C++ try not to add footguns challenge (impossible)

Java has reflection since version 1.1. It's actually quite useful in situations and most popular frameworks use it. It depends on you if it turns into a footgun.
- See my other comment for more detials but it kind of destroys the type safety of the language. In Java for example, it lets you modify private/protected fields and call private/protected methods.
  It's also slower than accessing a field normally since you need to do a string lookup (but slightly faster than a hashmap/dictionary) so if you use it over a large enough list it'll cause slowdowns.
  Most use cases for it in Java/C# revolve around testing, serialization, and dynamic filtering/sorting. And most of those cases can be handled more safely using macros/attributes (EDIT: and templates as well, though those are also pretty painful to deal with) because that gets handled at compile-time in C/C++.
  
  You have to see it as "root"-mode, it gives you the means to do stuff you need to do but cannot do otherwise. Most times it's for workarounds for problems you can't solve. If you use reflection you are fully responsible.
  Of course you normally shouldn't use it, in 10 years I used it maybe one or two times. It's more of a last resort.
  
  What macros or attributes provide serialization in C++?

can someone explain what reflections are, plz?
- It's the capability of a program to "reflect" upon itself, I.E. to inspect and understand its own code.
  As an example, In C# you can write a class...
  cs
  
  public class MyClass { public void MyMethod() { ... } }
  ...and you can create an instance of it, and use it, like this...
  cs
  
  var myClass = new MyClass(); myClass.MyMethod();
  Simple enough, nothing we haven't all seen before.
  But you can do the same thing with reflection, as such...
  cs
  
  var type = System.Reflection.Assembly.GetExecutingAssembly() .GetType("MyClass"); var constructor = type.GetConstructor(Array.Empty<Type>()); var instance = constructor.Invoke(Array.Empty<Object>()); var method = type.GetMethod("MyMethod"); var delegate = method.CreateDelegate(typeof(Action), instance); delegate.DynamicInvoke(Array.Empty<object>());
  Obnoxious and verbose and tossing basically all type safety out the window, but it does enable some pretty crazy interesting things. Like self-discovery and dynamic loading of plugins, or self-configuration of apps. Also often useful when messing with generics. I could dig up some practical use-cases, if you're curious.
  
  You can also optimize this a bit.
  You can use Activator.CreateInstance instead of reflecting and invoking the constructor.
  You can also call MethodInfo.Invoke, you don't need to create a delegate.
  Also worth noting that Source Generators have replaced the need for reflection in many cases.
  
  Woah, that's some meta shit. Neat. :D
- Not a C++ dev, but looking at Java, which has reflection: Reflection allows to inspect and modify runtime attributes of classes, interfaces, fields and methods. Even, when you don't know their names at compile time.
  Basically take any object and just ask "what are your (even private) fields?" and then happily modify them, or call these methods, or...

It's good the core language now has to have a reason before it deletes shit. Speaking of, when do they add full garbage collection and call it c+++?
- Garbage collection was at some point part of the spec but was removed in 23.
  https://en.cppreference.com/w/cpp/memory/gc/declare_reachable
  
  If wasn't full garbage collection in the spec. It was some infrastructure support in the spec that would make it easier to write garbage collectors in C++.
- This, however, is about diagnostics, i. e. annotating delete with a reason (message) to express developer intent when deleting a function, not about memory management.
- There’s C++/CLI if you want to combine garbage collection with the pain of C++

I can see the footguns, but I can also see the huge QoL improvement - no more std::enable_if spam to check if a class type has a member, if you can just check for them.
... at least I hope it would be less ugly than std::enable_if.
- There's a pretty big difference though. To my understanding enable_if happens at compile time, while reflection typically happens at runtime. Using the latter would cause a pretty big performance impact over a (large) list of data.
  
  Wouldn't compilers be able to optimize runtime things out? I know that GCC does so for some basic RTTI things, when types are known at compile time.
  
  C++26 reflection is compiletime
- You already can do that with C++20 concepts and the requires expression
  
  template <typename T> concept has_member_foo = requires(T t) { t.foo(); }; // Will fail to instantiate (with nice error // message) if t.foo() is ill-formed template <has_member_foo T> void bar(T t) { // ... } // abbreviated form of above void baz(has_member_foo auto t) { // ... } // verbose form of above template <typename T> requires has_member_foo<T> void biz(T t) { // ... } // same as above but with anonymous concept template <typename T> requires requires(T t) { t.foo(); } void bom(T t) { // ... } // If already inside a function if constexpr (has_member_foo<T>) { // ... } // Same but with anonymous concept if constexpr (requires(T t) { t.foo(); }) { // ... }
  
  I imagine reflections would make the process more straightforward, requires expressions are powerful but either somewhat verbose or possibly incomplete.
  For instance, in your example foo could have any of the following declarations in a class:
  void foo();
  int foo() const;
  template <typename T> foo(T = { }) &&;
  decltype([]() { }) foo;