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Udjævn en sammenkædet liste med flere niveauer (dybdemæssigt)

Udjævn en sammenkædet liste med flere niveauer (dybdemæssigt)

Givet en sammenkædet liste, hvor der udover  næste  pointer hver node har en  barn  pegepind, som muligvis peger på en separat liste. Disse underordnede lister kan have  en eller flere  børn af deres egne til at producere en  flere niveauer  linket liste. I betragtning af  hoved  af  første niveau  af listen. Opgaven er at  flade  listen, så alle noderne vises i en  enkelt-niveau  linket liste. Flad listen ud på en måde, så alle noder ved  første niveau  skulle komme  først derefter noder af  anden  niveau og så videre.

Eksempler:

Input:

2_5


Produktion: 1->4->6->2->5->7->3->8
Forklaring: Den sammenkædede liste på flere niveauer er fladtrykt, da den ikke har nogen underordnede pointere.

Vi har diskuteret udfladning af en liste med flere niveauer hvor noder har to pointere ned og næste. I forrige indlæg vi fladtrykt den linkede liste niveaumæssigt. Sådan udjævner du en sammenkædet liste, når vi altid skal behandle peger ned før næste ved hver knude.

Indholdsfortegnelse

[Forventet tilgang] Brug af rekursion - O(n) tid og O(n) mellemrum

Tilgangen er at rekursivt flade a multi-level linked liste ved at krydse hver node og dens underordnede noder. Først udjævn børnelisten ved hjælp af rekursion. Når børnelisten er fladtrykt, fortsæt til næste knudepunkt i rækkefølgen. Under gennemkørslen opretholdes en reference til tidligere besøgt node og link den til den aktuelle node. Denne proces sikrer, at alle noder fra forskellige niveauer er forbundet i en enkelt lineær liste samtidig med at den bevares dybdemæssig rækkefølge.

C++ 
   // A C++ program to flatten a multi-   // linked list depth-wise   #include          using     namespace     std  ;   class     Node     {      public  :      int     data  ;      Node     *  next  ;      Node     *  down  ;      Node  (  int     x  )     {      data     =     x  ;      next     =     down     =     nullptr  ;      }   };   void     flattenList  (  Node     *  curr       Node     *&  prev  )     {      if     (  curr     ==     nullptr  )      return  ;      // Add the current element to the list.      if     (  prev     !=     nullptr  )      prev  ->  next     =     curr  ;      prev     =     curr  ;      // Store the next pointer      Node     *  next     =     curr  ->  next  ;      // Recursively add the bottom list      flattenList  (  curr  ->  down       prev  );      // Recursively add the next list      flattenList  (  next       prev  );   }   void     printList  (  Node     *  head  )     {      Node     *  curr     =     head  ;      while     (  curr     !=     nullptr  )     {      cout      < <     curr  ->  data      < <     ' '  ;      curr     =     curr  ->  next  ;      }      cout      < <     endl  ;   }   int     main  ()     {      // Create a hard coded multi-linked list.      // 5 -> 10 -> 19 -> 28      // | |      // 7 22      // | |      // 8 50      // |      // 30      Node     *  head     =     new     Node  (  5  );      head  ->  down     =     new     Node  (  7  );      head  ->  down  ->  down     =     new     Node  (  8  );      head  ->  down  ->  down  ->  down     =     new     Node  (  30  );      head  ->  next     =     new     Node  (  10  );      head  ->  next  ->  next     =     new     Node  (  19  );      head  ->  next  ->  next  ->  down     =     new     Node  (  22  );      head  ->  next  ->  next  ->  down  ->  down     =     new     Node  (  50  );      head  ->  next  ->  next  ->  next     =     new     Node  (  28  );      Node     *  prev     =     nullptr  ;      flattenList  (  head       prev  );      printList  (  head  );      return     0  ;   }
Java 
   // A Java program to flatten a multi-   // linked list depth-wise   class   Node     {      int     data  ;      Node     next       down  ;      Node  (  int     x  )     {      data     =     x  ;      next     =     down     =     null  ;      }   }   class   GfG     {          static     void     flattenList  (  Node     curr       Node  []     prev  )     {      if     (  curr     ==     null  )      return  ;      // Add the current element to the list.      if     (  prev  [  0  ]     !=     null  )      prev  [  0  ]  .  next     =     curr  ;      prev  [  0  ]     =     curr  ;      // Store the next pointer      Node     next     =     curr  .  next  ;      // Recursively add the bottom list      flattenList  (  curr  .  down       prev  );      // Recursively add the next list      flattenList  (  next       prev  );      }      static     void     printList  (  Node     head  )     {      Node     curr     =     head  ;      while     (  curr     !=     null  )     {      System  .  out  .  print  (  curr  .  data     +     ' '  );      curr     =     curr  .  next  ;      }      System  .  out  .  println  ();      }      public     static     void     main  (  String  []     args  )     {          // Create a hard coded multi-linked list.      // 5 -> 10 -> 19 -> 28      // | |      // 7 22      // | |      // 8 50      // |      // 30      Node     head     =     new     Node  (  5  );      head  .  down     =     new     Node  (  7  );      head  .  down  .  down     =     new     Node  (  8  );      head  .  down  .  down  .  down     =     new     Node  (  30  );      head  .  next     =     new     Node  (  10  );      head  .  next  .  next     =     new     Node  (  19  );      head  .  next  .  next  .  down     =     new     Node  (  22  );      head  .  next  .  next  .  down  .  down     =     new     Node  (  50  );      head  .  next  .  next  .  next     =     new     Node  (  28  );      Node  []     prev     =     new     Node  [  1  ]  ;      flattenList  (  head       prev  );      printList  (  head  );      }   }
Python 
   # A Python program to flatten a multi-   # linked list depth-wise   class   Node  :   def   __init__  (  self     x  ):   self  .  data   =   x   self  .  next   =   None   self  .  down   =   None   def   flatten_list  (  curr     prev  ):   if   curr   is   None  :   return   # Add the current element to the list.   if   prev  [  0  ]   is   not   None  :   prev  [  0  ]  .  next   =   curr   prev  [  0  ]   =   curr   # Store the next pointer   next_node   =   curr  .  next   # Recursively add the bottom list   flatten_list  (  curr  .  down     prev  )   # Recursively add the next list   flatten_list  (  next_node     prev  )   def   print_list  (  head  ):   curr   =   head   while   curr   is   not   None  :   print  (  curr  .  data     end  =  ' '  )   curr   =   curr  .  next   print  ()   if   __name__   ==   '__main__'  :   # Create a hard coded multi-linked list.   # 5 -> 10 -> 19 -> 28   # | |   # 7 22   # | |   # 8 50   # |   # 30   head   =   Node  (  5  )   head  .  down   =   Node  (  7  )   head  .  down  .  down   =   Node  (  8  )   head  .  down  .  down  .  down   =   Node  (  30  )   head  .  next   =   Node  (  10  )   head  .  next  .  next   =   Node  (  19  )   head  .  next  .  next  .  down   =   Node  (  22  )   head  .  next  .  next  .  down  .  down   =   Node  (  50  )   head  .  next  .  next  .  next   =   Node  (  28  )   prev   =   [  None  ]   flatten_list  (  head     prev  )   print_list  (  head  )
C# 
   // A C# program to flatten a multi-   // linked list depth-wise   using     System  ;   class     Node     {      public     int     data  ;      public     Node     next       down  ;      public     Node  (  int     x  )     {      data     =     x  ;      next     =     down     =     null  ;      }   }   class     GfG     {      static     void     FlattenList  (  Node     curr       ref     Node     prev  )     {      if     (  curr     ==     null  )      return  ;      // Add the current element to the list.      if     (  prev     !=     null  )      prev  .  next     =     curr  ;      prev     =     curr  ;      // Store the next pointer      Node     next     =     curr  .  next  ;      // Recursively add the bottom list      FlattenList  (  curr  .  down       ref     prev  );      // Recursively add the next list      FlattenList  (  next       ref     prev  );      }      static     void     PrintList  (  Node     head  )     {      Node     curr     =     head  ;      while     (  curr     !=     null  )     {      Console  .  Write  (  curr  .  data     +     ' '  );      curr     =     curr  .  next  ;      }      Console  .  WriteLine  ();      }      static     void     Main  (  string  []     args  )     {      // Create a hard coded multi-linked list.      // 5 -> 10 -> 19 -> 28      // | |      // 7 22      // | |      // 8 50      // |      // 30      Node     head     =     new     Node  (  5  );      head  .  down     =     new     Node  (  7  );      head  .  down  .  down     =     new     Node  (  8  );      head  .  down  .  down  .  down     =     new     Node  (  30  );      head  .  next     =     new     Node  (  10  );      head  .  next  .  next     =     new     Node  (  19  );      head  .  next  .  next  .  down     =     new     Node  (  22  );      head  .  next  .  next  .  down  .  down     =     new     Node  (  50  );      head  .  next  .  next  .  next     =     new     Node  (  28  );      Node     prev     =     null  ;      FlattenList  (  head       ref     prev  );      PrintList  (  head  );      }   }
JavaScript 
   // A Javascript program to flatten a multi-   // linked list depth-wise   class     Node     {      constructor  (  x  )     {      this  .  data     =     x  ;      this  .  next     =     null  ;      this  .  down     =     null  ;      }   }   function     flattenList  (  curr       prev  )     {      if     (  curr     ===     null  )     return  ;      // Add the current element to the list.      if     (  prev  [  0  ]     !==     null  )     prev  [  0  ].  next     =     curr  ;      prev  [  0  ]     =     curr  ;      // Store the next pointer      let     next     =     curr  .  next  ;      // Recursively add the bottom list      flattenList  (  curr  .  down       prev  );      // Recursively add the next list      flattenList  (  next       prev  );   }   function     printList  (  head  )     {      let     curr     =     head  ;      while     (  curr     !==     null  )     {      console  .  log  (  curr  .  data  );      curr     =     curr  .  next  ;      }   }   // Create a hard coded multi-linked list.   // 5 -> 10 -> 19 -> 28   // | |   // 7 22   // | |   // 8 50   // |   // 30   let     head     =     new     Node  (  5  );   head  .  down     =     new     Node  (  7  );   head  .  down  .  down     =     new     Node  (  8  );   head  .  down  .  down  .  down     =     new     Node  (  30  );   head  .  next     =     new     Node  (  10  );   head  .  next  .  next     =     new     Node  (  19  );   head  .  next  .  next  .  down     =     new     Node  (  22  );   head  .  next  .  next  .  down  .  down     =     new     Node  (  50  );   head  .  next  .  next  .  next     =     new     Node  (  28  );   let     prev     =     [  null  ];   flattenList  (  head       prev  );   printList  (  head  );

Produktion 
5 7 8 30 10 19 22 50 28

[Alternativ tilgang] Brug af stak - O(n) tid og O(n) mellemrum

Fremgangsmåden er at krydse liste over flere niveauer ved hjælp af en stak . Start med skubber de hovedknude på stablen. Så mens stakken er ikke tom pop den øverste node og behandle den. For hver node skubbe dens næste og nedadgående pointer (hvis de findes) på stakken. Under denne proces knytte den nuværende node til den forrige node vedligeholde listen i en fladtrykt form. Traverseringen sikrer, at noder fra alle niveauer er forbundet i en enkelt-niveau linket liste bevare den dybdemæssige rækkefølge.

C++ 
   // A C++ program to flatten a multi-   // linked list depth-wise using stack   #include          using     namespace     std  ;   class     Node     {      public  :      int     data  ;      Node     *  next  ;      Node     *  down  ;      Node  (  int     x  )     {      data     =     x  ;      next     =     down     =     nullptr  ;      }   };   void     flattenList  (  Node     *  head  )     {      if     (  head     ==     nullptr  )      return  ;      stack   <  Node     *>     st  ;      st  .  push  (  head  );      Node     *  prev     =     nullptr  ;      while     (  !  st  .  empty  ())     {      Node     *  curr     =     st  .  top  ();      st  .  pop  ();      // Push the next node first      if     (  curr  ->  next     !=     nullptr  )      st  .  push  (  curr  ->  next  );      // Push the bottom node into stack      if     (  curr  ->  down     !=     nullptr  )      st  .  push  (  curr  ->  down  );      // Add the current element to the list      if     (  prev     !=     nullptr  )      prev  ->  next     =     curr  ;      prev     =     curr  ;      }   }   void     printList  (  Node     *  head  )     {      Node     *  curr     =     head  ;      while     (  curr     !=     nullptr  )     {      cout      < <     curr  ->  data      < <     ' '  ;      curr     =     curr  ->  next  ;      }      cout      < <     endl  ;   }   int     main  ()     {      // Create a hard coded multi-linked list.      // 5 -> 10 -> 19 -> 28      // | |      // 7 22      // | |      // 8 50      // |      // 30      Node     *  head     =     new     Node  (  5  );      head  ->  down     =     new     Node  (  7  );      head  ->  down  ->  down     =     new     Node  (  8  );      head  ->  down  ->  down  ->  down     =     new     Node  (  30  );      head  ->  next     =     new     Node  (  10  );      head  ->  next  ->  next     =     new     Node  (  19  );      head  ->  next  ->  next  ->  down     =     new     Node  (  22  );      head  ->  next  ->  next  ->  down  ->  down     =     new     Node  (  50  );      head  ->  next  ->  next  ->  next     =     new     Node  (  28  );      flattenList  (  head  );      printList  (  head  );      return     0  ;   }
Java 
   // A Java program to flatten a multi-   // linked list depth-wise using stack   import     java.util.Stack  ;   class   Node     {      int     data  ;      Node     next       down  ;      Node  (  int     x  )     {      data     =     x  ;      next     =     down     =     null  ;      }   }   class   GfG     {      static     void     flattenList  (  Node     head  )     {      if     (  head     ==     null  )      return  ;      Stack   <  Node  >     stack     =     new     Stack   <>  ();      stack  .  push  (  head  );      Node     prev     =     null  ;      while     (  !  stack  .  isEmpty  ())     {      Node     curr     =     stack  .  pop  ();      // Push the next node first      if     (  curr  .  next     !=     null  )      stack  .  push  (  curr  .  next  );      // Push the bottom node into stack      if     (  curr  .  down     !=     null  )      stack  .  push  (  curr  .  down  );      // Add the current element to the list      if     (  prev     !=     null  )      prev  .  next     =     curr  ;      prev     =     curr  ;      }      }      static     void     printList  (  Node     head  )     {      Node     curr     =     head  ;      while     (  curr     !=     null  )     {      System  .  out  .  print  (  curr  .  data     +     ' '  );      curr     =     curr  .  next  ;      }      System  .  out  .  println  ();      }      public     static     void     main  (  String  []     args  )     {      // Create a hard coded multi-linked list.      // 5 -> 10 -> 19 -> 28      // | |      // 7 22      // | |      // 8 50      // |      // 30      Node     head     =     new     Node  (  5  );      head  .  down     =     new     Node  (  7  );      head  .  down  .  down     =     new     Node  (  8  );      head  .  down  .  down  .  down     =     new     Node  (  30  );      head  .  next     =     new     Node  (  10  );      head  .  next  .  next     =     new     Node  (  19  );      head  .  next  .  next  .  down     =     new     Node  (  22  );      head  .  next  .  next  .  down  .  down     =     new     Node  (  50  );      head  .  next  .  next  .  next     =     new     Node  (  28  );      flattenList  (  head  );      printList  (  head  );      }   }
Python 
   # A Python program to flatten a multi-   # linked list depth-wise using stack   class   Node  :   def   __init__  (  self     x  ):   self  .  data   =   x   self  .  next   =   None   self  .  down   =   None   def   flatten_list  (  head  ):   if   head   is   None  :   return   stack   =   [  head  ]   prev   =   None   while   stack  :   curr   =   stack  .  pop  ()   # Push the next node first   if   curr  .  next  :   stack  .  append  (  curr  .  next  )   # Push the bottom node into stack   if   curr  .  down  :   stack  .  append  (  curr  .  down  )   # Add the current element to the list   if   prev  :   prev  .  next   =   curr   prev   =   curr   def   print_list  (  head  ):   curr   =   head   while   curr  :   print  (  curr  .  data     end  =  ' '  )   curr   =   curr  .  next   print  ()   if   __name__   ==   '__main__'  :   # Create a hard coded multi-linked list.   # 5 -> 10 -> 19 -> 28   # | |   # 7 22   # | |   # 8 50   # |   # 30   head   =   Node  (  5  )   head  .  down   =   Node  (  7  )   head  .  down  .  down   =   Node  (  8  )   head  .  down  .  down  .  down   =   Node  (  30  )   head  .  next   =   Node  (  10  )   head  .  next  .  next   =   Node  (  19  )   head  .  next  .  next  .  down   =   Node  (  22  )   head  .  next  .  next  .  down  .  down   =   Node  (  50  )   head  .  next  .  next  .  next   =   Node  (  28  )   flatten_list  (  head  )   print_list  (  head  )
C# 
   // A C# program to flatten a multi-   // linked list depth-wise using stack   using     System  ;   using     System.Collections.Generic  ;   class     Node     {      public     int     data  ;      public     Node     next       down  ;      public     Node  (  int     x  )     {      data     =     x  ;      next     =     down     =     null  ;      }   }   class     GfG     {      static     void     FlattenList  (  Node     head  )     {      if     (  head     ==     null  )      return  ;      Stack   <  Node  >     stack     =     new     Stack   <  Node  >  ();      stack  .  Push  (  head  );      Node     prev     =     null  ;      while     (  stack  .  Count     >     0  )     {      Node     curr     =     stack  .  Pop  ();      // Push the next node first      if     (  curr  .  next     !=     null  )      stack  .  Push  (  curr  .  next  );      // Push the bottom node into stack      if     (  curr  .  down     !=     null  )      stack  .  Push  (  curr  .  down  );      // Add the current element to the list      if     (  prev     !=     null  )      prev  .  next     =     curr  ;      prev     =     curr  ;      }      }      static     void     PrintList  (  Node     head  )     {      Node     curr     =     head  ;      while     (  curr     !=     null  )     {      Console  .  Write  (  curr  .  data     +     ' '  );      curr     =     curr  .  next  ;      }      Console  .  WriteLine  ();      }      static     void     Main  (  string  []     args  )     {          // Create a hard coded multi-linked list.      // 5 -> 10 -> 19 -> 28      // | |      // 7 22      // | |      // 8 50      // |      // 30      Node     head     =     new     Node  (  5  );      head  .  down     =     new     Node  (  7  );      head  .  down  .  down     =     new     Node  (  8  );      head  .  down  .  down  .  down     =     new     Node  (  30  );      head  .  next     =     new     Node  (  10  );      head  .  next  .  next     =     new     Node  (  19  );      head  .  next  .  next  .  down     =     new     Node  (  22  );      head  .  next  .  next  .  down  .  down     =     new     Node  (  50  );      head  .  next  .  next  .  next     =     new     Node  (  28  );          FlattenList  (  head  );      PrintList  (  head  );      }   }
JavaScript 
   // A Javascript program to flatten a multi-   // linked list depth-wise using stack   class     Node     {      constructor  (  x  )     {      this  .  data     =     x  ;      this  .  next     =     null  ;      this  .  down     =     null  ;      }   }   function     flattenList  (  head  )     {      if     (  head     ===     null  )     return  ;      let     stack     =     [  head  ];      let     prev     =     null  ;      while     (  stack  .  length     >     0  )     {      let     curr     =     stack  .  pop  ();      // Push the next node first      if     (  curr  .  next     !==     null  )     stack  .  push  (  curr  .  next  );      // Push the bottom node into stack      if     (  curr  .  down     !==     null  )     stack  .  push  (  curr  .  down  );      // Add the current element to the list      if     (  prev     !==     null  )     prev  .  next     =     curr  ;      prev     =     curr  ;      }   }   function     printList  (  head  )     {      let     curr     =     head  ;      while     (  curr     !==     null  )     {      console  .  log  (  curr  .  data  );      curr     =     curr  .  next  ;      }   }   // Create a hard coded multi-linked list.   // 5 -> 10 -> 19 -> 28   // | |   // 7 22   // | |   // 8 50   // |   // 30   let     head     =     new     Node  (  5  );   head  .  down     =     new     Node  (  7  );   head  .  down  .  down     =     new     Node  (  8  );   head  .  down  .  down  .  down     =     new     Node  (  30  );   head  .  next     =     new     Node  (  10  );   head  .  next  .  next     =     new     Node  (  19  );   head  .  next  .  next  .  down     =     new     Node  (  22  );   head  .  next  .  next  .  down  .  down     =     new     Node  (  50  );   head  .  next  .  next  .  next     =     new     Node  (  28  );   flattenList  (  head  );   printList  (  head  );

Produktion 
5 7 8 30 10 19 22 50 28

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