/* GNU GO - the game of Go (Wei-Chi) Version 1.1 last revised 3-1-89 Copyright (C) Free Software Foundation, Inc. written by Man L. Li modified by Wayne Iba documented by Bob Webber NeXT version by John Neil */ /* This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation - version 1. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License in file COPYING for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. Please report any bug/fix, modification, suggestion to mail address: Man L. Li Dept. of Computer Science University of Houston 4800 Calhoun Road Houston, TX 77004 e-mail address: manli@cs.uh.edu (Internet) coscgbn@uhvax1.bitnet (BITNET) 70070,404 (CompuServe) For the NeXT version, please report any bug/fix, modification, suggestion to mail address: John Neil Mathematics Department Portland State University PO Box 751 Portland, OR 97207 e-mail address: neil@math.mth.pdx.edu (Internet) neil@psuorvm.bitnet (BITNET) */ #include "comment.header" /* $Id: findnext.c,v 1.1 2003/01/12 04:01:52 gcasa Exp $ */ /* * $Log: findnext.c,v $ * Revision 1.1 2003/01/12 04:01:52 gcasa * Committing the entire GNU Go and NeXT Go application to the repository. * See COPYING file for GNU License. * * Revision 1.3 1997/07/06 19:34:55 ergo * actual version * * Revision 1.2 1997/05/04 18:57:00 ergo * added time control for moves * */ #define EMPTY 0 extern unsigned char p[19][19], ma[19][19]; extern int currentStone, MAXX, MAXY; extern int lib; extern countlib(int,int,int); int fval(int newlib, int minlib) /* evaluate new move */ { int k, val; if (newlib <= minlib) val = -1; else { k = newlib - minlib; val = 40 + (k - 1) * 50 / (minlib * minlib * minlib); } return val; } /* end fval */ int findnextmove(int m, int n, int *i, int *j, int *val, int minlib) /* find new move i, j from group containing m, n */ { int ti, tj, tval; int found = 0; *i = -1; *j = -1; *val = -1; /* mark current position */ ma[m][n] = 1; /* check North neighbor */ if (m != 0) if (p[m - 1][n] == EMPTY) { ti = m - 1; tj = n; lib = 0; countlib(ti, tj, currentStone); tval = fval(lib, minlib); found = 1; } else if ((p[m - 1][n] == currentStone) && !ma[m - 1][n]) if (findnextmove(m - 1, n, &ti, &tj, &tval, minlib)) found = 1; if (found) { found = 0; if (tval > *val) { *val = tval; *i = ti; *j = tj; } if (minlib == 1) return 1; } /* check South neighbor */ if (m != MAXY - 1) if (p[m + 1][n] == EMPTY) { ti = m + 1; tj = n; lib = 0; countlib(ti, tj, currentStone); tval = fval(lib, minlib); found = 1; } else if ((p[m + 1][n] == currentStone) && !ma[m + 1][n]) if (findnextmove(m + 1, n, &ti, &tj, &tval, minlib)) found = 1; if (found) { found = 0; if (tval > *val) { *val = tval; *i = ti; *j = tj; } if (minlib == 1) return 1; } /* check West neighbor */ if (n != 0) if (p[m][n - 1] == EMPTY) { ti = m; tj = n - 1; lib = 0; countlib(ti, tj, currentStone); tval = fval(lib, minlib); found = 1; } else if ((p[m][n - 1] == currentStone) && !ma[m][n - 1]) if (findnextmove(m, n - 1, &ti, &tj, &tval, minlib)) found = 1; if (found) { found = 0; if (tval > *val) { *val = tval; *i = ti; *j = tj; } if (minlib == 1) return 1; } /* check East neighbor */ if (n != MAXX - 1) if (p[m][n + 1] == EMPTY) { ti = m; tj = n + 1; lib = 0; countlib(ti, tj, currentStone); tval = fval(lib, minlib); found = 1; } else if ((p[m][n + 1] == currentStone) && !ma[m][n + 1]) if (findnextmove(m, n + 1, &ti, &tj, &tval, minlib)) found = 1; if (found) { found = 0; if (tval > *val) { *val = tval; *i = ti; *j = tj; } if (minlib == 1) return 1; } if (*val > 0) /* found next move */ return 1; else /* next move failed */ return 0; } /* end findnextmove */