Ņemot vērā a stīga s uzdevums ir atrast minimums rakstzīmes, kas būtu pievienots (ievietojums beigās) lai izveidotu stīgu palindromu.
Piemēri:
Ievade : s = 'pabeigts'
Izvade : 2
Paskaidrojums: Mēs varam izveidot stīgu palindromu kā "abede". nē ' pievienojot nē virknes galā.
Ievade :s = 'aabb'
Izvade : 2
Paskaidrojums: Mēs varam izveidot stīgu palindromu kā'aabb aa ' pievienojot aa virknes galā.
Satura rādītājs
- Katru reizi pārbaudiet palindromu — O(n^2) laiks un O(n) telpa
- Izmantojot Knuta Morisa Prata algoritmu - O(n) laiks un O(n) telpa
Katru reizi pārbaudiet palindromu — O(n^2) laiks un O(n) telpa
C++Risinājums ietver pakāpeniski rakstzīmju noņemšana no sākums no virknes pa vienam, līdz virkne kļūst par a palindroms . Atbilde būs kopējais noņemto rakstzīmju skaits.
Piemēram, apsveriet virkni s = ‘šeit’. Vispirms mēs pārbaudām, vai visa virkne ir palindroms, kas tā nav. Pēc tam mēs noņemam pirmo rakstzīmi, kas rada virkne 'ubagot'. Mēs pārbaudām vēlreiz, bet tas joprojām nav palindroms. Pēc tam mēs no sākuma noņemam citu rakstzīmi atstājot 'ede'. Šoreiz stīga ir palindroms. Tāpēc izvade ir 2 apzīmē no sākuma izņemto rakstzīmju skaitu, lai sasniegtu palindromu.
// C++ code to find minimum number // of appends to make string Palindrome #include
// Java code to find minimum number // of appends to make string Palindrome import java.util.*; class GfG { // Function to check if a given string is a palindrome static boolean isPalindrome(String s) { int left = 0 right = s.length() - 1; while (left < right) { if (s.charAt(left) != s.charAt(right)) return false; left++; right--; } return true; } // Function to find the minimum number of // characters to remove from the beginning static int noOfAppends(String s) { int n = s.length(); // Remove characters from the start until // the string becomes a palindrome for (int i = 0; i < n; i++) { if (isPalindrome(s.substring(i))) { // Return the number of characters removed return i; } } // If no palindrome is found remove // all but one character return n - 1; } public static void main(String[] args) { String s = 'abede'; int result = noOfAppends(s); System.out.println(result); } }
# Python code to find minimum number # of appends to make string Palindrome # Function to check if a given string is a palindrome def is_palindrome(s): left right = 0 len(s) - 1 while left < right: if s[left] != s[right]: return False left += 1 right -= 1 return True # Function to find the minimum number of # characters to remove from the beginning def no_of_appends(s): n = len(s) # Remove characters from the start until # the string becomes a palindrome for i in range(n): if is_palindrome(s[i:]): # Return the number of characters # removed return i # If no palindrome is found remove # all but one character return n - 1 if __name__ == '__main__': s = 'abede' result = no_of_appends(s) print(result)
// C# code to find minimum number // of appends to make string Palindrome using System; class GfG { // Function to check if a given string // is a palindrome static bool IsPalindrome(string s) { int left = 0 right = s.Length - 1; while (left < right) { if (s[left] != s[right]) return false; left++; right--; } return true; } // Function to find the minimum number of // characters to remove from the beginning static int NoOfAppends(string s) { int n = s.Length; // Remove characters from the start until // the string becomes a palindrome for (int i = 0; i < n; i++) { if (IsPalindrome(s.Substring(i))) { // Return the number of characters // removed return i; } } // If no palindrome is found remove all but // one character return n - 1; } static void Main(string[] args) { string s = 'abede'; int result = NoOfAppends(s); Console.WriteLine(result); } }
// JavaScript code to find minimum number // of appends to make string Palindrome // Function to check if a given string is a palindrome function isPalindrome(s) { let left = 0 right = s.length - 1; while (left < right) { if (s[left] !== s[right]) return false; left++; right--; } return true; } // Function to find the minimum number of // characters to remove from the beginning function noOfAppends(s) { let n = s.length; // Remove characters from the start until // the string becomes a palindrome for (let i = 0; i < n; i++) { if (isPalindrome(s.substring(i))) { // Return the number of // characters removed return i; } } // If no palindrome is found remove // all but one character return n - 1; } const s = 'abede'; const result = noOfAppends(s); console.log(result);
Izvade
2
Izmantojot Knuta Morisa Prata algoritmu - O(n) laiks un O(n) telpa
C++Šīs pieejas pamatideja ir tāda, ka mēs aprēķināt uz lielākā apakšvirkne no beigām un auklas garums mīnus šī vērtība ir minimums pielikumu skaits. Loģika ir intuitīva, mums nav jāpievieno palindroms un tikai tie, kas neveido palindromu. Lai atrastu šo lielāko palindromu no gala mēs otrādi virkne aprēķina DFA.
The DFA (deterministiskais galīgais automāts) minēts kontekstā Knuta Morisa Prata algoritms ir jēdziens, ko izmanto, lai palīdzētu atrast garākais virknes prefikss, kas ir arī sufikss un vēlreiz apgrieziet virkni (tādējādi atgūstot sākotnējo virkni) un atrodiet galīgo stāvokli, kas atspoguļo virknes atbilstības skaitu ar godājamo virkni, un tādējādi mēs iegūstam lielāko apakšvirkni, kas ir palindroms no beigām.
// CPP program for the given approach // using 2D vector for DFA #include
// Java program for the given approach // using 2D array for DFA import java.util.*; class GfG { // Function to build the DFA and precompute the state static int[][] buildDFA(String s) { int n = s.length(); // Number of possible characters (ASCII range) int c = 256; // Initialize 2D array with zeros int[][] dfa = new int[n][c]; int x = 0; dfa[0][s.charAt(0)] = 1; // Build the DFA for the given string for (int i = 1; i < n; i++) { for (int j = 0; j < c; j++) { dfa[i][j] = dfa[x][j]; } dfa[i][s.charAt(i)] = i + 1; x = dfa[x][s.charAt(i)]; } return dfa; } // Function to find the longest overlap // between the string and its reverse static int longestOverlap(int[][] dfa String query) { int ql = query.length(); int state = 0; // Traverse through the query to // find the longest overlap for (int i = 0; i < ql; i++) { state = dfa[state][query.charAt(i)]; } return state; } // Function to find the minimum // number of characters to append static int minAppends(String s) { // Reverse the string String reversedS = new StringBuilder(s).reverse().toString(); // Build the DFA for the reversed string int[][] dfa = buildDFA(reversedS); // Get the longest overlap with the original string int longestOverlapLength = longestOverlap(dfa s); // Minimum characters to append // to make the string a palindrome return s.length() - longestOverlapLength; } public static void main(String[] args) { String s = 'abede'; System.out.println(minAppends(s)); } }
# Python program for the given approach # using 2D list for DFA # Function to build the DFA and precompute the state def buildDFA(s): n = len(s) # Number of possible characters (ASCII range) c = 256 # Initialize 2D list with zeros dfa = [[0] * c for _ in range(n)] x = 0 dfa[0][ord(s[0])] = 1 # Build the DFA for the given string for i in range(1 n): for j in range(c): dfa[i][j] = dfa[x][j] dfa[i][ord(s[i])] = i + 1 x = dfa[x][ord(s[i])] return dfa # Function to find the longest overlap # between the string and its reverse def longestOverlap(dfa query): ql = len(query) state = 0 # Traverse through the query to # find the longest overlap for i in range(ql): state = dfa[state][ord(query[i])] return state # Function to find the minimum # number of characters to append def minAppends(s): # Reverse the string reversedS = s[::-1] # Build the DFA for the reversed string dfa = buildDFA(reversedS) # Get the longest overlap with the # original string longestOverlapLength = longestOverlap(dfa s) # Minimum characters to append # to make the string a palindrome return len(s) - longestOverlapLength if __name__ == '__main__': s = 'abede' print(minAppends(s))
// C# program for the given approach // using 2D array for DFA using System; class GfG { // Function to build the DFA and precompute the state static int[] buildDFA(string s) { int n = s.Length; // Number of possible characters // (ASCII range) int c = 256; // Initialize 2D array with zeros int[] dfa = new int[n c]; int x = 0; dfa[0 s[0]] = 1; // Build the DFA for the given string for (int i = 1; i < n; i++) { for (int j = 0; j < c; j++) { dfa[i j] = dfa[x j]; } dfa[i s[i]] = i + 1; x = dfa[x s[i]]; } return dfa; } // Function to find the longest overlap // between the string and its reverse static int longestOverlap(int[] dfa string query) { int ql = query.Length; int state = 0; // Traverse through the query to // find the longest overlap for (int i = 0; i < ql; i++) { state = dfa[state query[i]]; } return state; } // Function to find the minimum // number of characters to append static int minAppends(string s) { // Reverse the string using char array char[] reversedArray = s.ToCharArray(); Array.Reverse(reversedArray); string reversedS = new string(reversedArray); // Build the DFA for the reversed string int[] dfa = buildDFA(reversedS); // Get the longest overlap with the original string int longestOverlapLength = longestOverlap(dfa s); // Minimum characters to append // to make the string a palindrome return s.Length - longestOverlapLength; } static void Main() { string s = 'abede'; Console.WriteLine(minAppends(s)); } }
// JavaScript program for the given approach // using 2D array for DFA // Function to build the DFA and precompute the state function buildDFA(s) { let n = s.length; // Number of possible characters // (ASCII range) let c = 256; // Initialize 2D array with zeros let dfa = Array.from({ length: n } () => Array(c).fill(0)); let x = 0; dfa[0][s.charCodeAt(0)] = 1; // Build the DFA for the given string for (let i = 1; i < n; i++) { for (let j = 0; j < c; j++) { dfa[i][j] = dfa[x][j]; } dfa[i][s.charCodeAt(i)] = i + 1; x = dfa[x][s.charCodeAt(i)]; } return dfa; } // Function to find the longest overlap // between the string and its reverse function longestOverlap(dfa query) { let ql = query.length; let state = 0; // Traverse through the query to // find the longest overlap for (let i = 0; i < ql; i++) { state = dfa[state][query.charCodeAt(i)]; } return state; } // Function to find the minimum // number of characters to append function minAppends(s) { // Reverse the string let reversedS = s.split('').reverse().join(''); // Build the DFA for the reversed string let dfa = buildDFA(reversedS); // Get the longest overlap with the original string let longestOverlapLength = longestOverlap(dfa s); // Minimum characters to append // to make the string a palindrome return s.length - longestOverlapLength; } let s = 'abede'; console.log(minAppends(s));
Izvade
2
Saistīts raksts:
- Dinamiskā programmēšana | 28. komplekts (minimālais ievietošanas skaits, lai izveidotu palindromu)