Sprawdź, czy ciąg znaków jest zgodny z kolejnością znaków określoną przez wzorzec, czy nie | Zestaw 2
Biorąc pod uwagę ciąg wejściowy i wzorzec, sprawdź, czy znaki w ciągu wejściowym mają tę samą kolejność, jaką określają znaki obecne we wzorcu. Załóżmy, że we wzorcu nie będzie żadnych zduplikowanych znaków.
Opublikowano inne rozwiązanie tego samego problemu Tutaj .
Przykłady:
Input: string = 'engineers rock' pattern = 'er'; Output: true All 'e' in the input string are before all 'r'. Input: string = 'engineers rock' pattern = 'egr'; Output: false There are two 'e' after 'g' in the input string. Input: string = 'engineers rock' pattern = 'gsr'; Output: false There are one 'r' before 's' in the input string.
Pomysł polega na tym, aby zredukować dany ciąg do podanego wzorca. Dla znaków podanych we wzorcu w ciągu znaków przechowujemy tylko odpowiadające im znaki. W nowym ciągu usuwamy ciągłe, powtarzające się znaki. Zmodyfikowany ciąg powinien być wtedy równy podanemu wzorcowi. Na koniec porównujemy zmodyfikowany ciąg z podanym wzorcem i odpowiednio zwracamy wartość true lub false.
Ilustracja:
str = 'bfbaeadeacc' pat[] = 'bac' 1) Remove extra characters from str (characters that are not present in pat[] str = 'bbaaacc' [f e and d are removed] 3) Removed consecutive repeating occurrences of characters str = 'bac' 4) Since str is same as pat[] we return true
Poniżej znajduje się realizacja powyższych kroków.
// C++ code for the above approach #include #include using namespace std ; bool followsPattern ( string str string pattern ) { // Insert all characters of pattern in a hash set unordered_set < char > patternSet ; for ( int i = 0 ; i < pattern . length (); i ++ ) { patternSet . insert ( pattern [ i ]); } // Build modified string (string with characters only from pattern are taken) string modifiedStr = str ; for ( int i = str . length () - 1 ; i >= 0 ; i -- ) { if ( patternSet . find ( str [ i ]) == patternSet . end ()) { modifiedStr . erase ( i 1 ); } } // Remove more than one consecutive occurrences of pattern characters from modified string for ( int i = modifiedStr . length () - 1 ; i > 0 ; i -- ) { if ( modifiedStr [ i ] == modifiedStr [ i - 1 ]) { modifiedStr . erase ( i 1 ); } } // After above modifications the length of modified string must be same as pattern length if ( pattern . length () != modifiedStr . length ()) { return false ; } // And pattern characters must also be same as modified string characters for ( int i = 0 ; i < pattern . length (); i ++ ) { if ( pattern [ i ] != modifiedStr [ i ]) { return false ; } } return true ; } int main () { string str = 'engineers rock' ; string pattern = 'er' ; cout < < 'Expected: true Actual: ' < < followsPattern ( str pattern ) < < endl ; str = 'engineers rock' ; pattern = 'egr' ; cout < < 'Expected: false Actual: ' < < followsPattern ( str pattern ) < < endl ; str = 'engineers rock' ; pattern = 'gsr' ; cout < < 'Expected: false Actual: ' < < followsPattern ( str pattern ) < < endl ; str = 'engineers rock' ; pattern = 'eger' ; cout < < 'Expected: true Actual: ' < < followsPattern ( str pattern ) < < endl ; return 0 ; } // This code is contributed by adityashatmfh
Java // Java program to check if characters of a string follow // pattern defined by given pattern. import java.util.* ; public class OrderOfCharactersForPattern { public static boolean followsPattern ( String str String pattern ) { // Insert all characters of pattern in a hash set Set < Character > patternSet = neHashSet <> (); for ( int i = 0 ; i < pattern . length (); i ++ ) patternSet . add ( pattern . charAt ( i )); // Build modified string (string with characters only from // pattern are taken) StringBuilder modifiedString = new StringBuilder ( str ); for ( int i = str . length () - 1 ; i >= 0 ; i -- ) if ( ! patternSet . contains ( modifiedString . charAt ( i ))) modifiedString . deleteCharAt ( i ); // Remove more than one consecutive occurrences of pattern // characters from modified string. for ( int i = modifiedString . length () - 1 ; i > 0 ; i -- ) if ( modifiedString . charAt ( i ) == modifiedString . charAt ( i - 1 )) modifiedString . deleteCharAt ( i ); // After above modifications the length of modified string // must be same as pattern length if ( pattern . length () != modifiedString . length ()) return false ; // And pattern characters must also be same as modified string // characters for ( int i = 0 ; i < pattern . length (); i ++ ) if ( pattern . charAt ( i ) != modifiedString . charAt ( i )) return false ; return true ; } // Driver program int main () { String str = 'engineers rock' ; String pattern = 'er' ; System . out . println ( 'Expected: true Actual: ' + followsPattern ( str pattern )); str = 'engineers rock' ; pattern = 'egr' ; System . out . println ( 'Expected: false Actual: ' + followsPattern ( str pattern )); str = 'engineers rock' ; pattern = 'gsr' ; System . out . println ( 'Expected: false Actual: ' + followsPattern ( str pattern )); str = 'engineers rock' ; pattern = 'eger' ; System . out . println ( 'Expected: true Actual: ' + followsPattern ( str pattern )); return 0 ; } }
Python3 # Python3 program to check if characters of # a string follow pattern defined by given pattern. def followsPattern ( string pattern ): # Insert all characters of pattern in a hash set patternSet = set () for i in range ( len ( pattern )): patternSet . add ( pattern [ i ]) # Build modified string (string with characters # only from pattern are taken) modifiedString = string for i in range ( len ( string ) - 1 - 1 - 1 ): if not modifiedString [ i ] in patternSet : modifiedString = modifiedString [: i ] + modifiedString [ i + 1 :] # Remove more than one consecutive occurrences # of pattern characters from modified string. for i in range ( len ( modifiedString ) - 1 0 - 1 ): if modifiedString [ i ] == modifiedString [ i - 1 ]: modifiedString = modifiedString [: i ] + modifiedString [ i + 1 :] # After above modifications the length of # modified string must be same as pattern length if len ( pattern ) != len ( modifiedString ): return False # And pattern characters must also be same # as modified string characters for i in range ( len ( pattern )): if pattern [ i ] != modifiedString [ i ]: return False return True # Driver Code if __name__ == '__main__' : string = 'engineers rock' pattern = 'er' print ( 'Expected: true Actual:' followsPattern ( string pattern )) string = 'engineers rock' pattern = 'egr' print ( 'Expected: false Actual:' followsPattern ( string pattern )) string = 'engineers rock' pattern = 'gsr' print ( 'Expected: false Actual:' followsPattern ( string pattern )) string = 'engineers rock' pattern = 'eger' print ( 'Expected: true Actual:' followsPattern ( string pattern )) # This code is contributed by # sanjeev2552
C# // C# program to check if characters of a string follow // pattern defined by given pattern. using System ; using System.Collections.Generic ; using System.Text ; class GFG { public static bool followsPattern ( String str String pattern ) { // Insert all characters of pattern in a hash set HashSet < char > patternSet = new HashSet < char > (); for ( int i = 0 ; i < pattern . Length ; i ++ ) patternSet . Add ( pattern [ i ]); // Build modified string (string with characters // only from pattern are taken) StringBuilder modifiedString = new StringBuilder ( str ); for ( int i = str . Length - 1 ; i >= 0 ; i -- ) if ( ! patternSet . Contains ( modifiedString [ i ])) modifiedString . Remove ( i 1 ); // Remove more than one consecutive occurrences of pattern // characters from modified string. for ( int i = modifiedString . Length - 1 ; i > 0 ; i -- ) if ( modifiedString [ i ] == modifiedString [ i - 1 ]) modifiedString . Remove ( i 1 ); // After above modifications the length of modified string // must be same as pattern length if ( pattern . Length != modifiedString . Length ) return false ; // And pattern characters must also be same // as modified string characters for ( int i = 0 ; i < pattern . Length ; i ++ ) if ( pattern [ i ] != modifiedString [ i ]) return false ; return true ; } // Driver program public static void Main ( String [] args ) { String str = 'engineers rock' ; String pattern = 'er' ; Console . WriteLine ( 'Expected: true Actual: ' + followsPattern ( str pattern )); str = 'engineers rock' ; pattern = 'egr' ; Console . WriteLine ( 'Expected: false Actual: ' + followsPattern ( str pattern )); str = 'engineers rock' ; pattern = 'gsr' ; Console . WriteLine ( 'Expected: false Actual: ' + followsPattern ( str pattern )); str = 'engineers rock' ; pattern = 'eger' ; Console . WriteLine ( 'Expected: true Actual: ' + followsPattern ( str pattern )); } } // This code is contributed by 29AjayKumar
JavaScript < script > // Javascript program to check if characters of a string follow // pattern defined by given pattern. function followsPattern ( str pattern ) { // Insert all characters of pattern in a hash set let patternSet = new Set (); for ( let i = 0 ; i < pattern . length ; i ++ ) patternSet . add ( pattern [ i ]); // Build modified string (string with characters only from // pattern are taken) let modifiedString = ( str ). split ( '' ); for ( let i = str . length - 1 ; i >= 0 ; i -- ) if ( ! patternSet . has ( modifiedString [ i ])) modifiedString . splice ( i 1 ); // Remove more than one consecutive occurrences of pattern // characters from modified string. for ( let i = modifiedString . length - 1 ; i > 0 ; i -- ) if ( modifiedString [ i ] == modifiedString [ i - 1 ]) modifiedString . splice ( i 1 ); // After above modifications the length of modified string // must be same as pattern length if ( pattern . length != modifiedString . length ) return false ; // And pattern characters must also be same as modified string // characters for ( let i = 0 ; i < pattern . length ; i ++ ) if ( pattern [ i ] != modifiedString [ i ]) return false ; return true ; } // Driver program let str = 'engineers rock' ; let pattern = 'er' ; document . write ( 'Expected: true Actual: ' + followsPattern ( str pattern ) + '
' ); str = 'engineers rock' ; pattern = 'egr' ; document . write ( 'Expected: false Actual: ' + followsPattern ( str pattern ) + '
' ); str = 'engineers rock' ; pattern = 'gsr' ; document . write ( 'Expected: false Actual: ' + followsPattern ( str pattern ) + '
' ); str = 'engineers rock' ; pattern = 'eger' ; document . write ( 'Expected: true Actual: ' + followsPattern ( str pattern ) + '
' ); // This code is contributed by rag2127 < /script>
Wyjście:
Expected: true Actual: true Expected: false Actual: false Expected: false Actual: false Expected: true Actual: true
Złożoność czasowa: Złożoność czasowa powyższych implementacji wynosi w rzeczywistości O(mn + n^2), ponieważ do usuwania znaków używamy funkcji DeleteCharAt(). Powyższe rozwiązanie możemy zoptymalizować do pracy w czasie liniowym. Zamiast używać metody usuwaniaCharAr() możemy utworzyć pusty ciąg znaków i dodać do niego tylko wymagane znaki.
StringBuilder służy do operowania na ciągu wejściowym. Dzieje się tak, ponieważ StringBuilder jest zmienny, podczas gdy String jest obiektem niezmiennym. Utworzenie nowego ciągu zajmuje O(n) przestrzeni, więc dodatkowa przestrzeń to O(n).
Omówiliśmy jeszcze dwa podejścia do rozwiązania tego problemu.
Sprawdź, czy ciąg znaków jest zgodny z kolejnością znaków określoną przez wzorzec, czy nie | Zestaw 1
Sprawdź, czy ciąg znaków jest zgodny z kolejnością znaków określoną przez wzorzec, czy nie | Zestaw 3
