Demo/curses/life.py - platform/external/python/cpython3 - Gitiles

 #!/usr/bin/env python
 # life.py -- A curses-based version of Conway's Game of Life.
 # Contributed by AMK
 #
 # An empty board will be displayed, and the following commands are available:
 #  E : Erase the board
 #  R : Fill the board randomly
 #  S : Step for a single generation
 #  C : Update continuously until a key is struck
 #  Q : Quit
 #  Cursor keys :  Move the cursor around the board
 #  Space or Enter : Toggle the contents of the cursor's position
 #
 # TODO :
 #   Support the mouse
 #   Use colour if available
 #   Make board updates faster
 #

 class LifeBoard:
     """Encapsulates a Life board

     Attributes:
     X,Y : horizontal and vertical size of the board
     state : dictionary mapping (x,y) to 0 or 1

     Methods:
     display(update_board) -- If update_board is true, compute the
                              next generation.  Then display the state
 			     of the board and refresh the screen.
     erase() -- clear the entire board
     makeRandom() -- fill the board randomly
     set(y,x) -- set the given cell to Live; doesn't refresh the screen
     toggle(y,x) -- change the given cell from live to dead, or vice
                    versa, and refresh the screen display

     """
     def __init__(self, scr, char=ord('*')):
 	"""Create a new LifeBoard instance.

 	scr -- curses screen object to use for display
 	char -- character used to render live cells (default: '*')
 	"""
 	self.state={} ; self.scr=scr
 	Y, X = self.scr.getmaxyx()
 	self.X, self.Y = X-2, Y-2-1
 	self.char = char
 	self.scr.clear()

 	# Draw a border around the board
 	border_line='+'+(self.X*'-')+'+'
 	self.scr.addstr(0, 0, border_line)
 	self.scr.addstr(self.Y+1,0, border_line)
 	for y in range(0, self.Y):
 	    self.scr.addstr(1+y, 0, '|')
 	    self.scr.addstr(1+y, self.X+1, '|')
 	self.scr.refresh()

     def set(self, y, x):
 	"""Set a cell to the live state"""
 	if x<0 or self.X<=x or y<0 or self.Y<=y:
 	    raise ValueError, "Coordinates out of range %i,%i"% (y,x)
 	self.state[x,y] = 1

     def toggle(self, y, x):
 	"""Toggle a cell's state between live and dead"""
 	if x<0 or self.X<=x or y<0 or self.Y<=y:
 	    raise ValueError, "Coordinates out of range %i,%i"% (y,x)
 	if self.state.has_key( (x,y) ):
 	    del self.state[x,y]
 	    self.scr.addch(y+1, x+1, ' ')
 	else:
 	    self.state[x,y]=1
 	    self.scr.addch(y+1, x+1, self.char)
 	self.scr.refresh()

     def erase(self):
 	"""Clear the entire board and update the board display"""
 	self.state={}
 	self.display(update_board=0)

     def display(self, update_board=1):
 	"""Display the whole board, optionally computing one generation"""
 	M,N = self.X, self.Y
 	if not update_board:
 	    for i in range(0, M):
 		for j in range(0, N):
 			if self.state.has_key( (i,j) ):
 			    self.scr.addch(j+1, i+1, self.char)
 			else:
 			    self.scr.addch(j+1, i+1, ' ')
 	    self.scr.refresh()
 	    return

 	d={} ; self.boring=1
 	for i in range(0, M):
 	    L=range( max(0, i-1), min(M, i+2) )
 	    for j in range(0, N):
 		s=0
 		live=self.state.has_key( (i,j) )
 		for k in range( max(0, j-1), min(N, j+2) ):
 		    for l in L:
 			if self.state.has_key( (l,k) ):
 			    s=s+1
 		s=s-live
 		if s==3:
 		    # Birth
 		    d[i,j]=1
 		    self.scr.addch(j+1, i+1, self.char)
 		    if not live: self.boring=0
 		elif s==2 and live: d[i,j]=1       # Survival
 		elif live:
 		    # Death
 		    self.scr.addch(j+1, i+1, ' ')
 		    self.boring=0
 	self.state=d
 	self.scr.refresh()

     def makeRandom(self):
 	"Fill the board with a random pattern"
 	import whrandom
 	self.state={}
 	for i in range(0, self.X):
             for j in range(0, self.Y):
 		if whrandom.random()*10>5.0: self.set(j,i)


 def erase_menu(stdscr, menu_y):
     "Clear the space where the menu resides"
     stdscr.move(menu_y, 0) ; stdscr.clrtoeol()
     stdscr.move(menu_y+1, 0) ; stdscr.clrtoeol()

 def display_menu(stdscr, menu_y):
     "Display the menu of possible keystroke commands"
     erase_menu(stdscr, menu_y)
     stdscr.addstr(menu_y, 4,
                   'Use the cursor keys to move, and space or Enter to toggle a cell.')
     stdscr.addstr(menu_y+1, 4,
                   'E)rase the board, R)andom fill, S)tep once or C)ontinuously, Q)uit')

 def main(stdscr):
     import string, curses

     # Clear the screen and display the menu of keys
     stdscr.clear()
     stdscr_y, stdscr_x = stdscr.getmaxyx()
     menu_y=(stdscr_y-3)-1
     display_menu(stdscr, menu_y)

     # Allocate a subwindow for the Life board and create the board object
     subwin=stdscr.subwin(stdscr_y-3, stdscr_x, 0, 0)
     board=LifeBoard(subwin, char=ord('*'))
     board.display(update_board=0)

     # xpos, ypos are the cursor's position
     xpos, ypos = board.X/2, board.Y/2

     # Main loop:
     while (1):
 	stdscr.move(1+ypos, 1+xpos)     # Move the cursor
 	c=stdscr.getch()		# Get a keystroke
 	if 0<c<256:
 	    c=chr(c)
 	    if c in ' \n':
 		board.toggle(ypos, xpos)
 	    elif c in 'Cc':
 		erase_menu(stdscr, menu_y)
 		stdscr.addstr(menu_y, 6, ' Hit any key to stop continuously '
 			      'updating the screen.')
 		stdscr.refresh()
 		# Activate nodelay mode; getch() will return -1
 		# if no keystroke is available, instead of waiting.
 		stdscr.nodelay(1)
 		while (1):
 		    c=stdscr.getch()
 		    if c!=-1: break
 		    stdscr.addstr(0,0, '/'); stdscr.refresh()
 		    board.display()
 		    stdscr.addstr(0,0, '+'); stdscr.refresh()

 		stdscr.nodelay(0)	# Disable nodelay mode
 		display_menu(stdscr, menu_y)

 	    elif c in 'Ee': board.erase()
 	    elif c in 'Qq': break
 	    elif c in 'Rr':
 		board.makeRandom()
 		board.display(update_board=0)
 	    elif c in 'Ss':
 		board.display()
 	    else: pass                  # Ignore incorrect keys
 	elif c==curses.KEY_UP and ypos>0: 	     ypos=ypos-1
 	elif c==curses.KEY_DOWN and ypos<board.Y-1:  ypos=ypos+1
 	elif c==curses.KEY_LEFT and xpos>0:          xpos=xpos-1
 	elif c==curses.KEY_RIGHT and xpos<board.X-1: xpos=xpos+1
         else: pass			# Ignore incorrect keys

 if __name__=='__main__':
     import curses, traceback
     try:
 	# Initialize curses
 	stdscr=curses.initscr()
 	# Turn off echoing of keys, and enter cbreak mode,
 	# where no buffering is performed on keyboard input
 	curses.noecho() ; curses.cbreak()

 	# In keypad mode, escape sequences for special keys
 	# (like the cursor keys) will be interpreted and
 	# a special value like curses.KEY_LEFT will be returned
 	stdscr.keypad(1)
 	main(stdscr)			# Enter the main loop
 	# Set everything back to normal
 	stdscr.keypad(0)
 	curses.echo() ; curses.nocbreak()
 	curses.endwin()			# Terminate curses
     except:
         # In the event of an error, restore the terminal
 	# to a sane state.
 	stdscr.keypad(0)
 	curses.echo() ; curses.nocbreak()
 	curses.endwin()
 	traceback.print_exc()		# Print the exception
	#!/usr/bin/env python
	# life.py -- A curses-based version of Conway's Game of Life.
	# Contributed by AMK
	#
	# An empty board will be displayed, and the following commands are available:
	# E : Erase the board
	# R : Fill the board randomly
	# S : Step for a single generation
	# C : Update continuously until a key is struck
	# Q : Quit
	# Cursor keys : Move the cursor around the board
	# Space or Enter : Toggle the contents of the cursor's position
	#
	# TODO :
	# Support the mouse
	# Use colour if available
	# Make board updates faster
	#

	class LifeBoard:
	"""Encapsulates a Life board

	Attributes:
	X,Y : horizontal and vertical size of the board
	state : dictionary mapping (x,y) to 0 or 1

	Methods:
	display(update_board) -- If update_board is true, compute the
	next generation. Then display the state
	of the board and refresh the screen.
	erase() -- clear the entire board
	makeRandom() -- fill the board randomly
	set(y,x) -- set the given cell to Live; doesn't refresh the screen
	toggle(y,x) -- change the given cell from live to dead, or vice
	versa, and refresh the screen display

	"""
	def __init__(self, scr, char=ord('*')):
	"""Create a new LifeBoard instance.

	scr -- curses screen object to use for display
	char -- character used to render live cells (default: '*')
	"""
	self.state={} ; self.scr=scr
	Y, X = self.scr.getmaxyx()
	self.X, self.Y = X-2, Y-2-1
	self.char = char
	self.scr.clear()

	# Draw a border around the board
	border_line='+'+(self.X*'-')+'+'
	self.scr.addstr(0, 0, border_line)
	self.scr.addstr(self.Y+1,0, border_line)
	for y in range(0, self.Y):
	self.scr.addstr(1+y, 0, '\|')
	self.scr.addstr(1+y, self.X+1, '\|')
	self.scr.refresh()

	def set(self, y, x):
	"""Set a cell to the live state"""
	if x<0 or self.X<=x or y<0 or self.Y<=y:
	raise ValueError, "Coordinates out of range %i,%i"% (y,x)
	self.state[x,y] = 1

	def toggle(self, y, x):
	"""Toggle a cell's state between live and dead"""
	if x<0 or self.X<=x or y<0 or self.Y<=y:
	raise ValueError, "Coordinates out of range %i,%i"% (y,x)
	if self.state.has_key( (x,y) ):
	del self.state[x,y]
	self.scr.addch(y+1, x+1, ' ')
	else:
	self.state[x,y]=1
	self.scr.addch(y+1, x+1, self.char)
	self.scr.refresh()

	def erase(self):
	"""Clear the entire board and update the board display"""
	self.state={}
	self.display(update_board=0)

	def display(self, update_board=1):
	"""Display the whole board, optionally computing one generation"""
	M,N = self.X, self.Y
	if not update_board:
	for i in range(0, M):
	for j in range(0, N):
	if self.state.has_key( (i,j) ):
	self.scr.addch(j+1, i+1, self.char)
	else:
	self.scr.addch(j+1, i+1, ' ')
	self.scr.refresh()
	return

	d={} ; self.boring=1
	for i in range(0, M):
	L=range( max(0, i-1), min(M, i+2) )
	for j in range(0, N):
	s=0
	live=self.state.has_key( (i,j) )
	for k in range( max(0, j-1), min(N, j+2) ):
	for l in L:
	if self.state.has_key( (l,k) ):
	s=s+1
	s=s-live
	if s==3:
	# Birth
	d[i,j]=1
	self.scr.addch(j+1, i+1, self.char)
	if not live: self.boring=0
	elif s==2 and live: d[i,j]=1 # Survival
	elif live:
	# Death
	self.scr.addch(j+1, i+1, ' ')
	self.boring=0
	self.state=d
	self.scr.refresh()

	def makeRandom(self):
	"Fill the board with a random pattern"
	import whrandom
	self.state={}
	for i in range(0, self.X):
	for j in range(0, self.Y):
	if whrandom.random()*10>5.0: self.set(j,i)


	def erase_menu(stdscr, menu_y):
	"Clear the space where the menu resides"
	stdscr.move(menu_y, 0) ; stdscr.clrtoeol()
	stdscr.move(menu_y+1, 0) ; stdscr.clrtoeol()

	def display_menu(stdscr, menu_y):
	"Display the menu of possible keystroke commands"
	erase_menu(stdscr, menu_y)
	stdscr.addstr(menu_y, 4,
	'Use the cursor keys to move, and space or Enter to toggle a cell.')
	stdscr.addstr(menu_y+1, 4,
	'E)rase the board, R)andom fill, S)tep once or C)ontinuously, Q)uit')

	def main(stdscr):
	import string, curses

	# Clear the screen and display the menu of keys
	stdscr.clear()
	stdscr_y, stdscr_x = stdscr.getmaxyx()
	menu_y=(stdscr_y-3)-1
	display_menu(stdscr, menu_y)

	# Allocate a subwindow for the Life board and create the board object
	subwin=stdscr.subwin(stdscr_y-3, stdscr_x, 0, 0)
	board=LifeBoard(subwin, char=ord('*'))
	board.display(update_board=0)

	# xpos, ypos are the cursor's position
	xpos, ypos = board.X/2, board.Y/2

	# Main loop:
	while (1):
	stdscr.move(1+ypos, 1+xpos) # Move the cursor
	c=stdscr.getch() # Get a keystroke
	if 0<c<256:
	c=chr(c)
	if c in ' \n':
	board.toggle(ypos, xpos)
	elif c in 'Cc':
	erase_menu(stdscr, menu_y)
	stdscr.addstr(menu_y, 6, ' Hit any key to stop continuously '
	'updating the screen.')
	stdscr.refresh()
	# Activate nodelay mode; getch() will return -1
	# if no keystroke is available, instead of waiting.
	stdscr.nodelay(1)
	while (1):
	c=stdscr.getch()
	if c!=-1: break
	stdscr.addstr(0,0, '/'); stdscr.refresh()
	board.display()
	stdscr.addstr(0,0, '+'); stdscr.refresh()

	stdscr.nodelay(0) # Disable nodelay mode
	display_menu(stdscr, menu_y)

	elif c in 'Ee': board.erase()
	elif c in 'Qq': break
	elif c in 'Rr':
	board.makeRandom()
	board.display(update_board=0)
	elif c in 'Ss':
	board.display()
	else: pass # Ignore incorrect keys
	elif c==curses.KEY_UP and ypos>0: ypos=ypos-1
	elif c==curses.KEY_DOWN and ypos<board.Y-1: ypos=ypos+1
	elif c==curses.KEY_LEFT and xpos>0: xpos=xpos-1
	elif c==curses.KEY_RIGHT and xpos<board.X-1: xpos=xpos+1
	else: pass # Ignore incorrect keys

	if __name__=='__main__':
	import curses, traceback
	try:
	# Initialize curses
	stdscr=curses.initscr()
	# Turn off echoing of keys, and enter cbreak mode,
	# where no buffering is performed on keyboard input
	curses.noecho() ; curses.cbreak()

	# In keypad mode, escape sequences for special keys
	# (like the cursor keys) will be interpreted and
	# a special value like curses.KEY_LEFT will be returned
	stdscr.keypad(1)
	main(stdscr) # Enter the main loop
	# Set everything back to normal
	stdscr.keypad(0)
	curses.echo() ; curses.nocbreak()
	curses.endwin() # Terminate curses
	except:
	# In the event of an error, restore the terminal
	# to a sane state.
	stdscr.keypad(0)
	curses.echo() ; curses.nocbreak()
	curses.endwin()
	traceback.print_exc() # Print the exception