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I'm really close to finally breaking this thing, but still I have no idea how to watch for the overflow on this.

int multFiveEighths(int x) {

    int y=((x<<2)+x);
    int f=((y>>3)+1);
    int z=(y>>3);

    return f + ((~!(x>>31&1)+1) & (z+~f+1));

I multiply by 5/8, and use a conditional bitwise to say: If the sign bit is 1 (number is negative), use f, else z.

A part of this is to include overflow behavior like the C expression (x*5/8)

So how do I include the overflow behavior? I can only use these ops: ! ~ & ^ | + << >> No loops, no casting, no declaring of functions. I'm so close that it's painful.


I have to implement rounding towards zero.

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You're throwing some bits out on the left, overflow happens when they are not all equal. – harold Sep 26 '12 at 18:33
How sould I go about stopping that? I really have no clue, but I would be greatful if you told be what to do. – Mappan Sep 26 '12 at 18:35
Note that overflow of signed integers, and left-shifting of negative integers, are undefined behaviour. So the problem is not well posed (I'd love to have a word with your "professor" about that!). – Daniel Fischer Sep 26 '12 at 18:53
Why the " around professor? But I'm just as lost... – Mappan Sep 26 '12 at 18:57
What are you even doing? I don't understand this code at all. ((~!(x>>31&1)+1) This means shift x right by 31, needlessly mask out the lsb giving you the same number as you had before & operator, either 1 or 0, then inverse the 1 or 0, then set all bits to their opposite. At this point you either have 0xFFFFFFFE or 0xFFFFFFFF. On top of that useless binary number you add 1, ending up with either 0xFFFFFFFF or overflow. Don't write obfuscated one-line messes like this! – Lundin Sep 26 '12 at 19:07

4 Answers 4

int x = num >> 3; // divide by 8 (only defined for positive values)

x = x << 2 + x;   // multiply by 5; no overflow yet since 5/8 is less than one

int y = num & 7;  // the bits we shifted out

y = y << 2 + y;   // multiply by 5; no overflow

return (x + (y >> 3)); // the two pieces

ADDENDUM, round toward zero for negative:

int s = -((num >> 31) & 1); // sign bit as -1 or 0

int n = (num ^ s) - s; // twos complement if negative

int x = n >> 3; // divide by 8

x = (x << 2) + x;   // multiply by 5; no overflow yet since 5/8 is less than one

int y = n & 7;  // the bits we shifted out

y = (y << 2) + y;   // multiply by 5; no overflow

return (s ^ (x + (y >> 3))) - s; // the two pieces and complemented back
share|improve this answer
It gives -167772161[0xf5ffffff]. Should be -167772160[0xf6000000]. The error I get. Same as before... I was hoping this would finally solve it. Damn. – Mappan Sep 26 '12 at 20:04
@Zanii you could try subtracting num >> 31 from the result, bit of a hack I suppose.. – harold Sep 26 '12 at 20:20
@harold Didn't work, same error. Always 1 from the correct answer. – Mappan Sep 26 '12 at 20:31
OK, did't realize you needed round toward zero; see addendum – Doug Currie Sep 26 '12 at 22:23
@DougCurrie There is it. Thank you very much. – Mappan Sep 26 '12 at 23:36

I hope this was what you were searching for:

int multFiveEights(int x) {

  int isneg = (x>>31);

  // Negative x
  int nx = -x;

  int value = ( (~!!(isneg)+1) &  nx ) + ( (~!(isneg)+1) & x );

  /* Now its positive */
  value = (value<<2) + value;
  value = value & ((-1)>>1); // This mask should produce the desired overflow behavior
  value = (value>>3);

  value = ( (~!!(isneg)+1) & (-value)) + ( (~!(isneg)+1) & (value));

  return value;

The idea is quite simple:

  1. convert whatever the argument is to a positive number
  2. mask the most significant bit to 0 after the multiplication (this should implement the overflow behavior)
  3. divide
  4. restore the correct sign

Of course, if you exceed the minimum number you start back at -1. By the way, I felt free to use the - operator as its behavior can be implemented with the operators you allowed, but I find it easier to read.

share|improve this answer
This works, and that's why I hate it. It uses !! and - which I can't use. Well, atleast I had hope for some time there :) – Mappan Sep 26 '12 at 20:40
You said you can use !, and -x is equal to ~x+1, right? – Massimiliano Sep 26 '12 at 20:43
Right you are. It works with that. I'm going to try and optimize it by having fewer ops, if you can spare the time it would be great if you could help me on that. – Mappan Sep 26 '12 at 20:50
Well,it seems to me that the only operations you can spare are (~!!(isneg)+1) and (~!(isneg)+1) if you store them in variables. Why you need to optimize this? – Massimiliano Sep 26 '12 at 20:53
It's the classic BeatTheProf. I've done all I can do on my own and am now reaching out for some help. I have to try and get under 12 ops. The least I've seen so far are 6. I have no idea how. – Mappan Sep 26 '12 at 20:57

I believe this snippet should cover the overflow requirement.

Please note that code like this has no purpose in the real world.

#include <stdint.h>

uint32_t mult_five_eights (uint32_t num)
  num = (num << 2) + num; // multiply by 5
  return num >> 3;        // divide by 8


Demo program with overflow illustrated. It starts below the largest possible int, then continues past the overflow. Please note that integer overflows are only well-defined for unsigned integers.

#include <stdint.h>
#include <limits.h>
#include <stdio.h>

uint32_t mult_five_eights (uint32_t num)
  num = (num << 2) + num; // multiply by 5
  return num >> 3;        // divide by 8

int main()
  uint32_t i;

  for(i=UINT_MAX/5-10; i<UINT_MAX/5+10; i++)
    uint32_t x = i*5/8;
    uint32_t y = mult_five_eights(i);

    printf("%u %u %u ", i, x, y);

    if(x != y)
      printf("error this should never happen");


  return 0;
share|improve this answer
The error I get: "Gives -167772161[0xf5ffffff]. Should be -167772160[0xf6000000]" – Mappan Sep 26 '12 at 20:07
@Zanii Then your question is asking for something different than what you expect. The above example clearly shows that the function does exactly the same as x*5/8. If you want to round the number, that's a different matter entirely. – Lundin Sep 27 '12 at 6:44
int five_eights(int val)
int ret, car;

car = ((val&7)+((val&1) <<2)) & 5;
car = (car | (car >>2)) &1;

ret = ((val+1) >>1) + ((val+4) >>3) ;

return ret-car;

Obviously, the above can be further compacted/reduced; the extra variables are for clarity.

Do note that left-shifting is avoided, and overflow is thus impossible.

share|improve this answer
This code relies on undefined behavior, you should change it to use unsigned integer types. – Lundin Sep 27 '12 at 6:47
@Lundin I know that unsigned types are easier, but the OQ was about signed ints. IIUC, it are only the (val+1) and (val+4) that could possibly overflow. I could remove them, but that would need a different calculation for the carry / borrow. Maybe later... – wildplasser Sep 27 '12 at 17:59

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