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The following outputs 0.23. How do I get it to simply output .23?

printf( "%8.2f" , .23 );
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What do you get when you use "%.2f" ? I haven't coded in C in many years. –  MJB Apr 7 '10 at 20:40
Subtract 0 from it ;) –  WhirlWind Apr 7 '10 at 20:43

8 Answers 8

up vote 20 down vote accepted

The C standard says that for the f and F floating point format specifiers:

If a decimal-point character appears, at least one digit appears before it.

I think that if you don't want a zero to appear before the decimal point, you'll probably have to do something like use snprintf() to format the number into a string, and remove the 0 if the formatted string starts with "0." (and similarly for "-0."). Then pass that formatted string to our real output. Or something like that.

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It is not possible to do it only using printf. The documention for printf says:

f  - "double" argument is output in conventional form, i.e.
     The default number of digits after the decimal point is six,
     but this can be changed with a precision field. If a decimal point
     appears, at least one digit appears before it. The "double" value is
     rounded to the correct number of decimal places.

Note the If a decimal point appears, at least one digit appears before it.

Therefore it seems you have to handcode your own formatter.

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double f = 0.23;

assert(f < 1 && f >= 0);  
printf(".%u\n" , (unsigned)((f + 0.005) * 100));
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This is the answer. Simple, efficient. "%2d" also works, if cast to an (int). Nice touch adding the .005 to round as %.2f does. –  Brent Foust Feb 20 at 8:06

Just convert it to an integer with the required accuracy

double value = .12345678901; // input
int accuracy = 1000; // 3 digit after dot
printf(".%d\n", (int)(value * accuracy) );



| example source on pastebin

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There isn't any format string specifier to remove that leading 0, so you'll have to roll your own; This is the shortest thing I can think of:

char s[10];
sprintf(s, "%.2f", .23);
printf("%8s", (s[0] == '0' ? &s[1] : s));
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That won't work for negative numbers. Also, 10 chars may or may not be enough for floating point numbers depending on the actual platform's float representation so you should use snprintf() to avoid buffer overflows. –  Adisak Apr 7 '10 at 21:53
#include <stdio.h>

static void printNoLeadingZeros(double theValue)
   char buffer[255] = { '\0' };

   sprintf(buffer, "%.2f", theValue);

   printf("%s\n", buffer + (buffer[0] == '0'));

int main()
   double values[] = { 0.23, .23, 1.23, 01.23, 001.23, 101.23 };
   int n           = sizeof(values) / sizeof(values[0]);
   int i           = 0;

   while(i < n)

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Won't the sizeof(values) return the size of the pointer, not the actual array? –  Christian Mann Apr 8 '10 at 3:16
@ChristianMann: Depends on if you are in C or C++ mode of your compiler, I think. –  Ben Voigt Apr 14 '10 at 5:10

It looks there is no easy solution. I would probably use something like code below. It is not the fastest method, however it should work with many different formats. It preserves number of char and position of dot too.

#include <stdio.h>

void fixprint(char *s)
        size_t i;
        i = 1;
        while (s[i]=='0' || s[i]==' ' || s[i]=='+' || s[i]=='-') {
                if (s[i]=='0') s[i]=' ';

int main()
        float x = .23;
        char s[14];
        sprintf(s,"% 8.2f",x);
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This'll do the trick:

double a;
printf( ".%d", (int)modf(0.23,&a) );
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What's in b, since it was not initialized? I don't get it. –  MJB Apr 7 '10 at 20:55
Nope, that doesn't work. modf will return the fractional part, but it's still a fraction, so casting it to int just turns it into a 0. –  tzaman Apr 7 '10 at 21:01
It's just a throw away parameter for modf. After this it points to a double that contains the integral portion of 0.23 (i.e. 0) –  dmb Apr 7 '10 at 21:02
@tzaman right you are -- apologies, all! –  dmb Apr 7 '10 at 21:03
I don't think this is a bad idea though, to use %d. You just did it wrong. You should be extracting the decimal portion by multiplying by 100 and then doing mod 100. Also, you need to be careful that a negative number displays a negative sign. –  frankc Apr 7 '10 at 21:31

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