Difference between `vector v;` and `vector v = vector();`












7















What is the difference between



std::vector<int> v;


and



std::vector<int> v = std::vector<int>();


Intuitively, I would never use the second version but I am not sure there much difference. It feels to me that the second line is simply a default constructor followed by a move assignment operator but I am really not sure.



I am wondering whether the second line is not somehow equivalent to



std::vector<int>* p = new std::vector<int>();
std::vector<int> v = *p;


or



std::vector<int> v3 = *(new std::vector<int>()); 


hence causing the vector itself to be on the heap (dynamically allocated). If it is the case, then the first line would probably be preferred.



How do these lines of code differ?










share|improve this question

























  • Even when there are temporary objects, they won't be on the heap.

    – Daniel H
    2 hours ago
















7















What is the difference between



std::vector<int> v;


and



std::vector<int> v = std::vector<int>();


Intuitively, I would never use the second version but I am not sure there much difference. It feels to me that the second line is simply a default constructor followed by a move assignment operator but I am really not sure.



I am wondering whether the second line is not somehow equivalent to



std::vector<int>* p = new std::vector<int>();
std::vector<int> v = *p;


or



std::vector<int> v3 = *(new std::vector<int>()); 


hence causing the vector itself to be on the heap (dynamically allocated). If it is the case, then the first line would probably be preferred.



How do these lines of code differ?










share|improve this question

























  • Even when there are temporary objects, they won't be on the heap.

    – Daniel H
    2 hours ago














7












7








7


1






What is the difference between



std::vector<int> v;


and



std::vector<int> v = std::vector<int>();


Intuitively, I would never use the second version but I am not sure there much difference. It feels to me that the second line is simply a default constructor followed by a move assignment operator but I am really not sure.



I am wondering whether the second line is not somehow equivalent to



std::vector<int>* p = new std::vector<int>();
std::vector<int> v = *p;


or



std::vector<int> v3 = *(new std::vector<int>()); 


hence causing the vector itself to be on the heap (dynamically allocated). If it is the case, then the first line would probably be preferred.



How do these lines of code differ?










share|improve this question
















What is the difference between



std::vector<int> v;


and



std::vector<int> v = std::vector<int>();


Intuitively, I would never use the second version but I am not sure there much difference. It feels to me that the second line is simply a default constructor followed by a move assignment operator but I am really not sure.



I am wondering whether the second line is not somehow equivalent to



std::vector<int>* p = new std::vector<int>();
std::vector<int> v = *p;


or



std::vector<int> v3 = *(new std::vector<int>()); 


hence causing the vector itself to be on the heap (dynamically allocated). If it is the case, then the first line would probably be preferred.



How do these lines of code differ?







c++ constructor initialization






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited 1 hour ago







Remi.b

















asked 2 hours ago









Remi.bRemi.b

5,949144798




5,949144798













  • Even when there are temporary objects, they won't be on the heap.

    – Daniel H
    2 hours ago



















  • Even when there are temporary objects, they won't be on the heap.

    – Daniel H
    2 hours ago

















Even when there are temporary objects, they won't be on the heap.

– Daniel H
2 hours ago





Even when there are temporary objects, they won't be on the heap.

– Daniel H
2 hours ago












3 Answers
3






active

oldest

votes


















9














The 1st one is default initialization, the 2nd one is copy initialization; The effect is same here, i.e. initialize the object v via the default constructor of std::vector.



For std::vector<int> v = std::vector<int>();, in concept it will construct a temporary std::vector then use it to move-construct the object v (note there's no assignment here). According to the copy elision (from C++17 it's guaranteed), it'll just call the default constructor to initialize v directly.




Under the following circumstances, the compilers are required to omit
the copy and move construction of class objects, even if the copy/move
constructor and the destructor have observable side-effects. The
objects are constructed directly into the storage where they would
otherwise be copied/moved to. The copy/move constructors need not be
present or accessible, as the language rules ensure that no copy/move
operation takes place, even conceptually:





  • In the initialization of a variable, when the initializer expression
    is a prvalue of the same class type (ignoring cv-qualification) as the
    variable type:



    T x = T(T(f())); // only one call to default constructor of T, to initialize x





BTW: For both cases, no std::vector objects (including potential temporary) will be constructed with dynamic storage duration via new expression.






share|improve this answer

































    6














    Starting from C++17 there's no difference whatsoever.



    There's one niche case where the std::vector = std::vector initialization syntax is quite useful (albeit not for default construction): when one wants to supply a "count, value" initializer for std::vector<int> member of a class directly in the class's definition:



    struct S {
    std::vector<int> v; // Want to supply `(5, 42)` initializer here. How?
    };


    In-class initializers support only = or {} syntax, meaning that we cannot just say



    struct S {
    std::vector<int> v(5, 42); // Error
    };


    If we use



    struct S {
    std::vector<int> v{ 5, 42 }; // or = { 5, 42 }
    };


    the compiler will interpret it as a list of values instead of "count, value" pair, which is not what we want.



    So, the proper way to do it is



    struct S {
    std::vector<int> v = std::vector(5, 42);
    };





    share|improve this answer































      0














      You had asked:




      What is the difference between



      std::vector<int> v;


      and



      std::vector<int> v = std::vector<int>();


      ?




      As others have stated since C++17 there basically is no difference. Now as for preference of which one to use, I would suggest the following:




      • If you are creating an empty vector to be filled out later then the first version is the more desirable candidate.

      • If you are constructing a vector with either a default value as one of its members and or a specified count, then the later version would be the one to use.

      • Note that the following two are different constructors though:


        • std::vector<int> v = std::vector<int>();

        • Is not the same constructor as:


        • std::vector<int> v = std::vector<int>( 3, 10 );

        • The 2nd version of the constructor is an overloaded constructor.



      • Otherwise if you are constructing a vector from a set of numbers than you have the following options:


        • std::vector<int> v = { 1,2,3,4,5 };

        • operator=( std::initializer_list)

        • `std::vector v{ 1,2,3,4,5 };

        • list_initialization




      Here is the list of std::vector constructors.






      share|improve this answer


























      • "Now as for preference" I would say for preference auto v = std::vector<int>(); is better.

        – Slava
        1 hour ago











      • @Slava It depends on the situation. Sometimes you don't want to bloat your code with auto everywhere. Nothing wrong with using it in specific places, but not for everything. If you are using a ranged loop then by all means use auto to traverse through a container. However just to declare a variable; I prefer to see the container with its types so I know what the container details. Another example that is a bad case use for using auto is when using some 3rd party libraries such as Eigen. They have lazy evaluation on some things but not all and the auto feature can lead to UB.

        – Francis Cugler
        1 hour ago













      Your Answer






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      3 Answers
      3






      active

      oldest

      votes








      3 Answers
      3






      active

      oldest

      votes









      active

      oldest

      votes






      active

      oldest

      votes









      9














      The 1st one is default initialization, the 2nd one is copy initialization; The effect is same here, i.e. initialize the object v via the default constructor of std::vector.



      For std::vector<int> v = std::vector<int>();, in concept it will construct a temporary std::vector then use it to move-construct the object v (note there's no assignment here). According to the copy elision (from C++17 it's guaranteed), it'll just call the default constructor to initialize v directly.




      Under the following circumstances, the compilers are required to omit
      the copy and move construction of class objects, even if the copy/move
      constructor and the destructor have observable side-effects. The
      objects are constructed directly into the storage where they would
      otherwise be copied/moved to. The copy/move constructors need not be
      present or accessible, as the language rules ensure that no copy/move
      operation takes place, even conceptually:





      • In the initialization of a variable, when the initializer expression
        is a prvalue of the same class type (ignoring cv-qualification) as the
        variable type:



        T x = T(T(f())); // only one call to default constructor of T, to initialize x





      BTW: For both cases, no std::vector objects (including potential temporary) will be constructed with dynamic storage duration via new expression.






      share|improve this answer






























        9














        The 1st one is default initialization, the 2nd one is copy initialization; The effect is same here, i.e. initialize the object v via the default constructor of std::vector.



        For std::vector<int> v = std::vector<int>();, in concept it will construct a temporary std::vector then use it to move-construct the object v (note there's no assignment here). According to the copy elision (from C++17 it's guaranteed), it'll just call the default constructor to initialize v directly.




        Under the following circumstances, the compilers are required to omit
        the copy and move construction of class objects, even if the copy/move
        constructor and the destructor have observable side-effects. The
        objects are constructed directly into the storage where they would
        otherwise be copied/moved to. The copy/move constructors need not be
        present or accessible, as the language rules ensure that no copy/move
        operation takes place, even conceptually:





        • In the initialization of a variable, when the initializer expression
          is a prvalue of the same class type (ignoring cv-qualification) as the
          variable type:



          T x = T(T(f())); // only one call to default constructor of T, to initialize x





        BTW: For both cases, no std::vector objects (including potential temporary) will be constructed with dynamic storage duration via new expression.






        share|improve this answer




























          9












          9








          9







          The 1st one is default initialization, the 2nd one is copy initialization; The effect is same here, i.e. initialize the object v via the default constructor of std::vector.



          For std::vector<int> v = std::vector<int>();, in concept it will construct a temporary std::vector then use it to move-construct the object v (note there's no assignment here). According to the copy elision (from C++17 it's guaranteed), it'll just call the default constructor to initialize v directly.




          Under the following circumstances, the compilers are required to omit
          the copy and move construction of class objects, even if the copy/move
          constructor and the destructor have observable side-effects. The
          objects are constructed directly into the storage where they would
          otherwise be copied/moved to. The copy/move constructors need not be
          present or accessible, as the language rules ensure that no copy/move
          operation takes place, even conceptually:





          • In the initialization of a variable, when the initializer expression
            is a prvalue of the same class type (ignoring cv-qualification) as the
            variable type:



            T x = T(T(f())); // only one call to default constructor of T, to initialize x





          BTW: For both cases, no std::vector objects (including potential temporary) will be constructed with dynamic storage duration via new expression.






          share|improve this answer















          The 1st one is default initialization, the 2nd one is copy initialization; The effect is same here, i.e. initialize the object v via the default constructor of std::vector.



          For std::vector<int> v = std::vector<int>();, in concept it will construct a temporary std::vector then use it to move-construct the object v (note there's no assignment here). According to the copy elision (from C++17 it's guaranteed), it'll just call the default constructor to initialize v directly.




          Under the following circumstances, the compilers are required to omit
          the copy and move construction of class objects, even if the copy/move
          constructor and the destructor have observable side-effects. The
          objects are constructed directly into the storage where they would
          otherwise be copied/moved to. The copy/move constructors need not be
          present or accessible, as the language rules ensure that no copy/move
          operation takes place, even conceptually:





          • In the initialization of a variable, when the initializer expression
            is a prvalue of the same class type (ignoring cv-qualification) as the
            variable type:



            T x = T(T(f())); // only one call to default constructor of T, to initialize x





          BTW: For both cases, no std::vector objects (including potential temporary) will be constructed with dynamic storage duration via new expression.







          share|improve this answer














          share|improve this answer



          share|improve this answer








          edited 1 hour ago

























          answered 2 hours ago









          songyuanyaosongyuanyao

          92.1k11175240




          92.1k11175240

























              6














              Starting from C++17 there's no difference whatsoever.



              There's one niche case where the std::vector = std::vector initialization syntax is quite useful (albeit not for default construction): when one wants to supply a "count, value" initializer for std::vector<int> member of a class directly in the class's definition:



              struct S {
              std::vector<int> v; // Want to supply `(5, 42)` initializer here. How?
              };


              In-class initializers support only = or {} syntax, meaning that we cannot just say



              struct S {
              std::vector<int> v(5, 42); // Error
              };


              If we use



              struct S {
              std::vector<int> v{ 5, 42 }; // or = { 5, 42 }
              };


              the compiler will interpret it as a list of values instead of "count, value" pair, which is not what we want.



              So, the proper way to do it is



              struct S {
              std::vector<int> v = std::vector(5, 42);
              };





              share|improve this answer




























                6














                Starting from C++17 there's no difference whatsoever.



                There's one niche case where the std::vector = std::vector initialization syntax is quite useful (albeit not for default construction): when one wants to supply a "count, value" initializer for std::vector<int> member of a class directly in the class's definition:



                struct S {
                std::vector<int> v; // Want to supply `(5, 42)` initializer here. How?
                };


                In-class initializers support only = or {} syntax, meaning that we cannot just say



                struct S {
                std::vector<int> v(5, 42); // Error
                };


                If we use



                struct S {
                std::vector<int> v{ 5, 42 }; // or = { 5, 42 }
                };


                the compiler will interpret it as a list of values instead of "count, value" pair, which is not what we want.



                So, the proper way to do it is



                struct S {
                std::vector<int> v = std::vector(5, 42);
                };





                share|improve this answer


























                  6












                  6








                  6







                  Starting from C++17 there's no difference whatsoever.



                  There's one niche case where the std::vector = std::vector initialization syntax is quite useful (albeit not for default construction): when one wants to supply a "count, value" initializer for std::vector<int> member of a class directly in the class's definition:



                  struct S {
                  std::vector<int> v; // Want to supply `(5, 42)` initializer here. How?
                  };


                  In-class initializers support only = or {} syntax, meaning that we cannot just say



                  struct S {
                  std::vector<int> v(5, 42); // Error
                  };


                  If we use



                  struct S {
                  std::vector<int> v{ 5, 42 }; // or = { 5, 42 }
                  };


                  the compiler will interpret it as a list of values instead of "count, value" pair, which is not what we want.



                  So, the proper way to do it is



                  struct S {
                  std::vector<int> v = std::vector(5, 42);
                  };





                  share|improve this answer













                  Starting from C++17 there's no difference whatsoever.



                  There's one niche case where the std::vector = std::vector initialization syntax is quite useful (albeit not for default construction): when one wants to supply a "count, value" initializer for std::vector<int> member of a class directly in the class's definition:



                  struct S {
                  std::vector<int> v; // Want to supply `(5, 42)` initializer here. How?
                  };


                  In-class initializers support only = or {} syntax, meaning that we cannot just say



                  struct S {
                  std::vector<int> v(5, 42); // Error
                  };


                  If we use



                  struct S {
                  std::vector<int> v{ 5, 42 }; // or = { 5, 42 }
                  };


                  the compiler will interpret it as a list of values instead of "count, value" pair, which is not what we want.



                  So, the proper way to do it is



                  struct S {
                  std::vector<int> v = std::vector(5, 42);
                  };






                  share|improve this answer












                  share|improve this answer



                  share|improve this answer










                  answered 1 hour ago









                  AnTAnT

                  260k33419661




                  260k33419661























                      0














                      You had asked:




                      What is the difference between



                      std::vector<int> v;


                      and



                      std::vector<int> v = std::vector<int>();


                      ?




                      As others have stated since C++17 there basically is no difference. Now as for preference of which one to use, I would suggest the following:




                      • If you are creating an empty vector to be filled out later then the first version is the more desirable candidate.

                      • If you are constructing a vector with either a default value as one of its members and or a specified count, then the later version would be the one to use.

                      • Note that the following two are different constructors though:


                        • std::vector<int> v = std::vector<int>();

                        • Is not the same constructor as:


                        • std::vector<int> v = std::vector<int>( 3, 10 );

                        • The 2nd version of the constructor is an overloaded constructor.



                      • Otherwise if you are constructing a vector from a set of numbers than you have the following options:


                        • std::vector<int> v = { 1,2,3,4,5 };

                        • operator=( std::initializer_list)

                        • `std::vector v{ 1,2,3,4,5 };

                        • list_initialization




                      Here is the list of std::vector constructors.






                      share|improve this answer


























                      • "Now as for preference" I would say for preference auto v = std::vector<int>(); is better.

                        – Slava
                        1 hour ago











                      • @Slava It depends on the situation. Sometimes you don't want to bloat your code with auto everywhere. Nothing wrong with using it in specific places, but not for everything. If you are using a ranged loop then by all means use auto to traverse through a container. However just to declare a variable; I prefer to see the container with its types so I know what the container details. Another example that is a bad case use for using auto is when using some 3rd party libraries such as Eigen. They have lazy evaluation on some things but not all and the auto feature can lead to UB.

                        – Francis Cugler
                        1 hour ago


















                      0














                      You had asked:




                      What is the difference between



                      std::vector<int> v;


                      and



                      std::vector<int> v = std::vector<int>();


                      ?




                      As others have stated since C++17 there basically is no difference. Now as for preference of which one to use, I would suggest the following:




                      • If you are creating an empty vector to be filled out later then the first version is the more desirable candidate.

                      • If you are constructing a vector with either a default value as one of its members and or a specified count, then the later version would be the one to use.

                      • Note that the following two are different constructors though:


                        • std::vector<int> v = std::vector<int>();

                        • Is not the same constructor as:


                        • std::vector<int> v = std::vector<int>( 3, 10 );

                        • The 2nd version of the constructor is an overloaded constructor.



                      • Otherwise if you are constructing a vector from a set of numbers than you have the following options:


                        • std::vector<int> v = { 1,2,3,4,5 };

                        • operator=( std::initializer_list)

                        • `std::vector v{ 1,2,3,4,5 };

                        • list_initialization




                      Here is the list of std::vector constructors.






                      share|improve this answer


























                      • "Now as for preference" I would say for preference auto v = std::vector<int>(); is better.

                        – Slava
                        1 hour ago











                      • @Slava It depends on the situation. Sometimes you don't want to bloat your code with auto everywhere. Nothing wrong with using it in specific places, but not for everything. If you are using a ranged loop then by all means use auto to traverse through a container. However just to declare a variable; I prefer to see the container with its types so I know what the container details. Another example that is a bad case use for using auto is when using some 3rd party libraries such as Eigen. They have lazy evaluation on some things but not all and the auto feature can lead to UB.

                        – Francis Cugler
                        1 hour ago
















                      0












                      0








                      0







                      You had asked:




                      What is the difference between



                      std::vector<int> v;


                      and



                      std::vector<int> v = std::vector<int>();


                      ?




                      As others have stated since C++17 there basically is no difference. Now as for preference of which one to use, I would suggest the following:




                      • If you are creating an empty vector to be filled out later then the first version is the more desirable candidate.

                      • If you are constructing a vector with either a default value as one of its members and or a specified count, then the later version would be the one to use.

                      • Note that the following two are different constructors though:


                        • std::vector<int> v = std::vector<int>();

                        • Is not the same constructor as:


                        • std::vector<int> v = std::vector<int>( 3, 10 );

                        • The 2nd version of the constructor is an overloaded constructor.



                      • Otherwise if you are constructing a vector from a set of numbers than you have the following options:


                        • std::vector<int> v = { 1,2,3,4,5 };

                        • operator=( std::initializer_list)

                        • `std::vector v{ 1,2,3,4,5 };

                        • list_initialization




                      Here is the list of std::vector constructors.






                      share|improve this answer















                      You had asked:




                      What is the difference between



                      std::vector<int> v;


                      and



                      std::vector<int> v = std::vector<int>();


                      ?




                      As others have stated since C++17 there basically is no difference. Now as for preference of which one to use, I would suggest the following:




                      • If you are creating an empty vector to be filled out later then the first version is the more desirable candidate.

                      • If you are constructing a vector with either a default value as one of its members and or a specified count, then the later version would be the one to use.

                      • Note that the following two are different constructors though:


                        • std::vector<int> v = std::vector<int>();

                        • Is not the same constructor as:


                        • std::vector<int> v = std::vector<int>( 3, 10 );

                        • The 2nd version of the constructor is an overloaded constructor.



                      • Otherwise if you are constructing a vector from a set of numbers than you have the following options:


                        • std::vector<int> v = { 1,2,3,4,5 };

                        • operator=( std::initializer_list)

                        • `std::vector v{ 1,2,3,4,5 };

                        • list_initialization




                      Here is the list of std::vector constructors.







                      share|improve this answer














                      share|improve this answer



                      share|improve this answer








                      edited 1 hour ago

























                      answered 1 hour ago









                      Francis CuglerFrancis Cugler

                      4,78611227




                      4,78611227













                      • "Now as for preference" I would say for preference auto v = std::vector<int>(); is better.

                        – Slava
                        1 hour ago











                      • @Slava It depends on the situation. Sometimes you don't want to bloat your code with auto everywhere. Nothing wrong with using it in specific places, but not for everything. If you are using a ranged loop then by all means use auto to traverse through a container. However just to declare a variable; I prefer to see the container with its types so I know what the container details. Another example that is a bad case use for using auto is when using some 3rd party libraries such as Eigen. They have lazy evaluation on some things but not all and the auto feature can lead to UB.

                        – Francis Cugler
                        1 hour ago





















                      • "Now as for preference" I would say for preference auto v = std::vector<int>(); is better.

                        – Slava
                        1 hour ago











                      • @Slava It depends on the situation. Sometimes you don't want to bloat your code with auto everywhere. Nothing wrong with using it in specific places, but not for everything. If you are using a ranged loop then by all means use auto to traverse through a container. However just to declare a variable; I prefer to see the container with its types so I know what the container details. Another example that is a bad case use for using auto is when using some 3rd party libraries such as Eigen. They have lazy evaluation on some things but not all and the auto feature can lead to UB.

                        – Francis Cugler
                        1 hour ago



















                      "Now as for preference" I would say for preference auto v = std::vector<int>(); is better.

                      – Slava
                      1 hour ago





                      "Now as for preference" I would say for preference auto v = std::vector<int>(); is better.

                      – Slava
                      1 hour ago













                      @Slava It depends on the situation. Sometimes you don't want to bloat your code with auto everywhere. Nothing wrong with using it in specific places, but not for everything. If you are using a ranged loop then by all means use auto to traverse through a container. However just to declare a variable; I prefer to see the container with its types so I know what the container details. Another example that is a bad case use for using auto is when using some 3rd party libraries such as Eigen. They have lazy evaluation on some things but not all and the auto feature can lead to UB.

                      – Francis Cugler
                      1 hour ago







                      @Slava It depends on the situation. Sometimes you don't want to bloat your code with auto everywhere. Nothing wrong with using it in specific places, but not for everything. If you are using a ranged loop then by all means use auto to traverse through a container. However just to declare a variable; I prefer to see the container with its types so I know what the container details. Another example that is a bad case use for using auto is when using some 3rd party libraries such as Eigen. They have lazy evaluation on some things but not all and the auto feature can lead to UB.

                      – Francis Cugler
                      1 hour ago




















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