setlocale(LC_ALL, "C"); // if necessary.
char buffer[256];
snprintf(buffer, 255, "%c%d", 0x2d, x);
sscanf(buffer, "%d", &x);
return x;
}
}
``````

Assuming the length of an `int` is much less than 255, and the snprintf/sscanf round-trip won't produce any unspecified behavior (right? right?).

The subtraction can be computed using `a - b == a + (-b).`

Alternative:

``````#include <math.h>
int moreSillyNegate(int x) {
return x * ilogb(0.5);  // ilogb(0.5) == -1;
}
``````

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This would work using integer overflow:

``````#include<limits.h>
int subtractWithoutMinusSign(int a, int b){
return a + (b * (INT_MAX + INT_MAX + 1));
}
``````

This also works for floats (assuming you make a float version…)

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This has undefined behavior. However, this would work nicely: `return a + b * (INT_MIN + INT_MAX);` ;-) –  R.. Aug 13 '10 at 18:55
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``````        int num1, num2, count = 0;
Console.WriteLine("Enter two numebrs");
num1 = int.Parse(Console.ReadLine());
num2 = int.Parse(Console.ReadLine());
if (num1 < num2)
{
num1 = num1 + num2;
num2 = num1 - num2;
num1 = num1 - num2;
}
for (; num2 < num1; num2++)
{
count++;
}
Console.WriteLine("The diferrence is " + count);
``````
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Given the question and its tags, I do not believe that C++/CLI and use of .Net classes is a valid solution, although I accept that you used this only for I/O - an unnecessary elaboration perhaps? Also this solution has two instances of the `-` operator, so is hardly a solution at all! –  Clifford Jun 9 '10 at 10:15
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``````void main()
{
int a=5;
int b=7;

while(b--)a--;
printf("sud=%d",a);

}
``````
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