Rounding integers to nearest ten or hundred in C

I'm trying to think of a function in C that would satisfy the following conditions:

• It accepts an integer greater than 0 as an argument;
• It rounds that integer up to the nearest value so that only the first digit is not a zero

For example:

53 comes out as 60..

197 comes out as 200..

4937 comes out as 5000..

Is there a way to do this so that the requirement is satisfied regardless of the number of trailing zeroes?

For example, I understand how I could do it in any individual case. `divide 53 by 10 then ceil(), multiply by 10,` but I would like one that can handle any value.

Opinions? Ideas?

• parse the int as string, divide the int by 10 * (string length minus 1), ceil it and multiply by your divider. Will that work?
– Tebc
Commented Jan 15, 2013 at 18:59
• I actually meant power, not multiplication, but I'll vote for the log solution.
– Tebc
Commented Jan 15, 2013 at 19:19

12 Answers

Avoid string conversions and loops:

``````int num = ... // your number
int len = log10(num);
float div = pow(10, len);
int rounded = ceil(num / div) * div;
``````

It's unnecessary to convert the number to a string and back. You can do this using basic modulo arithmetic and multiplication and division.

Here's a pure numeric solution, hopefully somewhat more efficient in terms of running time:

``````int round_up_to_max_pow10(int n)
{
int tmp = n;
int i = 0;
while ((tmp /= 10) >= 10) {
i++;
}

if (n % (int)(pow(10, i + 1) + 0.5)) {
tmp++;
}

for (; i >= 0; i--) {
tmp *= 10;
}

return tmp;
}

printf("Original: %d; rounded: %d\n", 4937, round_up_to_max_pow10(4937));
``````
• +1 Agreed! Converting to/from a string is expensive and kludgy. It's a math problem and should be treated as such. Commented Jan 15, 2013 at 19:08
• This rounds 2445 into 3000. Commented Jan 15, 2013 at 19:09
• @Guffa Yes, as it's expected.
– user529758
Commented Jan 15, 2013 at 19:09
• @Guffa - OP unfortunately uses "round" as synonymous with "ceiling". The latter appears to be OP's intent. Commented Jan 15, 2013 at 19:10
• @Guffa As OP says: "It rounds that integer up to the nearest value so that only the first digit is not a zero".
– user529758
Commented Jan 15, 2013 at 19:10

Logarithms are quite helpful here to provide a constant-time answer to the "how many zeros does this have?"

``````floor(log10(x))= z //the number of zeros
``````

will take the logarithm base 10 and give you the number of zeros that will be in x.

You can then use the C occasional idiom

(A+B-1)/B

to quickly find the ceiling of A/B, which results in the correct leading digit in this way:

``````zeros = exp10(1,z);
((x+zeros-1)/zeros) * zeros
``````

This is pseudocode but you should get the idea. The key understanding is that logarithms are the way to mathematically determine how many digits a number has.

By Cocoa APIs:

``````int number=9435;
NSString *string=[NSString stringWithFormat:@"%d",number];
long length=[string length];
NSString *roundedString=[NSString stringWithFormat:@"%d",([[string substringToIndex:1]intValue]+1)];
while (--length>0) {
roundedString=[roundedString stringByAppendingString:@"0"];
}
int roundedNumber=[roundedString intValue];
NSLog(@"%d,   %d",number,roundedNumber);
``````

By Typical C style, mathematically:

``````int i=8517;

int temp=i;
int len,msb;

for (len=0; temp>0; len++) {
msb=temp;
temp/=10;
}
msb++;
int multiplier=1;
for (int i=1; i<len; i++) {
multiplier*=10;
}
NSLog(@"Rounded : %d",msb*multiplier);
``````
• I saw dozens of answers, and even I can solve this junior level school problem, I got eager to solve this... howver using few cocoa API this could be solved much easily.... :D Commented Jan 15, 2013 at 19:12
• Its tooo late, but added one more way using cocoa strings Commented Jan 15, 2013 at 20:02
• I don't think that is a good advert for Cocoa or Objective-C ;-) Unreadable. And the question is tagged C. Commented Jan 15, 2013 at 20:10
• @Clifford: He has edited the question, erlier it was tagged ios, cocoa, obj-c. Commented Jan 16, 2013 at 4:01
• @AnoopVaidya: My apologies. Commented Jan 16, 2013 at 17:00

I am not sure if you want round or ceil. But the behavior you show in the question suggests ceil. So I included that.

``````int my_ceil(int num)
{
int den = 1;
int inc = 0;

while (num >= 10) {
inc += num % 10;
num /= 10;
den *= 10;
}

return (num + (inc > 0)) * den;
}
``````

EDIT

Changed the code to remove ceil and other extra operations.

EDIT 2

Fixed for multiples of 10.

• Doesn't work for some numbers. If the number is 9, the result is 10, if the number is 10, the result is 11... Commented Jan 15, 2013 at 19:21
• @Guffa You are right, it wouldn't work for any multiples of 10. I think I fixed now. Commented Jan 15, 2013 at 19:27
• @Guffa It was producing 10 not 180. Missed the parenthesis. Commented Jan 15, 2013 at 20:03
• Works but needs C99 or C++ compilation due to placement of declarations. Commented Jan 15, 2013 at 20:06
• @Clifford old habits :). Taking out the if condition should fix things. It is not strictly necessary. Commented Jan 15, 2013 at 20:14

Try taking the first character of the input number, add 1, then append zeros.

``````    Dim Input = "23568"
Dim roundUp = Left(Input, 1) + 1

For x = 1 To Len(Input) - 1
roundUp &= "0"
Next
``````

In VB, but hopefully you get the idea.

• This is tagged a C, not VB. Commented Jan 15, 2013 at 19:06
• Hence why I wrote "In VB, but hopefully you get the idea." The concept still applies. Commented Jan 15, 2013 at 19:07
• If the input were 200, the output will be 300 when it should be 200. Commented Jan 15, 2013 at 20:14

I would convert the number to string. Get the length of the string.

Then:

``````// pseudo code:
divisor = pow(10, len of number string)
answer = ceil (number/divisor) * divisor;
``````
• The syntax isn't ok but it expresses the concept. +1. Commented Jan 15, 2013 at 19:00
• Mathematically the number of decimal digits is `floor(log10(n) + 1))` or more simply `(int)(log10(m) + 1)` - no need for string conversion. Commented Jan 15, 2013 at 19:44

You can divide the number by ten until there is only one digit left, then multiply it back to size:

``````int n = 4937;

int m = 1;
while (n >= 10) {
n = (n + 9) / 10;
m *= 10;
}
n *= m;
``````

This should do it:

``````static int
rnd_up(int val)
{
double e, r;

e = exp10(trunc(log10((double)val)));
r = round(((double)val / e) + 0.5);

return(r * e);
}
``````
• May be worth noting that `exp10(n)` is a GNU library extension equivalent to `pow(10,n)` Commented Jan 15, 2013 at 19:55
• `trunc()` and `round()` are not standard either Commented Jan 15, 2013 at 20:03
• Compiled on standard linux using _GNU_SOURCE and math.h. I did not see a request to solve the problem with any particular subset of that. Commented Jan 15, 2013 at 21:27
• Indeed, I just made the point for anyone to whom it is important. In this case I tested many of the more rational looking solutions posted, but yours I could not test with VC++. I would take the lack of a target specification as implying a need for the widest possible widest possible applicability rather than a mandate to narrow the solution. Commented Jan 16, 2013 at 17:06
• My goal was not to solve the actual problem of compiling the code, which is why I did not supply the whole program, though I had one. My goal was to show that the math is rather simple, and that it could be done for example on a standard Linux system. Commented Jan 16, 2013 at 18:51

No loops.

``````#include <math.h>
unsigned roundToNextExp10( unsigned a )
{
int d = a ;
if( a >= 10 )
{
int m ;
d-- ;
m = (int)pow( 10, ((int)log10(d)) ) ;
d = (int)((d / m) + 1) * m ;
}
return d ;
}
``````
``````/*-------------------------------------------------*/
/* Round up a number                               */
/* (Negative numbers go DOWN)                      */
/* 34 -> 40                                        */
/* -34 -> -40                                      */
/*-------------------------------------------------*/
int round_up_10(int num)
{
int sign = 1;
int tens = 1;

if (num < 0)
{
num = (-1) * num;
sign = -1;
}
num = (num + 9) / 10;
num = num * 10;

return sign * num;
}
/*-------------------------------------------------*/
/* Round down a number                             */
/* (Negative numbers go UP)                        */
/* 34 -> 30                                        */
/* -34 -> -30                                      */
/*-------------------------------------------------*/
int round_down_10(int num)
{
int sign = 1;
int tens = 1;

if (num < 0)
{
num = (-1) * num;
sign = -1;
}
num = num / 10;
num = num * 10;

return sign * num;
}

main()
{
printf("round_down_10(25450)= %d\n", round_down_10(25450));
printf("round_down_10(-25450)= %d\n", round_down_10(-25450));
printf("round_up_10(25450)= %d\n", round_up_10(25450));
printf("round_up_10(-25450)= %d\n", round_up_10(-25450));

printf("round_down_10(1347)= %d\n", round_down_10(1347));
printf("round_down_10(-1347)= %d\n", round_down_10(-1347));
printf("round_up_10(1347)= %d\n", round_up_10(1347));
printf("round_up_10(-1347)= %d\n", round_up_10(-1347));

printf("round_down_10(34)= %d\n", round_down_10(34));
printf("round_down_10(-34)= %d\n", round_down_10(-34));
printf("round_up_10(34)= %d\n", round_up_10(34));
printf("round_up_10(-34)= %d\n", round_up_10(-34));
}
/*
The outout:
round_down_10(25450)= 25450
round_down_10(-25450)= -25450
round_up_10(25450)= 25450
round_up_10(-25450)= -25450
round_down_10(1347)= 1340
round_down_10(-1347)= -1340
round_up_10(1347)= 1350
round_up_10(-1347)= -1350
round_down_10(34)= 30
round_down_10(-34)= -30
round_up_10(34)= 40
round_up_10(-34)= -40
*/
``````
• This does not appear to satisfy the conditions put forth in the OP - "Is there a way to do this so that the requirement is satisfied regardless of the number of trailing zeroes?" Commented Sep 27, 2014 at 7:58

Some expert advice you get here... To round a number i up to nearest 10:

``````if (i%10)
i += 10 - i%10;
``````

Similarly for 100s, 1000s, etc.