Dota virkne s un vesels skaitlis d uzdevums ir pagriezt pa kreisi virkne by d pozīcijas.
Piemēri:
Ievade : s = 'GeeksforGeeks' d = 2
Izvade : 'exforGeeksGe'
Paskaidrojums : Pēc pirmās rotācijas virknes s kļūst par ' eeksforGeeksG' un pēc otrās rotācijas tas kļūst par ' exforGeeksGe' .Ievade : s = 'qwertyu' d = 2
Izvade : 'ertuqw'
Paskaidrojums : pēc pirmās rotācijas virknes s kļūst par ' Werq' un pēc otrās rotācijas tas kļūst par ' Ertuq' .
Satura rādītājs
- [Naivā pieeja] Pa kreisi Pagrieziet pa vienam
- [Labāka pieeja] Pagaidu Char Array izmantošana
- [Paredzamā pieeja — 1] Žonglēšanas algoritma izmantošana
- [Paredzamā pieeja — 2] Apvērsuma algoritma izmantošana
[Naivā pieeja] Pa kreisi Pagrieziet pa vienam
C++T viņa ideja ir uzglabāt vispirms raksturs mainīgajā un maiņa visi atlikušais rakstzīmes uz pa kreisi par vienu pozīciju, tad novietojiet vispirms rakstzīme virknes beigās. Šis process tiek atkārtots d reizes.
// C++ Program to left rotate the string by d // positions by rotating one element at a time #include
// C Program to left rotate the string by d positions // by rotating one element at a time #include
// Java Program to left rotate the string by d positions // by rotating one element at a time import java.util.Arrays; class GfG { static String rotateString(String s int d) { // Convert the string to a char array char[] charArray = s.toCharArray(); int n = charArray.length; // Perform the rotation d times for (int i = 0; i < d; i++) { // Store the first character char first = charArray[0]; // Shift each character one position to // the left for (int j = 0; j < n - 1; j++) charArray[j] = charArray[j + 1]; // Move the first character to the end charArray[n - 1] = first; } return new String(charArray); } public static void main(String[] args) { String s = 'GeeksforGeeks'; int d = 2; String rotatedString = rotateString(s d); System.out.println(rotatedString); } }
# python Program to left rotate the string by d # positions by rotating one element at a time def rotateString(s d): # Convert the string to a list of # characters s = list(s) n = len(s) # Perform the rotation d times for _ in range(d): # Store the first character first = s[0] # Shift each character one # position to the left for i in range(n - 1): s[i] = s[i + 1] # Move the first character to the end s[n - 1] = first # Convert the list back to a string return ''.join(s) s = 'GeeksforGeeks' d = 2 rotatedString = rotateString(s d) print(rotatedString)
// C# Program to left rotate the string by d positions // by rotating one element at a time using System; class GfG { static string rotateString(string s int d) { // Convert the string to a character array char[] charArray = s.ToCharArray(); int n = charArray.Length; // Perform the rotation d times for (int i = 0; i < d; i++) { // Store the first character char first = charArray[0]; // Shift each character one position to // the left for (int j = 0; j < n - 1; j++) charArray[j] = charArray[j + 1]; // Move the first character to the end charArray[n - 1] = first; } // Convert the character array to a string return new string(charArray); } static void Main() { string s = 'GeeksforGeeks'; int d = 2; string rotatedString = rotateString(s d); Console.WriteLine(rotatedString); } }
// Javascript Program to left rotate the string by d positions // by rotating one element at a time function rotateString(s d) { // Convert the string to an array let charArray = s.split(''); let n = charArray.length; // Perform the rotation d times for (let i = 0; i < d; i++) { // Store the first character let first = charArray[0]; // Shift each character one position to the left for (let j = 0; j < n - 1; j++) charArray[j] = charArray[j + 1]; // Move the first character to the end charArray[n - 1] = first; } // Convert the array back to a string return charArray.join(''); } let s = 'GeeksforGeeks'; let d = 2; let rotatedString = rotateString(s d); console.log(rotatedString);
Izvade
eksforGeeksGe
Laika sarežģītība: O(n*d) darbojas ārējā cilpa d reizes un iekšējās cilpas darbības n reizes.
Palīgtelpa: O(1), ja virkne ir mainīgs tāpat kā C++. Par nemainīgas stīgas tāpat kā Java C# Python un Javascript tiek izmantots papildu rakstzīmju masīvs ar izmēru n, tāpēc telpas sarežģītība būs O(n).
[Labāka pieeja] Pagaidu Char Array izmantošana
C++Ideja ir izmantot pagaidu rakstzīmju masīvu n (oriģinālās virknes izmērs). Ja mēs atstājām, pagrieziet virkni par d ieņem pēdējo n – d elementi būs pie priekšā un pirmais d elementi būs pie beigas .
- Kopējiet pēdējie (n – d) elementi sākotnējā virkne pirmajā n – d pagaidu masīva pozīcijas.
- Pēc tam nokopējiet pirmie d elementi no sākotnējās virknes līdz pagaidu masīva beigām.
- Beidzot konvertēt pagaidu char masīvs uz virkni.
// C++ program to left rotate a string by d // position using a temporary array #include
// Java program to left rotate a string by d position // using a temporary array import java.io.*; class GfG { static String rotateString(String s int d) { int n = s.length(); // Handle cases where d > n d = d % n; char[] temp = new char[n]; // Copy the last (n - d) characters to the // start of temp array for (int i = 0; i < n - d; i++) temp[i] = s.charAt(d + i); // Copy the first d characters to the end of // temp array for (int i = 0; i < d; i++) temp[n - d + i] = s.charAt(i); // Convert the temp array back to the String return new String(temp); } public static void main(String[] args) { String s = 'GeeksforGeeks'; int d = 2; String rotatedString = rotateString(s d); System.out.println(rotatedString); } }
# Python program to left rotate a string # by d position using a temporary array def rotateString(s d): n = len(s) # Handle cases where d > n d = d % n # Create a temporary array of the # same length as s temp = [''] * n # Copy the last (n - d) characters # to the start of temp array for i in range(n - d): temp[i] = s[d + i] # Copy the first d characters to the #end of temp array for i in range(d): temp[n - d + i] = s[i] # Convert temp array back to the string return ''.join(temp) s = 'GeeksforGeeks' d = 2 rotatedString = rotateString(s d) print(rotatedString)
// C# program to left rotate a string by d position // using temporary array using System; class GfG { static string rotateString(string s int d) { int n = s.Length; // Handle cases where d > n d = d % n; char[] temp = new char[n]; // Copy the last (n - d) characters // to the start of temp array for (int i = 0; i < n - d; i++) temp[i] = s[d + i]; // Copy the first d characters to the end // of temp array for (int i = 0; i < d; i++) temp[n - d + i] = s[i]; // Convert temp array back to the string return new string(temp); } static void Main() { string s = 'GeeksforGeeks'; int d = 2; string rotatedString = rotateString(s d); Console.WriteLine(rotatedString); } }
// Javascript program to left rotate a string // by d position using temporary array function rotateString(s d) { let n = s.length; // Handle cases where d > n d = d % n; let temp = new Array(n); // Copy the last (n - d) characters to // the start of temp array for (let i = 0; i < n - d; i++) temp[i] = s[d + i]; // Copy the first d characters // to the end of temp array for (let i = 0; i < d; i++) temp[n - d + i] = s[i]; // Convert the array back to the string return temp.join(''); } let s = 'GeeksforGeeks'; let d = 2; let rotatedString = rotateString(s d); console.log(rotatedString);
Izvade
eksforGeeksGe
Laika sarežģītība: O(n), jo mēs katru elementu apmeklējam tikai divas reizes.
Palīgtelpa: O (n), jo mēs izmantojam papildu rakstzīmju masīvu.
[Paredzamā pieeja — 1] Žonglēšanas algoritma izmantošana
C++Žonglēšanas algoritma ideja ir tāda, ka mēs varam pagriezt visus elementus ciklā. Katrs cikls ir neatkarīgs un apzīmē elementu grupu, kas rotācijas laikā mainīsies savā starpā. Ja sākot cikla indekss ir i tad nākamie cikla elementi būs klāt indeksos (i + d) % n (i + 2d) % n (i + 3d) % n ... un tā tālāk, līdz mēs atgriežamies pie indeksa i. Kopējais ciklu skaits būs n un d GCD . Un mēs izpildām a viena rotācija pa kreisi katrā ciklā.
Lai uzzinātu vairāk par žonglēšanas algoritmu, skatiet šo rakstu - Žonglēšanas algoritms masīva rotācijai .
// C++ Program to left rotate the string by d positions // using Juggling Algorithm #include
// C Program to left rotate the string by d positions // using Juggling Algorithm #include
// Java Program to left rotate the string by d positions // using Juggling Algorithm import java.io.*; class GfG { static String rotateString(String s int d) { int n = s.length(); // Handle the case where // d > size of the string d %= n; // Calculate the number of // cycles (GCD of n and d) int cycles = gcd(n d); // Convert string to character array char[] arr = s.toCharArray(); // Perform a left rotation within each cycle for (int i = 0; i < cycles; i++) { // Start element of current cycle char temp = arr[i]; int j = i; while (true) { int k = (j + d) % n; if (k == i) { break; } // Move the element to the next index arr[j] = arr[k]; j = k; } // Place the saved element in the // last position of the cycle arr[j] = temp; } // Convert the rotated character // array back to a string return new String(arr); } // function to calculate GCD of two numbers static int gcd(int a int b) { if (b == 0) { return a; } return gcd(b a % b); } public static void main(String[] args) { String s = 'GeeksforGeeks'; int d = 2; String rotatedString = rotateString(s d); System.out.println(rotatedString); } }
# python Program to left rotate the string by # d positions using Juggling Algorithm def gcd(a b): while b: a b = b a % b return a def rotateString(s d): n = len(s) # Handle the case where d > size of # the string d %= n # Calculate the number of cycles (GCD # of n and d) cycles = gcd(n d) # Convert string to a list of characters arr = list(s) # Perfrom a left rotation wihtin each cycle for i in range(cycles): # Start element of current cycle temp = arr[i] j = i while True: k = (j + d) % n if k == i: break # Move the element to the next # index arr[j] = arr[k] j = k # Place the saved element in the last # position of the cycle arr[j] = temp # Convert the list of characters back to # a string and return return ''.join(arr) s = 'GeeksforGeeks' d = 2 rotatedString = rotateString(s d) print(rotatedString)
// C# Program to left rotate the string by d positions // using Juggling Algorithm using System; class GfG { static int Gcd(int a int b) { while (b != 0) { int temp = b; b = a % b; a = temp; } return a; } static string rotateString(string s int d) { int n = s.Length; // Handle the case where d > size of the string d %= n; // Calculate the number of cycles (GCD of n and d) int cycles = Gcd(n d); // Convert string to a character array char[] arr = s.ToCharArray(); // Perform a left rotation within each cycle for (int i = 0; i < cycles; i++) { // Start element of the current cycle char temp = arr[i]; int j = i; while (true) { int k = (j + d) % n; if (k == i) break; // Move the element to the next index arr[j] = arr[k]; j = k; } // Place the saved element in the last position // of the cycle arr[j] = temp; } // Convert the character array back to a string return new string(arr); } static void Main() { string s = 'GeeksforGeeks'; int d = 2; string rotatedString = rotateString(s d); Console.WriteLine(rotatedString); } }
// JavaScript Program to left rotate the string by d // positions using Juggling Algorithm function gcd(a b) { while (b !== 0) { let temp = b; b = a % b; a = temp; } return a; } function rotateString(s d) { let n = s.length; // Handle the case where d > size of the string d %= n; // Calculate the number of cycles (GCD of n and d) let cycles = gcd(n d); // Convert string to a character array let arr = s.split(''); // Perform a left rotation within each cycle for (let i = 0; i < cycles; i++) { // Start element of the current cycle let temp = arr[i]; let j = i; while (true) { let k = (j + d) % n; if (k === i) { break; } // Move the element to the next index arr[j] = arr[k]; j = k; } // Place the first element in the last position // of the cycle arr[j] = temp; } // Convert the character array back to a string return arr.join(''); } let s = 'GeeksforGeeks'; let d = 2; let rotatedString = rotateString(s d); console.log(rotatedString);
Izvade
eksforGeeksGe
Laika sarežģītība: O(n)
Palīgtelpa: O(1), ja virkne ir mainīgs tāpat kā C++. Par nemainīgas stīgas tāpat kā Java C# Python un Javascript tiek izmantots papildu rakstzīmju masīvs ar izmēru n, tāpēc telpas sarežģītība būs O(n).
[Paredzamā pieeja — 2] Apvērsuma algoritma izmantošana
C++Ideja ir balstīta uz novērojumu, ka, ja mēs atstājam, pagrieziet virkni par d ieņem pēdējo (n–d) elementi būs priekšā un pirmajā d elementi būs beigās.
- Reverss apakšvirkne, kas satur pirmais d virknes elementi.
- Reverss apakšvirkne, kas satur pēdējais (n–d) virknes elementi.
- Beidzot apgriezt visus elementus no virknes.
// C++ program to left rotate a string by d position // using Reversal Algorithm #include
// Java program to left rotate a string by d position // using Reversal Algorithm import java.io.*; class GfG { static String rotateString(String s int d) { int n = s.length(); // Handle the case where d > size of string d %= n; // Convert string to a character array char[] temp = s.toCharArray(); // Reverse the first d elements reverse(temp 0 d - 1); // Reverse the remaining n-d elements reverse(temp d n - 1); // Reverse the entire array reverse(temp 0 n - 1); // Convert the array back to a string and return return new String(temp); } static void reverse(char[] temp int start int end) { while (start < end) { char c = temp[start]; temp[start] = temp[end]; temp[end] = c; start++; end--; } } public static void main(String[] args) { String s = 'GeeksforGeeks'; int d = 2; String rotatedString = rotateString(s d); System.out.println(rotatedString); } }
# Python program to left rotate a string by d positons # using Reversal Algorithm def rotateString(s d): n = len(s) # Handle cases where d > n d %= n # Convert the string to a list of characters temp = list(s) # Reverse the first d elements reverse(temp 0 d - 1) # Reverse the remaining n - d elements reverse(temp d n - 1) # Reverse the entire array reverse(temp 0 n - 1) # Convert the list back to a string and return return ''.join(temp) def reverse(temp start end): while start < end: temp[start] temp[end] = temp[end] temp[start] start += 1 end -= 1 s = 'GeeksforGeeks' d = 2 rotatedString = rotateString(s d) print(rotatedString)
// C++ program to left rotate a string by d positions // using Reversal Algorithm using System; class GfG { static string RotateString(string s int d) { int n = s.Length; // Handle cases where d > n d %= n; // Convert the string to a character array char[] temp = s.ToCharArray(); // Reverse the first d elements Reverse(temp 0 d - 1); // Reverse the remaining n - d elements Reverse(temp d n - 1); // Reverse the entire array Reverse(temp 0 n - 1); // Convert the character array back to a string return new string(temp); } static void Reverse(char[] temp int start int end) { while (start < end) { char c = temp[start]; temp[start] = temp[end]; temp[end] = c; start++; end--; } } static void Main() { string s = 'GeeksforGeeks'; int d = 2; string rotatedString = RotateString(s d); Console.WriteLine(rotatedString); } }
// C++ program to left rotate a string by d position // using Reversal Algorithm function rotateString(s d) { const n = s.length; // Handle cases where d > n d %= n; // Convert the string to a character array let temp = s.split(''); // Reverse the first d elements reverse(temp 0 d - 1); // Reverse the remaining n - d elements reverse(temp d n - 1); // Reverse the entire array reverse(temp 0 n - 1); // Convert the array back to a string return temp.join(''); } function reverse(temp start end) { while (start < end) { // Swap elements [temp[start] temp[end]] = [temp[end] temp[start]]; start++; end--; } } let s = 'GeeksforGeeks'; let d = 2; let rotatedString = rotateString(s d); console.log(rotatedString);
Izvade
eksforGeeksGe
Laika sarežģītība: O(n) kur n ir dotās virknes lielums.
Palīgtelpa: O(1), ja virkne ir mainīgs tāpat kā C++. Par nemainīgas stīgas tāpat kā Java C# python un Javascript tiek izmantots papildu rakstzīmju masīvs ar izmēru n, tāpēc telpas sarežģītība būs O(n).