Minimax algoritms spēļu teorijā | 5. komplekts (Zobrist Hashing)
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Zobrist Hashing ir jaukšanas funkcija, ko plaši izmanto divu spēlētāju galda spēlēs. Tā ir visizplatītākā jaukšanas funkcija, ko izmanto transponēšanas tabulā. Transponēšanas tabulās būtībā tiek saglabātas iepriekšējo paneļa stāvokļu novērtētās vērtības, tāpēc, ja tās tiek atkārtoti sastopamas, mēs vienkārši izgūsim saglabāto vērtību no transponēšanas tabulas. Transponēšanas tabulas aplūkosim vēlākā rakstā. Šajā rakstā mēs ņemsim šaha galda piemēru un ieviesīsim tam jaukšanas funkciju.
Pseidokods:
// A matrix with random numbers initialized once Table[#ofBoardCells][#ofPieces] // Returns Zobrist hash function for current conf- // iguration of board. function findhash(board): hash = 0 for each cell on the board : if cell is not empty : piece = board[cell] hash ^= table[cell][piece] return hash
Paskaidrojums:
Zobrista Hašinga ideja ir tāda, ka konkrētajam dēļa stāvoklim, ja noteiktā šūnā ir gabals, mēs izmantojam šī gabala izlases numuru no atbilstošās tabulas šūnas.
Ja nejaušajā skaitļā ir vairāk bitu, mazāka ir jaucējkoda sadursmes iespēja. Tāpēc 64 bitu skaitļi parasti tiek izmantoti kā standarts, un ir maz ticams, ka ar tik lieliem skaitļiem varētu notikt sadursme. Tabula ir jāinicializē tikai vienu reizi programmas izpildes laikā.
Arī iemesls, kāpēc Zobrist Hashing tiek plaši izmantots galda spēlēs, ir tāpēc, ka, kad spēlētājs veic gājienu, nav nepieciešams pārrēķināt hash vērtību no nulles. XOR darbības rakstura dēļ mēs varam vienkārši izmantot dažas XOR darbības, lai pārrēķinātu jaucējvērtību.
Īstenošana:
Mēģināsim atrast jaucējvērtību dotajai dēļa konfigurācijai.
// A program to illustrate Zobrist Hashing Algorithm #include using namespace std ; unsigned long long int ZobristTable [ 8 ][ 8 ][ 12 ]; mt19937 mt ( 01234567 ); // Generates a Random number from 0 to 2^64-1 unsigned long long int randomInt () { uniform_int_distribution & lt ; unsigned long long int & gt ; dist ( 0 UINT64_MAX ); return dist ( mt ); } // This function associates each piece with // a number int indexOf ( char piece ) { if ( piece == 'P' ) return 0 ; if ( piece == 'N' ) return 1 ; if ( piece == 'B' ) return 2 ; if ( piece == 'R' ) return 3 ; if ( piece == 'Q' ) return 4 ; if ( piece == 'K' ) return 5 ; if ( piece == 'p' ) return 6 ; if ( piece == 'n' ) return 7 ; if ( piece == 'b' ) return 8 ; if ( piece == 'r' ) return 9 ; if ( piece == 'q' ) return 10 ; if ( piece == 'k' ) return 11 ; else return -1 ; } // Initializes the table void initTable () { for ( int i = 0 ; i & lt ; 8 ; i ++ ) for ( int j = 0 ; j & lt ; 8 ; j ++ ) for ( int k = 0 ; k & lt ; 12 ; k ++ ) ZobristTable [ i ][ j ][ k ] = randomInt (); } // Computes the hash value of a given board unsigned long long int computeHash ( char board [ 8 ][ 9 ]) { unsigned long long int h = 0 ; for ( int i = 0 ; i & lt ; 8 ; i ++ ) { for ( int j = 0 ; j & lt ; 8 ; j ++ ) { if ( board [ i ][ j ] != '-' ) { int piece = indexOf ( board [ i ][ j ]); h ^= ZobristTable [ i ][ j ][ piece ]; } } } return h ; } // Main Function int main () { // Uppercase letters are white pieces // Lowercase letters are black pieces char board [ 8 ][ 9 ] = { & quot ; --- K ----& quot ; & quot ; - R ---- Q -& quot ; & quot ; --------& quot ; & quot ; - P ---- p -& quot ; & quot ; ----- p --& quot ; & quot ; --------& quot ; & quot ; p --- b -- q & quot ; & quot ; ---- n -- k & quot ; }; initTable (); unsigned long long int hashValue = computeHash ( board ); printf ( & quot ; The hash value is : % llu n & quot ; hashValue ); //Move the white king to the left char piece = board [ 0 ][ 3 ]; board [ 0 ][ 3 ] = '-' ; hashValue ^= ZobristTable [ 0 ][ 3 ][ indexOf ( piece )]; board [ 0 ][ 2 ] = piece ; hashValue ^= ZobristTable [ 0 ][ 2 ][ indexOf ( piece )]; printf ( & quot ; The new hash value is : % llu n & quot ; hashValue ); // Undo the white king move piece = board [ 0 ][ 2 ]; board [ 0 ][ 2 ] = '-' ; hashValue ^= ZobristTable [ 0 ][ 2 ][ indexOf ( piece )]; board [ 0 ][ 3 ] = piece ; hashValue ^= ZobristTable [ 0 ][ 3 ][ indexOf ( piece )]; printf ( & quot ; The old hash value is : % llu n & quot ; hashValue ); return 0 ; }
Java // A Java program to illustrate Zobrist Hashing Algorithm import java.util.* ; public class GFG { public static List < List < List < Integer >>> ZobristTable = new ArrayList <> (); // mt19937 mt(01234567); public static void initialise () { for ( int i = 0 ; i < 8 ; i ++ ) { ZobristTable . add ( new ArrayList <> ()); for ( int j = 0 ; j < 8 ; j ++ ) { ZobristTable . get ( i ). add ( new ArrayList <> ()); for ( int k = 0 ; k < 12 ; k ++ ) { ZobristTable . get ( i ). get ( j ). add ( 0 ); } } } } // Generates a Random number from 0 to 2^64-1 public static long randomLong () { long min = 0 L ; long max = ( long ) Math . pow ( 2 64 ); Random rnd = new Random (); return rnd . nextLong () * ( max - min ) + min ; } // This function associates each piece with a number public static int indexOf ( char piece ) { if ( piece == 'P' ) return 0 ; if ( piece == 'N' ) return 1 ; if ( piece == 'B' ) return 2 ; if ( piece == 'R' ) return 3 ; if ( piece == 'Q' ) return 4 ; if ( piece == 'K' ) return 5 ; if ( piece == 'p' ) return 6 ; if ( piece == 'n' ) return 7 ; if ( piece == 'b' ) return 8 ; if ( piece == 'r' ) return 9 ; if ( piece == 'q' ) return 10 ; if ( piece == 'k' ) return 11 ; else return - 1 ; } // Initializes the table public static void initTable () { for ( int i = 0 ; i < 8 ; i ++ ) { for ( int j = 0 ; j < 8 ; j ++ ) { for ( int k = 0 ; k < 12 ; k ++ ) { Random rnd = new Random (); ZobristTable . get ( i ). get ( j ). set ( k ( int ) randomLong ()); } } } } // Computes the hash value of a given board public static int computeHash ( List < List < Character >> board ) { int h = 0 ; for ( int i = 0 ; i < 8 ; i ++ ) { for ( int j = 0 ; j < 8 ; j ++ ) { if ( board . get ( i ). get ( j ) != '-' ) { int piece = indexOf ( board . get ( i ). get ( j )); h ^= ZobristTable . get ( i ). get ( j ). get ( piece ); } } } return h ; } public static void main ( String [] args ) { // Main Function // Uppercase letters are white pieces // Lowercase letters are black pieces List < List < Character >> board = new ArrayList <> (); board . add ( new ArrayList <> ( Arrays . asList ( '-' '-' '-' 'K' '-' '-' '-' '-' ))); board . add ( new ArrayList <> ( Arrays . asList ( '-' 'R' '-' '-' '-' '-' 'Q' '-' ))); board . add ( new ArrayList <> ( Arrays . asList ( '-' '-' '-' 'K' '-' '-' '-' '-' ))); board . add ( new ArrayList <> ( Arrays . asList ( '-' '-' '-' '-' '-' '-' '-' '-' ))); board . add ( new ArrayList <> ( Arrays . asList ( '-' 'P' '-' '-' '-' '-' 'p' '-' ))); board . add ( new ArrayList <> ( Arrays . asList ( '-' '-' '-' '-' '-' 'p' '-' '-' ))); board . add ( new ArrayList <> ( Arrays . asList ( '-' '-' '-' '-' '-' '-' '-' '-' ))); board . add ( new ArrayList <> ( Arrays . asList ( 'p' '-' '-' '-' 'b' '-' '-' 'q' ))); board . add ( new ArrayList <> ( Arrays . asList ( '-' '-' '-' '-' 'n' '-' '-' 'k' ))); initialise (); initTable (); int hashValue = computeHash ( board ); System . out . println ( 'The hash value is : ' + hashValue ); // Move the white king to the left char piece = board . get ( 0 ). get ( 3 ); board . get ( 0 ). set ( 3 '-' ); hashValue ^= ZobristTable . get ( 0 ). get ( 3 ). get ( indexOf ( piece )); board . get ( 0 ). set ( 2 piece ); hashValue ^= ZobristTable . get ( 0 ). get ( 2 ). get ( indexOf ( piece )); System . out . println ( 'The new hash value is : ' + hashValue ); // Undo the white king move piece = board . get ( 0 ). get ( 2 ); board . get ( 0 ). set ( 2 '-' ); hashValue ^= ZobristTable . get ( 0 ). get ( 2 ). get ( indexOf ( piece )); board . get ( 0 ). set ( 3 piece ); hashValue ^= ZobristTable . get ( 0 ). get ( 3 ). get ( indexOf ( piece )); System . out . println ( 'The new hash value is : ' + hashValue ); } } // This code is contributed by Vaibhav
Python3 # A program to illustrate Zobrist Hashing Algorithm # python code implementation import random # mt19937 mt(01234567); # Generates a Random number from 0 to 2^64-1 def randomInt (): min = 0 max = pow ( 2 64 ) return random . randint ( min max ) # This function associates each piece with # a number def indexOf ( piece ): if ( piece == 'P' ): return 0 elif ( piece == 'N' ): return 1 elif ( piece == 'B' ): return 2 elif ( piece == 'R' ): return 3 elif ( piece == 'Q' ): return 4 elif ( piece == 'K' ): return 5 elif ( piece == 'p' ): return 6 elif ( piece == 'n' ): return 7 elif ( piece == 'b' ): return 8 elif ( piece == 'r' ): return 9 elif ( piece == 'q' ): return 10 elif ( piece == 'k' ): return 11 else : return - 1 # Initializes the table def initTable (): # 8x8x12 array ZobristTable = [[[ randomInt () for k in range ( 12 )] for j in range ( 8 )] for i in range ( 8 )] return ZobristTable # Computes the hash value of a given board def computeHash ( board ZobristTable ): h = 0 for i in range ( 8 ): for j in range ( 8 ): if ( board [ i ][ j ] != '-' ): piece = indexOf ( board [ i ][ j ]) h ^= ZobristTable [ i ][ j ][ piece ] return h # Main Function # Uppercase letters are white pieces # Lowercase letters are black pieces board = [ '---K----' '-R----Q-' '--------' '-P----p-' '-----p--' '--------' 'p---b--q' '----n--k' ] ZobristTable = initTable () hashValue = computeHash ( board ZobristTable ) print ( 'The hash value is : ' + str ( hashValue )) #Move the white king to the left piece = board [ 0 ][ 3 ] board [ 0 ] = list ( board [ 0 ]) board [ 0 ][ 3 ] = '-' board [ 0 ] = '' . join ( board [ 0 ]) hashValue ^= ZobristTable [ 0 ][ 3 ][ indexOf ( piece )] board [ 0 ] = list ( board [ 0 ]) board [ 0 ][ 2 ] = piece board [ 0 ] = '' . join ( board [ 0 ]) hashValue ^= ZobristTable [ 0 ][ 2 ][ indexOf ( piece )] print ( 'The new hash value is : ' + str ( hashValue )) # Undo the white king move piece = board [ 0 ][ 2 ] board [ 0 ] = list ( board [ 0 ]) board [ 0 ][ 2 ] = '-' board [ 0 ] = '' . join ( board [ 0 ]) hashValue ^= ZobristTable [ 0 ][ 2 ][ indexOf ( piece )] board [ 0 ] = list ( board [ 0 ]) board [ 0 ][ 3 ] = piece board [ 0 ] = '' . join ( board [ 0 ]) hashValue ^= ZobristTable [ 0 ][ 3 ][ indexOf ( piece )] print ( 'The old hash value is : ' + str ( hashValue ))
C# using System ; using System.Collections ; using System.Collections.Generic ; using System.Linq ; // C# program for the above approach // A program to illustrate Zobrist Hashing Algorithm // javascript code implementation class HelloWorld { public static List < List < List < int >>> ZobristTable = new List < List < List < int >>> (); // mt19937 mt(01234567); public static void initialise (){ for ( int i = 0 ; i < 8 ; i ++ ){ ZobristTable . Add ( new List < List < int >> ()); for ( int j = 0 ; j < 8 ; j ++ ){ ZobristTable [ i ]. Add ( new List < int > ()); for ( int k = 0 ; k < 12 ; k ++ ){ ZobristTable [ i ][ j ]. Add ( 0 ); } } } } // Generates a Random number from 0 to 2^64-1 public static int randomInt () { int min = 0 ; int max = ( int ) Math . Pow ( 2 64 ); Random rnd = new Random (); return rnd . Next () * ( max - min ) + min ; } // This function associates each piece with // a number public static int indexOf ( char piece ) { if ( piece == 'P' ) return 0 ; if ( piece == 'N' ) return 1 ; if ( piece == 'B' ) return 2 ; if ( piece == 'R' ) return 3 ; if ( piece == 'Q' ) return 4 ; if ( piece == 'K' ) return 5 ; if ( piece == 'p' ) return 6 ; if ( piece == 'n' ) return 7 ; if ( piece == 'b' ) return 8 ; if ( piece == 'r' ) return 9 ; if ( piece == 'q' ) return 10 ; if ( piece == 'k' ) return 11 ; else return - 1 ; } // Initializes the table public static void initTable () { for ( int i = 0 ; i < 8 ; i ++ ){ for ( int j = 0 ; j < 8 ; j ++ ){ for ( int k = 0 ; k < 12 ; k ++ ){ Random rnd = new Random (); ZobristTable [ i ][ j ][ k ] = rnd . Next (); } } } } // Computes the hash value of a given board public static int computeHash ( List < List < char >> board ) { int h = 0 ; for ( int i = 0 ; i < 8 ; i ++ ) { for ( int j = 0 ; j < 8 ; j ++ ) { if ( board [ i ][ j ] != '-' ) { int piece = indexOf ( board [ i ][ j ]); h ^= ZobristTable [ i ][ j ][ piece ]; } } } return h ; } static void Main () { // Main Function // Uppercase letters are white pieces // Lowercase letters are black pieces List < List < char >> board = new List < List < char >> (); board . Add ( new List < char > (){ '-' '-' '-' 'K' '-' '-' '-' '-' }); board . Add ( new List < char > (){ '-' 'R' '-' '-' '-' '-' 'Q' '-' }); board . Add ( new List < char > (){ '-' '-' '-' 'K' '-' '-' '-' '-' }); board . Add ( new List < char > (){ '-' '-' '-' '-' '-' '-' '-' '-' }); board . Add ( new List < char > (){ '-' 'P' '-' '-' '-' '-' 'p' '-' }); board . Add ( new List < char > (){ '-' '-' '-' '-' '-' 'p' '-' '-' }); board . Add ( new List < char > (){ '-' '-' '-' '-' '-' '-' '-' '-' }); board . Add ( new List < char > (){ 'p' '-' '-' '-' 'b' '-' '-' 'q' }); board . Add ( new List < char > (){ '-' '-' '-' '-' 'n' '-' '-' 'k' }); initialise (); initTable (); int hashValue = computeHash ( board ); Console . WriteLine ( 'The hash value is : ' + hashValue ); //Move the white king to the left char piece = board [ 0 ][ 3 ]; board [ 0 ][ 3 ] = '-' ; hashValue ^= ZobristTable [ 0 ][ 3 ][ indexOf ( piece )]; board [ 0 ][ 2 ] = piece ; hashValue ^= ZobristTable [ 0 ][ 2 ][ indexOf ( piece )]; Console . WriteLine ( 'The new hash value is : ' + hashValue ); // Undo the white king move piece = board [ 0 ][ 2 ]; board [ 0 ][ 2 ] = '-' ; hashValue ^= ZobristTable [ 0 ][ 2 ][ indexOf ( piece )]; board [ 0 ][ 3 ] = piece ; hashValue ^= ZobristTable [ 0 ][ 3 ][ indexOf ( piece )]; Console . WriteLine ( 'The old hash value is : ' + hashValue ); } } // The code is contributed by Nidhi goel.
JavaScript // A program to illustrate Zobrist Hashing Algorithm // javascript code implementation let ZobristTable = new Array ( 8 ); for ( let i = 0 ; i < 8 ; i ++ ){ ZobristTable [ i ] = new Array ( 8 ); } for ( let i = 0 ; i < 8 ; i ++ ){ for ( let j = 0 ; j < 8 ; j ++ ){ ZobristTable [ i ][ j ] = new Array ( 12 ); } } // mt19937 mt(01234567); // Generates a Random number from 0 to 2^64-1 function randomInt () { let min = 0 ; let max = Math . pow ( 2 64 ); return Math . floor ( Math . random () * ( max - min ) + min ); } // This function associates each piece with // a number function indexOf ( piece ) { if ( piece == 'P' ) return 0 ; if ( piece == 'N' ) return 1 ; if ( piece == 'B' ) return 2 ; if ( piece == 'R' ) return 3 ; if ( piece == 'Q' ) return 4 ; if ( piece == 'K' ) return 5 ; if ( piece == 'p' ) return 6 ; if ( piece == 'n' ) return 7 ; if ( piece == 'b' ) return 8 ; if ( piece == 'r' ) return 9 ; if ( piece == 'q' ) return 10 ; if ( piece == 'k' ) return 11 ; else return - 1 ; } // Initializes the table function initTable () { for ( let i = 0 ; i < 8 ; i ++ ) for ( let j = 0 ; j < 8 ; j ++ ) for ( let k = 0 ; k < 12 ; k ++ ){ ZobristTable [ i ][ j ][ k ] = randomInt (); } } // Computes the hash value of a given board function computeHash ( board ) { let h = 0 ; for ( let i = 0 ; i < 8 ; i ++ ) { for ( let j = 0 ; j < 8 ; j ++ ) { if ( board [ i ][ j ] != '-' ) { let piece = indexOf ( board [ i ][ j ]); h ^= ZobristTable [ i ][ j ][ piece ]; } } } return h ; } // Main Function // Uppercase letters are white pieces // Lowercase letters are black pieces let board = [ '---K----' '-R----Q-' '--------' '-P----p-' '-----p--' '--------' 'p---b--q' '----n--k' ]; initTable (); let hashValue = computeHash ( board ); console . log ( 'The hash value is : ' + hashValue ); //Move the white king to the left let piece = board [ 0 ][ 3 ]; board [ 0 ] = board [ 0 ]. split ( '' ); board [ 0 ][ 3 ] = '-' ; board [ 0 ] = board [ 0 ]. join ( '' ); hashValue ^= ZobristTable [ 0 ][ 3 ][ indexOf ( piece )]; board [ 0 ] = board [ 0 ]. split ( '' ); board [ 0 ][ 2 ] = piece ; board [ 0 ] = board [ 0 ]. join ( '' ); hashValue ^= ZobristTable [ 0 ][ 2 ][ indexOf ( piece )]; console . log ( 'The new hash value is : ' + hashValue ); // Undo the white king move piece = board [ 0 ][ 2 ]; board [ 0 ] = board [ 0 ]. split ( '' ); board [ 0 ][ 2 ] = '-' ; board [ 0 ] = board [ 0 ]. join ( '' ); hashValue ^= ZobristTable [ 0 ][ 2 ][ indexOf ( piece )]; board [ 0 ][ 3 ] = piece ; hashValue ^= ZobristTable [ 0 ][ 3 ][ indexOf ( piece )]; console . log ( 'The old hash value is : ' + hashValue ); // The code is contributed by Nidhi goel.
Izvade:
The hash value is : 14226429382419125366 The new hash value is : 15124945578233295113 The old hash value is : 14226429382419125366
