test/pexpect-2.4/examples/chess3.py - lldb - Git at Google

 #!/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()
	#!/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()