Idiomatic way to prevent slicing? The 2019 Stack Overflow Developer Survey Results Are InForce...

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Idiomatic way to prevent slicing?

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Idiomatic way to prevent slicing?



The 2019 Stack Overflow Developer Survey Results Are InForce function to be called only with specific typesWhat's the best way to trim std::string?What is object slicing?What's the point of g++ -Wreorder?Easiest way to convert int to string in C++Does the C++ spec allow an instance of a non-virtual class to include memory for a vtable pointer?capture variables inside of subclass?Detecting if a type can be derived from in C++C++ overload function by return typeIs using inline classes inside a function permitted to be used as template types?Short-circuit evaluation and assignment in C++





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9















Sometimes it can be an annoyance that c++ defaults to allow slicing. For example



#include <iostream>
struct foo { int a; };
struct bar : foo { int b; };

int main() {
bar x{1,2};
foo y = x; // <- I dont want this to compile!
}


This compiles and runs as expected! Though, what if I dont want to enable slicing?



What is the idomatic way to write foo such that one cannot slice instances of any derived class?










share|improve this question































    9















    Sometimes it can be an annoyance that c++ defaults to allow slicing. For example



    #include <iostream>
    struct foo { int a; };
    struct bar : foo { int b; };

    int main() {
    bar x{1,2};
    foo y = x; // <- I dont want this to compile!
    }


    This compiles and runs as expected! Though, what if I dont want to enable slicing?



    What is the idomatic way to write foo such that one cannot slice instances of any derived class?










    share|improve this question



























      9












      9








      9


      3






      Sometimes it can be an annoyance that c++ defaults to allow slicing. For example



      #include <iostream>
      struct foo { int a; };
      struct bar : foo { int b; };

      int main() {
      bar x{1,2};
      foo y = x; // <- I dont want this to compile!
      }


      This compiles and runs as expected! Though, what if I dont want to enable slicing?



      What is the idomatic way to write foo such that one cannot slice instances of any derived class?










      share|improve this question
















      Sometimes it can be an annoyance that c++ defaults to allow slicing. For example



      #include <iostream>
      struct foo { int a; };
      struct bar : foo { int b; };

      int main() {
      bar x{1,2};
      foo y = x; // <- I dont want this to compile!
      }


      This compiles and runs as expected! Though, what if I dont want to enable slicing?



      What is the idomatic way to write foo such that one cannot slice instances of any derived class?







      c++ inheritance object-slicing






      share|improve this question















      share|improve this question













      share|improve this question




      share|improve this question








      edited 2 hours ago









      rrauenza

      3,55921835




      3,55921835










      asked 5 hours ago









      user463035818user463035818

      18.8k42970




      18.8k42970
























          3 Answers
          3






          active

          oldest

          votes


















          12














          I'm not sure if there is a named idiom for it but you can add a deleted function to the overload set that is a better match then the base classes slicing operations. If you change foo to



          struct foo 
          {
          int a;
          foo() = default; // you have to add this because of the template constructor

          template<typename T>
          foo(const T&) = delete; // error trying to copy anything but a foo

          template<typename T>
          foo& operator=(const T&) = delete; // error assigning anything else but a foo
          };


          then you can only ever copy construct or copy assign a foo to foo. Any other type will pick the function template and you'll get an error about using a deleted function. This does mean that your class, and the classes that use it can no longer be an aggregate though. Since the members that are added are templates, they are not considered copy constructors or copy assignment operators so you'll get the default copy and move constructors and assignment operators.






          share|improve this answer


























          • Note that this doesn't prevent explicit slicing like this: foo y = static_cast<foo&>(x);. That said, perhaps it's not a problem to OP.

            – eerorika
            5 hours ago











          • if I understand correctly this is a nice way to prevent implicit conversions for function parameters in general

            – user463035818
            5 hours ago






          • 1





            @user463035818 Yep. I've been using it since I've asked that Q.

            – NathanOliver
            5 hours ago






          • 3





            I look at it as reverse SFINAE. You make the overloads you want to compile, and then add a deleted template stopping everything else.

            – NathanOliver
            5 hours ago





















          4














          Since 2011, the idiomatic way has been to use auto:



          #include <iostream>
          struct foo { int a; };
          struct bar : foo { int b; };

          int main() {
          bar x{1,2};
          auto y = x; // <- y is a bar
          }


          If you wish to actively prevent slicing, there are a number of ways:



          Usually the most preferable way, unless you specifically need inheritance (you often don't) is to use encapsulation:



          #include <iostream>

          struct foo { int a; };
          struct bar
          {
          bar(int a, int b)
          : foo_(a)
          , b(b)
          {}

          int b;

          int get_a() const { return foo_.a; }

          private:
          foo foo_;
          };

          int main() {
          bar x{1,2};
          // foo y = x; // <- does not compile

          }


          Another more specialised way might be to alter the permissions around copy operators:



          #include <iostream>

          struct foo {
          int a;
          protected:
          foo(foo const&) = default;
          foo(foo&&) = default;
          foo& operator=(foo const&) = default;
          foo& operator=(foo&&) = default;

          };

          struct bar : foo
          {
          bar(int a, int b)
          : foo{a}, b{b}
          {}

          int b;
          };

          int main() {
          auto x = bar (1,2);
          // foo y = x; // <- does not compile
          }





          share|improve this answer































            3














            You can prevent the base from being copied outside of member functions of derived classes and the base itself by declaring the copy constructor protected:



            struct foo {
            // ...
            protected:
            foo(foo&) = default;
            };





            share|improve this answer



















            • 4





              but then I cannot copy foos anymore :( I'd like to prevent only copying a bar to a foo if possible

              – user463035818
              5 hours ago












            Your Answer






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            3 Answers
            3






            active

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            3 Answers
            3






            active

            oldest

            votes









            active

            oldest

            votes






            active

            oldest

            votes









            12














            I'm not sure if there is a named idiom for it but you can add a deleted function to the overload set that is a better match then the base classes slicing operations. If you change foo to



            struct foo 
            {
            int a;
            foo() = default; // you have to add this because of the template constructor

            template<typename T>
            foo(const T&) = delete; // error trying to copy anything but a foo

            template<typename T>
            foo& operator=(const T&) = delete; // error assigning anything else but a foo
            };


            then you can only ever copy construct or copy assign a foo to foo. Any other type will pick the function template and you'll get an error about using a deleted function. This does mean that your class, and the classes that use it can no longer be an aggregate though. Since the members that are added are templates, they are not considered copy constructors or copy assignment operators so you'll get the default copy and move constructors and assignment operators.






            share|improve this answer


























            • Note that this doesn't prevent explicit slicing like this: foo y = static_cast<foo&>(x);. That said, perhaps it's not a problem to OP.

              – eerorika
              5 hours ago











            • if I understand correctly this is a nice way to prevent implicit conversions for function parameters in general

              – user463035818
              5 hours ago






            • 1





              @user463035818 Yep. I've been using it since I've asked that Q.

              – NathanOliver
              5 hours ago






            • 3





              I look at it as reverse SFINAE. You make the overloads you want to compile, and then add a deleted template stopping everything else.

              – NathanOliver
              5 hours ago


















            12














            I'm not sure if there is a named idiom for it but you can add a deleted function to the overload set that is a better match then the base classes slicing operations. If you change foo to



            struct foo 
            {
            int a;
            foo() = default; // you have to add this because of the template constructor

            template<typename T>
            foo(const T&) = delete; // error trying to copy anything but a foo

            template<typename T>
            foo& operator=(const T&) = delete; // error assigning anything else but a foo
            };


            then you can only ever copy construct or copy assign a foo to foo. Any other type will pick the function template and you'll get an error about using a deleted function. This does mean that your class, and the classes that use it can no longer be an aggregate though. Since the members that are added are templates, they are not considered copy constructors or copy assignment operators so you'll get the default copy and move constructors and assignment operators.






            share|improve this answer


























            • Note that this doesn't prevent explicit slicing like this: foo y = static_cast<foo&>(x);. That said, perhaps it's not a problem to OP.

              – eerorika
              5 hours ago











            • if I understand correctly this is a nice way to prevent implicit conversions for function parameters in general

              – user463035818
              5 hours ago






            • 1





              @user463035818 Yep. I've been using it since I've asked that Q.

              – NathanOliver
              5 hours ago






            • 3





              I look at it as reverse SFINAE. You make the overloads you want to compile, and then add a deleted template stopping everything else.

              – NathanOliver
              5 hours ago
















            12












            12








            12







            I'm not sure if there is a named idiom for it but you can add a deleted function to the overload set that is a better match then the base classes slicing operations. If you change foo to



            struct foo 
            {
            int a;
            foo() = default; // you have to add this because of the template constructor

            template<typename T>
            foo(const T&) = delete; // error trying to copy anything but a foo

            template<typename T>
            foo& operator=(const T&) = delete; // error assigning anything else but a foo
            };


            then you can only ever copy construct or copy assign a foo to foo. Any other type will pick the function template and you'll get an error about using a deleted function. This does mean that your class, and the classes that use it can no longer be an aggregate though. Since the members that are added are templates, they are not considered copy constructors or copy assignment operators so you'll get the default copy and move constructors and assignment operators.






            share|improve this answer















            I'm not sure if there is a named idiom for it but you can add a deleted function to the overload set that is a better match then the base classes slicing operations. If you change foo to



            struct foo 
            {
            int a;
            foo() = default; // you have to add this because of the template constructor

            template<typename T>
            foo(const T&) = delete; // error trying to copy anything but a foo

            template<typename T>
            foo& operator=(const T&) = delete; // error assigning anything else but a foo
            };


            then you can only ever copy construct or copy assign a foo to foo. Any other type will pick the function template and you'll get an error about using a deleted function. This does mean that your class, and the classes that use it can no longer be an aggregate though. Since the members that are added are templates, they are not considered copy constructors or copy assignment operators so you'll get the default copy and move constructors and assignment operators.







            share|improve this answer














            share|improve this answer



            share|improve this answer








            edited 5 hours ago

























            answered 5 hours ago









            NathanOliverNathanOliver

            98.5k16138218




            98.5k16138218













            • Note that this doesn't prevent explicit slicing like this: foo y = static_cast<foo&>(x);. That said, perhaps it's not a problem to OP.

              – eerorika
              5 hours ago











            • if I understand correctly this is a nice way to prevent implicit conversions for function parameters in general

              – user463035818
              5 hours ago






            • 1





              @user463035818 Yep. I've been using it since I've asked that Q.

              – NathanOliver
              5 hours ago






            • 3





              I look at it as reverse SFINAE. You make the overloads you want to compile, and then add a deleted template stopping everything else.

              – NathanOliver
              5 hours ago





















            • Note that this doesn't prevent explicit slicing like this: foo y = static_cast<foo&>(x);. That said, perhaps it's not a problem to OP.

              – eerorika
              5 hours ago











            • if I understand correctly this is a nice way to prevent implicit conversions for function parameters in general

              – user463035818
              5 hours ago






            • 1





              @user463035818 Yep. I've been using it since I've asked that Q.

              – NathanOliver
              5 hours ago






            • 3





              I look at it as reverse SFINAE. You make the overloads you want to compile, and then add a deleted template stopping everything else.

              – NathanOliver
              5 hours ago



















            Note that this doesn't prevent explicit slicing like this: foo y = static_cast<foo&>(x);. That said, perhaps it's not a problem to OP.

            – eerorika
            5 hours ago





            Note that this doesn't prevent explicit slicing like this: foo y = static_cast<foo&>(x);. That said, perhaps it's not a problem to OP.

            – eerorika
            5 hours ago













            if I understand correctly this is a nice way to prevent implicit conversions for function parameters in general

            – user463035818
            5 hours ago





            if I understand correctly this is a nice way to prevent implicit conversions for function parameters in general

            – user463035818
            5 hours ago




            1




            1





            @user463035818 Yep. I've been using it since I've asked that Q.

            – NathanOliver
            5 hours ago





            @user463035818 Yep. I've been using it since I've asked that Q.

            – NathanOliver
            5 hours ago




            3




            3





            I look at it as reverse SFINAE. You make the overloads you want to compile, and then add a deleted template stopping everything else.

            – NathanOliver
            5 hours ago







            I look at it as reverse SFINAE. You make the overloads you want to compile, and then add a deleted template stopping everything else.

            – NathanOliver
            5 hours ago















            4














            Since 2011, the idiomatic way has been to use auto:



            #include <iostream>
            struct foo { int a; };
            struct bar : foo { int b; };

            int main() {
            bar x{1,2};
            auto y = x; // <- y is a bar
            }


            If you wish to actively prevent slicing, there are a number of ways:



            Usually the most preferable way, unless you specifically need inheritance (you often don't) is to use encapsulation:



            #include <iostream>

            struct foo { int a; };
            struct bar
            {
            bar(int a, int b)
            : foo_(a)
            , b(b)
            {}

            int b;

            int get_a() const { return foo_.a; }

            private:
            foo foo_;
            };

            int main() {
            bar x{1,2};
            // foo y = x; // <- does not compile

            }


            Another more specialised way might be to alter the permissions around copy operators:



            #include <iostream>

            struct foo {
            int a;
            protected:
            foo(foo const&) = default;
            foo(foo&&) = default;
            foo& operator=(foo const&) = default;
            foo& operator=(foo&&) = default;

            };

            struct bar : foo
            {
            bar(int a, int b)
            : foo{a}, b{b}
            {}

            int b;
            };

            int main() {
            auto x = bar (1,2);
            // foo y = x; // <- does not compile
            }





            share|improve this answer




























              4














              Since 2011, the idiomatic way has been to use auto:



              #include <iostream>
              struct foo { int a; };
              struct bar : foo { int b; };

              int main() {
              bar x{1,2};
              auto y = x; // <- y is a bar
              }


              If you wish to actively prevent slicing, there are a number of ways:



              Usually the most preferable way, unless you specifically need inheritance (you often don't) is to use encapsulation:



              #include <iostream>

              struct foo { int a; };
              struct bar
              {
              bar(int a, int b)
              : foo_(a)
              , b(b)
              {}

              int b;

              int get_a() const { return foo_.a; }

              private:
              foo foo_;
              };

              int main() {
              bar x{1,2};
              // foo y = x; // <- does not compile

              }


              Another more specialised way might be to alter the permissions around copy operators:



              #include <iostream>

              struct foo {
              int a;
              protected:
              foo(foo const&) = default;
              foo(foo&&) = default;
              foo& operator=(foo const&) = default;
              foo& operator=(foo&&) = default;

              };

              struct bar : foo
              {
              bar(int a, int b)
              : foo{a}, b{b}
              {}

              int b;
              };

              int main() {
              auto x = bar (1,2);
              // foo y = x; // <- does not compile
              }





              share|improve this answer


























                4












                4








                4







                Since 2011, the idiomatic way has been to use auto:



                #include <iostream>
                struct foo { int a; };
                struct bar : foo { int b; };

                int main() {
                bar x{1,2};
                auto y = x; // <- y is a bar
                }


                If you wish to actively prevent slicing, there are a number of ways:



                Usually the most preferable way, unless you specifically need inheritance (you often don't) is to use encapsulation:



                #include <iostream>

                struct foo { int a; };
                struct bar
                {
                bar(int a, int b)
                : foo_(a)
                , b(b)
                {}

                int b;

                int get_a() const { return foo_.a; }

                private:
                foo foo_;
                };

                int main() {
                bar x{1,2};
                // foo y = x; // <- does not compile

                }


                Another more specialised way might be to alter the permissions around copy operators:



                #include <iostream>

                struct foo {
                int a;
                protected:
                foo(foo const&) = default;
                foo(foo&&) = default;
                foo& operator=(foo const&) = default;
                foo& operator=(foo&&) = default;

                };

                struct bar : foo
                {
                bar(int a, int b)
                : foo{a}, b{b}
                {}

                int b;
                };

                int main() {
                auto x = bar (1,2);
                // foo y = x; // <- does not compile
                }





                share|improve this answer













                Since 2011, the idiomatic way has been to use auto:



                #include <iostream>
                struct foo { int a; };
                struct bar : foo { int b; };

                int main() {
                bar x{1,2};
                auto y = x; // <- y is a bar
                }


                If you wish to actively prevent slicing, there are a number of ways:



                Usually the most preferable way, unless you specifically need inheritance (you often don't) is to use encapsulation:



                #include <iostream>

                struct foo { int a; };
                struct bar
                {
                bar(int a, int b)
                : foo_(a)
                , b(b)
                {}

                int b;

                int get_a() const { return foo_.a; }

                private:
                foo foo_;
                };

                int main() {
                bar x{1,2};
                // foo y = x; // <- does not compile

                }


                Another more specialised way might be to alter the permissions around copy operators:



                #include <iostream>

                struct foo {
                int a;
                protected:
                foo(foo const&) = default;
                foo(foo&&) = default;
                foo& operator=(foo const&) = default;
                foo& operator=(foo&&) = default;

                };

                struct bar : foo
                {
                bar(int a, int b)
                : foo{a}, b{b}
                {}

                int b;
                };

                int main() {
                auto x = bar (1,2);
                // foo y = x; // <- does not compile
                }






                share|improve this answer












                share|improve this answer



                share|improve this answer










                answered 5 hours ago









                Richard HodgesRichard Hodges

                57k658105




                57k658105























                    3














                    You can prevent the base from being copied outside of member functions of derived classes and the base itself by declaring the copy constructor protected:



                    struct foo {
                    // ...
                    protected:
                    foo(foo&) = default;
                    };





                    share|improve this answer



















                    • 4





                      but then I cannot copy foos anymore :( I'd like to prevent only copying a bar to a foo if possible

                      – user463035818
                      5 hours ago
















                    3














                    You can prevent the base from being copied outside of member functions of derived classes and the base itself by declaring the copy constructor protected:



                    struct foo {
                    // ...
                    protected:
                    foo(foo&) = default;
                    };





                    share|improve this answer



















                    • 4





                      but then I cannot copy foos anymore :( I'd like to prevent only copying a bar to a foo if possible

                      – user463035818
                      5 hours ago














                    3












                    3








                    3







                    You can prevent the base from being copied outside of member functions of derived classes and the base itself by declaring the copy constructor protected:



                    struct foo {
                    // ...
                    protected:
                    foo(foo&) = default;
                    };





                    share|improve this answer













                    You can prevent the base from being copied outside of member functions of derived classes and the base itself by declaring the copy constructor protected:



                    struct foo {
                    // ...
                    protected:
                    foo(foo&) = default;
                    };






                    share|improve this answer












                    share|improve this answer



                    share|improve this answer










                    answered 5 hours ago









                    eerorikaeerorika

                    89.8k664136




                    89.8k664136








                    • 4





                      but then I cannot copy foos anymore :( I'd like to prevent only copying a bar to a foo if possible

                      – user463035818
                      5 hours ago














                    • 4





                      but then I cannot copy foos anymore :( I'd like to prevent only copying a bar to a foo if possible

                      – user463035818
                      5 hours ago








                    4




                    4





                    but then I cannot copy foos anymore :( I'd like to prevent only copying a bar to a foo if possible

                    – user463035818
                    5 hours ago





                    but then I cannot copy foos anymore :( I'd like to prevent only copying a bar to a foo if possible

                    – user463035818
                    5 hours ago


















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