# Convert Double/Float to string

I need to convert a floating point number to an equivalent string in decimal (or other base). Conversion at first, needs to be done in the format `xE+0` where `x` is the floating point number.

The idea i have is to first truncate the floating point number into a temporary integer and then convert that integer into string, and then consider the fractional part, multiply it with `10` while the fractional part does not become `0`. After the fractional part is transferred into the left side of the decimal point, apply the integer to string function again and convert the fraction part to string. Is there a better way, which will be faster than this? Will this method induce any kind of side effects?

To convert the floating point number into exponential representation shall i do the same as above and then adjust the power? Or directly bitmask the IEEE754 floating point representation and convert each part into string.

Note: No other functions could be used, because i have access to absolutely no library functions.

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I pray that people will just try to answer this question instead of asking "Why can't you use library functions?". –  Frerich Raabe Aug 29 '11 at 9:47
need to implement a basic library –  phoxis Aug 29 '11 at 9:48
exploringbinary.com/… might be helpful as a starting point –  user786653 Aug 29 '11 at 9:49
The whole mantissa is the "fractional part". An IEEE 754 normalized floating-point number is a fractional part (the "1." is implicit). –  Pascal Cuoq Aug 29 '11 at 10:24
The method you're considering will throw away precision and have bad rounding errors. How much precision do you need though? A fixed number of places? Enough to reproduce the exact value of the `double` when the decimal representation is read back in? The exact value? –  R.. Aug 29 '11 at 13:58
show 3 more comments

The only exact solution is to perform arbitrary-precision decimal arithmetic for the base conversion, since the exact value can be very long - for 80-bit `long double`, up to about 10000 decimal places. Fortunately it's "only" up to about 700 places or so for IEEE `double`.

Rather than working with individual decimal digits, it's helpful to instead work base-1-billion (the highest power of 10 that fits in a 32-bit integer) and then convert these "base-1-billion digits" to 9 decimal digits each at the end of your computation.

I have a very dense (rather hard to read) but efficient implementation here, under LGPL MIT license:

http://git.musl-libc.org/cgit/musl/blob/src/stdio/vfprintf.c?h=v1.0.0

If you strip out all the hex float support, infinity/nan support, `%g`/`%f`/`%e` variation support, rounding (which will never be needed if you only want exact answers), and other things you might not need, the remaining code is rather simple.

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Are you saying me to convert first to 2^32 base number and then from it get 10 base string ? A bit of comment in the code and/or a brief description would really help to get into the code. –  phoxis Aug 29 '11 at 16:45
@phoxis: You're interested in `fmt_fp`. `y` is the number that is outputted to `f`. `w` = string width, `p` = precision, `fl` = flags, `t` = type. the format code `"%20.5g` gives `w=20, p=5, fl=0, t='g'`. (`w=0, p=-1` gives you default formatting). It should be feasible to extract the parts you need. (Note I've only briefly looked at the source code, but it looks fairly solid and works correctly for the cases the quick-and-dirty one I linked to fails on) –  user786653 Aug 29 '11 at 17:04
@phoxis: Something to get you started: pastebin.com/c84Dbvd7 (Apologies in advance to R.. for any confusion I've added to the discussion) –  user786653 Aug 29 '11 at 18:03

Hello i know maybe it is unnecessary, but i made a function which convert float to string.

## CODE:

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

/** Number on countu**/

int n_tu(int number, int count)
{
int result=1;
while(count-- > 0)
result *=number;

return result;
}

/***Convert float to string***/
void float_to_string(float f, char r[])
{
long long int length, length2, i, number, position, sign;
float number2;

sign=-1;   // -1 == positive number
if (f <0)
{
sign='-';
f *= -1;
}

number2=f;
number=f;
length=0;  // size of decimal part
length2=0; //  size of tenth

/* calculate length2 tenth part*/
while( (number2 - (float)number) != 0.0 && !((number2 - (float)number) < 0.0) )
{

number2= f * (n_tu(10.0,length2+1));
number=number2;

length2++;

}

/* calculate length decimal part*/
for(length=(f> 1) ? 0 : 1; f > 1; length++)
f /= 10;

position=length;
length=length+1+length2;
number=number2;
if(sign=='-')
{
length++;
position++;
}

for(i=length; i >= 0 ; i--)
{
if(i== (length))
r[i]='\0';
else if(i==(position))
r[i]='.';
else if(sign=='-' && i==0)
r[i]='-';
else
{
r[i]= (number % 10)+'0';
number /=10;
}
}
}
``````
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This may at best print a few small floating-point numbers correctly. A correct answer for all double-precision numbers has already been posted by R.. in 2011, what is the value of adding an incorrect one now? –  Pascal Cuoq Jun 18 at 7:46
I was only help and maybe show way how convert float into string. I try string convert back with atof and it worked. –  JJJakubJJ Jun 18 at 7:55

Use `snprintf()` from `stdlib.h`. Worked for me.

``````{
double num=123412341234.123456789;
char output[50];
snprintf(output,50,"%f",num);
printf("%s",output);
}
``````
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i can't use any standard library functions, because the platform i am working nothing is available. –  phoxis Mar 23 '12 at 13:20
This snippet invokes undefined behaviour. –  James McLaughlin Mar 16 at 17:49
@JamesMcLaughlin: why? –  dmcr_code May 30 at 7:36
@dmcr_code I posted that comment before the answer was edited. –  James McLaughlin May 30 at 20:30
Go and look at the `printf()` implementation with `"%f"` in some C library?