STÖRSTA SUMMA SAMMANHÄNGANDE ÖKANDE SUBARRAY

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Givet en matris med n positiva distinkta heltal. Problemet är att hitta den största summan av sammanhängande ökande subarray i O(n) tidskomplexitet.
Exempel:
    Input     : arr[] = {2 1 4 7 3 6}   
    Output     : 12   
 Contiguous Increasing subarray {1 4 7} = 12   
    Input     : arr[] = {38 7 8 10 12}   
    Output     : 38   
Recommended Practice  Girig räv    Prova!    A     enkel lösning    är att    generera alla subarrayer    och beräkna deras summor. Returnera slutligen subarrayen med maximal summa. Tidskomplexiteten för denna lösning är O(n  ² ).  
   En     effektiv lösning    bygger på att alla moment är positiva. Så vi överväger längst ökande subarrayer och jämför deras summor. Till ökande subarrayer kan inte överlappa så vår tidskomplexitet blir O(n).  
      Algoritm:       
   Let      arr     be the array of size      n     
 Let      result     be the required sum   
 int largestSum(arr n)    
  result = INT_MIN // Initialize result   
  i = 0   
  while i  < n   
  // Find sum of longest increasing subarray   
  // starting with i   
  curr_sum = arr[i];   
  while i+1  < n && arr[i]  < arr[i+1]   
  curr_sum += arr[i+1];   
  i++;    
  // If current sum is greater than current   
  // result.   
  if result  < curr_sum   
  result = curr_sum;    
  i++;   
  return result   
  Nedan är implementeringen av ovanstående algoritm.  
 C++      // C++ implementation of largest sum   // contiguous increasing subarray   #include          using     namespace     std  ;   // Returns sum of longest   // increasing subarray.   int     largestSum  (  int     arr  []     int     n  )   {      // Initialize result      int     result     =     INT_MIN  ;      // Note that i is incremented      // by inner loop also so overall      // time complexity is O(n)      for     (  int     i     =     0  ;     i      <     n  ;     i  ++  )     {      // Find sum of longest      // increasing subarray      // starting from arr[i]      int     curr_sum     =     arr  [  i  ];      while     (  i     +     1      <     n     &&     arr  [  i     +     1  ]     >     arr  [  i  ])     {      curr_sum     +=     arr  [  i     +     1  ];      i  ++  ;      }      // Update result if required      if     (  curr_sum     >     result  )      result     =     curr_sum  ;      }      // required largest sum      return     result  ;   }   // Driver Code   int     main  ()   {      int     arr  []     =     {     1       1       4       7       3       6     };      int     n     =     sizeof  (  arr  )     /     sizeof  (  arr  [  0  ]);      cout      < <     'Largest sum = '      < <     largestSum  (  arr       n  );      return     0  ;   }   
  Java      // Java implementation of largest sum   // contiguous increasing subarray   class   GFG     {      // Returns sum of longest      // increasing subarray.      static     int     largestSum  (  int     arr  []       int     n  )      {      // Initialize result      int     result     =     -  9999999  ;      // Note that i is incremented      // by inner loop also so overall      // time complexity is O(n)      for     (  int     i     =     0  ;     i      <     n  ;     i  ++  )     {      // Find sum of longest      // increasing subarray      // starting from arr[i]      int     curr_sum     =     arr  [  i  ]  ;      while     (  i     +     1      <     n     &&     arr  [  i     +     1  ]     >     arr  [  i  ]  )     {      curr_sum     +=     arr  [  i     +     1  ]  ;      i  ++  ;      }      // Update result if required      if     (  curr_sum     >     result  )      result     =     curr_sum  ;      }      // required largest sum      return     result  ;      }      // Driver Code      public     static     void     main  (  String  []     args  )      {      int     arr  []     =     {     1       1       4       7       3       6     };      int     n     =     arr  .  length  ;      System  .  out  .  println  (  'Largest sum = '      +     largestSum  (  arr       n  ));      }   }   
  Python3      # Python3 implementation of largest   # sum contiguous increasing subarray   # Returns sum of longest   # increasing subarray.   def   largestSum  (  arr     n  ):   # Initialize result   result   =   -  2147483648   # Note that i is incremented   # by inner loop also so overall   # time complexity is O(n)   for   i   in   range  (  n  ):   # Find sum of longest increasing   # subarray starting from arr[i]   curr_sum   =   arr  [  i  ]   while   (  i   +   1    <   n   and   arr  [  i   +   1  ]   >   arr  [  i  ]):   curr_sum   +=   arr  [  i   +   1  ]   i   +=   1   # Update result if required   if   (  curr_sum   >   result  ):   result   =   curr_sum   # required largest sum   return   result   # Driver Code   arr   =   [  1     1     4     7     3     6  ]   n   =   len  (  arr  )   print  (  'Largest sum = '     largestSum  (  arr     n  ))   # This code is contributed by Anant Agarwal.   
  C#      // C# implementation of largest sum   // contiguous increasing subarray   using     System  ;   class     GFG     {      // Returns sum of longest      // increasing subarray.      static     int     largestSum  (  int  []     arr       int     n  )      {      // Initialize result      int     result     =     -  9999999  ;      // Note that i is incremented by      // inner loop also so overall      // time complexity is O(n)      for     (  int     i     =     0  ;     i      <     n  ;     i  ++  )     {      // Find sum of longest increasing      // subarray starting from arr[i]      int     curr_sum     =     arr  [  i  ];      while     (  i     +     1      <     n     &&     arr  [  i     +     1  ]     >     arr  [  i  ])     {      curr_sum     +=     arr  [  i     +     1  ];      i  ++  ;      }      // Update result if required      if     (  curr_sum     >     result  )      result     =     curr_sum  ;      }      // required largest sum      return     result  ;      }      // Driver code      public     static     void     Main  ()      {      int  []     arr     =     {     1       1       4       7       3       6     };      int     n     =     arr  .  Length  ;      Console  .  Write  (  'Largest sum = '      +     largestSum  (  arr       n  ));      }   }   // This code is contributed   // by Nitin Mittal.   
  JavaScript       <  script  >   // Javascript implementation of largest sum   // contiguous increasing subarray   // Returns sum of longest   // increasing subarray.   function     largestSum  (  arr       n  )   {      // Initialize result      var     result     =     -  1000000000  ;      // Note that i is incremented      // by inner loop also so overall      // time complexity is O(n)      for     (  var     i     =     0  ;     i      <     n  ;     i  ++  )      {      // Find sum of longest       // increasing subarray       // starting from arr[i]      var     curr_sum     =     arr  [  i  ];      while     (  i     +     1      <     n     &&         arr  [  i     +     1  ]     >     arr  [  i  ])      {      curr_sum     +=     arr  [  i     +     1  ];      i  ++  ;      }      // Update result if required      if     (  curr_sum     >     result  )      result     =     curr_sum  ;      }      // required largest sum      return     result  ;   }   // Driver Code   var     arr     =     [  1       1       4       7       3       6  ];   var     n     =     arr  .  length  ;   document  .  write  (     'Largest sum = '         +     largestSum  (  arr       n  ));   // This code is contributed by itsok.    <  /script>   
  PHP         // PHP implementation of largest sum   // contiguous increasing subarray   // Returns sum of longest    // increasing subarray.   function   largestSum  (  $arr     $n  )   {   $INT_MIN   =   0  ;   // Initialize result   $result   =   $INT_MIN  ;   // Note that i is incremented    // by inner loop also so overall   // time complexity is O(n)   for   (  $i   =   0  ;   $i    <   $n  ;   $i  ++  )   {   // Find sum of longest    // increasing subarray   // starting from arr[i]   $curr_sum   =   $arr  [  $i  ];   while   (  $i   +   1    <   $n   &&   $arr  [  $i   +   1  ]   >   $arr  [  $i  ])   {   $curr_sum   +=   $arr  [  $i   +   1  ];   $i  ++  ;   }   // Update result if required   if   (  $curr_sum   >   $result  )   $result   =   $curr_sum  ;   }   // required largest sum   return   $result  ;   }   // Driver Code   {   $arr   =   array  (  1     1     4     7     3     6  );   $n   =   sizeof  (  $arr  )   /   sizeof  (  $arr  [  0  ]);   echo   'Largest sum = '      largestSum  (  $arr     $n  );   return   0  ;   }   // This code is contributed by nitin mittal.   ?>   
    
  Produktion   Largest sum = 12 
     Tidskomplexitet: O(n)    
      
   Största summa sammanhängande ökande subarray Använder    Rekursion    :   
  Rekursiv algoritm för att lösa detta problem:  
      Här är steg-för-steg-algoritmen för problemet:    
    Funktionen     'största summa'    tar array     'arr'    och storleken är     'n'.    
  Om       'n==1'    återvänd sedan     arr[0]th    element.  
  Om     'n != 1'    sedan ett rekursivt anrop av funktionen     'största summa'      för att hitta den största summan av undermatrisen     'arr[0...n-1]'    exklusive det sista elementet     'arr[n-1]'    .  
   Genom att iterera över matrisen i omvänd ordning som börjar med det näst sista elementet beräkna summan av den ökande delmatrisen som slutar på     'arr[n-1]'    . Om ett element är mindre än nästa ska det läggas till den aktuella summan. Annars bör slingan brytas.  
  Returnera sedan maximalt av den största summan d.v.s.     ' return max(max_sum curr_sum);' .     
    
 
 
     Här är implementeringen av ovanstående algoritm:    
 C++      #include          using     namespace     std  ;   // Recursive function to find the largest sum   // of contiguous increasing subarray   int     largestSum  (  int     arr  []     int     n  )   {      // Base case      if     (  n     ==     1  )      return     arr  [  0  ];      // Recursive call to find the largest sum      int     max_sum     =     max  (  largestSum  (  arr       n     -     1  )     arr  [  n     -     1  ]);      // Compute the sum of the increasing subarray      int     curr_sum     =     arr  [  n     -     1  ];      for     (  int     i     =     n     -     2  ;     i     >=     0  ;     i  --  )     {      if     (  arr  [  i  ]      <     arr  [  i     +     1  ])      curr_sum     +=     arr  [  i  ];      else      break  ;      }      // Return the maximum of the largest sum so far      // and the sum of the current increasing subarray      return     max  (  max_sum       curr_sum  );   }   // Driver Code   int     main  ()   {      int     arr  []     =     {     1       1       4       7       3       6     };      int     n     =     sizeof  (  arr  )     /     sizeof  (  arr  [  0  ]);      cout      < <     'Largest sum = '      < <     largestSum  (  arr       n  );      return     0  ;   }   // This code is contributed by Vaibhav Saroj.   
  C      #include         #include         // Returns sum of longest increasing subarray   int     largestSum  (  int     arr  []     int     n  )   {      // Initialize result      int     result     =     INT_MIN  ;      // Note that i is incremented      // by inner loop also so overall      // time complexity is O(n)      for     (  int     i     =     0  ;     i      <     n  ;     i  ++  )     {      // Find sum of longest      // increasing subarray      // starting from arr[i]      int     curr_sum     =     arr  [  i  ];      while     (  i     +     1      <     n     &&     arr  [  i     +     1  ]     >     arr  [  i  ])     {      curr_sum     +=     arr  [  i     +     1  ];      i  ++  ;      }      // Update result if required      if     (  curr_sum     >     result  )      result     =     curr_sum  ;      }      // required largest sum      return     result  ;   }   // Driver code   int     main  ()   {      int     arr  []     =     {     1       1       4       7       3       6     };      int     n     =     sizeof  (  arr  )     /     sizeof  (  arr  [  0  ]);      printf  (  'Largest sum = %d  n  '       largestSum  (  arr       n  ));      return     0  ;   }   // This code is contributed by Vaibhav Saroj.   
  Java      /*package whatever //do not write package name here */   import     java.util.*  ;   public     class   Main     {      // Recursive function to find the largest sum      // of contiguous increasing subarray      public     static     int     largestSum  (  int     arr  []       int     n  )      {      // Base case      if     (  n     ==     1  )      return     arr  [  0  ]  ;      // Recursive call to find the largest sum      int     max_sum      =     Math  .  max  (  largestSum  (  arr       n     -     1  )     arr  [  n     -     1  ]  );      // Compute the sum of the increasing subarray      int     curr_sum     =     arr  [  n     -     1  ]  ;      for     (  int     i     =     n     -     2  ;     i     >=     0  ;     i  --  )     {      if     (  arr  [  i  ]      <     arr  [  i     +     1  ]  )      curr_sum     +=     arr  [  i  ]  ;      else      break  ;      }      // Return the maximum of the largest sum so far      // and the sum of the current increasing subarray      return     Math  .  max  (  max_sum       curr_sum  );      }      // Driver code      public     static     void     main  (  String  []     args  )      {      int     arr  []     =     {     1       1       4       7       3       6     };      int     n     =     arr  .  length  ;      System  .  out  .  println  (  'Largest sum = '      +     largestSum  (  arr       n  ));      }   }   // This code is contributed by Vaibhav Saroj.   
  Python      def   largestSum  (  arr     n  ):   # Base case   if   n   ==   1  :   return   arr  [  0  ]   # Recursive call to find the largest sum   max_sum   =   max  (  largestSum  (  arr     n  -  1  )   arr  [  n  -  1  ])   # Compute the sum of the increasing subarray   curr_sum   =   arr  [  n  -  1  ]   for   i   in   range  (  n  -  2     -  1     -  1  ):   if   arr  [  i  ]    <   arr  [  i  +  1  ]:   curr_sum   +=   arr  [  i  ]   else  :   break   # Return the maximum of the largest sum so far   # and the sum of the current increasing subarray   return   max  (  max_sum     curr_sum  )   # Driver code   arr   =   [  1     1     4     7     3     6  ]   n   =   len  (  arr  )   print  (  'Largest sum ='     largestSum  (  arr     n  ))   # This code is contributed by Vaibhav Saroj.   
  C#      // C# program for above approach   using     System  ;   public     static     class     GFG     {      // Recursive function to find the largest sum      // of contiguous increasing subarray      public     static     int     largestSum  (  int  []     arr       int     n  )      {      // Base case      if     (  n     ==     1  )      return     arr  [  0  ];      // Recursive call to find the largest sum      int     max_sum      =     Math  .  Max  (  largestSum  (  arr       n     -     1  )     arr  [  n     -     1  ]);      // Compute the sum of the increasing subarray      int     curr_sum     =     arr  [  n     -     1  ];      for     (  int     i     =     n     -     2  ;     i     >=     0  ;     i  --  )     {      if     (  arr  [  i  ]      <     arr  [  i     +     1  ])      curr_sum     +=     arr  [  i  ];      else      break  ;      }      // Return the maximum of the largest sum so far      // and the sum of the current increasing subarray      return     Math  .  Max  (  max_sum       curr_sum  );      }      // Driver code      public     static     void     Main  ()      {      int  []     arr     =     {     1       1       4       7       3       6     };      int     n     =     arr  .  Length  ;      Console  .  WriteLine  (  'Largest sum = '      +     largestSum  (  arr       n  ));      }   }   // This code is contributed by Utkarsh Kumar   
  JavaScript      function     largestSum  (  arr       n  )     {      // Base case      if     (  n     ==     1  )      return     arr  [  0  ];      // Recursive call to find the largest sum      let     max_sum     =     Math  .  max  (  largestSum  (  arr       n  -  1  )     arr  [  n  -  1  ]);      // Compute the sum of the increasing subarray      let     curr_sum     =     arr  [  n  -  1  ];      for     (  let     i     =     n  -  2  ;     i     >=     0  ;     i  --  )     {      if     (  arr  [  i  ]      <     arr  [  i  +  1  ])      curr_sum     +=     arr  [  i  ];      else      break  ;      }      // Return the maximum of the largest sum so far      // and the sum of the current increasing subarray      return     Math  .  max  (  max_sum       curr_sum  );   }   // Driver Code   let     arr     =     [  1       1       4       7       3       6  ];   let     n     =     arr  .  length  ;   console  .  log  (  'Largest sum = '     +     largestSum  (  arr       n  ));   
  PHP         // Recursive function to find the largest sum   // of contiguous increasing subarray   function   largestSum  (  $arr     $n  )   {   // Base case   if   (  $n   ==   1  )   return   $arr  [  0  ];   // Recursive call to find the largest sum   $max_sum   =   max  (  largestSum  (  $arr     $n  -  1  )   $arr  [  $n  -  1  ]);   // Compute the sum of the increasing subarray   $curr_sum   =   $arr  [  $n  -  1  ];   for   (  $i   =   $n  -  2  ;   $i   >=   0  ;   $i  --  )   {   if   (  $arr  [  $i  ]    <   $arr  [  $i  +  1  ])   $curr_sum   +=   $arr  [  $i  ];   else   break  ;   }   // Return the maximum of the largest sum so far   // and the sum of the current increasing subarray   return   max  (  $max_sum     $curr_sum  );   }   // Driver Code   $arr   =   array  (  1     1     4     7     3     6  );   $n   =   count  (  $arr  );   echo   'Largest sum = '   .   largestSum  (  $arr     $n  );   ?>   
    
  Produktion   Largest sum = 12 
     Tidskomplexitet:    O(n^2).   
    Utrymmes komplexitet:    På).  
      Största summa sammanhängande ökande subarray Använder  Kadanes algoritm:-    
    För att få den största summasubmatrisen används Kadanes tillvägagångssätt, men det förutsätter att matrisen innehåller både positiva och negativa värden. I det här fallet måste vi ändra algoritmen så att den bara fungerar på sammanhängande stigande subarrayer.  
  
  Följande är hur vi kan modifiera Kadanes algoritm för att hitta den största summan sammanhängande ökande subarrayen:  
    Initiera två variabler: max_sum och curr_sum till det första elementet i arrayen.  
  Slinga genom arrayen med början från det andra elementet.  
  om det aktuella elementet är större än det föregående elementet lägg till det till curr_sum. Återställ annars curr_sum till det aktuella elementet.  
  Om curr_sum är större än max_sum uppdatera max_sum.  
  Efter loopen kommer max_sum att innehålla den största summan sammanhängande ökande subarray.   
    
 
 C++      #include          using     namespace     std  ;   int     largest_sum_contiguous_increasing_subarray  (  int     arr  []     int     n  )     {      int     max_sum     =     arr  [  0  ];      int     curr_sum     =     arr  [  0  ];      for     (  int     i     =     1  ;     i      <     n  ;     i  ++  )     {      if     (  arr  [  i  ]     >     arr  [  i  -1  ])     {      curr_sum     +=     arr  [  i  ];      }      else     {      curr_sum     =     arr  [  i  ];      }      if     (  curr_sum     >     max_sum  )     {      max_sum     =     curr_sum  ;      }      }      return     max_sum  ;   }   int     main  ()     {      int     arr  []     =     {     1       1       4       7       3       6     };      int     n     =     sizeof  (  arr  )  /  sizeof  (  arr  [  0  ]);      cout      < <     largest_sum_contiguous_increasing_subarray  (  arr       n  )      < <     endl  ;     // Output: 44 (1+2+3+5+7+8+9+10)      return     0  ;   }   
  Java      public     class   Main     {      public     static     int     largestSumContiguousIncreasingSubarray  (  int  []     arr           int     n  )     {      int     maxSum     =     arr  [  0  ]  ;      int     currSum     =     arr  [  0  ]  ;      for     (  int     i     =     1  ;     i      <     n  ;     i  ++  )     {      if     (  arr  [  i  ]     >     arr  [  i  -  1  ]  )     {      currSum     +=     arr  [  i  ]  ;      }      else     {      currSum     =     arr  [  i  ]  ;      }      if     (  currSum     >     maxSum  )     {      maxSum     =     currSum  ;      }      }      return     maxSum  ;      }      public     static     void     main  (  String  []     args  )     {      int  []     arr     =     {     1       1       4       7       3       6     };      int     n     =     arr  .  length  ;      System  .  out  .  println  (  largestSumContiguousIncreasingSubarray  (  arr        n  ));     // Output: 44 (1+2+3+5+7+8+9+10)      }   }   
  Python3      def   largest_sum_contiguous_increasing_subarray  (  arr     n  ):   max_sum   =   arr  [  0  ]   curr_sum   =   arr  [  0  ]   for   i   in   range  (  1     n  ):   if   arr  [  i  ]   >   arr  [  i  -  1  ]:   curr_sum   +=   arr  [  i  ]   else  :   curr_sum   =   arr  [  i  ]   if   curr_sum   >   max_sum  :   max_sum   =   curr_sum   return   max_sum   arr   =   [  1     1     4     7     3     6  ]   n   =   len  (  arr  )   print  (  largest_sum_contiguous_increasing_subarray  (  arr     n  ))   #output 12 (1+4+7)   
  C#      using     System  ;   class     GFG     {      // Function to find the largest sum of a contiguous      // increasing subarray      static     int      LargestSumContiguousIncreasingSubarray  (  int  []     arr       int     n  )      {      int     maxSum     =     arr  [  0  ];     // Initialize the maximum sum      // and current sum      int     currSum     =     arr  [  0  ];      for     (  int     i     =     1  ;     i      <     n  ;     i  ++  )     {      if     (  arr  [  i  ]      >     arr  [  i     -     1  ])     // Check if the current      // element is greater than the      // previous element      {      currSum      +=     arr  [  i  ];     // If increasing add the      // element to the current sum      }      else     {      currSum      =     arr  [  i  ];     // If not increasing start a      // new increasing subarray      // from the current element      }      if     (  currSum      >     maxSum  )     // Update the maximum sum if the      // current sum is greater      {      maxSum     =     currSum  ;      }      }      return     maxSum  ;      }      static     void     Main  ()      {      int  []     arr     =     {     1       1       4       7       3       6     };      int     n     =     arr  .  Length  ;      Console  .  WriteLine  (      LargestSumContiguousIncreasingSubarray  (  arr       n  ));      }   }   // This code is contributed by akshitaguprzj3   
  JavaScript         // Javascript code for above approach          // Function to find the largest sum of a contiguous      // increasing subarray      function     LargestSumContiguousIncreasingSubarray  (  arr       n  )      {      let     maxSum     =     arr  [  0  ];     // Initialize the maximum sum      // and current sum      let     currSum     =     arr  [  0  ];          for     (  let     i     =     1  ;     i      <     n  ;     i  ++  )     {      if     (  arr  [  i  ]      >     arr  [  i     -     1  ])     // Check if the current      // element is greater than the      // previous element      {      currSum      +=     arr  [  i  ];     // If increasing add the      // element to the current sum      }      else     {      currSum      =     arr  [  i  ];     // If not increasing start a      // new increasing subarray      // from the current element      }          if     (  currSum      >     maxSum  )     // Update the maximum sum if the      // current sum is greater      {      maxSum     =     currSum  ;      }      }          return     maxSum  ;      }          let     arr     =     [     1       1       4       7       3       6     ];      let     n     =     arr  .  length  ;      console  .  log  (  LargestSumContiguousIncreasingSubarray  (  arr       n  ));              // This code is contributed by Pushpesh Raj       
    
  Produktion   12 
     Tidskomplexitet: O(n).     
    Rymdkomplexitet: O(1).    
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