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I'm trying to convert the decimal portion of a double 247.32 into an int 32. I only need two decimal places.

I can cast the double as int and subtract from the double to get .32000

I can then multiply by 100 to get 32.000

But then when I try to cast that 32.000 as an int, it turns into 31.

Can I fix this? Should I use a different datatype than a double to store that number?


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Do you have a set number of decimal places? You could cut a substring off the end then cast the string to an int? –  Taz Feb 20 '13 at 0:51
I'm just looking for two actually –  nzondlo Feb 20 '13 at 0:54
If it'll always be 2 decimal places, you can substring the 2 digits from the end. Otherwise you might need to find the . then substring 2 character after it. I don't know C syntax well enough to actually write you an answer for this however. :) –  Taz Feb 20 '13 at 0:55

3 Answers 3

up vote 4 down vote accepted

The problem (which skjaidev's answer doesn't solve) is that 247.32 cannot be represented exactly in binary floating-point. The actual stored value is likely to be:


So you can't just discard the integer part, multiply by 100, and convert to int, because the conversion truncates.

The round() function, declared in <math.h>, rounds a double value to the nearest integer -- though the result is still of type double.

double a = 247.32;
a -= trunc(a);      /* a == 0.32 -- approximately */
a *= 100.0;         /* a == 32.0 -- approximately */
a = round(a);       /* a == 32.0 -- exactly */
printf ("%d\n", (int)a);

Or, putting the computation into a single line:

double a = 247.32;
printf("%d\n", (int)round(100.0 * (a - trunc(a))));

Actually, this is probably a cleaner way to do it:

double a = 247.32;
printf("%d\n", (int)round(100.0 * fmod(a, 1.0)));
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This will work assuming the input value is "approximately" equal to a whole number of 1/100 units. If however the goal is to round an arbitrary input to the nearest number of 1/100 units, your algorithm fails corner cases that are almost exactly halfway between two 1/100 units, because the multiplication by 100.0 is non-exact, thus causing double rounding to occur. –  R.. Feb 20 '13 at 3:43
Of course, if the integral part of the input is greater than 4 bits wide, the multiplication by 100.0 will be exact, so that's another case where your algorithm works. –  R.. Feb 20 '13 at 3:45

Given input value x and output y:

char buf[5];
snprintf(buf, sizeof buf, "%.2f", fmod(x, 1.0));
y = strtol(buf+2, 0, 10);

Or just y = 10*(buf[2]-'0')+buf[3]-'0'; to avoid the strtol cost.

This is about the only way to do what you want without writing a ton of code yourself, since the printf family of functions are the only standard functions capable of performing decimal rounding.

If you have some additional constraints like that x is very close to a multiple of 1/100, you could perhaps cheat and just do something like:

int y = ((x+0.001)*100;

By the way, if your problem involves money, do not use floating point for money! Use integers in units of cents or whatever the natural smallest unit for your currency is.

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Since you're only looking for 2 decimal places, this works for me:

double a = 247.32;
int b = (int) (a * 100)%100;
printf ("%d\n", b);

Update: See my comment below.

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Thanks. That ended up working for me too. I was subtracting the double from the int version and then multiplying by 100. Then finally I'd cast to int. 0.16 would become 15, 0.32 would become 31, etc. –  nzondlo Feb 20 '13 at 1:00
That printed 31 when I tried it. The conversion from double to int truncates, and 247.32 cannot be represented exactly. –  Keith Thompson Feb 20 '13 at 1:19
This does not work. –  R.. Feb 20 '13 at 1:41
@KeithThompson is right, I hadn't linked to the math library. If you link to the math library (-lm) you'll see what Keith describes. –  jman Feb 20 '13 at 2:05
@skjaidev: I'm surprised linking to the math library or not makes a difference. In fact, I get 31 on one system and 32 on another; -lm vs. no -lm makes no apparent difference. –  Keith Thompson Feb 20 '13 at 2:12

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