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I know this should be avoided, but unfortunately I have to use integers and floating point (double) in a mixed calculation. The title already states the question: Is the following code guaranteed to work (no assert) with all c++ floating point implementations regardless the numeric values as long as there is no overflow ?

Edit: Forgot to mention that the values are always positive

double realSplit = seg.squareLength() / sqr(maxLength);
int split = realSplit; 
assert(realSplit-split >= 0.0); 
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@netcoder: There is an implicit "cast", you could also write int split = int(realSplit), which would be the same but actually not a real cast as far as I get the meaning of the word cast right –  Martin Sep 1 '12 at 16:45
It's implicit but there is loss of data so it is likely the compiler will warn you about it. Use a cast to make it go away. :) –  netcoder Sep 1 '12 at 17:12
Interestingly it doesn't, although I am quite strict about warnings. I'm using gcc (4.4.3) with -Wall -Wextra and some more irrelevant to this case. Which gcc option should warn about this ? –  Martin Sep 1 '12 at 17:25
Ah I see what's happening. It's -Wconversion. I have it enabled by default. ;-) –  netcoder Sep 1 '12 at 20:28

1 Answer 1

up vote 7 down vote accepted

Converting a floating-point value to an integer value discards the fractional part. For values greater than or equal to 0, your assert holds. For values less than 0 it goes the other way.

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Exactly. The standard reference is C++11, 4.9: "The conversion truncates; that is, the fractional part is discarded. The behavior is undefined if the truncated value cannot be represented in the destination type." –  Stephen Canon Sep 2 '12 at 18:47

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