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author | Guido van Rossum <guido@python.org> | 1990-10-24 16:39:18 (GMT) |
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committer | Guido van Rossum <guido@python.org> | 1990-10-24 16:39:18 (GMT) |
commit | 336f2816cd3599b0347a7fe35d1286d9e38596a0 (patch) | |
tree | 75362fb1421c863268acf49832d87b23f0891c4f /Lib | |
parent | 2a9096b5f9d90c6d90a9386c82214237ffc69167 (diff) | |
download | cpython-336f2816cd3599b0347a7fe35d1286d9e38596a0.zip cpython-336f2816cd3599b0347a7fe35d1286d9e38596a0.tar.gz cpython-336f2816cd3599b0347a7fe35d1286d9e38596a0.tar.bz2 |
Initial revision
Diffstat (limited to 'Lib')
-rw-r--r-- | Lib/lib-stdwin/Buttons.py | 397 | ||||
-rw-r--r-- | Lib/lib-stdwin/Sliders.py | 74 | ||||
-rwxr-xr-x | Lib/stdwin/Buttons.py | 397 | ||||
-rwxr-xr-x | Lib/stdwin/Sliders.py | 74 |
4 files changed, 942 insertions, 0 deletions
diff --git a/Lib/lib-stdwin/Buttons.py b/Lib/lib-stdwin/Buttons.py new file mode 100644 index 0000000..d6ad6e3 --- /dev/null +++ b/Lib/lib-stdwin/Buttons.py @@ -0,0 +1,397 @@ +# Module 'Buttons' -- see README +# +# Module functionality is now split in two parts: +# - 'appearance' defines what it looks like +# - 'reactivity' defines how it acts to mouse events + + +# 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 + + +# BaseAppearance provides defaults for all appearance methods. +# In fact it looks like a label. +# +class BaseAppearance(): + # + # Initialization + # + def init_appearance(self, (win, bounds)): + win.change(bounds) + self.win = win + self.bounds = bounds + self.enabled = 1 + self.hilited = 0 + self.selected = 0 + self.text = '' + # + # Changing the parameters + # + def settext(self, text): + self.text = text + self.redraw() + # + def setbounds(self, bounds): + # This elays drawing until after all buttons are moved + self.win.change(self.bounds) + self.bounds = bounds + self.win.change(bounds) + # + # Changing the state bits + # + def enable(self, flag): + if flag <> self.enabled: + self.enabled = flag + self.flipenable(self.win.begindrawing()) + # + def hilite(self, flag): + if flag <> self.hilited: + self.hilited = flag + self.fliphilite(self.win.begindrawing()) + # + def select(self, flag): + if flag <> self.selected: + self.selected = flag + self.redraw() + # + # Generic drawing mechanism. + # There should be no reason to override redraw() or draw() methods. + # + def redraw(self): + self.draw(self.win.begindrawing(), self.bounds) + # + def draw(self, (d, area)): + 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) # Box, circle etc.; also 'selected' + if self.text: + hv = self.textpos(d) + d.text(hv, 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. + # No picture; centered text; enable crosses out; hilite inverts. + # + def drawpict(self, d): + pass + # + def textpos(self, d): + # XXX shouldn't this be done once by init/settext()? + (left, top), (right, bottom) = self.bounds + h = (left + right - d.textwidth(self.text)) / 2 + v = (top + bottom - d.lineheight()) / 2 + return h, v + # + def flipenable(self, d): + _xorcross(d, self.bounds) + # + def fliphilite(self, d): + d.invert(_rect.inset(self.bounds, (3, 3))) + + +# Subroutine to cross out a rectangle. +# +def _xorcross(d, bounds): + ((left, top), (right, bottom)) = bounds + left = left + 2 + right = right - 2 + top = top + 2 + bottom = bottom - 3 + d.xorline(((left, top), (right, bottom))) + d.xorline((left, bottom), (right, top)) + + +# LabelAppearance displays a centered string. +# selected --> underlined +# disabled --> crossed out +# hilited --> inverted +# +class LabelAppearance() = BaseAppearance(): + # + def drawpict(self, d): + if self.selected: + # Underline it + d.line((left+1, bottom-1), (right-1, bottom-1)) + # + if not self.enabled: self._crossout(d) + if self.hilited: self._invert(d) + # + + +# ButtonAppearance displays a centered string in a box. +# selected --> bold border +# disabled --> crossed out +# hilited --> inverted +# +class ButtonAppearance() = BaseAppearance(): + # + 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() = BaseAppearance(): + # + def drawpict(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + boxbounds = (left, top), (left+size, bottom) + d.box(boxbounds) + if self.selected: _xorcross(d, boxbounds) + # + def textpos(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + h = left + size + d.textwidth(' ') + v = top + (size - d.lineheight()) / 2 + return h, v + # + def fliphilite(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + boxbounds = (left, top), (left+size, bottom) + d.invert(boxbounds) + # + + +# 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() = BaseAppearance(): + # + def drawpict(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + radius = size / 2 + h, v = left + radius, top + radius + d.circle((h, v), radius - 1) + if self.selected: + some = radius/3 + d.paint((h-some, v-some), (h+some, v+some)) + # + def textpos(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + h = left + size + d.textwidth(' ') + v = top + (size - d.lineheight()) / 2 + return h, v + # + def fliphilite(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + d.invert((left, top), (left + size, bottom)) + # + + +# 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 +# active_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.active_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 active_trigger(self): + if self.active_hook: self.active_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.active_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.active_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.active_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(): + # + def define(self, (win, bounds, text)): + self.init_appearance(win, bounds) + self.text = text + self.init_reactivity() + return self + + +# Ready-made button classes +# +class BaseButton() = NoReactivity(), BaseAppearance(), 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 diff --git a/Lib/lib-stdwin/Sliders.py b/Lib/lib-stdwin/Sliders.py new file mode 100644 index 0000000..8953efd --- /dev/null +++ b/Lib/lib-stdwin/Sliders.py @@ -0,0 +1,74 @@ +# Module 'Sliders' +# +# Sliders are somewhat like buttons but have an extra hook that is +# called whenever their value is changed. + +import stdwin +from stdwinevents import * +import rect +from minmax import min, max +from Buttons import ClassicButton + + +# Field indices in event detail +# +_HV = 0 +_CLICKS = 1 +_BUTTON = 2 +_MASK = 3 + + +# A dragslider is the simplest possible slider. +# It looks like a button but dragging the mouse left or right +# changes the controlled value. +# +class DragSlider() = ClassicButton(): + # + # INVARIANTS maintained by the define and setval methods: + # + # self.min <= self.val <= self.max + # self.text = `self.val` + # + # (Notice that unlike in Python ranges, the end point belongs + # to the range.) + # + def define(self, (win, bounds)): + self.min = 0 + self.val = 50 + self.max = 100 + self.setval_hook = 0 + self.pretext = self.postext = '' + self.text = self.pretext + `self.val` + self.postext + self = ClassicButton.define(self, (win, bounds, self.text)) + return self + # + def setval(self, val): + val = min(self.max, max(self.min, val)) + if val <> self.val: + self.val = val + self.text = self.pretext + `self.val` + self.postext + if self.setval_hook: + self.setval_hook(self) + self.redraw() + # + def settext(self, text): + pass # shouldn't be called at all + # + def mouse_down(self, detail): + h, v = hv = detail[_HV] + if self.enabled and self.mousetest(hv): + self.anchor = h + self.oldval = self.val + self.active = 1 + # + def mouse_move(self, detail): + if self.active: + h, v = detail[_HV] + self.setval(self.oldval + (h - self.anchor)) + # + def mouse_up(self, detail): + if self.active: + h, v = detail[_HV] + self.setval(self.oldval + (h - self.anchor)) + self.active = 0 + # diff --git a/Lib/stdwin/Buttons.py b/Lib/stdwin/Buttons.py new file mode 100755 index 0000000..d6ad6e3 --- /dev/null +++ b/Lib/stdwin/Buttons.py @@ -0,0 +1,397 @@ +# Module 'Buttons' -- see README +# +# Module functionality is now split in two parts: +# - 'appearance' defines what it looks like +# - 'reactivity' defines how it acts to mouse events + + +# 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 + + +# BaseAppearance provides defaults for all appearance methods. +# In fact it looks like a label. +# +class BaseAppearance(): + # + # Initialization + # + def init_appearance(self, (win, bounds)): + win.change(bounds) + self.win = win + self.bounds = bounds + self.enabled = 1 + self.hilited = 0 + self.selected = 0 + self.text = '' + # + # Changing the parameters + # + def settext(self, text): + self.text = text + self.redraw() + # + def setbounds(self, bounds): + # This elays drawing until after all buttons are moved + self.win.change(self.bounds) + self.bounds = bounds + self.win.change(bounds) + # + # Changing the state bits + # + def enable(self, flag): + if flag <> self.enabled: + self.enabled = flag + self.flipenable(self.win.begindrawing()) + # + def hilite(self, flag): + if flag <> self.hilited: + self.hilited = flag + self.fliphilite(self.win.begindrawing()) + # + def select(self, flag): + if flag <> self.selected: + self.selected = flag + self.redraw() + # + # Generic drawing mechanism. + # There should be no reason to override redraw() or draw() methods. + # + def redraw(self): + self.draw(self.win.begindrawing(), self.bounds) + # + def draw(self, (d, area)): + 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) # Box, circle etc.; also 'selected' + if self.text: + hv = self.textpos(d) + d.text(hv, 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. + # No picture; centered text; enable crosses out; hilite inverts. + # + def drawpict(self, d): + pass + # + def textpos(self, d): + # XXX shouldn't this be done once by init/settext()? + (left, top), (right, bottom) = self.bounds + h = (left + right - d.textwidth(self.text)) / 2 + v = (top + bottom - d.lineheight()) / 2 + return h, v + # + def flipenable(self, d): + _xorcross(d, self.bounds) + # + def fliphilite(self, d): + d.invert(_rect.inset(self.bounds, (3, 3))) + + +# Subroutine to cross out a rectangle. +# +def _xorcross(d, bounds): + ((left, top), (right, bottom)) = bounds + left = left + 2 + right = right - 2 + top = top + 2 + bottom = bottom - 3 + d.xorline(((left, top), (right, bottom))) + d.xorline((left, bottom), (right, top)) + + +# LabelAppearance displays a centered string. +# selected --> underlined +# disabled --> crossed out +# hilited --> inverted +# +class LabelAppearance() = BaseAppearance(): + # + def drawpict(self, d): + if self.selected: + # Underline it + d.line((left+1, bottom-1), (right-1, bottom-1)) + # + if not self.enabled: self._crossout(d) + if self.hilited: self._invert(d) + # + + +# ButtonAppearance displays a centered string in a box. +# selected --> bold border +# disabled --> crossed out +# hilited --> inverted +# +class ButtonAppearance() = BaseAppearance(): + # + 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() = BaseAppearance(): + # + def drawpict(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + boxbounds = (left, top), (left+size, bottom) + d.box(boxbounds) + if self.selected: _xorcross(d, boxbounds) + # + def textpos(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + h = left + size + d.textwidth(' ') + v = top + (size - d.lineheight()) / 2 + return h, v + # + def fliphilite(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + boxbounds = (left, top), (left+size, bottom) + d.invert(boxbounds) + # + + +# 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() = BaseAppearance(): + # + def drawpict(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + radius = size / 2 + h, v = left + radius, top + radius + d.circle((h, v), radius - 1) + if self.selected: + some = radius/3 + d.paint((h-some, v-some), (h+some, v+some)) + # + def textpos(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + h = left + size + d.textwidth(' ') + v = top + (size - d.lineheight()) / 2 + return h, v + # + def fliphilite(self, d): + (left, top), (right, bottom) = self.bounds + size = bottom - top + d.invert((left, top), (left + size, bottom)) + # + + +# 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 +# active_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.active_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 active_trigger(self): + if self.active_hook: self.active_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.active_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.active_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.active_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(): + # + def define(self, (win, bounds, text)): + self.init_appearance(win, bounds) + self.text = text + self.init_reactivity() + return self + + +# Ready-made button classes +# +class BaseButton() = NoReactivity(), BaseAppearance(), 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 diff --git a/Lib/stdwin/Sliders.py b/Lib/stdwin/Sliders.py new file mode 100755 index 0000000..8953efd --- /dev/null +++ b/Lib/stdwin/Sliders.py @@ -0,0 +1,74 @@ +# Module 'Sliders' +# +# Sliders are somewhat like buttons but have an extra hook that is +# called whenever their value is changed. + +import stdwin +from stdwinevents import * +import rect +from minmax import min, max +from Buttons import ClassicButton + + +# Field indices in event detail +# +_HV = 0 +_CLICKS = 1 +_BUTTON = 2 +_MASK = 3 + + +# A dragslider is the simplest possible slider. +# It looks like a button but dragging the mouse left or right +# changes the controlled value. +# +class DragSlider() = ClassicButton(): + # + # INVARIANTS maintained by the define and setval methods: + # + # self.min <= self.val <= self.max + # self.text = `self.val` + # + # (Notice that unlike in Python ranges, the end point belongs + # to the range.) + # + def define(self, (win, bounds)): + self.min = 0 + self.val = 50 + self.max = 100 + self.setval_hook = 0 + self.pretext = self.postext = '' + self.text = self.pretext + `self.val` + self.postext + self = ClassicButton.define(self, (win, bounds, self.text)) + return self + # + def setval(self, val): + val = min(self.max, max(self.min, val)) + if val <> self.val: + self.val = val + self.text = self.pretext + `self.val` + self.postext + if self.setval_hook: + self.setval_hook(self) + self.redraw() + # + def settext(self, text): + pass # shouldn't be called at all + # + def mouse_down(self, detail): + h, v = hv = detail[_HV] + if self.enabled and self.mousetest(hv): + self.anchor = h + self.oldval = self.val + self.active = 1 + # + def mouse_move(self, detail): + if self.active: + h, v = detail[_HV] + self.setval(self.oldval + (h - self.anchor)) + # + def mouse_up(self, detail): + if self.active: + h, v = detail[_HV] + self.setval(self.oldval + (h - self.anchor)) + self.active = 0 + # |