Is there a "safe" alternative to static_cast in C++11/14 or a library which implements this functionality?

By "safe" I mean the cast should only allow casts which do not lose precision. So a cast from int64_t to int32_t would only be allowed if the number fits into a int32_t and else an error is reported.

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    You want this to be a run-time error? Or to be a compile-time warning/error that there might be a loss of data/precision? – Kevin Oct 17 '18 at 14:56
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    Yes,safe alternative is not doing cast at all – Slava Oct 17 '18 at 14:58
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    There isn't anything built in to C++. Although numeric_limits makes this trivial to implement as a function that would throw an exception or do a run time assert. – NathanOliver Oct 17 '18 at 14:59
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    Do you have compiler warnings turned on? There are certainly situations (not static_cast, but initialization or assignment of a bigger type into a smaller type) where the compiler will warn about loss of precision. – 0x5453 Oct 17 '18 at 14:59
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    numeric_cast<>() – Swordfish Oct 17 '18 at 14:59

There's gsl::narrow

narrow // narrow<T>(x) is static_cast<T>(x) if static_cast<T>(x) == x or it throws narrowing_error

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    Good answer. Perhaps it might be worth extending your answer to establish the Guideline support library's bona fides? Some readers may not be familiar with the Standard C++ Foundation, the C++ Core Guidelines or the Guideline support library and so might dismiss the gsl as "just another library"? – Frank Boyne Oct 17 '18 at 17:32
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    @FrankBoyne agreed, I wondered at first, how come GNU Scientific Library has C++ utilities... – Ruslan Oct 17 '18 at 20:07

You've got the use-case reversed.

The intended use of static_cast (and the other c++-style casts) is to indicate programmer intentions. When you write auto value = static_cast<int32_t>(value_64);, you're saying "Yes, I very much *intend* to downcast this value, possibly truncating it, when I perform this assignment". As a result, a compiler, which might have been inclined to complain about this conversion under normal circumstances (like if you'd have written int32_t value = value_64;) instead observes "well, the programmer has told me that this is what they intended; why would they lie to me?" and will silently compile the code.

If you want your C++ code to warn or throw an error on unsafe conversions, you need to explicitly not use static_cast, const_cast, reinterpret_cast, and let the compiler do its job. Compilers have flags that change how warnings are treated (downcasting int64_t to int32_t usually only results in a Warning), so make sure you're using the correct flags to force warnings to be treated as errors.

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    @Caleth And my advice to them is to not use these casts if they want such an indication. Compilers will normally warn when a narrowing conversion occurs without being explicitly casted. – Xirema Oct 17 '18 at 15:07
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    @Xirema: (A) Compilers often don't warn, and (B) compilers often overwarn when casting a long to a char, but the developer knows the value is always between 0 and 100. – Mooing Duck Oct 17 '18 at 17:31
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    @MooingDuck If you know the value is always 0-100 then use static_cast, that's what it's for... – immibis Oct 17 '18 at 22:20
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    @immibis: Let me correct myself; The developer knows the value ought to be between 0 and 100, but wants an exception to be thrown if that assumption is determined to be incorrect. – Mooing Duck Oct 17 '18 at 23:40
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    @MooingDuck I'm not sure what you expect the compiler to do then? Either it can be outside the range (in which case you deserve the warning) or it can't (in which case use static_cast). – immibis Oct 18 '18 at 2:19

You can create your own with sfinae. Here's an example:

template <typename T, typename U>
typename std::enable_if<sizeof(T) >= sizeof(U),T>::type 
safe_static_cast(U&& val)
    return static_cast<T>(val);

int main()
    int32_t y = 2;
    std::cout << safe_static_cast<int32_t>(y) << std::endl;
    std::cout << safe_static_cast<int16_t>(y) << std::endl; // compile error

This will compile only if the size you cast to is >= the source size.

Try it here

You can complicate this further using numeric_limits for other types and type_traits.

Notice that my solution is a compile-time solution, because you asked about static_cast, where static here refers to "determined at compile-time".

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    This a) is a bad way of measuring precision, seeing as e.g. sizeof(float) < sizeof(int64_t), and b) does not what the OP asked, namely allow a cast to a smaller type but throw a runtime error when this overflows. – leftaroundabout Oct 17 '18 at 16:28
  • @leftaroundabout The OP didn't mention what kind of error. The correct interpretation I see is at compile-time. It's bad-design to do this at run-time!!!!! Besides, the definition of precision here is ambiguous, which is why I gave this as an example and mentioned numeric_limits and type_traits to modify it and make it fit his desired condition. – The Quantum Physicist Oct 17 '18 at 16:32
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    @TheQuantumPhysicist Disagree. Both Caleth and Swordfish got in. Indeed, both their solutions show that this is an understood and solved problem. – Lightness Races in Orbit Oct 17 '18 at 17:01
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    @LightnessRacesinOrbit I hope you realize how trivial it's to cast back and forth and see if the result hasn't changed. There are a million ways to ask this question the right way (or in a meaningful way, which is why this is an XY problem), where you don't involve a cast at compile-time. Static_cast is for compile-time, and hence relevant checks should be done at compile-time. Not run-time. That's how I see it. – The Quantum Physicist Oct 17 '18 at 17:11
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    Actually, casting back and forth to verify is not enough. Differing signedness might slip through the cracks that way. – Deduplicator Oct 17 '18 at 21:54

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