#!/usr/bin/env python '''This demonstrates controlling a screen oriented application (curses). It starts two instances of gnuchess and then pits them against each other. ''' import pexpect import string import ANSI REGEX_MOVE = '(?:[a-z]|\x1b\[C)(?:[0-9]|\x1b\[C)(?:[a-z]|\x1b\[C)(?:[0-9]|\x1b\[C)' REGEX_MOVE_PART = '(?:[0-9]|\x1b\[C)(?:[a-z]|\x1b\[C)(?:[0-9]|\x1b\[C)' class Chess: def __init__(self, engine = "/usr/local/bin/gnuchess -a -h 1"): self.child = pexpect.spawn (engine) self.term = ANSI.ANSI () # self.child.expect ('Chess') # if self.child.after != 'Chess': # raise IOError, 'incompatible chess program' # self.term.process_list (self.before) # self.term.process_list (self.after) self.last_computer_move = '' def read_until_cursor (self, r,c): fout = open ('log','a') while 1: k = self.child.read(1, 10) self.term.process (k) fout.write ('(r,c):(%d,%d)\n' %(self.term.cur_r, self.term.cur_c)) fout.flush() if self.term.cur_r == r and self.term.cur_c == c: fout.close() return 1 sys.stdout.write (k) sys.stdout.flush() def do_scan (self): fout = open ('log','a') while 1: c = self.child.read(1,10) self.term.process (c) fout.write ('(r,c):(%d,%d)\n' %(self.term.cur_r, self.term.cur_c)) fout.flush() sys.stdout.write (c) sys.stdout.flush() def do_move (self, move): self.read_until_cursor (19,60) self.child.sendline (move) return move def get_computer_move (self): print 'Here' i = self.child.expect (['\[17;59H', '\[17;58H']) print i if i == 0: self.child.expect (REGEX_MOVE) if len(self.child.after) < 4: self.child.after = self.child.after + self.last_computer_move[3] if i == 1: self.child.expect (REGEX_MOVE_PART) self.child.after = self.last_computer_move[0] + self.child.after print '', self.child.after self.last_computer_move = self.child.after return self.child.after def switch (self): self.child.sendline ('switch') def set_depth (self, depth): self.child.sendline ('depth') self.child.expect ('depth=') self.child.sendline ('%d' % depth) def quit(self): self.child.sendline ('quit') import sys, os print 'Starting...' white = Chess() white.do_move('b2b4') white.read_until_cursor (19,60) c1 = white.term.get_abs(17,58) c2 = white.term.get_abs(17,59) c3 = white.term.get_abs(17,60) c4 = white.term.get_abs(17,61) fout = open ('log','a') fout.write ('Computer:%s%s%s%s\n' %(c1,c2,c3,c4)) fout.close() white.do_move('c2c4') white.read_until_cursor (19,60) c1 = white.term.get_abs(17,58) c2 = white.term.get_abs(17,59) c3 = white.term.get_abs(17,60) c4 = white.term.get_abs(17,61) fout = open ('log','a') fout.write ('Computer:%s%s%s%s\n' %(c1,c2,c3,c4)) fout.close() white.do_scan () #white.do_move ('b8a6') #move_white = white.get_computer_move() #print 'move white:', move_white sys.exit(1) black = Chess() white = Chess() white.child.expect ('Your move is') white.switch() move_white = white.get_first_computer_move() print 'first move white:', move_white black.do_first_move (move_white) move_black = black.get_first_computer_move() print 'first move black:', move_black white.do_move (move_black) done = 0 while not done: move_white = white.get_computer_move() print 'move white:', move_white black.do_move (move_white) move_black = black.get_computer_move() print 'move black:', move_black white.do_move (move_black) print 'tail of loop' g.quit()