Lib/lib-stdwin/Buttons.py - platform/external/python/cpython3 - Gitiles

 # Module 'Buttons'


 from Resize import *


 # Import module 'rect' renamed as '_rect'
 #
 import rect
 _rect = rect
 del rect


 # Field indices in mouse event detail
 #
 _HV = 0
 _CLICKS = 1
 _BUTTON = 2
 _MASK = 3


 # LabelAppearance provides defaults for all appearance methods.
 # selected state not visible
 # disabled --> crossed out
 # hilited  --> inverted
 #
 class LabelAppearance():
 	#
 	# Initialization
 	#
 	def init_appearance(self, (win, bounds)):
 		self.win = win
 		self.bounds = bounds
 		self.enabled = 1
 		self.hilited = 0
 		self.selected = 0
 		self.text = ''
 		self.limbo = 1
 		self.recalc()
 		self.win.change(self.bounds)
 		# While the limbo flag is set, redraw calls are ignored.
 		# It is cleared by the first draw event.
 		# This is intended to avoid duplicate drawing during
 		# initialization.
 	#
 	# Changing the parameters
 	#
 	def settext(self, text):
 		self.text = text
 		self.recalctextpos()
 		self.redraw()
 	#
 	def setbounds(self, bounds):
 		# This delays drawing until after all buttons are moved
 		self.win.change(self.bounds)
 		self.bounds = bounds
 		self.recalc()
 		self.win.change(bounds)
 	#
 	# Changing the state bits
 	#
 	def enable(self, flag):
 		if flag <> self.enabled:
 			self.enabled = flag
 			if not self.limbo:
 				self.flipenable(self.win.begindrawing())
 	#
 	def hilite(self, flag):
 		if flag <> self.hilited:
 			self.hilited = flag
 			if not self.limbo:
 				self.fliphilite(self.win.begindrawing())
 	#
 	def select(self, flag):
 		if flag <> self.selected:
 			self.selected = flag
 			self.redraw()
 	#
 	# Recalculate the box bounds and text position.
 	# This can be overridden by buttons that draw different boxes
 	# or want their text in a different position.
 	#
 	def recalc(self):
 		self.recalcbounds()
 		self.recalctextpos()
 	#
 	def recalcbounds(self):
 		self.hilitebounds = _rect.inset(self.bounds, (3, 3))
 		self.crossbounds = self.bounds
 	#
 	def recalctextpos(self):
 		(left, top), (right, bottom) = self.bounds
 		d = self.win.begindrawing()
 		h = (left + right - d.textwidth(self.text)) / 2
 		v = (top + bottom - d.lineheight()) / 2
 		self.textpos = h, v
 	#
 	# Generic drawing mechanism.
 	# Do not override redraw() or draw() methods; override drawit() c.s.
 	#
 	def redraw(self):
 		if not self.limbo:
 			self.draw(self.win.begindrawing(), self.bounds)
 	#
 	def draw(self, (d, area)):
 		self.limbo = 0
 		area = _rect.intersect(area, self.bounds)
 		if area = _rect.empty:
 			return
 		d.cliprect(area)
 		d.erase(self.bounds)
 		self.drawit(d)
 		d.noclip()
 	#
 	# The drawit() method is fairly generic but may be overridden.
 	#
 	def drawit(self, d):
 		self.drawpict(d)
 		if self.text:
 			d.text(self.textpos, self.text)
 		if not self.enabled:
 			self.flipenable(d)
 		if self.hilited:
 			self.fliphilite(d)
 	#
 	# Default drawing detail functions.
 	# Overriding these is normally sufficient to get different
 	# appearances.
 	#
 	def drawpict(self, d):
 		pass
 	#
 	def flipenable(self, d):
 		_xorcross(d, self.crossbounds)
 	#
 	def fliphilite(self, d):
 		d.invert(self.hilitebounds)


 # ButtonAppearance displays a centered string in a box.
 # selected --> bold border
 # disabled --> crossed out
 # hilited  --> inverted
 #
 class ButtonAppearance() = LabelAppearance():
 	#
 	def drawpict(self, d):
 		d.box(_rect.inset(self.bounds, (1, 1)))
 		if self.selected:
 			# Make a thicker box
 			d.box(self.bounds)
 			d.box(_rect.inset(self.bounds, (2, 2)))
 			d.box(_rect.inset(self.bounds, (3, 3)))
 	#


 # CheckAppearance displays a small square box and a left-justified string.
 # selected --> a cross appears in the box
 # disabled --> whole button crossed out
 # hilited  --> box is inverted
 #
 class CheckAppearance() = LabelAppearance():
 	#
 	def drawpict(self, d):
 		d.box(self.boxbounds)
 		if self.selected: _xorcross(d, self.boxbounds)
 	#
 	def recalcbounds(self):
 		LabelAppearance.recalcbounds(self)
 		(left, top), (right, bottom) = self.bounds
 		self.size = bottom - top - 4
 		self.boxbounds = (left+2, top+2), (left+2+self.size, bottom-2)
 		self.hilitebounds = self.boxbounds
 	#
 	def recalctextpos(self):
 		d = self.win.begindrawing()
 		(left, top), (right, bottom) = self.boxbounds
 		h = right + d.textwidth(' ')
 		v = top + (self.size - d.lineheight()) / 2
 		self.textpos = h, v
 	#


 # RadioAppearance displays a round indicator and a left-justified string.
 # selected --> a dot appears in the indicator
 # disabled --> whole button crossed out
 # hilited  --> indicator is inverted
 #
 class RadioAppearance() = CheckAppearance():
 	#
 	def drawpict(self, d):
 		(left, top), (right, bottom) = self.boxbounds
 		radius = self.size / 2
 		h, v = left + radius, top + radius
 		d.circle((h, v), radius)
 		if self.selected:
 			some = radius/3
 			d.paint((h-some, v-some), (h+some, v+some))
 	#


 # NoReactivity ignores mouse and timer events.
 # The trigger methods call the corresponding hooks set by the user.
 # Hooks (and triggers) mean the following:
 # down_hook	called on some mouse-down events
 # move_hook	called on some mouse-move events
 # up_hook	called on mouse-up events
 # on_hook	called for buttons with on/off state, when it goes on
 # timer_hook	called on timer events
 # hook		called when a button 'fires' or a radiobutton goes on
 # There are usually extra conditions, e.g., hooks are only called
 # when the button is enabled, or active, or selected (on).
 #
 class NoReactivity():
 	#
 	def init_reactivity(self):
 		self.down_hook = self.move_hook = self.up_hook = \
 		  self.on_hook = self.off_hook = self.timer_hook = \
 		  self.hook = self.active = 0
 	#
 	def mousetest(self, hv):
 		return _rect.pointinrect(hv, self.bounds)
 	#
 	def mouse_down(self, detail):
 		pass
 	#
 	def mouse_move(self, detail):
 		pass
 	#
 	def mouse_up(self, detail):
 		pass
 	#
 	def timer(self):
 		pass
 	#
 	def down_trigger(self):
 		if self.down_hook: self.down_hook(self)
 	#
 	def move_trigger(self):
 		if self.move_hook: self.move_hook(self)
 	#
 	def up_trigger(self):
 		if self.up_hook: self.up_hook(self)
 	#
 	def on_trigger(self):
 		if self.on_hook: self.on_hook(self)
 	#
 	def off_trigger(self):
 		if self.off_hook: self.off_hook(self)
 	#
 	def timer_trigger(self):
 		if self.timer_hook: self.timer_hook(self)
 	#
 	def trigger(self):
 		if self.hook: self.hook(self)


 # ToggleReactivity acts like a simple pushbutton.
 # It toggles its hilite state on mouse down events.
 # Its timer_trigger method is called for all timer events while hilited.
 #
 class ToggleReactivity() = NoReactivity():
 	#
 	def mouse_down(self, detail):
 		if self.enabled and self.mousetest(detail[_HV]):
 			self.active = 1
 			self.hilite(not self.hilited)
 			self.down_trigger()
 	#
 	def mouse_move(self, detail):
 		if self.active:
 			self.move_trigger()
 	#
 	def mouse_up(self, detail):
 		if self.active:
 			self.up_trigger()
 			self.active = 0
 	#
 	def timer(self):
 		if self.hilited:
 			self.timer_trigger()
 	#
 	def down_trigger(self):
 		if self.hilited:
 			self.on_trigger()
 		else:
 			self.off_trigger()
 		self.trigger()
 	#


 # TriggerReactivity acts like a fancy pushbutton.
 # It hilites itself while the mouse is down within its bounds.
 #
 class TriggerReactivity() = NoReactivity():
 	#
 	def mouse_down(self, detail):
 		if self.enabled and self.mousetest(detail[_HV]):
 			self.active = 1
 			self.hilite(1)
 			self.down_trigger()
 	#
 	def mouse_move(self, detail):
 		if self.active:
 			self.hilite(self.mousetest(detail[_HV]))
 			if self.hilited:
 				self.move_trigger()
 	#
 	def mouse_up(self, detail):
 		if self.active:
 			self.hilite(self.mousetest(detail[_HV]))
 			if self.hilited:
 				self.up_trigger()
 				self.trigger()
 			self.active = 0
 			self.hilite(0)
 	#
 	def timer(self):
 		if self.active and self.hilited:
 			self.timer_trigger()
 	#


 # CheckReactivity handles mouse events like TriggerReactivity,
 # It overrides the up_trigger method to flip its selected state.
 #
 class CheckReactivity() = TriggerReactivity():
 	#
 	def up_trigger(self):
 		self.select(not self.selected)
 		if self.selected:
 			self.on_trigger()
 		else:
 			self.off_trigger()
 		self.trigger()


 # RadioReactivity turns itself on and the other buttons in its group
 # off when its up_trigger method is called.
 #
 class RadioReactivity() = TriggerReactivity():
 	#
 	def init_reactivity(self):
 		TriggerReactivity.init_reactivity(self)
 		self.group = []
 	#
 	def up_trigger(self):
 		for b in self.group:
 			if b <> self:
 				if b.selected:
 					b.select(0)
 					b.off_trigger()
 		self.select(1)
 		self.on_trigger()
 		self.trigger()


 # Auxiliary class for 'define' method.
 #
 class Define() = NoResize():
 	#
 	def define(self, (win, bounds, text)):
 		self.init_appearance(win, bounds)
 		self.init_reactivity()
 		self.init_resize()
 		self.settext(text)
 		return self


 # Subroutine to cross out a rectangle.
 #
 def _xorcross(d, bounds):
 	((left, top), (right, bottom)) = bounds
 	# This is s bit funny to make it look better
 	left = left + 2
 	right = right - 2
 	top = top + 2
 	bottom = bottom - 3
 	d.xorline(((left, top), (right, bottom)))
 	d.xorline((left, bottom), (right, top))


 # Ready-made button classes
 #
 class BaseButton() = NoReactivity(), LabelAppearance(), Define(): pass
 class Label() = NoReactivity(), LabelAppearance(), Define(): pass
 class ClassicButton() = TriggerReactivity(), ButtonAppearance(), Define(): pass
 class CheckButton() = CheckReactivity(), CheckAppearance(), Define(): pass
 class RadioButton() = RadioReactivity(), RadioAppearance(), Define(): pass
 class Toggle() = ToggleReactivity(), ButtonAppearance(), Define(): pass
	# Module 'Buttons'


	from Resize import *


	# Import module 'rect' renamed as '_rect'
	#
	import rect
	_rect = rect
	del rect


	# Field indices in mouse event detail
	#
	_HV = 0
	_CLICKS = 1
	_BUTTON = 2
	_MASK = 3


	# LabelAppearance provides defaults for all appearance methods.
	# selected state not visible
	# disabled --> crossed out
	# hilited --> inverted
	#
	class LabelAppearance():
	#
	# Initialization
	#
	def init_appearance(self, (win, bounds)):
	self.win = win
	self.bounds = bounds
	self.enabled = 1
	self.hilited = 0
	self.selected = 0
	self.text = ''
	self.limbo = 1
	self.recalc()
	self.win.change(self.bounds)
	# While the limbo flag is set, redraw calls are ignored.
	# It is cleared by the first draw event.
	# This is intended to avoid duplicate drawing during
	# initialization.
	#
	# Changing the parameters
	#
	def settext(self, text):
	self.text = text
	self.recalctextpos()
	self.redraw()
	#
	def setbounds(self, bounds):
	# This delays drawing until after all buttons are moved
	self.win.change(self.bounds)
	self.bounds = bounds
	self.recalc()
	self.win.change(bounds)
	#
	# Changing the state bits
	#
	def enable(self, flag):
	if flag <> self.enabled:
	self.enabled = flag
	if not self.limbo:
	self.flipenable(self.win.begindrawing())
	#
	def hilite(self, flag):
	if flag <> self.hilited:
	self.hilited = flag
	if not self.limbo:
	self.fliphilite(self.win.begindrawing())
	#
	def select(self, flag):
	if flag <> self.selected:
	self.selected = flag
	self.redraw()
	#
	# Recalculate the box bounds and text position.
	# This can be overridden by buttons that draw different boxes
	# or want their text in a different position.
	#
	def recalc(self):
	self.recalcbounds()
	self.recalctextpos()
	#
	def recalcbounds(self):
	self.hilitebounds = _rect.inset(self.bounds, (3, 3))
	self.crossbounds = self.bounds
	#
	def recalctextpos(self):
	(left, top), (right, bottom) = self.bounds
	d = self.win.begindrawing()
	h = (left + right - d.textwidth(self.text)) / 2
	v = (top + bottom - d.lineheight()) / 2
	self.textpos = h, v
	#
	# Generic drawing mechanism.
	# Do not override redraw() or draw() methods; override drawit() c.s.
	#
	def redraw(self):
	if not self.limbo:
	self.draw(self.win.begindrawing(), self.bounds)
	#
	def draw(self, (d, area)):
	self.limbo = 0
	area = _rect.intersect(area, self.bounds)
	if area = _rect.empty:
	return
	d.cliprect(area)
	d.erase(self.bounds)
	self.drawit(d)
	d.noclip()
	#
	# The drawit() method is fairly generic but may be overridden.
	#
	def drawit(self, d):
	self.drawpict(d)
	if self.text:
	d.text(self.textpos, self.text)
	if not self.enabled:
	self.flipenable(d)
	if self.hilited:
	self.fliphilite(d)
	#
	# Default drawing detail functions.
	# Overriding these is normally sufficient to get different
	# appearances.
	#
	def drawpict(self, d):
	pass
	#
	def flipenable(self, d):
	_xorcross(d, self.crossbounds)
	#
	def fliphilite(self, d):
	d.invert(self.hilitebounds)


	# ButtonAppearance displays a centered string in a box.
	# selected --> bold border
	# disabled --> crossed out
	# hilited --> inverted
	#
	class ButtonAppearance() = LabelAppearance():
	#
	def drawpict(self, d):
	d.box(_rect.inset(self.bounds, (1, 1)))
	if self.selected:
	# Make a thicker box
	d.box(self.bounds)
	d.box(_rect.inset(self.bounds, (2, 2)))
	d.box(_rect.inset(self.bounds, (3, 3)))
	#


	# CheckAppearance displays a small square box and a left-justified string.
	# selected --> a cross appears in the box
	# disabled --> whole button crossed out
	# hilited --> box is inverted
	#
	class CheckAppearance() = LabelAppearance():
	#
	def drawpict(self, d):
	d.box(self.boxbounds)
	if self.selected: _xorcross(d, self.boxbounds)
	#
	def recalcbounds(self):
	LabelAppearance.recalcbounds(self)
	(left, top), (right, bottom) = self.bounds
	self.size = bottom - top - 4
	self.boxbounds = (left+2, top+2), (left+2+self.size, bottom-2)
	self.hilitebounds = self.boxbounds
	#
	def recalctextpos(self):
	d = self.win.begindrawing()
	(left, top), (right, bottom) = self.boxbounds
	h = right + d.textwidth(' ')
	v = top + (self.size - d.lineheight()) / 2
	self.textpos = h, v
	#


	# RadioAppearance displays a round indicator and a left-justified string.
	# selected --> a dot appears in the indicator
	# disabled --> whole button crossed out
	# hilited --> indicator is inverted
	#
	class RadioAppearance() = CheckAppearance():
	#
	def drawpict(self, d):
	(left, top), (right, bottom) = self.boxbounds
	radius = self.size / 2
	h, v = left + radius, top + radius
	d.circle((h, v), radius)
	if self.selected:
	some = radius/3
	d.paint((h-some, v-some), (h+some, v+some))
	#


	# NoReactivity ignores mouse and timer events.
	# The trigger methods call the corresponding hooks set by the user.
	# Hooks (and triggers) mean the following:
	# down_hook called on some mouse-down events
	# move_hook called on some mouse-move events
	# up_hook called on mouse-up events
	# on_hook called for buttons with on/off state, when it goes on
	# timer_hook called on timer events
	# hook called when a button 'fires' or a radiobutton goes on
	# There are usually extra conditions, e.g., hooks are only called
	# when the button is enabled, or active, or selected (on).
	#
	class NoReactivity():
	#
	def init_reactivity(self):
	self.down_hook = self.move_hook = self.up_hook = \
	self.on_hook = self.off_hook = self.timer_hook = \
	self.hook = self.active = 0
	#
	def mousetest(self, hv):
	return _rect.pointinrect(hv, self.bounds)
	#
	def mouse_down(self, detail):
	pass
	#
	def mouse_move(self, detail):
	pass
	#
	def mouse_up(self, detail):
	pass
	#
	def timer(self):
	pass
	#
	def down_trigger(self):
	if self.down_hook: self.down_hook(self)
	#
	def move_trigger(self):
	if self.move_hook: self.move_hook(self)
	#
	def up_trigger(self):
	if self.up_hook: self.up_hook(self)
	#
	def on_trigger(self):
	if self.on_hook: self.on_hook(self)
	#
	def off_trigger(self):
	if self.off_hook: self.off_hook(self)
	#
	def timer_trigger(self):
	if self.timer_hook: self.timer_hook(self)
	#
	def trigger(self):
	if self.hook: self.hook(self)


	# ToggleReactivity acts like a simple pushbutton.
	# It toggles its hilite state on mouse down events.
	# Its timer_trigger method is called for all timer events while hilited.
	#
	class ToggleReactivity() = NoReactivity():
	#
	def mouse_down(self, detail):
	if self.enabled and self.mousetest(detail[_HV]):
	self.active = 1
	self.hilite(not self.hilited)
	self.down_trigger()
	#
	def mouse_move(self, detail):
	if self.active:
	self.move_trigger()
	#
	def mouse_up(self, detail):
	if self.active:
	self.up_trigger()
	self.active = 0
	#
	def timer(self):
	if self.hilited:
	self.timer_trigger()
	#
	def down_trigger(self):
	if self.hilited:
	self.on_trigger()
	else:
	self.off_trigger()
	self.trigger()
	#


	# TriggerReactivity acts like a fancy pushbutton.
	# It hilites itself while the mouse is down within its bounds.
	#
	class TriggerReactivity() = NoReactivity():
	#
	def mouse_down(self, detail):
	if self.enabled and self.mousetest(detail[_HV]):
	self.active = 1
	self.hilite(1)
	self.down_trigger()
	#
	def mouse_move(self, detail):
	if self.active:
	self.hilite(self.mousetest(detail[_HV]))
	if self.hilited:
	self.move_trigger()
	#
	def mouse_up(self, detail):
	if self.active:
	self.hilite(self.mousetest(detail[_HV]))
	if self.hilited:
	self.up_trigger()
	self.trigger()
	self.active = 0
	self.hilite(0)
	#
	def timer(self):
	if self.active and self.hilited:
	self.timer_trigger()
	#


	# CheckReactivity handles mouse events like TriggerReactivity,
	# It overrides the up_trigger method to flip its selected state.
	#
	class CheckReactivity() = TriggerReactivity():
	#
	def up_trigger(self):
	self.select(not self.selected)
	if self.selected:
	self.on_trigger()
	else:
	self.off_trigger()
	self.trigger()


	# RadioReactivity turns itself on and the other buttons in its group
	# off when its up_trigger method is called.
	#
	class RadioReactivity() = TriggerReactivity():
	#
	def init_reactivity(self):
	TriggerReactivity.init_reactivity(self)
	self.group = []
	#
	def up_trigger(self):
	for b in self.group:
	if b <> self:
	if b.selected:
	b.select(0)
	b.off_trigger()
	self.select(1)
	self.on_trigger()
	self.trigger()


	# Auxiliary class for 'define' method.
	#
	class Define() = NoResize():
	#
	def define(self, (win, bounds, text)):
	self.init_appearance(win, bounds)
	self.init_reactivity()
	self.init_resize()
	self.settext(text)
	return self


	# Subroutine to cross out a rectangle.
	#
	def _xorcross(d, bounds):
	((left, top), (right, bottom)) = bounds
	# This is s bit funny to make it look better
	left = left + 2
	right = right - 2
	top = top + 2
	bottom = bottom - 3
	d.xorline(((left, top), (right, bottom)))
	d.xorline((left, bottom), (right, top))


	# Ready-made button classes
	#
	class BaseButton() = NoReactivity(), LabelAppearance(), Define(): pass
	class Label() = NoReactivity(), LabelAppearance(), Define(): pass
	class ClassicButton() = TriggerReactivity(), ButtonAppearance(), Define(): pass
	class CheckButton() = CheckReactivity(), CheckAppearance(), Define(): pass
	class RadioButton() = RadioReactivity(), RadioAppearance(), Define(): pass
	class Toggle() = ToggleReactivity(), ButtonAppearance(), Define(): pass