TRŪKSTA NUMERIS

Išbandykite GfG praktikoje

#practiceLinkDiv { display: none !important; }

Skaičius n vadinamas nepakankamu skaičiumi, jei visų skaičiaus daliklių, pažymėtų dalikliaiSuma(n) yra mažesnė nei dvigubai didesnė už skaičiaus n reikšmę. Ir skirtumas tarp šių dviejų verčių vadinamas trūkumas .
Matematiškai, jei toliau nurodyta sąlyga atitinka skaičių, sakoma, kad jis yra nepakankamas:

  divisorsSum(n)  < 2 * n     deficiency   = (2 * n) - divisorsSum(n)

Pirmieji trūkumai yra šie:
1 2 3 4 5 7 8 9 10 11 13 14 15 16 17 19 .....
Pateikus skaičių n, mūsų užduotis yra išsiaiškinti, ar šis skaičius yra trūkumas, ar ne.
Pavyzdžiai:

Input: 21 Output: YES Divisors are 1 3 7 and 21. Sum of divisors is 32. This sum is less than 2*21 or 42. Input: 12 Output: NO Input: 17 Output: YES

Rekomenduojama praktika Trūksta numeris Išbandykite!

A Paprastas sprendimas yra kartoti visus skaičius nuo 1 iki n ir patikrinti, ar skaičius dalijasi iš n, ir apskaičiuoti sumą. Patikrinkite, ar ši suma yra mažesnė nei 2 * n, ar ne.
Laikas Šio metodo sudėtingumas: O ( n )
Optimizuotas sprendimas:
Jei atidžiai stebėsime, skaičiaus n dalikliai yra poromis. Pavyzdžiui, jei n = 100, tada visos daliklių poros yra: (1 100) (2 50) (4 25) (5 20) (10 10)
Naudodamiesi šiuo faktu galime pagreitinti savo programą.
Tikrindami daliklius turėsime būti atsargūs, jei yra du vienodi dalikliai, kaip ir (10 10) atveju. Tokiu atveju skaičiuodami sumą imsime tik vieną iš jų.
Optimizuoto požiūrio įgyvendinimas

C++

    // C++ program to implement an Optimized Solution   // to check Deficient Number   #include          using     namespace     std  ;   // Function to calculate sum of divisors   int     divisorsSum  (  int     n  )   {      int     sum     =     0  ;     // Initialize sum of prime factors      // Note that this loop runs till square root of n      for     (  int     i     =     1  ;     i      <=     sqrt  (  n  );     i  ++  )     {      if     (  n     %     i     ==     0  )     {      // If divisors are equal take only one      // of them      if     (  n     /     i     ==     i  )     {      sum     =     sum     +     i  ;      }      else     // Otherwise take both      {      sum     =     sum     +     i  ;      sum     =     sum     +     (  n     /     i  );      }      }      }      return     sum  ;   }   // Function to check Deficient Number   bool     isDeficient  (  int     n  )   {      // Check if sum(n)  < 2 * n      return     (  divisorsSum  (  n  )      <     (  2     *     n  ));   }   /* Driver program to test above function */   int     main  ()   {      isDeficient  (  12  )     ?     cout      < <     'YES  n  '     :     cout      < <     'NO  n  '  ;      isDeficient  (  15  )     ?     cout      < <     'YES  n  '     :     cout      < <     'NO  n  '  ;      return     0  ;   }

Java

    // Java program to check Deficient Number   import     java.io.*  ;   class   GFG     {      // Function to calculate sum of divisors      static     int     divisorsSum  (  int     n  )      {      int     sum     =     0  ;     // Initialize sum of prime factors      // Note that this loop runs till square root of n      for     (  int     i     =     1  ;     i      <=     (  Math  .  sqrt  (  n  ));     i  ++  )     {      if     (  n     %     i     ==     0  )     {      // If divisors are equal take only one      // of them      if     (  n     /     i     ==     i  )     {      sum     =     sum     +     i  ;      }      else     // Otherwise take both      {      sum     =     sum     +     i  ;      sum     =     sum     +     (  n     /     i  );      }      }      }      return     sum  ;      }      // Function to check Deficient Number      static     boolean     isDeficient  (  int     n  )      {      // Check if sum(n)  < 2 * n      return     (  divisorsSum  (  n  )      <     (  2     *     n  ));      }      /* Driver program to test above function */      public     static     void     main  (  String     args  []  )      {      if     (  isDeficient  (  12  ))      System  .  out  .  println  (  'YES'  );      else      System  .  out  .  println  (  'NO'  );      if     (  isDeficient  (  15  ))      System  .  out  .  println  (  'YES'  );      else      System  .  out  .  println  (  'NO'  );      }   }   // This code is contributed by Nikita Tiwari

Python3

    # Python program to implement an Optimized    # Solution to check Deficient Number   import   math   # Function to calculate sum of divisors   def   divisorsSum  (  n  )   :   sum   =   0   # Initialize sum of prime factors   # Note that this loop runs till square   # root of n   i   =   1   while   i   <=   math  .  sqrt  (  n  )   :   if   (  n   %   i   ==   0  )   :   # If divisors are equal take only one   # of them   if   (  n   //   i   ==   i  )   :   sum   =   sum   +   i   else   :   # Otherwise take both   sum   =   sum   +   i  ;   sum   =   sum   +   (  n   //   i  )   i   =   i   +   1   return   sum   # Function to check Deficient Number   def   isDeficient  (  n  )   :   # Check if sum(n)  < 2 * n   return   (  divisorsSum  (  n  )    <   (  2   *   n  ))   # Driver program to test above function    if   (   isDeficient  (  12  )   ):   print   (  'YES'  )   else   :   print   (  'NO'  )   if   (   isDeficient  (  15  )   )   :   print   (  'YES'  )   else   :   print   (  'NO'  )   # This Code is contributed by Nikita Tiwari

    // C# program to implement an Optimized Solution   // to check Deficient Number   using     System  ;   class     GFG     {      // Function to calculate sum of      // divisors      static     int     divisorsSum  (  int     n  )      {      // Initialize sum of prime factors      int     sum     =     0  ;      // Note that this loop runs till      // square root of n      for     (  int     i     =     1  ;     i      <=     (  Math  .  Sqrt  (  n  ));     i  ++  )     {      if     (  n     %     i     ==     0  )     {      // If divisors are equal      // take only one of them      if     (  n     /     i     ==     i  )     {      sum     =     sum     +     i  ;      }      else     // Otherwise take both      {      sum     =     sum     +     i  ;      sum     =     sum     +     (  n     /     i  );      }      }      }      return     sum  ;      }      // Function to check Deficient Number      static     bool     isDeficient  (  int     n  )      {      // Check if sum(n)  < 2 * n      return     (  divisorsSum  (  n  )      <     (  2     *     n  ));      }      /* Driver program to test above function */      public     static     void     Main  ()      {      string     var     =     isDeficient  (  12  )     ?     'YES'     :     'NO'  ;      Console  .  WriteLine  (  var  );      string     var1     =     isDeficient  (  15  )     ?     'YES'     :     'NO'  ;      Console  .  WriteLine  (  var1  );      }   }   // This code is contributed by vt_m

PHP

       // PHP program to implement    // an Optimized Solution   // to check Deficient Number   // Function to calculate   // sum of divisors   function   divisorsSum  (  $n  )   {   // Initialize sum of   // prime factors   $sum   =   0  ;   // Note that this loop runs    // till square root of n   for   (  $i   =   1  ;   $i    <=   sqrt  (  $n  );   $i  ++  )   {   if   (  $n   %   $i  ==  0  )   {   // If divisors are equal    // take only one of them   if   (  $n   /   $i   ==   $i  )   {   $sum   =   $sum   +   $i  ;   }   // Otherwise take both   else   {   $sum   =   $sum   +   $i  ;   $sum   =   $sum   +   (  $n   /   $i  );   }   }   }   return   $sum  ;   }   // Function to check   // Deficient Number   function   isDeficient  (  $n  )   {   // Check if sum(n)  < 2 * n   return   (  divisorsSum  (  $n  )    <   (  2   *   $n  ));   }   // Driver Code   $ds   =   isDeficient  (  12  )   ?   'YES  n  '   :   'NO  n  '  ;   echo  (  $ds  );   $ds   =   isDeficient  (  15  )   ?   'YES  n  '   :   'NO  n  '  ;   echo  (  $ds  );   // This code is contributed by ajit;.   ?>

JavaScript

     <  script  >   // Javascript program to check Deficient Number      // Function to calculate sum of divisors      function     divisorsSum  (  n  )      {      let     sum     =     0  ;     // Initialize sum of prime factors          // Note that this loop runs till square root of n      for     (  let     i     =     1  ;     i      <=     (  Math  .  sqrt  (  n  ));     i  ++  )      {      if     (  n     %     i     ==     0  )         {          // If divisors are equal take only one      // of them      if     (  n     /     i     ==     i  )     {      sum     =     sum     +     i  ;      }      else     // Otherwise take both      {      sum     =     sum     +     i  ;      sum     =     sum     +     (  n     /     i  );      }      }      }          return     sum  ;      }          // Function to check Deficient Number      function     isDeficient  (  n  )      {          // Check if sum(n)  < 2 * n      return     (  divisorsSum  (  n  )      <     (  2     *     n  ));      }   // Driver code to test above methods      if     (  isDeficient  (  12  ))      document  .  write  (  'YES'     +     '  
'  );      else      document  .  write  (  'NO'     +     '  
'  );          if     (  isDeficient  (  15  ))      document  .  write  (  'YES'     +     '  
'  );      else      document  .  write  (  'NO'     +     '  
'  );          // This code is contributed by avijitmondal1998.    <  /script>