SOTTOSEQUENZA COMUNE PIÙ LUNGA CON PERMUTAZIONI CONSENTITE

Date due stringhe in minuscolo trova la stringa più lunga le cui permutazioni sono sottosequenze delle due stringhe date. La stringa di output più lunga deve essere ordinata.

Esempi:

Input : str1 = 'pink' str2 = 'kite' Output : 'ik' The string 'ik' is the longest sorted string whose one permutation 'ik' is subsequence of 'pink' and another permutation 'ki' is subsequence of 'kite'. Input : str1 = 'working' str2 = 'women' Output : 'now' Input : str1 = 'geeks'  str2 = 'cake' Output : 'ek' Input : str1 = 'aaaa'  str2 = 'baba' Output : 'aa'

Consigliato: risolverlo su ' PRATICA ' prima di passare alla soluzione.

L'idea è di contare i caratteri in entrambe le stringhe.

calcola la frequenza dei caratteri per ciascuna stringa e memorizzali nei rispettivi array di conteggio, ad esempio count1[] per str1 e count2[] per str2.
Ora abbiamo array di conteggio per 26 caratteri. Quindi attraversa count1[] e per qualsiasi indice 'i' aggiungi il carattere ('a'+i) nella stringa risultante 'result' per min(count1[i] count2[i]) volte.
Poiché attraversiamo l'array di conteggio in ordine crescente, i nostri caratteri della stringa finale saranno in ordine.

Attuazione:

C++

    // C++ program to find LCS with permutations allowed   #include       using     namespace     std  ;   // Function to calculate longest string   // str1 --> first string   // str2 --> second string   // count1[] --> hash array to calculate frequency   // of characters in str1   // count[2] --> hash array to calculate frequency   // of characters in str2   // result --> resultant longest string whose   // permutations are sub-sequence of given two strings   void     longestString  (  string     str1       string     str2  )   {      int     count1  [  26  ]     =     {  0  }     count2  [  26  ]  =     {  0  };      // calculate frequency of characters      for     (  int     i  =  0  ;     i   <  str1  .  length  ();     i  ++  )      count1  [  str1  [  i  ]  -  'a'  ]  ++  ;      for     (  int     i  =  0  ;     i   <  str2  .  length  ();     i  ++  )      count2  [  str2  [  i  ]  -  'a'  ]  ++  ;      // Now traverse hash array      string     result  ;      for     (  int     i  =  0  ;     i   <  26  ;     i  ++  )      // append character ('a'+i) in resultant      // string 'result' by min(count1[i]count2i])      // times      for     (  int     j  =  1  ;     j   <=  min  (  count1  [  i  ]  count2  [  i  ]);     j  ++  )      result  .  push_back  (  'a'     +     i  );      cout      < <     result  ;   }   // Driver program to run the case   int     main  ()   {      string     str1     =     'geeks'       str2     =     'cake'  ;      longestString  (  str1       str2  );      return     0  ;   }

Java

    //Java program to find LCS with permutations allowed   class   GFG     {   // Function to calculate longest String   // str1 --> first String   // str2 --> second String   // count1[] --> hash array to calculate frequency   // of characters in str1   // count[2] --> hash array to calculate frequency   // of characters in str2   // result --> resultant longest String whose   // permutations are sub-sequence of given two strings      static     void     longestString  (  String     str1       String     str2  )     {      int     count1  []     =     new     int  [  26  ]       count2  []     =     new     int  [  26  ]  ;      // calculate frequency of characters      for     (  int     i     =     0  ;     i      <     str1  .  length  ();     i  ++  )     {      count1  [  str1  .  charAt  (  i  )     -     'a'  ]++  ;      }      for     (  int     i     =     0  ;     i      <     str2  .  length  ();     i  ++  )     {      count2  [  str2  .  charAt  (  i  )     -     'a'  ]++  ;      }      // Now traverse hash array      String     result     =     ''  ;      for     (  int     i     =     0  ;     i      <     26  ;     i  ++  )     // append character ('a'+i) in resultant      // String 'result' by min(count1[i]count2i])      // times      {      for     (  int     j     =     1  ;     j      <=     Math  .  min  (  count1  [  i  ]       count2  [  i  ]  );     j  ++  )     {      result     +=     (  char  )(  'a'     +     i  );      }      }      System  .  out  .  println  (  result  );      }   // Driver program to run the case      public     static     void     main  (  String  []     args  )     {      String     str1     =     'geeks'       str2     =     'cake'  ;      longestString  (  str1       str2  );      }   }   /* This java code is contributed by 29AjayKumar*/

Python3

    # Python 3 program to find LCS   # with permutations allowed   # Function to calculate longest string   # str1 --> first string   # str2 --> second string   # count1[] --> hash array to calculate frequency   # of characters in str1   # count[2] --> hash array to calculate frequency   # of characters in str2   # result --> resultant longest string whose   # permutations are sub-sequence   # of given two strings   def   longestString  (  str1     str2  ):   count1   =   [  0  ]   *   26   count2   =   [  0  ]   *   26   # calculate frequency of characters   for   i   in   range  (   len  (  str1  )):   count1  [  ord  (  str1  [  i  ])   -   ord  (  'a'  )]   +=   1   for   i   in   range  (  len  (  str2  )):   count2  [  ord  (  str2  [  i  ])   -   ord  (  'a'  )]   +=   1   # Now traverse hash array   result   =   ''   for   i   in   range  (  26  ):   # append character ('a'+i) in   # resultant string 'result' by   # min(count1[i]count2i]) times   for   j   in   range  (  1     min  (  count1  [  i  ]   count2  [  i  ])   +   1  ):   result   =   result   +   chr  (  ord  (  'a'  )   +   i  )   print  (  result  )   # Driver Code   if   __name__   ==   '__main__'  :   str1   =   'geeks'   str2   =   'cake'   longestString  (  str1     str2  )   # This code is contributed by ita_c

    // C# program to find LCS with   // permutations allowed   using     System  ;   class     GFG   {   // Function to calculate longest String   // str1 --> first String   // str2 --> second String   // count1[] --> hash array to calculate   // frequency of characters in str1   // count[2] --> hash array to calculate   // frequency of characters in str2   // result --> resultant longest String whose   // permutations are sub-sequence of   // given two strings   static     void     longestString  (  String     str1        String     str2  )   {      int     []  count1     =     new     int  [  26  ];      int     []  count2     =     new     int  [  26  ];      // calculate frequency of characters      for     (  int     i     =     0  ;     i      <     str1  .  Length  ;     i  ++  )      {      count1  [  str1  [  i  ]     -     'a'  ]  ++  ;      }      for     (  int     i     =     0  ;     i      <     str2  .  Length  ;     i  ++  )      {      count2  [  str2  [  i  ]     -     'a'  ]  ++  ;      }      // Now traverse hash array      String     result     =     ''  ;      for     (  int     i     =     0  ;     i      <     26  ;     i  ++  )          // append character ('a'+i) in resultant      // String 'result' by min(count1[i]count2i])      // times      {      for     (  int     j     =     1  ;      j      <=     Math  .  Min  (  count1  [  i  ]      count2  [  i  ]);     j  ++  )      {      result     +=     (  char  )(  'a'     +     i  );      }      }   Console  .  Write  (  result  );   }   // Driver Code   public     static     void     Main  ()   {      String     str1     =     'geeks'       str2     =     'cake'  ;      longestString  (  str1       str2  );   }   }   // This code is contributed   // by PrinciRaj1992

PHP

       // PHP program to find LCS with   // permutations allowed   // Function to calculate longest string   // str1 --> first string   // str2 --> second string   // count1[] --> hash array to calculate frequency   // of characters in str1   // count[2] --> hash array to calculate frequency   // of characters in str2   // result --> resultant longest string whose   // permutations are sub-sequence of given two strings   function   longestString  (  $str1     $str2  )   {   $count1   =   array_fill  (  0     26     NULL  );   $count2   =   array_fill  (  0     26     NULL  );   // calculate frequency of characters   for   (  $i   =   0  ;   $i    <   strlen  (  $str1  );   $i  ++  )   $count1  [  ord  (  $str1  [  $i  ])   -   ord  (  'a'  )]  ++  ;   for   (  $i   =   0  ;   $i    <   strlen  (  $str2  );   $i  ++  )   $count2  [  ord  (  $str2  [  $i  ])   -   ord  (  'a'  )]  ++  ;   // Now traverse hash array   $result   =   ''  ;   for   (  $i   =   0  ;   $i    <   26  ;   $i  ++  )   // append character ('a'+i) in resultant   // string 'result' by min(count1[$i]   // count2[$i]) times   for   (  $j   =   1  ;   $j    <=   min  (  $count1  [  $i  ]   $count2  [  $i  ]);   $j  ++  )   $result   =   $result  .  chr  (  ord  (  'a'  )   +   $i  );   echo   $result  ;   }   // Driver Code   $str1   =   'geeks'  ;   $str2   =   'cake'  ;   longestString  (  $str1     $str2  );   // This code is contributed by ita_c   ?>

JavaScript

     <  script  >   // Javascript program to find LCS with permutations allowed   function     min  (  a       b  )   {      if  (  a      <     b  )      return     a  ;      else      return     b  ;   }   // Function to calculate longest String   // str1 --> first String   // str2 --> second String   // count1[] --> hash array to calculate frequency   // of characters in str1   // count[2] --> hash array to calculate frequency   // of characters in str2   // result --> resultant longest String whose   // permutations are sub-sequence of given two strings   function     longestString  (     str1       str2  )      {      var     count1     =     new     Array  (  26  );      var     count2     =     new     Array  (  26  );      count1  .  fill  (  0  );      count2  .  fill  (  0  );      // calculate frequency of characters      for     (  var     i     =     0  ;     i      <     str1  .  length  ;     i  ++  )     {      count1  [  str1  .  charCodeAt  (  i  )     -  97  ]  ++  ;      }      for     (  var     i     =     0  ;     i      <     str2  .  length  ;     i  ++  )     {      count2  [  str2  .  charCodeAt  (  i  )     -     97  ]  ++  ;      }      // Now traverse hash array      var     result     =     ''  ;      for     (  var     i     =     0  ;     i      <     26  ;     i  ++  )             // append character ('a'+i) in resultant      // String 'result' by min(count1[i]count2i])      // times      {      for     (  var     j     =     1  ;     j      <=     min  (  count1  [  i  ]     count2  [  i  ]);     j  ++  )     {      result     +=     String  .  fromCharCode  (  97     +     i  );      }      }      document  .  write  (  result  );      }      var     str1     =     'geeks'  ;      var     str2     =     'cake'  ;      longestString  (  str1       str2  );   // This code is contributed by akshitsaxenaa09.    <  /script>

Produzione

ek

Complessità temporale: O(m + n) dove m e n sono lunghezze delle stringhe di input.
Spazio ausiliario: O(1)

Se hai un altro approccio per risolvere questo problema, condividilo.

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