平面内の平行四辺形の数

平面上に別個の点がいくつかあり、それらのうちの 3 つが同じ線上にない場合。与えられた点を頂点とする平行四辺形の数を見つける必要があります。例:

Input : points[] = {(0 0) (0 2) (2 2) (4 2) (1 4) (3 4)} Output : 2 Two Parallelograms are possible by choosing above given point as vertices which are shown in below diagram.

この問題は、平行四辺形の対角線が真ん中で交差するという平行四辺形の特殊な性質を利用することで解決できます。したがって、複数の線分の中点であるそのような中点を取得した場合、中点が x 回出現する場合、可能な平行四辺形の対角線を次の方法で選択できれば、平行四辺形がより正確に存在すると結論付けることができます。 ^×C ₂つまり、周波数 x のこの特定の中点に対応する x*(x-1)/2 の平行四辺形が存在します。そこで、すべての点のペアを反復処理し、それらの中点を計算し、中点の頻度を 1 ずつ増やします。最後に、上で説明したように、それぞれの異なる中点の頻度に従って、平行四辺形の数を数えます。中点の頻度が必要なだけなので、簡略化のために中点の計算中は 2 による除算は無視されます。

CPP

    // C++ program to get number of Parallelograms we   // can make by given points of the plane   #include          using     namespace     std  ;   // Returns count of Parallelograms possible   // from given points   int     countOfParallelograms  (  int     x  []     int     y  []     int     N  )   {      // Map to store frequency of mid points      map   <  pair   <  int       int  >       int  >     cnt  ;      for     (  int     i  =  0  ;     i   <  N  ;     i  ++  )      {      for     (  int     j  =  i  +  1  ;     j   <  N  ;     j  ++  )      {      // division by 2 is ignored to get      // rid of doubles      int     midX     =     x  [  i  ]     +     x  [  j  ];      int     midY     =     y  [  i  ]     +     y  [  j  ];      // increase the frequency of mid point      cnt  [  make_pair  (  midX       midY  )]  ++  ;      }      }      // Iterating through all mid points      int     res     =     0  ;      for     (  auto     it     =     cnt  .  begin  ();     it     !=     cnt  .  end  ();     it  ++  )      {      int     freq     =     it  ->  second  ;      // Increase the count of Parallelograms by      // applying function on frequency of mid point      res     +=     freq  *  (  freq     -     1  )  /  2  ;      }      return     res  ;   }   // Driver code to test above methods   int     main  ()   {      int     x  []     =     {  0       0       2       4       1       3  };      int     y  []     =     {  0       2       2       2       4       4  };      int     N     =     sizeof  (  x  )     /     sizeof  (  int  );      cout      < <     countOfParallelograms  (  x       y       N  )      < <     endl  ;      return     0  ;   }

Java

    /*package whatever //do not write package name here */   import     java.io.*  ;   import     java.util.*  ;   public     class   GFG     {          // Returns count of Parallelograms possible      // from given points      public     static     int     countOfParallelograms  (  int  []     x       int  []     y       int     N  )      {      // Map to store frequency of mid points      HashMap   <  String       Integer  >     cnt     =     new     HashMap   <>  ();      for     (  int     i  =  0  ;     i   <  N  ;     i  ++  )      {      for     (  int     j  =  i  +  1  ;     j   <  N  ;     j  ++  )      {      // division by 2 is ignored to get      // rid of doubles      int     midX     =     x  [  i  ]     +     x  [  j  ]  ;      int     midY     =     y  [  i  ]     +     y  [  j  ]  ;      // increase the frequency of mid point      String     temp     =     String  .  join  (  ' '       String  .  valueOf  (  midX  )     String  .  valueOf  (  midY  ));      if  (  cnt  .  containsKey  (  temp  )){      cnt  .  put  (  temp       cnt  .  get  (  temp  )     +     1  );      }      else  {      cnt  .  put  (  temp       1  );      }      }      }      // Iterating through all mid points      int     res     =     0  ;      for     (  Map  .  Entry   <  String       Integer  >     it     :     cnt  .  entrySet  ())     {      int     freq     =     it  .  getValue  ();      // Increase the count of Parallelograms by      // applying function on frequency of mid point      res     =     res     +     freq  *  (  freq     -     1  )  /  2  ;      }      return     res  ;      }          public     static     void     main  (  String  []     args  )     {      int  []     x     =     {  0       0       2       4       1       3  };      int  []     y     =     {  0       2       2       2       4       4  };      int     N     =     x  .  length  ;      System  .  out  .  println  (  countOfParallelograms  (  x       y       N  ));      }   }   // The code is contributed by Nidhi goel.

Python3

    # python program to get number of Parallelograms we   # can make by given points of the plane   # Returns count of Parallelograms possible   # from given points   def   countOfParallelograms  (  x     y     N  ):   # Map to store frequency of mid points   cnt   =   {}   for   i   in   range  (  N  ):   for   j   in   range  (  i  +  1     N  ):   # division by 2 is ignored to get   # rid of doubles   midX   =   x  [  i  ]   +   x  [  j  ];   midY   =   y  [  i  ]   +   y  [  j  ];   # increase the frequency of mid point   if   ((  midX     midY  )   in   cnt  ):   cnt  [(  midX     midY  )]   +=   1   else  :   cnt  [(  midX     midY  )]   =   1   # Iterating through all mid points   res   =   0   for   key   in   cnt  :   freq   =   cnt  [  key  ]   # Increase the count of Parallelograms by   # applying function on frequency of mid point   res   +=   freq  *  (  freq   -   1  )  /  2   return   res   # Driver code to test above methods   x   =   [  0     0     2     4     1     3  ]   y   =   [  0     2     2     2     4     4  ]   N   =   len  (  x  );   print  (  int  (  countOfParallelograms  (  x     y     N  )))   # The code is contributed by Gautam goel.

    using     System  ;   using     System.Collections.Generic  ;   public     class     GFG   {      // Returns count of Parallelograms possible      // from given points      public     static     int     CountOfParallelograms  (  int  []     x       int  []     y       int     N  )      {      // Map to store frequency of mid points      Dictionary   <  string       int  >     cnt     =     new     Dictionary   <  string       int  >  ();      for     (  int     i     =     0  ;     i      <     N  ;     i  ++  )      {      for     (  int     j     =     i     +     1  ;     j      <     N  ;     j  ++  )      {      // division by 2 is ignored to get      // rid of doubles      int     midX     =     x  [  i  ]     +     x  [  j  ];      int     midY     =     y  [  i  ]     +     y  [  j  ];      // increase the frequency of mid point      string     temp     =     string  .  Join  (  ' '       midX  .  ToString  ()     midY  .  ToString  ());      if     (  cnt  .  ContainsKey  (  temp  ))      {      cnt  [  temp  ]  ++  ;      }      else      {      cnt  .  Add  (  temp       1  );      }      }      }      // Iterating through all mid points      int     res     =     0  ;      foreach     (  KeyValuePair   <  string       int  >     it     in     cnt  )      {      int     freq     =     it  .  Value  ;      // Increase the count of Parallelograms by      // applying function on frequency of mid point      res     +=     freq     *     (  freq     -     1  )     /     2  ;      }      return     res  ;      }      public     static     void     Main  (  string  []     args  )      {      int  []     x     =     {     0       0       2       4       1       3     };      int  []     y     =     {     0       2       2       2       4       4     };      int     N     =     x  .  Length  ;      Console  .  WriteLine  (  CountOfParallelograms  (  x       y       N  ));      }   }

JavaScript

    // JavaScript program to get number of Parallelograms we   // can make by given points of the plane   // Returns count of Parallelograms possible   // from given points   function     countOfParallelograms  (  x       y       N  )   {      // Map to store frequency of mid points      // map  int> cnt;      let     cnt     =     new     Map  ();      for     (  let     i  =  0  ;     i   <  N  ;     i  ++  )      {      for     (  let     j  =  i  +  1  ;     j   <  N  ;     j  ++  )      {      // division by 2 is ignored to get      // rid of doubles      let     midX     =     x  [  i  ]     +     x  [  j  ];      let     midY     =     y  [  i  ]     +     y  [  j  ];      // increase the frequency of mid point      let     make_pair     =     [  midX       midY  ];      if  (  cnt  .  has  (  make_pair  .  join  (  ''  ))){      cnt  .  set  (  make_pair  .  join  (  ''  )     cnt  .  get  (  make_pair  .  join  (  ''  ))     +     1  );      }      else  {      cnt  .  set  (  make_pair  .  join  (  ''  )     1  );      }      }      }      // Iterating through all mid points      let     res     =     0  ;      for     (  const     [  key       value  ]     of     cnt  )      {      let     freq     =     value  ;      // Increase the count of Parallelograms by      // applying function on frequency of mid point      res     =     res     +     Math  .  floor  (  freq  *  (  freq     -     1  )  /  2  );      }      return     res  ;   }   // Driver code to test above methods   let     x     =     [  0       0       2       4       1       3  ];   let     y     =     [  0       2       2       2       4       4  ];   let     N     =     x  .  length  ;   console  .  log  (  countOfParallelograms  (  x       y       N  ));   // The code is contributed by Gautam goel (gautamgoel962)