Yes,
See this link
__declspec(property(get=..,put=..))
is fully supported by clang and that is a carryover from support in gcc for this Microsoft language feature.
I use it all the time in clang; it is fabulous for encapsulation and refactoring. I helped debug and promote the correct clang implementation.
It does a great job optimizing with array accessor properties.
foo[expr0][expr1] = expr2;
Where foo
is
__declspec(property(put=foo_set)) foo_t foo[];
foo_t foo_set(T0 expr0, T1 expr1, foo_t expr2) {..}
It also works excellently with templated functions, making it ideal for efficient overloading and forward referencing.
template<typename T0, typename T1, typename foo_ta = foo_t>
foo_ta foo_set(T0 expr0, T1 expr1, foo_ta expr2) {..}
The only bummer is that you can't use a modern c++ custom-attribute shorthand of:
[[msvc::property(put = foo_set)]] foo_t foo[];
So I use this pattern:
[[msvc::property(put = foo_set)]] __declspec(property(put = foo_set))
foo_t foo[];
template<typename T0, typename T1, typename foo_ta = foo_t>
foo_ta foo_set(T0 expr0, T1 expr1, foo_ta expr2) {..}
OR
template<bool fFwd=true>
bar_t bar_get() {
// reference any types declared later in your code
// template mechanics mean they will not be resolved until
// first **property** use
}
You do not need to use any of the template usage or array accessor usage I showed above. I only provided that to illustrate above and beyond what can be done with properties and making use of overloaded functions.
I control warnings about [[msvc::...]]
being undefined using -Wattributes
. With that pattern my code is both ready for the future, and reads cleanly and more consistently.
Given properties only work on instances. The technique to place them on types is to use an empty singleton on a type:
struct T {
static inline struct K {
..declare properties on `k` here..
} k;
.. whatever you are doing with this `T` type.
};
Now you can access that class/static properties as:
T::k.property ..