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GMan has posted a code for the delicious auto_cast “operator” that allows to write code such as the following in C++:

float f = 4.0f;
int i = auto_cast(f);
// instead of:
int j = static_cast<int>(f);

or, more saliently,

T x = value;
typename nested_type<with, template_arguments>::type y = auto_cast(x);
// instead of
typedef typename nested_type<with, template_arguments>::type my_type;
my_type z = static_cast<my_type>(x);

Basically, the operator is great in removing unnecessary redundancy from a static_cast, and at the same time is still safe. It’s even more safe than static_cast since it prevents accidentally mismatching the types:

int i = 1234;
short s = static_cast<char>(i); // s == -46, not 1234!

However, j_random_hacker has noticed a flaw in the operator:

static_cast allows downcasts, which are potentially unsafe.

Indeed, an auto_cast should probably forbid downcasts because they may fail:

class base { };
class derived : public base { };

base b;
derived* pd = auto_cast(&b); // should fail at compile time.

Hence my question:

How would you modify the auto_cast implementation in order to forbid downcasts? This will probably involve enable_if. I’m especially interested in a solution that allows the compiler to provide good diagnostics in case of failure (= readable error messages).

share|improve this question
Note that auto_cast is not able to perform a downcast by reference semantics. It will always copy the source. That sounds safe to me: If the class you "downcast" to has no constructor accepting a base class object, it will simply fail to compile, just as if you used enable_if, but I imagine you would get even better errors, because if you use enable_if on the conversion function, you would get something like "cannot convert auto_cast_wrapper<BaseClass&> to DerivedClass". If you leave it unchanged I think you may get "Cannot static_cast Base& to DerivedClass". – Johannes Schaub - litb Apr 17 '11 at 12:19
@Johannes I was concerned with pointers to classes. base b; derived* d = auto_cast(&b); will unfortunately compile just fine. – Konrad Rudolph Apr 17 '11 at 12:41
Oh, I suppose I'll +1. :P – GManNickG Apr 17 '11 at 22:15
up vote 7 down vote accepted

It appears you want to use the T{u} form of initialization.

template <typename U>
operator U()
    return U{std::forward<T>(mX)};

One of the reasons for these uniform initialization was that to use explicit constructors for creating a temporary, you need a cast aka T(u). With T{u} that problem was solved. For C++03, I imagine you could do something like this:

template<typename T>
struct construct_explicit {
  template<typename U>
  construct_explicit(U &u):t(u) { }
  template<typename U>
  construct_explicit(U const &u):t(u) { }

  T &get() { return t; }
  T const& get() const { return t; }

  T t;

Then you can say construct_explicit<U>(mX).get(), although in a case like in your conversion function, it also works to use a named variable as an intermediary step, I think

template <typename U>
operator U()
    // or C++03: U u(mX);
    U u(std::forward<T>(mX));
    return u;
share|improve this answer
We have a winner. That solution seems perfect. Now auto_cast just needs to be renamed to explicit_cast (actually, I still prefer auto_cast …). – Konrad Rudolph Apr 17 '11 at 12:56
@Konrad: In what way is that cast explicit? :P – Xeo Apr 17 '11 at 12:59
@Xeo It’s explicit because we have to write it (as opposed to an implicit cast operator). The name would come from the fact that this code is using the explicit constructor of a class. – Konrad Rudolph Apr 17 '11 at 13:03
TBH, I don't quite understand how that solves the problem of downcasting as @Konrad states in his question. – Xeo Apr 17 '11 at 13:05
@Xeo it turns out that C++0x' std::is_constructible checks against this exact thing: Allow explicit constructors or explicit conversion functions, but forbid the casts like downcasts etc. – Johannes Schaub - litb Apr 17 '11 at 13:36

You could use type-traits to disable the operator if T is a base of R. As we're in C++0x, you can explicitly static_assert(std::is_base_of<T, U>::value, "Cannot auto_cast downwards!");

share|improve this answer
I'd prefix that is_base_of with a !. :) – Xeo Apr 17 '11 at 12:54
@Xeo And put a remove_pointer around the types, and test for is_pointer beforehand. ;-) Then it works and gives very nice diagnostics. But Johannes’ answer is better still. – Konrad Rudolph Apr 17 '11 at 13:01
It appears std::is_constructible does the desired thing. – Johannes Schaub - litb Apr 17 '11 at 13:43

I wouldn't even use auto_cast because static_cast, const_cast, dynamic_cast and reinterpret_cast are also made ugly by design to help pointing code that could need refactoring : a ugly operation should have an ugly look.

A secondary reason for introducing the new-style cast was that C-style casts are very hard to spot in a program. For example, you can't conveniently search for casts using an ordinary editor or word processor. This near-invisibility of C-style casts is especially unfortunate because they are so potentially damaging. An ugly operation should have an ugly syntactic form. That observation was part of the reason for choosing the syntax for the new-style casts. A further reason was for the new-style casts to match the template notation, so that programmers can write their own casts, especially run-time checked casts.

I prefer to see clearly in the code where it could be better, or where we explicitely need to make this ugly operation.

share|improve this answer
You’re of course right in general. However I believe that the situations in which auto_cast would be used are (1) relatively safe and (2) a necessity. Casts in general should be avoided, true, but this isn’t always possible. – Konrad Rudolph Apr 17 '11 at 12:58
Yes but then they should be remarkable. auto_cast hides remarkable side of writing the other casts. – Klaim Apr 17 '11 at 13:20
What do you mean by “auto_cast hides remarkable side of writing the other casts”? FWIW I think that an auto_cast stands out sufficiently – compared to static_cast it merely removes the redundancy of having to input the target type twice, where once would suffice. So whether I write T y = static_cast<T>(x); or T y = auto_cast(x); isn’t that important. The important thing is that I don’t write T y = x; or T y = something(x) where something does not imply that a cast is being made. The good thing about auto_cast is that the name clearly tells what’s happening: a cast. – Konrad Rudolph Apr 17 '11 at 13:27
So it's more meant to replace auto y = static_cast<thing>(x); ? Then yes it's useful if you don't have auto available. – Klaim Apr 17 '11 at 13:47

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