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I have a super-simple class representing a decimal # with fixed precision, and when I want to format it I do something like this:

assert(d.DENOMINATOR == 1000000);
char buf[100];
sprintf(buf, "%d.%06d", d._value / d.DENOMINATOR, d._value % d.DENOMINATOR);

Astonishingly (to me at least) this does not work. The %06d term comes out all 0s even when d.DENOMINATOR does not evenly divide d._value. And if I throw an extra %d in the format string, I see the right value show up in the third spot -- so it's like something is secretly creating an extra argument between my two.

If I compute the two terms outside of the call to sprintf, everything behaves how I expect. I thought to reproduce this with a more simple test case:

char testa[200];
char testb[200];
int x = 12345, y = 1000;
sprintf(testa, "%d.%03d", x/y, x%y);
int term1 = x/y, term2 = x%y;
sprintf(testb, "%d.%03d", term1, term2);

...but this works properly. So I'm completely baffled as to exactly what's going on, how to avoid it in the future, etc. Can anyone shed light on this for me?

(EDIT: Problem ended up being that d._value and d.DENOMINATOR are both long longs so %d doesn't suffice. Thanks very much to Serge's comment below which pointed to the problem, and Mark's answer submitted shortly thereafter.)

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whats the definition of the type of "d" –  Keith Nicholas Jan 12 '12 at 21:37
Please show output examples. Also, what are the types of d;_value and d.DENOMINATOR? –  Serge - appTranslator Jan 12 '12 at 21:37
You better show us this super simple implementation. –  Martinsh Shaiters Jan 12 '12 at 21:39
d is my Decimal class, which is basically just a wrapper around a long long (d._value.) For the example I'm dealing with _value is 892250000 and DENOMINATOR is 1M as shown above. Is this because I need to use %lld? Yeah, that must be it. Testing now. –  Paul Eastlund Jan 12 '12 at 21:40
perhaps consider using C++ strings and string streams –  Keith Nicholas Jan 12 '12 at 21:41

1 Answer 1

up vote 3 down vote accepted

Almost certainly your term components are a 64-bit type (perhaps long on a 64-bit system) which is getting passed into the non-type-safe sprintf. Thus when you create an intermediate int the size is right and it works fine.

g++ will warn about this and many other useful things with -Wall. The preferred solution is of course to use C++ iostreams for your formatting as they're totally type safe.

The alternate solution is to cast the result of your expression to the type that you told sprintf to expect so it pulls the proper number of bytes out of memory.

Finally, never use sprintf when almost every compiler supports snprintf which prevents all sorts of silly mistakes. Your code is fine now but when someone modifies it later and it runs off the end of the buffer you may spend days tracking down the corruption.

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