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Hitta index för givet fibonacci-tal i konstant tid

Vi får en Fibonacci nummer . De första Fibonacci-talen är 0 1 1 2 3 5 8 13 21 34 55 89 144 ..... 
Vi måste hitta indexet för det givna Fibonacci-talet, dvs som Fibonacci-nummer 8 är på index 6. 

Exempel:  

Input : 13  
Output : 7  
Input : 34  
Output : 9

Metod 1 (enkel)  : Ett enkelt tillvägagångssätt är att hitta Fibonacci-tal upp till de givna Fibonacci-talen och räkna antalet utförda iterationer.



C++ 
// A simple C++ program to find index of given // Fibonacci number. #include   int findIndex(int n) {  // if Fibonacci number is less than 2  // its index will be same as number  if (n <= 1)  return n;  int a = 0 b = 1 c = 1;  int res = 1;  // iterate until generated fibonacci number   // is less than given fibonacci number  while (c < n)  {  c = a + b;    // res keeps track of number of generated   // fibonacci number  res++;  a = b;  b = c;  }  return res; } // Driver program to test above function int main() {  int result = findIndex(21);  printf('%dn' result); } // This code is contributed by Saket Kumar
Java 
// A simple Java program to find index of  // given Fibonacci number. import java.io.*; class GFG {    static int findIndex(int n)  {    // if Fibonacci number is less   // than 2 its index will be  // same as number  if (n <= 1)  return n;    int a = 0 b = 1 c = 1;  int res = 1;    // iterate until generated fibonacci  // number is less than given   // fibonacci number  while (c < n)  {  c = a + b;    // res keeps track of number of  // generated fibonacci number  res++;  a = b;  b = c;  }    return res;  }    // Driver program to test above function  public static void main (String[] args)   {  int result = findIndex(21);  System.out.println( result);  } } // This code is contributed by anuj_67.
Python3 
# A simple Python 3 program to find  # index of given Fibonacci number. def findIndex(n) : # if Fibonacci number is less than 2 # its index will be same as number if (n <= 1) : return n a = 0 b = 1 c = 1 res = 1 # iterate until generated fibonacci number  # is less than given fibonacci number while (c < n) : c = a + b # res keeps track of number of  # generated fibonacci number res = res + 1 a = b b = c return res # Driver program to test above function result = findIndex(21) print(result) # this code is contributed by Nikita Tiwari
C# 
// A simple C# program to  // find index of given  // Fibonacci number. using System; class GFG  {  static int findIndex(int n)  {    // if Fibonacci number   // is less than 2 its   // index will be same   // as number  if (n <= 1)  return n;    int a = 0 b = 1 c = 1;  int res = 1;    // iterate until generated   // fibonacci number is less   // than given fibonacci number  while (c < n)  {  c = a + b;    // res keeps track of   // number of generated  // fibonacci number  res++;  a = b;  b = c;  }    return res;  }    // Driver Code  public static void Main ()   {  int result = findIndex(21);  Console.WriteLine(result);  } } // This code is contributed // by anuj_67.
JavaScript 
<script> // A simple Javascript program to  // find index of given  // Fibonacci number. function findIndex(n) {    // If Fibonacci number   // is less than 2 its   // index will be same   // as number  if (n <= 1)  return n;    let a = 0 b = 1 c = 1;  let res = 1;    // Iterate until generated   // fibonacci number is less   // than given fibonacci number  while (c < n)  {  c = a + b;    // res keeps track of   // number of generated  // fibonacci number  res++;  a = b;  b = c;  }  return res; } // Driver code let result = findIndex(21); document.write(result); // This code is contributed by decode2207  </script>
PHP 
 // A simple PHP program to  // find index of given // Fibonacci number. function findIndex($n) { // if Fibonacci number // is less than 2 // its index will be  // same as number if ($n <= 1) return $n; $a = 0; $b = 1; $c = 1; $res = 1; // iterate until generated  // fibonacci number  // is less than given // fibonacci number while ($c < $n) { $c = $a + $b; // res keeps track of  // number of generated  // fibonacci number $res++; $a = $b; $b = $c; } return $res; } // Driver Code $result = findIndex(21); echo($result); // This code is contributed by Ajit. ?>

Produktion 
8

Metod 2 (formelbaserad)
Men här behövde vi generera alla Fibonacci-tal upp till ett angett Fibonacci-nummer. Men det finns en snabb lösning på detta problem. Låt oss se hur! Observera att beräkning av loggen för ett nummer är en O(1)-operation på de flesta plattformar.


Fibonacci-numret beskrivs som 
F n = 1 / sqrt(5) (pow(an) - pow(bn)) där 
a = 1/2 ( 1 + sqrt(5) ) och b = 1/2 ( 1 - sqrt(5) )

Om man försummar pow(b n) som är mycket liten på grund av det stora värdet av n vi får 
n = rund { 2,078087 * log(Fn) + 1,672276 }  
där runda betyder avrunda till närmaste heltal.

Nedan är implementeringen av ovanstående idé. 

C++ 
// C++ program to find index of given Fibonacci // number #include   int findIndex(int n) {  float fibo = 2.078087 * log(n) + 1.672276;  // returning rounded off value of index  return round(fibo); } // Driver program to test above function int main() {  int n = 55;  printf('%dn' findIndex(n)); }
Java 
// A simple Java program to find index of given // Fibonacci number public class Fibonacci {  static int findIndex(int n)  {  float fibo = 2.078087F * (float) Math.log(n) + 1.672276F;  // returning rounded off value of index  return Math.round(fibo);  }  public static void main(String[] args)  {  int result = findIndex(55);  System.out.println(result);  } }
Python3 
# Python 3 program to find index of given Fibonacci # number import math def findIndex(n) : fibo = 2.078087 * math.log(n) + 1.672276 # returning rounded off value of index return round(fibo) # Driver program to test above function n = 21 print(findIndex(n)) # This code is contributed by Nikita Tiwari.
C# 
// A simple C# program to find  // index of given Fibonacci number using System; class Fibonacci { static int findIndex(int n) {  float fibo = 2.078087F * (float) Math.Log(n) +  1.672276F;  // returning rounded off value of index  return (int)(Math.Round(fibo)); }  // Driver code  public static void Main()  {  int result = findIndex(55);  Console.Write(result);  } } // This code is contributed by nitin mittal
JavaScript 
<script> // A simple Javascript program to find  // index of given Fibonacci number function findIndex(n) {  var fibo = 2.078087 * parseFloat(Math.log(n)) + 1.672276;    // Returning rounded off value of index  return Math.round(fibo); } // Driver code var result = findIndex(55); document.write(result); // This code is contributed by Ankita saini </script>
PHP 
 // PHP program to find index // of given Fibonacci Number function findIndex($n) { $fibo = 2.078087 * log($n) + 1.672276; // returning rounded off // value of index return round($fibo); } // Driver code $n = 55; echo(findIndex($n)); // This code is contributed by Ajit. ?>

Produktion 
10

Tidskomplexitet : O(1)
Hjälputrymme : O(1)

Närma sig:

vi kan lösa det här problemet med formeln för det n:e Fibonacci-talet som är:

F(n) = (pow((1+sqrt(5))/2 n) - pow((1-sqrt(5))/2 n)) / sqrt(5)

Vi kan härleda indexet för ett givet Fibonacci-tal med denna formel. Vi kan iterera över värdena på n och beräkna motsvarande Fibonacci-tal med ovanstående formel tills vi hittar ett Fibonacci-tal som är större än eller lika med det givna talet. Vid denna tidpunkt kan vi returnera indexet för Fibonacci-talet som matchar det givna numret.

Nedan är implementeringen av ovanstående tillvägagångssätt:

C++ 
#include    #include  using namespace std; int findIndex(int n) {  double phi = (1 + sqrt(5)) / 2;  int index = round(log(n * sqrt(5) + 0.5) / log(phi));  int fib = round((pow(phi index) - pow(1 - phi index)) / sqrt(5));  if (fib == n)  return index;  else  return -1; // n is not a Fibonacci number } int main() {  int n = 34;  int index = findIndex(n);  cout << 'The index of ' << n << ' is ' << index << endl;  return 0; }
Java 
//Java code for the above approach import java.util.*; public class FibonacciIndex {  public static int findIndex(int n) {  double phi = (1 + Math.sqrt(5)) / 2;  int index = (int) Math.round(Math.log(n * Math.sqrt(5) + 0.5) / Math.log(phi));  int fib = (int) Math.round((Math.pow(phi index) - Math.pow(1 - phi index)) / Math.sqrt(5));  if (fib == n)  return index;  else  return -1; // n is not a Fibonacci number  }  public static void main(String[] args) {  int n = 34;  int index = findIndex(n);  System.out.println('The index of ' + n + ' is ' + index);  } }
Python3 
import math def find_index(n): phi = (1 + math.sqrt(5)) / 2 index = round(math.log(n * math.sqrt(5) + 0.5) / math.log(phi)) fib = round((math.pow(phi index) - math.pow(1 - phi index)) / math.sqrt(5)) if fib == n: return index else: return -1 # n is not a Fibonacci number def main(): n = 34 index = find_index(n) print(f'The index of {n} is {index}') if __name__ == '__main__': main()
C# 
using System; class Program {  // Function to find the index of a number in the Fibonacci sequence  static int FindIndex(int n)  {  double phi = (1 + Math.Sqrt(5)) / 2; // Golden ratio    // Calculate the index using the formula for Fibonacci numbers  int index = (int)Math.Round(Math.Log(n * Math.Sqrt(5) + 0.5) / Math.Log(phi));    // Calculate the Fibonacci number at the found index  int fib = (int)Math.Round((Math.Pow(phi index) - Math.Pow(1 - phi index)) / Math.Sqrt(5));    // Check if the calculated Fibonacci number is equal to n  if (fib == n)  return index;  else  return -1; // n is not a Fibonacci number  }  static void Main()  {  int n = 34;  int index = FindIndex(n);  Console.WriteLine('The index of ' + n + ' is ' + index);  } }
JavaScript 
// Function to find the index of a number in the Fibonacci sequence function findIndex(n) {  const phi = (1 + Math.sqrt(5)) / 2;  const index = Math.round(Math.log(n * Math.sqrt(5) + 0.5) / Math.log(phi));  const fib = Math.round((Math.pow(phi index) - Math.pow(1 - phi index)) / Math.sqrt(5));  if (fib === n) {  return index;  } else {  return -1; // n is not a Fibonacci number  } } // Main function to test the findIndex function function main() {  const n = 34;  const index = findIndex(n);  console.log('The index of ' + n + ' is ' + index); } main();

Produktion 
The index of 34 is 9

Tidskomplexitet: O(1) eftersom det bara omfattar ett fåtal aritmetiska operationer.
Utrymmes komplexitet: O(1) eftersom den bara använder en konstant mängd minne för att lagra variablerna.

Denna artikel är bidragit av Aditya Kumar .

 

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