@Permian I would also include knowledge of the compiler and toolchains they use.

What is &0xffff in this question?

A cast, address of a literal (or I need another coffee)?

Ah, some sort of bitwise operator. Carry on.

I get the following warning: warning C4996: 'std::_Transform1': Function call with parameters that may be unsafe - this call relies on the caller to check that the passed values are correct. To disable this warning, use -D_SCL_SECURE_NO_WARNINGS. See documentation on how to use Visual C++ 'Checked Iterators'

what is unsafe here ?

it assumes that vertices.begin() will have enough space after it (but it cannot check that)

however in this case you can use std::for_each

std::transform(vertices.begin(), vertices.end(),
    [&local_system](QVector3D& vertex)
    { vertex = local_system.inverted().map(vertex); })

Hello

thx ratchet...so it is unclear if there is enough space behind vertices.begin() to store the returned data ?

does anyone know how I can limit setter and getter?

a base can set a member in a extended class but the extended only can get that member

The extended class will holt the member itself... I came with incomplete solution which do not compile

make setter private

wait what

class Base;

class Extended : public Base
{
  public:
    char m_Val;

    Extended() : ptrExtended(this), m_Val('X') { }

    virtual char& getSomeVal() {
      return m_Val;
    }
};

class Base : public ISet
{
  protected:
    Extended* ptrExtended;

  private:
    // Forward variable to extended class
    virtual void setSomeVal(char refVar) {
        ptrExtended->m_Val = refVar;
    }
};

Edit the message and press Ctrl+K

updated

this doesn't make much sense

@millenium updated, also interface is updated too (is only a pure setter)

the Base is tightly coupled to the subclass

yes is coupled

so the data member could as well be in the base class

@ The base contains a pointer to the extended (association)

IOW, I can't help but think this is a XY problem

let's say you accomplish this

what next

@milleniumbug no it can't be in the base, no variables are required in there (maybe only a ref) (&var)

you're not making any sense

Hello!

@milleniumbug scenario, let's consider sensor called a

@milleniumbug this only emit (set a value), the network protocol will consume this with a getter

but can't set the sensor value

this value is a variable what can't be hold in the sensor itself only on the network protocol

A is sensor B is the (a box which hold the sensor)

looks something like what std::future and std::promise does

@LXSoft there is not much reason for them to be different given what you said

en.cppreference.com/w/cpp/thread/future en.cppreference.com/w/cpp/thread/promise

set value hold nust be only global to (B) but not to A (sensor)

anyone know the best way to check whether the variable i passed in is in utc or local time

I came with a solution

@milleniumbug using CRTP patter but obviously don't work and why that I really dont have an answer, why val does not change

class A
{
public:
    virtual ~A() {};
    virtual void set() = 0;
};

// CRTP pattern implementation for derived classes
template <typename arg_Derived>
class CRTP : public A
{
  public:
    void* addr;

    CRTP()
    {
       (static_cast<arg_Derived&>(*this)).val = 1;
       //(static_cast<arg_Derived&>(*this)).x = 1;
       //(static_cast<arg_Derived&>(*this)).y = 1;
       addr = &(static_cast<arg_Derived&>(*this));
    }

    virtual void set()
    {
      (static_cast<arg_Derived&>(*this)).val = 50;

Finally!

:)

Full complete solution:

allocation was the problem

(static_cast<arg_Derived&>(*this)).val = *new int(value);

what the fuck

look

class Base
{
public:
    virtual ~Base() {};
    virtual void set(int const&) = 0;
};

// CRTP pattern implementation for derived classes
template <typename arg_Derived>
class Route : public Base
{
  public:
    //void* addr;

    Route()
    {
      // Hard copy
      set(15);
      //(static_cast<arg_Derived&>(*this)).A::val = 1;

      //(static_cast<arg_Derived&>(*this)).x = 1;
      //(static_cast<arg_Derived&>(*this)).y = 1;
      //addr = &(static_cast<arg_Derived&>(*this));
      //((B*)addr)->val;

after 2 hours

:O

I toute through using the beautifull CRTP pattern discovered also by mistake

routed*

now throw it into the garbage

why?

*new is the memory leak operator

but works

works also with

(static_cast<arg_Derived&>(*this)).val = value;

failing engine that leaks its fluid also works... until it stops working

@milleniumbug :))

@milleniumbug no memory leaks now ;)

Thank you all!

Guys, what should I do if I want to std::forward a member of function parameter? Will this code work?

template<typename U> void doSomething(U&& data) {
	foo(std::forward<U>(data).member);
}

yes

Does anyone know why I am loose the scope on protected members if a class is inherited using protected qualifier?

here is my snippet

class Extended : public Route<Extended>
{
  protected:
    unsigned short int value;

  public:
    Extended() : value(2) {}
    unsigned short int const& getValue() const;
    virtual ~Extended();

};  Extended::~Extended() { }

unsigned short int const& Extended::getValue() const { return value; }

class Update : protected Extended
{
  protected:
    //unsigned short int& m_refValue;
    Extended& m_refExtended;

  public:
    Update(Extended& extendedReference) : /*m_refValue(extendedReference.value),*/ m_refExtended(extendedReference){}

@LXSoft "loose the scope" What do you mean? Do you get a compile error? What is the error you get?

@Justin Hi, the error is |In member function 'void Update::set(const short unsigned int&)

Okay. I'm pretty sure the problem is that you are trying to access m_refExtended.value. You'd be able to access your own this->value, but not m_refExtended. That's a separate Extended value

en.cppreference.com/w/cpp/language/… See the example:

struct Base {
 protected:
    int i;
 private:
    void g(Base& b, struct Derived& d);
};

struct Derived : Base {
    void f(Base& b, Derived& d) // member function of a derived class
    {
        ++d.i; // okay: the type of d is Derived
        ++i; // okay: the type of the implied '*this' is Derived
//      ++b.i; // error: can't access a protected member through Base
//                 (Otherwise it would be possible to change other derived classes,
//                  like a hypothetical Derived2, base implementation)

@Justin I know these rules, but

1. Extended& m_refExtended; is member reference to the class Extended which is protected by protected access modifier (in Update class)

2. class Update : protected Extended also inherits Extended with protected qual

What is the problem there with the encapsulation if no external access to the reference int member is made?

The only access is in the inherited class Update

of course set is available in the Update class what can be accessed public but the argument will hold only a const& what cant modify directly data from Extended class

only a rvalue copy will be made

The problem is that you could write a function that takes any class, makes a struct that derives from that class and uses that class to access protected members which would make protected pointless. To prevent that you can only access protected members of the object you inherit, not all objects of that class.

set(unsigned short int const& number)

@Justin correct buth the qualifier in example is (struct Derived : Base {) private implicitly

@LXSoft struct Derived : Base is public inheritance (note the struct keyword). class Derived : Base would be private

@nwp Thank you for this: q:"To prevent that you can only access protected members of the object you inherit, not all objects of that class."

@nwp *uses that struct to access ...

@nwp a stupid little problem interfacing Get and Set only for the specific objects have created me headaches