En tuple er et objekt, der kan indeholde et antal elementer. Elementerne kan være af forskellige datatyper. Elementerne i tuples initialiseres som argumenter for at få adgang til.  Tuples er en alsidig datastruktur til gruppering af værdier. For at forstå, hvordan man bruger tuples i C ++ og deres applikationer C ++ kursus Tilbyder omfattende tutorials og eksempler.

Operationer på tuple

1. få (): Get () bruges til at få adgang til tuple -værdierne og ændre dem, den accepterer indekset og tuple -navnet som argumenter for at få adgang til et bestemt tuple -element. 

2. make_tuple (): make_tuple () bruges til at tildele tuple med værdier. De overførte værdier skal være i orden med de værdier, der er erklæret i tuple. 

   #include          #include         using     namespace     std  ;   int     main  ()     {          // Declaring tuple      tuple   <  char       int       float  >     geek  ;      // Assigning values to tuple using make_tuple()      geek     =     make_tuple  (  'a'       10       15.5  );      // Printing initial tuple values using get()      cout      < <     'The initial values of tuple are: '  ;      cout      < <     get   <  0  >  (  geek  )      < <     ' '      < <     get   <  1  >  (  geek  );      cout      < <     ' '      < <     get   <  2  >  (  geek  )      < <     endl  ;      // Use of get() to change values of tuple      get   <  0  >  (  geek  )     =     'b'  ;      get   <  2  >  (  geek  )     =     20.5  ;      // Printing modified tuple values      cout      < <     'The modified values of tuple are: '  ;      cout      < <     get   <  0  >  (  geek  )      < <     ' '      < <     get   <  1  >  (  geek  );      cout      < <     ' '      < <     get   <  2  >  (  geek  )      < <     endl  ;      return     0  ;   }   

The initial values of tuple are: a 10 15.5 The modified values of tuple are: b 10 20.5  

Forklaring : I ovenstående kode skal du () ændre den første og 3. værdi af tuple. 

3. tuple_size: Det returnerer antallet af elementer, der findes i tuple. 

   #include          #include         using     namespace     std  ;   int     main  ()     {          // Initializing tuple      tuple   <  char       int       float  >     geek  (  20       'g'       17.5  );      // Use of size to find tuple_size of tuple      cout      < <     'The size of tuple is: '  ;      cout      < <     tuple_size   <  decltype  (  geek  )  >::  value  ;      return     0  ;   }   

The size of tuple is: 3 

4. swap (): Swap () bytter elementerne i de to forskellige tuples.

   #include          #include         using     namespace     std  ;   int     main  ()     {          // Initializing 1st tuple      tuple   <  int       char       float  >     tup1  (  20       'g'       17.5  );      // Initializing 2nd tuple      tuple   <  int       char       float  >     tup2  (  10       'f'       15.5  );      // Printing 1st and 2nd tuple before swapping      cout      < <     'The first tuple elements before swapping are: '  ;      cout      < <     get   <  0  >  (  tup1  )      < <     ' '      < <     get   <  1  >  (  tup1  )      < <     ' '      < <     get   <  2  >  (  tup1  )      < <     endl  ;      cout      < <     'The second tuple elements before swapping are: '  ;      cout      < <     get   <  0  >  (  tup2  )      < <     ' '      < <     get   <  1  >  (  tup2  )      < <     ' '      < <     get   <  2  >  (  tup2  )      < <     endl  ;      // Swapping tup1 values with tup2      tup1  .  swap  (  tup2  );      // Printing 1st and 2nd tuple after swapping      cout      < <     'The first tuple elements after swapping are: '  ;      cout      < <     get   <  0  >  (  tup1  )      < <     ' '      < <     get   <  1  >  (  tup1  )      < <     ' '      < <     get   <  2  >  (  tup1  )      < <     endl  ;      cout      < <     'The second tuple elements after swapping are: '  ;      cout      < <     get   <  0  >  (  tup2  )      < <     ' '      < <     get   <  1  >  (  tup2  )      < <     ' '      < <     get   <  2  >  (  tup2  )      < <     endl  ;      return     0  ;   }   

Produktion

 The first tuple elements before swapping are: 20 g 17.5   
 The second tuple elements before swapping are: 10 f 15.5   
 The first tuple elements after swapping are: 10 f 15.5   
 The second tuple elements after swapping are: 20 g 17.5  
    5. slips ()    : Arbejdet med slips () er at pakke tuple -værdierne ud i separate variabler. Der er to varianter af slips () med og uden 'ignorere' 'ignorere' ignorerer et bestemt tuple -element og forhindrer det i at blive pakket ud.  
 CPP   
   #include          #include         // for tie() and tuple   using     namespace     std  ;   int     main  ()     {         // Initializing variables for unpacking      int     i_val  ;      char     ch_val  ;      float     f_val  ;             // Initializing tuple      tuple   <  int       char       float  >     tup1  (  20       'g'       17.5  );      // Use of tie() without ignore      tie  (  i_val       ch_val       f_val  )     =     tup1  ;          // Displaying unpacked tuple elements without ignore      cout      < <     'The unpacked tuple values (without ignore) are: '  ;      cout      < <     i_val      < <     ' '      < <     ch_val      < <     ' '      < <     f_val  ;      cout      < <     endl  ;          // Use of tie() with ignore      // ignores char value      tie  (  i_val       ignore       f_val  )     =     tup1  ;          // Displaying unpacked tuple elements with ignore      cout      < <     'The unpacked tuple values (with ignore) are: '  ;      cout      < <     i_val      < <     ' '      < <     f_val  ;      cout      < <     endl  ;      return     0  ;   }   
    
  Produktion   
The unpacked tuple values (without ignore) are: 20 g 17.5 The unpacked tuple values (with ignore) are: 20 17.5  
 
    6. tuple_cat ():    Denne funktion sammenkæder to tuples og returnerer en ny tuple.   
 CPP   
   #include          #include         // for tuple_cat() and tuple   using     namespace     std  ;   int     main  ()     {      // Initializing 1st tuple      tuple   <  int       char       float  >     tup1  (  20       'g'       17.5  );      // Initializing 2nd tuple      tuple   <  int       char       float  >     tup2  (  30       'f'       10.5  );          // Concatenating 2 tuples to return a new tuple      auto     tup3     =     tuple_cat  (  tup1       tup2  );          // Displaying new tuple elements      cout      < <     'The new tuple elements in order are: '  ;      cout      < <     get   <  0  >  (  tup3  )      < <     ' '      < <     get   <  1  >  (  tup3  )      < <     ' '          < <     get   <  2  >  (  tup3  )      < <     ' '      < <     get   <  3  >  (  tup3  )      < <     ' '          < <     get   <  4  >  (  tup3  )      < <     ' '      < <     get   <  5  >  (  tup3  )      < <     endl  ;      return     0  ;   }   
    
  Produktion   
The new tuple elements in order are: 20 g 17.5 30 f 10.5