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When i want to convert between different integer types, it seems the best syntax is to use numeric_cast:

int y = 99999;
short x = numeric_cast<short>(y); // will throw an exception if y is too large

I have never used that; however the syntax is pretty straightforward, so all is well.

Now suppose i want to do something a bit more advanced: instead of throwing an exception, fit the number into the range of the target type (saturation). I couldn't figure out the way to express that, but the documentation suggests that it is possible (probably using RawConverter policy). All i could come up with is the following ugly:

short x = numeric_cast<short>(max(min(y, SHORT_MAX), SHORT_MIN);

So how can i express "saturating cast" using boost's numeric_cast?

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3 Answers 3

up vote 8 down vote accepted

You could probably do something like this:

#include <limits>

template<typename Target, typename Source>
Target saturation_cast(Source src) {
   try {
      return boost::numeric_cast<Target>(src);
   catch (const boost::negative_overflow &e) {
      return std::numeric_limits<Target>::min();
   catch (const boost::positive_overflow &e) {
      return std::numeric_limits<Target>::max();

This way you let Boost's numeric_cast determine if the value is out of bounds and can then react accordingly.

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@Kos: If a project doesn't use all the language features, that's that project's problem. Nobody should write code for a language not using some features because some other person might not like that feature. –  Puppy Dec 12 '10 at 21:55
@Kos: Assuming that boosts numeric_cast handles signed/unsigned (and I sure hope it does), this will still handle it correctly. And if you don't want to use any exceptions you probably shouldn't use numeric_cast in the first place, since that function's whole point seems to be that is does throw on error. –  sth Dec 12 '10 at 22:00
@sth, The OP clearly wanted a solution which never throws an exception (but saturates the value instead). And if we have the choice make the internal implementation either with or without exceptions, it just seems better to avoid them when they are not necessary (for the reasons mentioned)- that's all :). –  Kos Dec 12 '10 at 22:03
@Kos: No, coding standards are about how you like to place your parentheses and how you like to document your code, spaces or tabs. Removing language features, definitely not a coding standard that any of us should have to conform to. –  Puppy Dec 12 '10 at 22:29
@Kos: Exception Safety is largely a false debate. Once you have enforced RAII to prevent leaks, you're only left with functional issues (half-modified objects) and those shall be caught by unit tests. Most projects have seen use exceptions nowadays, the only notable exception being Clang / LLVM, but compilers are somewhat special. That said, I never worked in embedded. –  Matthieu M. Dec 13 '10 at 7:29

You can use the numeric_limits template to help:

template <typename T1, typename T2> T1 saturating_cast(T2 x) {
    return numeric_cast<T1>(max(min(x, limits<T1>::max()), limits<T1>::min());
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Greg, do we still need numeric_cast here? Wouldn't a static_cast be faster and equally safe? –  Kos Dec 12 '10 at 21:50
@Kos: You're probably right. Care might need to be taken when casting between types that partially overlap, such as unsigned int to signed short. –  Greg Hewgill Dec 12 '10 at 21:54
I don't think you can call std::min and std::max with arguments of different types. And if you could it probably wouldn't know how to handle signed/unsigned problems. –  sth Dec 12 '10 at 22:04
@sth: depends if you use the C-macros or the C++ templates of course. But this answer is wrong nonetheless, the conversion should take place BEFORE the comparisons. –  Matthieu M. Dec 13 '10 at 7:31

Hm... If the above works, a general solution would probably be to make something like:

template<typename TypeFrom, typename TypeTo>
TypeTo saturated_cast(TypeFrom value) {
    TypeTo valueMin = std::numeric_limits<TypeTo>::min();
    TypeTo valueMax = std::numeric_limits<TypeTo>::max();
    return boost::numeric_cast<TypeTo>( std::max(std::min(value,valueMax),valueMin) );

Hope I got it right... Anyway, you've got the concept :)

.... BTW: I think you could use static_cast here instead because after performing the limitation you cannot overflow the range any more, so you don't need additional checking of numeric_cast.

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same issue that GregHill, the conversion should take place before the comparison, otherwise there is no benefit in using numeric_cast, since it'll perform the very same comparisons anyway to check that the range is right. Also, std::min and std::max can only be called for two arguments of the same type, this code would not compile. –  Matthieu M. Dec 13 '10 at 7:33

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