CONVERTIR UNE FRACTION DÉCIMALE EN NOMBRE BINAIRE

Étant donné une fraction de nombre décimal n et un entier k, convertissez le nombre décimal n en nombre binaire équivalent jusqu'à k précision après la virgule décimale.

Exemples:

Input: n = 2.47, k = 5 Output: 10.01111 Input: n = 6.986 k = 8 Output: 110.11111100>

Nous vous recommandons fortement de cliquer ici et de vous entraîner avant de passer à la solution.

A) Convertir la partie intégrante du décimal en équivalent binaire

Divisez le nombre décimal par 2 et stockez les restes dans un tableau.
Divisez le quotient par 2.
Répétez l'étape 2 jusqu'à ce que nous obtenions le quotient égal à zéro.
Le nombre binaire équivalent serait l'inverse de tous les restes de l'étape 1.

B) Convertir la partie fractionnaire d'un décimal en équivalent binaire

Multipliez le nombre décimal fractionnaire par 2.
La partie intégrante du nombre décimal résultant sera le premier chiffre du nombre binaire de fraction.
Répétez l'étape 1 en utilisant uniquement la partie fractionnaire du nombre décimal, puis l'étape 2.

C) Combinez les parties intégrale et fractionnaire d’un nombre binaire.

Illustration :

Let's take an example for n = 4.47 k = 3 Step 1: Conversion of 4 to binary 1. 4/2 : Remainder = 0 : Quotient = 2 2. 2/2 : Remainder = 0 : Quotient = 1 3. 1/2 : Remainder = 1 : Quotient = 0 So equivalent binary of integral part of decimal is 100. Step 2: Conversion of .47 to binary 1. 0.47 * 2 = 0.94, Integral part: 0 2. 0.94 * 2 = 1.88, Integral part: 1 3. 0.88 * 2 = 1.76, Integral part: 1 So equivalent binary of fractional part of decimal is .011 Step 3: Combined the result of step 1 and 2. Final answer can be written as: 100 + .011 = 100.011>

Programme pour démontrer les étapes ci-dessus :

C++

// C++ program to convert fractional decimal> // to binary number> #include> using> namespace> std;> > // Function to convert decimal to binary upto> // k-precision after decimal point> string decimalToBinary(>double> num,>int> k_prec)> {> >string binary =>''>;> > >// Fetch the integral part of decimal number> >int> Integral = num;> > >// Fetch the fractional part decimal number> >double> fractional = num - Integral;> > >// Conversion of integral part to> >// binary equivalent> >while> (Integral)> >{> >int> rem = Integral % 2;> > >// Append 0 in binary> >binary.push_back(rem +>'0'>);> > >Integral /= 2;> >}> > >// Reverse string to get original binary> >// equivalent> >reverse(binary.begin(),binary.end());> > >// Append point before conversion of> >// fractional part> >binary.push_back(>'.'>);> > >// Conversion of fractional part to> >// binary equivalent> >while> (k_prec--)> >{> >// Find next bit in fraction> >fractional *= 2;> >int> fract_bit = fractional;> > >if> (fract_bit == 1)> >{> >fractional -= fract_bit;> >binary.push_back(1 +>'0'>);> >}> >else> >binary.push_back(0 +>'0'>);> >}> > >return> binary;> }> > // Driver code> int> main()> {> > >double> n = 4.47;> >int> k = 3;> >cout << decimalToBinary(n, k) <<>

'
'>

;> > >n = 6.986 , k = 5;> >cout << decimalToBinary(n, k);> >return> 0;> }>

Java

// Java program to convert fractional decimal> // to binary number> import> java.util.*;> > class> GFG> {> > >// Function to convert decimal to binary upto> >// k-precision after decimal point> >static> String decimalToBinary(>double> num,>int> k_prec)> >{> >String binary =>''>;> > >// Fetch the integral part of decimal number> >int> Integral = (>int>) num;> > >// Fetch the fractional part decimal number> >double> fractional = num - Integral;> > >// Conversion of integral part to> >// binary equivalent> >while> (Integral>>0>)> >{> >int> rem = Integral %>2>;> > >// Append 0 in binary> >binary += ((>char>)(rem +>'0'>));> > >Integral /=>2>;> >}> > >// Reverse string to get original binary> >// equivalent> >binary = reverse(binary);> > >// Append point before conversion of> >// fractional part> >binary += (>'.'>);> > >// Conversion of fractional part to> >// binary equivalent> >while> (k_prec-->>0>)> >{> >// Find next bit in fraction> >fractional *=>2>;> >int> fract_bit = (>int>) fractional;> > >if> (fract_bit ==>1>)> >{> >fractional -= fract_bit;> >binary += (>char>)(>1> +>'0'>);> >}> >else> >{> >binary += (>char>)(>0> +>'0'>);> >}> >}> > >return> binary;> >}> > >static> String reverse(String input)> >{> >char>[] temparray = input.toCharArray();> >int> left, right =>0>;> >right = temparray.length ->1>;> > >for> (left =>0>

; left   {   // Swap values of left and right   char temp = temparray[left];   temparray[left] = temparray[right];   temparray[right] = temp;   }   return String.valueOf(temparray);   }     // Driver code   public static void main(String[] args)   {   double n = 4.47;   int k = 3;   System.out.println(decimalToBinary(n, k));     n = 6.986;   k = 5;   System.out.println(decimalToBinary(n, k));   }  }    // This code contributed by Rajput-Ji>

Python3

# Python3 program to convert fractional> # decimal to binary number> > # Function to convert decimal to binary> # upto k-precision after decimal point> def> decimalToBinary(num, k_prec) :> > >binary>=> ''> > ># Fetch the integral part of> ># decimal number> >Integral>=> int>(num)> > ># Fetch the fractional part> ># decimal number> >fractional>=> num>-> Integral> > ># Conversion of integral part to> ># binary equivalent> >while> (Integral) :> > >rem>=> Integral>%> 2> > ># Append 0 in binary> >binary>+>=> str>(rem);> > >Integral>/>/>=> 2> > ># Reverse string to get original> ># binary equivalent> >binary>=> binary[ : :>->1>]> > ># Append point before conversion> ># of fractional part> >binary>+>=> '.'> > ># Conversion of fractional part> ># to binary equivalent> >while> (k_prec) :> > ># Find next bit in fraction> >fractional>*>=> 2> >fract_bit>=> int>(fractional)> > >if> (fract_bit>=>=> 1>) :> > >fractional>->=> fract_bit> >binary>+>=> '1'> > >else> :> >binary>+>=> '0'> > >k_prec>->=> 1> > >return> binary> > # Driver code> if> __name__>=>=> '__main__'> :> > >n>=> 4.47> >k>=> 3> >print>(decimalToBinary(n, k))> > >n>=> 6.986> >k>=> 5> >print>(decimalToBinary(n, k))> > # This code is contributed by Ryuga>

C#

// C# program to convert fractional decimal> // to binary number> using> System;> > class> GFG> {> > >// Function to convert decimal to binary upto> >// k-precision after decimal point> >static> String decimalToBinary(>double> num,>int> k_prec)> >{> >String binary =>''>;> > >// Fetch the integral part of decimal number> >int> Integral = (>int>) num;> > >// Fetch the fractional part decimal number> >double> fractional = num - Integral;> > >// Conversion of integral part to> >// binary equivalent> >while> (Integral>0)> >{> >int> rem = Integral % 2;> > >// Append 0 in binary> >binary += ((>char>)(rem +>'0'>));> > >Integral /= 2;> >}> > >// Reverse string to get original binary> >// equivalent> >binary = reverse(binary);> > >// Append point before conversion of> >// fractional part> >binary += (>'.'>);> > >// Conversion of fractional part to> >// binary equivalent> >while> (k_prec-->0)> >{> >// Find next bit in fraction> >fractional *= 2;> >int> fract_bit = (>int>) fractional;> > >if> (fract_bit == 1)> >{> >fractional -= fract_bit;> >binary += (>char>)(1 +>'0'>);> >}> >else> >{> >binary += (>char>)(0 +>'0'>);> >}> >}> > >return> binary;> >}> > >static> String reverse(String input)> >{> >char>[] temparray = input.ToCharArray();> >int> left, right = 0;> >right = temparray.Length - 1;> > >for>

(left = 0; left   {   // Swap values of left and right   char temp = temparray[left];   temparray[left] = temparray[right];   temparray[right] = temp;   }   return String.Join('',temparray);   }     // Driver code   public static void Main(String[] args)   {   double n = 4.47;   int k = 3;   Console.WriteLine(decimalToBinary(n, k));     n = 6.986;   k = 5;   Console.WriteLine(decimalToBinary(n, k));   }  }    // This code has been contributed by 29AjayKumar>

chaîne dans un tableau java

PHP

 // PHP program to convert fractional decimal  // to binary number    // Function to convert decimal to binary upto  // k-precision after decimal point  function decimalToBinary($num, $k_prec)  {   $binary = '';     // Fetch the integral part of decimal number   $Integral = (int)($num);     // Fetch the fractional part decimal number   $fractional = $num - $Integral;     // Conversion of integral part to   // binary equivalent   while ($Integral)   {   $rem = $Integral % 2;     // Append 0 in binary   $binary.=chr($rem + 48 );     $Integral = (int)($Integral/2);   }     // Reverse string to get original binary   // equivalent   $binary=strrev($binary);     // Append point before conversion of   // fractional part   $binary.='.';     // Conversion of fractional part to   // binary equivalent   while ($k_prec--)   {   // Find next bit in fraction   $fractional *= 2;   $fract_bit = (int)$fractional;     if ($fract_bit == 1)   {   $fractional -= $fract_bit;   $binary.=chr(1 + 48 );   }   else  $binary.=chr(0 + 48 );   }     return $binary;  }    // Driver code     $n = 4.47;   $k = 3;   echo decimalToBinary($n, $k).'
';     $n = 6.986;   $k = 5;   echo decimalToBinary($n, $k);    // This code is contributed by mits  ?>>

Javascript

> > >// JavaScript program to convert fractional> >// decimal to binary number> > >// Function to convert decimal to binary upto> >// k-precision after decimal point> >function> decimalToBinary(num, k_prec)> >{> >let binary =>''>;> > >// Fetch the integral part of decimal number> >let Integral = parseInt(num, 10);> > >// Fetch the fractional part decimal number> >let fractional = num - Integral;> > >// Conversion of integral part to> >// binary equivalent> >while> (Integral>0)> >{> >let rem = Integral % 2;> > >// Append 0 in binary> >binary +=> >(String.fromCharCode(rem +>'0'>.charCodeAt()));> > >Integral = parseInt(Integral / 2, 10);> >}> > >// Reverse string to get original binary> >// equivalent> >binary = reverse(binary);> > >// Append point before conversion of> >// fractional part> >binary += (>'.'>);> > >// Conversion of fractional part to> >// binary equivalent> >while> (k_prec-->0)> >{> >// Find next bit in fraction> >fractional *= 2;> >let fract_bit = parseInt(fractional, 10);> > >if> (fract_bit == 1)> >{> >fractional -= fract_bit;> >binary +=> >String.fromCharCode(1 +>'0'>.charCodeAt());> >}> >else> >{> >binary +=> >String.fromCharCode(0 +>'0'>.charCodeAt());> >}> >}> > >return> binary;> >}> > >function> reverse(input)> >{> >let temparray = input.split(>''>);> >let left, right = 0;> >right = temparray.length - 1;> > >for>

(left = 0; left   {   // Swap values of left and right   let temp = temparray[left];   temparray[left] = temparray[right];   temparray[right] = temp;   }   return temparray.join('');   }     let n = 4.47;   let k = 3;   document.write(decimalToBinary(n, k) + '');     n = 6.986;   k = 5;   document.write(decimalToBinary(n, k));>

Sortir

100.011 110.11111>

Complexité temporelle : O(len(n))
Espace auxiliaire : O(len(n))

où len() est le nombre total de chiffres contenus dans le nombre n.
Convertir une fraction binaire en décimale

TechCodeview

C++

Java

Python3

C#

PHP

Javascript