Demo/stdwin/clock.py - platform/external/python/cpython3 - Gitiles

 #! /usr/local/bin/python

 # 'clock' -- A simple alarm clock

 # The alarm can be set at 5 minute intervals on a 12 hour basis.
 # It is controlled with the mouse:
 # - Click and drag around the circle to set the alarm.
 # - Click far outside the circle to clear the alarm.
 # - Click near the center to set the alarm at the last time set.
 # The alarm time is indicated by a small triangle just outside the circle,
 # and also by a digital time at the bottom.
 # The indicators disappear when the alarm is not set.
 # When the alarm goes off, it beeps every minute for five minutes,
 # and the clock turns into inverse video.
 # Click or activate the window to turn the ringing off.

 import stdwin
 from stdwinevents import WE_MOUSE_DOWN, WE_MOUSE_MOVE, WE_MOUSE_UP, \
 	WE_TIMER, WE_DRAW, WE_SIZE, WE_CLOSE, WE_ACTIVATE
 import mainloop
 import time
 from math import sin, cos, atan2, pi, sqrt

 DEFWIDTH, DEFHEIGHT = 200, 200

 MOUSE_EVENTS = (WE_MOUSE_DOWN, WE_MOUSE_MOVE, WE_MOUSE_UP)
 ORIGIN = 0, 0
 FARAWAY = 2000, 2000
 EVERYWHERE = ORIGIN, FARAWAY

 # TZDIFF = 5*3600	# THINK C 3.0 returns UCT if local time is EST
 TZDIFF = 0		# THINK C 4.0 always returns local time


 def main():
 	win = makewindow()
 	del win
 	mainloop.mainloop()

 def makewindow():
 	stdwin.setdefwinsize(DEFWIDTH, DEFHEIGHT + stdwin.lineheight())
 	win = stdwin.open('clock')
 	setdimensions(win)
 	win.set = 1		# True when alarm is set
 	win.time = 11*60 + 40	# Time when alarm must go off
 	win.ring = 0		# True when alarm is ringing
 	win.dispatch = cdispatch
 	mainloop.register(win)
 	settimer(win)
 	return win

 def cdispatch(event):
 	type, win, detail = event
 	if type == WE_DRAW:
 		drawproc(win, detail)
 	elif type == WE_TIMER:
 		settimer(win)
 		drawproc(win, EVERYWHERE)
 	elif type in MOUSE_EVENTS:
 		mouseclick(win, type, detail)
 	elif type == WE_ACTIVATE:
 		if win.ring:
 			# Turn the ringing off
 			win.ring = 0
 			win.begindrawing().invert(win.mainarea)
 	elif type == WE_SIZE:
 		win.change(EVERYWHERE)
 		setdimensions(win)
 	elif type == WE_CLOSE:
 		mainloop.unregister(win)

 def setdimensions(win):
 	width, height = win.getwinsize()
 	height = height - stdwin.lineheight()
 	if width < height: size = width
 	else: size = height
 	halfwidth = width/2
 	halfheight = height/2
 	win.center = halfwidth, halfheight
 	win.radius = size*45/100
 	win.width = width
 	win.height = height
 	win.corner = width, height
 	win.mainarea = ORIGIN, win.corner
 	win.lineheight = stdwin.lineheight()
 	win.farcorner = width, height + win.lineheight
 	win.statusarea = (0, height), win.farcorner
 	win.fullarea = ORIGIN, win.farcorner

 def settimer(win):
 	now = getlocaltime()
 	win.times = calctime(now)
 	delay = 61 - now % 60
 	win.settimer(10 * delay)
 	minutes = (now/60) % 720
 	if win.ring:
 		# Is it time to stop the alarm ringing?
 		since = (minutes - win.time + 720) % 720
 		if since >= 5:
 			# Stop it now
 			win.ring = 0
 		else:
 			# Ring again, once every minute
 			stdwin.fleep()
 	elif win.set and minutes == win.time:
 		# Start the alarm ringing
 		win.ring = 1
 		stdwin.fleep()

 def drawproc(win, area):
 	hours, minutes, seconds = win.times
 	d = win.begindrawing()
 	d.cliprect(area)
 	d.erase(EVERYWHERE)
 	d.circle(win.center, win.radius)
 	d.line(win.center, calcpoint(win, hours*30 + minutes/2, 0.6))
 	d.line(win.center, calcpoint(win, minutes*6, 1.0))
 	str = dd(hours) + ':' + dd(minutes)
 	p = (win.width - d.textwidth(str))/2, win.height * 3 / 4
 	d.text(p, str)
 	if win.set:
 		drawalarm(win, d)
 		drawalarmtime(win, d)
 	if win.ring:
 		d.invert(win.mainarea)

 def mouseclick(win, type, detail):
 	d = win.begindrawing()
 	if win.ring:
 		# First turn the ringing off
 		win.ring = 0
 		d.invert(win.mainarea)
 	h, v = detail[0]
 	ch, cv = win.center
 	x, y = h-ch, cv-v
 	dist = sqrt(x*x + y*y) / float(win.radius)
 	if dist > 1.2:
 		if win.set:
 			drawalarm(win, d)
 			erasealarmtime(win, d)
 			win.set = 0
 	elif dist < 0.8:
 		if not win.set:
 			win.set = 1
 			drawalarm(win, d)
 			drawalarmtime(win, d)
 	else:
 		# Convert to half-degrees (range 0..720)
 		alpha = atan2(y, x)
 		hdeg = alpha*360.0/pi
 		hdeg = 180.0 - hdeg
 		hdeg = (hdeg + 720.0) % 720.0
 		atime = 5*int(hdeg/5.0 + 0.5)
 		if atime <> win.time or not win.set:
 			if win.set:
 				drawalarm(win, d)
 				erasealarmtime(win, d)
 			win.set = 1
 			win.time = atime
 			drawalarm(win, d)
 			drawalarmtime(win, d)

 def drawalarm(win, d):
 	p1 = calcpoint(win, float(win.time)/2.0, 1.02)
 	p2 = calcpoint(win, float(win.time)/2.0 - 4.0, 1.1)
 	p3 = calcpoint(win, float(win.time)/2.0 + 4.0, 1.1)
 	d.xorline(p1, p2)
 	d.xorline(p2, p3)
 	d.xorline(p3, p1)

 def erasealarmtime(win, d):
 	d.erase(win.statusarea)

 def drawalarmtime(win, d):
 	# win.time is in the range 0..720 with origin at 12 o'clock
 	# Convert to hours (0..12) and minutes (12*(0..60))
 	hh = win.time/60
 	mm = win.time%60
 	str = 'Alarm@' + dd(hh) + ':' + dd(mm)
 	p1 = (win.width - d.textwidth(str))/2, win.height
 	d.text(p1, str)

 def calcpoint(win, degrees, size):
 	alpha = pi/2.0 - float(degrees) * pi/180.0
 	x, y = cos(alpha), sin(alpha)
 	h, v = win.center
 	r = float(win.radius)
 	return h + int(x*size*r), v - int(y*size*r)

 def calctime(now):
 	seconds = now % 60
 	minutes = (now/60) % 60
 	hours = (now/3600) % 12
 	return hours, minutes, seconds

 def dd(n):
 	s = `n`
 	return '0'*(2-len(s)) + s

 def getlocaltime():
 	return time.time() - TZDIFF

 main()
	#! /usr/local/bin/python

	# 'clock' -- A simple alarm clock

	# The alarm can be set at 5 minute intervals on a 12 hour basis.
	# It is controlled with the mouse:
	# - Click and drag around the circle to set the alarm.
	# - Click far outside the circle to clear the alarm.
	# - Click near the center to set the alarm at the last time set.
	# The alarm time is indicated by a small triangle just outside the circle,
	# and also by a digital time at the bottom.
	# The indicators disappear when the alarm is not set.
	# When the alarm goes off, it beeps every minute for five minutes,
	# and the clock turns into inverse video.
	# Click or activate the window to turn the ringing off.

	import stdwin
	from stdwinevents import WE_MOUSE_DOWN, WE_MOUSE_MOVE, WE_MOUSE_UP, \
	WE_TIMER, WE_DRAW, WE_SIZE, WE_CLOSE, WE_ACTIVATE
	import mainloop
	import time
	from math import sin, cos, atan2, pi, sqrt

	DEFWIDTH, DEFHEIGHT = 200, 200

	MOUSE_EVENTS = (WE_MOUSE_DOWN, WE_MOUSE_MOVE, WE_MOUSE_UP)
	ORIGIN = 0, 0
	FARAWAY = 2000, 2000
	EVERYWHERE = ORIGIN, FARAWAY

	# TZDIFF = 5*3600 # THINK C 3.0 returns UCT if local time is EST
	TZDIFF = 0 # THINK C 4.0 always returns local time


	def main():
	win = makewindow()
	del win
	mainloop.mainloop()

	def makewindow():
	stdwin.setdefwinsize(DEFWIDTH, DEFHEIGHT + stdwin.lineheight())
	win = stdwin.open('clock')
	setdimensions(win)
	win.set = 1 # True when alarm is set
	win.time = 11*60 + 40 # Time when alarm must go off
	win.ring = 0 # True when alarm is ringing
	win.dispatch = cdispatch
	mainloop.register(win)
	settimer(win)
	return win

	def cdispatch(event):
	type, win, detail = event
	if type == WE_DRAW:
	drawproc(win, detail)
	elif type == WE_TIMER:
	settimer(win)
	drawproc(win, EVERYWHERE)
	elif type in MOUSE_EVENTS:
	mouseclick(win, type, detail)
	elif type == WE_ACTIVATE:
	if win.ring:
	# Turn the ringing off
	win.ring = 0
	win.begindrawing().invert(win.mainarea)
	elif type == WE_SIZE:
	win.change(EVERYWHERE)
	setdimensions(win)
	elif type == WE_CLOSE:
	mainloop.unregister(win)

	def setdimensions(win):
	width, height = win.getwinsize()
	height = height - stdwin.lineheight()
	if width < height: size = width
	else: size = height
	halfwidth = width/2
	halfheight = height/2
	win.center = halfwidth, halfheight
	win.radius = size*45/100
	win.width = width
	win.height = height
	win.corner = width, height
	win.mainarea = ORIGIN, win.corner
	win.lineheight = stdwin.lineheight()
	win.farcorner = width, height + win.lineheight
	win.statusarea = (0, height), win.farcorner
	win.fullarea = ORIGIN, win.farcorner

	def settimer(win):
	now = getlocaltime()
	win.times = calctime(now)
	delay = 61 - now % 60
	win.settimer(10 * delay)
	minutes = (now/60) % 720
	if win.ring:
	# Is it time to stop the alarm ringing?
	since = (minutes - win.time + 720) % 720
	if since >= 5:
	# Stop it now
	win.ring = 0
	else:
	# Ring again, once every minute
	stdwin.fleep()
	elif win.set and minutes == win.time:
	# Start the alarm ringing
	win.ring = 1
	stdwin.fleep()

	def drawproc(win, area):
	hours, minutes, seconds = win.times
	d = win.begindrawing()
	d.cliprect(area)
	d.erase(EVERYWHERE)
	d.circle(win.center, win.radius)
	d.line(win.center, calcpoint(win, hours*30 + minutes/2, 0.6))
	d.line(win.center, calcpoint(win, minutes*6, 1.0))
	str = dd(hours) + ':' + dd(minutes)
	p = (win.width - d.textwidth(str))/2, win.height * 3 / 4
	d.text(p, str)
	if win.set:
	drawalarm(win, d)
	drawalarmtime(win, d)
	if win.ring:
	d.invert(win.mainarea)

	def mouseclick(win, type, detail):
	d = win.begindrawing()
	if win.ring:
	# First turn the ringing off
	win.ring = 0
	d.invert(win.mainarea)
	h, v = detail[0]
	ch, cv = win.center
	x, y = h-ch, cv-v
	dist = sqrt(xx + yy) / float(win.radius)
	if dist > 1.2:
	if win.set:
	drawalarm(win, d)
	erasealarmtime(win, d)
	win.set = 0
	elif dist < 0.8:
	if not win.set:
	win.set = 1
	drawalarm(win, d)
	drawalarmtime(win, d)
	else:
	# Convert to half-degrees (range 0..720)
	alpha = atan2(y, x)
	hdeg = alpha*360.0/pi
	hdeg = 180.0 - hdeg
	hdeg = (hdeg + 720.0) % 720.0
	atime = 5*int(hdeg/5.0 + 0.5)
	if atime <> win.time or not win.set:
	if win.set:
	drawalarm(win, d)
	erasealarmtime(win, d)
	win.set = 1
	win.time = atime
	drawalarm(win, d)
	drawalarmtime(win, d)

	def drawalarm(win, d):
	p1 = calcpoint(win, float(win.time)/2.0, 1.02)
	p2 = calcpoint(win, float(win.time)/2.0 - 4.0, 1.1)
	p3 = calcpoint(win, float(win.time)/2.0 + 4.0, 1.1)
	d.xorline(p1, p2)
	d.xorline(p2, p3)
	d.xorline(p3, p1)

	def erasealarmtime(win, d):
	d.erase(win.statusarea)

	def drawalarmtime(win, d):
	# win.time is in the range 0..720 with origin at 12 o'clock
	# Convert to hours (0..12) and minutes (12*(0..60))
	hh = win.time/60
	mm = win.time%60
	str = 'Alarm@' + dd(hh) + ':' + dd(mm)
	p1 = (win.width - d.textwidth(str))/2, win.height
	d.text(p1, str)

	def calcpoint(win, degrees, size):
	alpha = pi/2.0 - float(degrees) * pi/180.0
	x, y = cos(alpha), sin(alpha)
	h, v = win.center
	r = float(win.radius)
	return h + int(xsizer), v - int(ysizer)

	def calctime(now):
	seconds = now % 60
	minutes = (now/60) % 60
	hours = (now/3600) % 12
	return hours, minutes, seconds

	def dd(n):
	s = `n`
	return '0'*(2-len(s)) + s

	def getlocaltime():
	return time.time() - TZDIFF

	main()