Source code for peng3d.gui.button
#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# button.py
#
# Copyright 2016 notna <notna@apparat.org>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301, USA.
#
#
__all__ = [
"Button","ButtonBackground",
"ImageButton","ImageBackground",
"FramedImageButton","FramedImageBackground",
"ToggleButton",
"Checkbox","CheckboxBackground"
]
import pyglet
from pyglet.gl import *
from .widgets import Background,Widget,mouse_aabb
LABEL_FONT_SIZE = 16
[docs]class ButtonBackground(Background):
"""
Background for the :py:class:`Button` Widget.
This background renders the button and its border, but not the label.
"""
n_vertices = 20
change_on_press = True
vlist_layer = 0 # used as the first argument to OrderedGroup
def __init__(self,widget,border=[4,4],borderstyle="flat",
batch=None,change_on_press=None):
super(ButtonBackground,self).__init__(widget)
self.border = border
self.borderstyle = borderstyle
self.batch = batch
self.change_on_press = change_on_press if change_on_press is not None else self.change_on_press
self.borderstyles = {}
self.addBorderstyle("flat",self.bs_flat)
self.addBorderstyle("gradient",self.bs_gradient)
self.addBorderstyle("oldshadow",self.bs_oldshadow)
self.addBorderstyle("material",self.bs_material)
[docs] def init_bg(self):
# Can only be initialized here due to order of initialization
self.batch = self.batch if self.batch is not None else self.submenu.batch2d
self.vlist = self.batch.add(self.n_vertices,GL_QUADS,pyglet.graphics.OrderedGroup(self.vlist_layer),
"v2f",
"c3B",
)
self.reg_vlist(self.vlist)
[docs] def redraw_bg(self):
# Convenience variables
sx,sy,x,y,bx,by = self.getPosSize()
# Button background
# Outer vertices
# x y
v1 = x, y+sy
v2 = x+sx, y+sy
v3 = x, y
v4 = x+sx, y
# Inner vertices
# x y
v5 = x+bx, y+sy-by
v6 = x+sx-bx, y+sy-by
v7 = x+bx, y+by
v8 = x+sx-bx, y+by
# 5 Quads, for edges and the center
qb1 = v5+v6+v2+v1
qb2 = v8+v4+v2+v6
qb3 = v3+v4+v8+v7
qb4 = v3+v7+v5+v1
qc = v7+v8+v6+v5
v = qb1+qb2+qb3+qb4+qc
self.vlist.vertices = v
if self.borderstyle not in self.borderstyles:
raise ValueError("Invalid Border style")
c = self.borderstyles[self.borderstyle](*self.getColors())
self.vlist.colors = c
[docs] def getPosSize(self):
"""
Helper function converting the actual widget position and size into a usable and offsetted form.
This function should return a 6-tuple of ``(sx,sy,x,y,bx,by)`` where sx and sy are the size, x and y the position and bx and by are the border size.
All values should be in pixels and already include all offsets, as they are used directly for generation of vertex data.
This method can also be overridden to limit the background to a specific part of its widget.
"""
sx,sy = self.widget.size
x,y = self.widget.pos
bx,by = self.border
return sx,sy,x,y,bx,by
[docs] def getColors(self):
"""
Overrideable function that generates the colors to be used by various borderstyles.
Should return a 5-tuple of ``(bg,o,i,s,h)``\ .
``bg`` is the base color of the background.
``o`` is the outer color, it is usually the same as the background color.
``i`` is the inner color, it is usually lighter than the background color.
``s`` is the shadow color, it is usually quite a bit darker than the background.
``h`` is the highlight color, it is usually quite a bit lighter than the background.
"""
bg = self.submenu.bg[:3] if isinstance(self.submenu.bg,list) or isinstance(self.submenu.bg,tuple) else [242,241,240]
o,i = bg, [min(bg[0]+8,255),min(bg[1]+8,255),min(bg[2]+8,255)]
s,h = [max(bg[0]-40,0),max(bg[1]-40,0),max(bg[2]-40,0)], [min(bg[0]+12,255),min(bg[1]+12,255),min(bg[2]+12,255)]
# Outer,Inner,Shadow,Highlight
return bg,o,i,s,h
[docs] def addBorderstyle(self,name,func):
"""
Adds a borderstyle to the background object.
Note that borderstyles must be registered seperately for each background object.
``name`` is the (string) name of the borderstyle.
``func`` will be called with its arguments as ``(bg,o,i,s,h)``\ , see :py:meth:`getColors()` for more information.
"""
self.borderstyles[name]=func
@property
def pressed(self):
"""
Read-only helper property to be used by borderstyles for determining if the widget should be rendered as pressed or not.
Note that this property may not represent the actual pressed state, it will always be False if ``change_on_press`` is disabled.
"""
return self.change_on_press and self.widget.pressed
@property
def is_hovering(self):
"""
Read-only helper property to be used by borderstyles for determining if the widget should be rendered as hovered or not.
Note that this property may not represent the actual hovering state, it will always be False if ``change_on_press`` is disabled.
"""
return self.change_on_press and self.widget.is_hovering
def bs_flat(self,bg,o,i,s,h):
# Flat style makes no difference between normal,hover and pressed
cb1 = i+i+i+i
cb2 = i+i+i+i
cb3 = i+i+i+i
cb4 = i+i+i+i
cc = i+i+i+i
return cb1+cb2+cb3+cb4+cc
bs_flat.__noautodoc__ = True
def bs_gradient(self,bg,o,i,s,h):
if self.pressed:
i = s
elif self.is_hovering:
i = [min(i[0]+6,255),min(i[1]+6,255),min(i[2]+6,255)]
cb1 = i+i+o+o
cb2 = i+o+o+i
cb3 = o+o+i+i
cb4 = o+i+i+o
cc = i+i+i+i
return cb1+cb2+cb3+cb4+cc
bs_gradient.__noautodoc__ = True
def bs_oldshadow(self,bg,o,i,s,h):
if self.pressed:
i = s
s,h = h,s
elif self.is_hovering:
i = [min(i[0]+6,255),min(i[1]+6,255),min(i[2]+6,255)]
s = [min(s[0]+6,255),min(s[1]+6,255),min(s[2]+6,255)]
cb1 = h+h+h+h
cb2 = s+s+s+s
cb3 = s+s+s+s
cb4 = h+h+h+h
cc = i+i+i+i
return cb1+cb2+cb3+cb4+cc
bs_oldshadow.__noautodoc__ = True
def bs_material(self,bg,o,i,s,h):
if self.pressed:
i = [max(bg[0]-20,0),max(bg[1]-20,0),max(bg[2]-20,0)]
elif self.is_hovering:
i = [max(bg[0]-10,0),max(bg[1]-10,0),max(bg[2]-10,0)]
cb1 = s+s+o+o
cb2 = s+o+o+s
cb3 = o+o+s+s
cb4 = o+s+s+o
cc = i+i+i+i
return cb1+cb2+cb3+cb4+cc
bs_material.__noautodoc__ = True
[docs]class Button(Widget):
"""
Button Widget allowing the user to trigger specific actions.
By default, this Widget uses :py:class:`ButtonBackground` as its Background class.
The border given is in pixels from the left/right and top/bottom, respectively.
The borderstyle may be either ``flat``\ , which has no border at all,
``gradient``\ , which fades from the inner color to the background color,
``oldshadow``\ , which uses a simple fake shadow with the light from the top-left corner and
``material``\ , which imitates Google Material Design shadows.
Also, the label of the button may only be a single line of text, anything else may produce undocumented behavior.
If necessary, the font size of the Label may be changed via the global Constant :py:data:`LABEL_FONT_SIZE`\ , changes will only apply to Buttons created after change.
The text color used is ``[62,67,73,255]`` in RGBA and the font used is Arial, which should be available on most systems.
"""
def __init__(self,name,submenu,window,peng,
pos=None, size=[100,24],bg=None,
border=[4,4], borderstyle="flat",
label="Button",min_size=None):
if bg is None:
bg = ButtonBackground(self,border,borderstyle)
super(Button,self).__init__(name,submenu,window,peng,pos,size,bg,min_size)
self._label = pyglet.text.Label(str(label),
font_name="Arial",
font_size=LABEL_FONT_SIZE,
color=[62,67,73,255],
x=0,y=0,
batch=self.submenu.batch2d,
group=pyglet.graphics.OrderedGroup(1),
anchor_x="center", anchor_y="center"
)
if getattr(label,"_dynamic",False):
def f():
self.label = str(label)
self.peng.i18n.addAction("setlang",f)
self.peng.i18n.addAction("setlang",self.redraw) # for dynamic size
self.redraw()
# Redraws the button every 2 seconds to prevent glitched graphics
pyglet.clock.schedule_interval(lambda dt:self.redraw(),2)
[docs] def redraw_label(self):
"""
Re-draws the label by calculating its position.
Currently, the label will always be centered on the Button.
"""
# Convenience variables
sx,sy = self.size
x,y = self.pos
# Label position
self._label.x = x+sx/2.
self._label.y = y+sy/2.
self._label._update() # Needed to prevent the label from drifting to the top-left after resizing by odd amounts
@property
def label(self):
"""
Property for accessing the label of this Button.
"""
return self._label.text
@label.setter
def label(self,label):
# TODO: make this work with changing languages if previous label was not dynamic
self._label.text = str(label)
self.redraw() # necessary for size/pos that depends on label size
def getContentSize(self):
l = [self._label.content_width,self._label.content_height]
b = self.bg.border # TODO: make this work with borderless backgrounds
return [l[0]+b[0]*2,l[1]+b[1]*2]
delete.__noautodoc__ = True
class _FakeTexture(object):
def __init__(self,target,texid,texcoords):
self.target = target
self.id = texid
self.tex_coords = texcoords
self.anchor_x = 0
self.anchor_y = 0
[docs]class ImageBackground(Background):
"""
Background for the :py:class:`ImageButton` Widget.
This background renders a image given based on whether the widget is pressed, hovered over or disabled.
It should also be possible to use this class as a background for most other Widgets.
"""
def __init__(self,widget,bg_idle=[GL_TEXTURE_2D,GL_TEXTURE1,[0]*12],bg_hover=None,bg_disabled=None,bg_pressed=None):
bg = bg_idle
self.bg_texinfo = bg
if bg_hover is None:
assert bg_hover[1]==self.bg_texinfo[1] # see init_bg()
self.bg_hover=bg
else:
self.bg_hover=bg_hover
if bg_disabled is None:
assert bg_disabled[1]==self.bg_texinfo[1] # see init_bg()
self.bg_disabled=bg
else:
self.bg_disabled=bg_disabled
if bg_pressed is None:
assert bg_pressed[1]==self.bg_texinfo[1] # see init_bg()
self.bg_pressed=bg
else:
self.bg_pressed=bg_pressed
super(ImageBackground,self).__init__(widget)
[docs] def init_bg(self):
# TODO: add seperate groups per active texture, in case the different images are on different textures
self.bg_group = pyglet.graphics.TextureGroup(_FakeTexture(*self.bg_texinfo))
self.vlist_bg = self.submenu.batch2d.add(4,GL_QUADS,self.bg_group,
"v2f",
("t3f",self.bg_texinfo[2]),
)
self.reg_vlist(self.vlist_bg)
[docs] def redraw_bg(self):
# Convenience variables
sx,sy = self.widget.size
x,y = self.widget.pos
# Button background
# Outer vertices
# x y
v1 = x, y+sy
v2 = x+sx, y+sy
v3 = x, y
v4 = x+sx, y
q = v3+v4+v2+v1
self.vlist_bg.vertices = q
# Textures
if not self.widget.enabled:
self.vlist_bg.tex_coords = self.bg_disabled[2]
elif self.widget.pressed:
self.vlist_bg.tex_coords = self.bg_pressed[2]
elif self.widget.is_hovering:
self.vlist_bg.tex_coords = self.bg_hover[2]
else:
self.vlist_bg.tex_coords = self.bg_texinfo[2]
[docs]class ImageButton(Button):
"""
Subclass of :py:class:`Button` using an image as a background instead.
By default, this Widget uses :py:class:`ImageBackground` as its Background class.
There are no changes to any other mechanics of the Button, only visually.
"""
def __init__(self,name,submenu,window,peng,
pos=None, size=[100,24],bg=None,
label="Button",
bg_idle=[GL_TEXTURE_2D,GL_TEXTURE1,[0]*12],
bg_hover=None,
bg_disabled=None,
bg_pressed=None,
):
if bg is None:
bg = ImageBackground(self,bg_idle,bg_hover,bg_disabled,bg_pressed)
super(ImageButton,self).__init__(name,submenu,window,peng,pos,size,bg,label=label)
[docs]class FramedImageBackground(ImageBackground):
"""
Background for the :py:class:`FramedImageButton` Widget.
This background is similar to :py:class:`ImageBackground`\ , but it attempts to scale smarter with less artifacts.
Note that this feature is currently not working properly, and will thus output a warning on the console if tried to use.
"""
def __init__(self,widget,bg_idle=[GL_TEXTURE_2D,GL_TEXTURE1,[0]*12],bg_hover=None,bg_disabled=None,bg_pressed=None,frame_size=[[2,10,2],[2,10,2]]):
print("Use FramedImageBackground with care, may produce graphical glitches and crashes")
# TODO: fix this
self.frame_size = frame_size
self.repeat_edge=True
self.repeat_center=True
super(FramedImageBackground,self).__init__(widget,bg_idle,bg_hover,bg_disabled,bg_pressed)
[docs] def init_bg(self):
self.bg_group = pyglet.graphics.TextureGroup(_FakeTexture(*self.bg_texinfo))
self.vlist_bg = self.submenu.batch2d.add(36,GL_QUADS,self.bg_group,
"v2f",
"t3f",
)
self.reg_vlist(self.vlist_bg)
[docs] def redraw_bg(self):
# Convenience variables
sx,sy = self.widget.size
x,y = self.widget.pos
fx,fy = self.frame_size
osx,osy = sum(fx),sum(fy)
bsx = (osx/osy)*sy
bsy = (osx/osy)*sy
# frame-axis-left/right/center/up/down
fxl,fxc,fxr = fx
fyu,fyc,fyd = fy
fxl,fxc,fxr = (fxl/sum(fx))*bsx, (fxc/sum(fx))*bsx, (fxr/sum(fx))*bsx
fyu,fyc,fyd = (fyu/sum(fy))*bsy, (fyc/sum(fy))*bsy, (fyd/sum(fy))*bsy
#assert fxl+fxc+fxr==sx
#assert fyu+fyc+fyd==sy
# To avoid confusion when supplied invalid numbers
# 16 Vertices according to button_scheme.xcf
v1 = x, y+sy
v2 = x+fxl, y+sy
v3 = x+sx-fxr, y+sy
v4 = x+sx, y+sy
v5 = x+sx, y+sy-fyu
v6 = x+sx, y+fyd
v7 = x+sx, y
v8 = x+sx-fxr, y
v9 = x+fxl, y
v10 = x, y
v11 = x, y+fyd
v12 = x, y+sy-fyu
v13 = x+fxl, y+sy-fyu
v14 = x+sx-fxr, y+sy-fyu
v15 = x+sx-fxr, y+fyd
v16 = x+fxl, y+fyd
bv1 = x, y+bsy
bv2 = x+fxl, y+bsy
bv3 = x+bsx-fxr, y+bsy
bv4 = x+bsx, y+bsy
bv5 = x+bsx, y+bsy-fyu
bv6 = x+bsx, y+fyd
bv7 = x+bsx, y
bv8 = x+bsx-fxr, y
bv9 = x+fxl, y
bv10 = x, y
bv11 = x, y+fyd
bv12 = x, y+bsy-fyu
bv13 = x+fxl, y+bsy-fyu
bv14 = x+bsx-fxr, y+bsy-fyu
bv15 = x+bsx-fxr, y+fyd
bv16 = x+fxl, y+fyd
qc1 = v10+v9 +v16+v11
qc2 = v12+v13+v2 +v1
qc3 = v14+v5 +v4 +v3
qc4 = v8 +v7 +v6 +v15
#qe1 = bv9 +bv8 +bv15+bv16
#qe2 = bv11+bv16+bv13+bv12
#qe3 = bv13+bv14+bv3 +bv2
#qe4 = bv15+bv6 +bv5 +bv14
qe1 = v9 +v8 +v15+v16
qe2 = v11+v16+v13+v12
qe3 = v13+v14+v3 +v2
qe4 = v15+v6 +v5 +v14
qc = v16+v15+v14+v13
v = qc1+qc2+qc3+qc4+qe1+qe2+qe3+qe4+qc
# Texture Coords
if not self.widget.enabled:
texcoords = self.bg_disabled[2]
elif self.widget.pressed:
texcoords = self.bg_pressed[2]
elif self.widget.is_hovering:
texcoords = self.bg_hover[2]
else:
texcoords = self.bg_texinfo[2]
print("###")
print(self.widget.enabled,self.widget.pressed,self.widget.is_hovering)
print(texcoords)
x,y,_,sx,_,_,_,sy,_,_,_,_ = texcoords
sx,sy=sx-x,sy-y
asx,asy = min(sx,(osx/osy)*sx),min(sy,(osx/osy)*sx)
fxl,fxc,fxr=(fx[0]/sum(fx))*sx, (fx[1]/sum(fx))*sx, (fx[2]/sum(fx))*sx
fyu,fyc,fyd=(fy[0]/sum(fy))*sy, (fy[1]/sum(fy))*sy, (fy[2]/sum(fy))*sy
print(x,y,sx,sy)
print(fxl,fxc,fxr)
print(fyu,fyc,fyd)
print("###")
assert fxl+fxc+fxr==sx
assert fyu+fyc+fyd==sy
t1 = x, y+sy, 0
t2 = x+fxl, y+sy, 0
t3 = x+sx-fxr, y+sy, 0
t4 = x+sx, y+sy, 0
t5 = x+sx, y+sy-fyu, 0
t6 = x+sx, y+fyd, 0
t7 = x+sx, y, 0
t8 = x+sx-fxr, y, 0
t9 = x+fxl, y, 0
t10 = x, y, 0
t11 = x, y+fyd, 0
t12 = x, y+sy-fyu, 0
t13 = x+fxl, y+sy-fyu, 0
t14 = x+sx-fxr, y+sy-fyu, 0
t15 = x+sx-fxr, y+fyd, 0
t16 = x+fxl, y+fyd, 0
at1 = x, y+asy, 0
at2 = x+fxl, y+asy, 0
at3 = x+asx-fxr, y+asy, 0
at4 = x+asx, y+asy, 0
at5 = x+asx, y+asy-fyu, 0
at6 = x+asx, y+fyd, 0
at7 = x+asx, y, 0
at8 = x+asx-fxr, y, 0
at9 = x+fxl, y, 0
at10 = x, y, 0
at11 = x, y+fyd, 0
at12 = x, y+asy-fyu, 0
at13 = x+fxl, y+asy-fyu, 0
at14 = x+asx-fxr, y+asy-fyu, 0
at15 = x+asx-fxr, y+fyd, 0
at16 = x+fxl, y+fyd, 0
tqc1 = t10+t9 +t16+t11
tqc2 = t12+t13+t2 +t1
tqc3 = t14+t5 +t4 +t3
tqc4 = t8 +t7 +t6 +t15
# size of center x size adjusted
#fxcr = (fx[1]/sum(fx))*bsx
# rel x pos of v3 in P
#xv3 = self.widget.size[0]-(self.widget.size[0]*((fx[2]/sum(fx))))
xv3 = v3[0]-self.widget.pos[0]
xv2 = v2[0]-self.widget.pos[0]
#xv2 = self.widget.size[0]*(fx[0]/sum(fx))
#txr = (fxcr/self.widget.size[0])*(self.widget.size[0]+((fx[2]/sum(fx))*bsx))
# P Ratio of (center-x-size adjusted) to x-size applied to (x-size plus (right-x-size adjusted))
#txr = fxl+(self.widget.size[0]*((fx[2]/sum(fx))))
# T Left-x-size not adjusted plus x-size times (ratio of right-x-size to total)
#txr = sx-fxr # Default
# T x-size minus right-x-size not adjusted
#txr = (max((xv3-xv2),fx[1])/self.widget.size[0])*sx
print(fx[1]/sum(fx))
txr = (fx[1]/sum(fx))*asx
# P ratio of (xv3 rel to xv2) to x-size
txr = x+txr
xt2 = x+fxl, y+asy, 0
xt13 = x+fxl, y+asy-fyu, 0
xt16 = x+fxl, y+fyd, 0
xt9 = x+fxl, y, 0
xt8 = txr, y, 0
xt15 = txr, y+fyd, 0
xt14 = txr, y+asy-fyu, 0
xt3 = txr, y+asy, 0
yt6 = x+asx, y+fyd, 0
yt15 = x+asx-fxr, y+fyd, 0
yt11 = x, y+fyd, 0
yt16 = x+fxl, y+fyd, 0
yt12 = x, y+asy-fyu, 0
yt13 = x+fxl, y+asy-fyu, 0
yt5 = x+asx, y+asy-fyu, 0
yt14 = x+asx-fxr, y+asy-fyu, 0
tqe1 = xt9 +xt8 +xt15+xt16
tqe2 = yt11+yt16+yt13+yt12
tqe3 = xt13+xt14+xt3 +xt2
tqe4 = yt15+yt6 +yt5 +yt14
#tqe1 = at9 +at8 +at15+at16
#tqe2 = at11+at16+at13+at12
#tqe3 = at13+at14+at3 +at2
#tqe4 = at15+at6 +at5 +at14
#tqe1 = t9 +t8 +t15+t16
#tqe2 = t11+t16+t13+t12
#tqe3 = t13+t14+t3 +t2
#tqe4 = t15+t6 +t5 +t14
tqc = t16+t15+t14+t13
t = tqc1+tqc2+tqc3+tqc4+tqe1+tqe2+tqe3+tqe4+tqc
#print(t)
#print(v)
self.vlist_bg.vertices=v
self.vlist_bg.tex_coords=t
[docs]class FramedImageButton(ImageButton):
"""
Subclass of :py:class:`ImageButton` adding smart scaling to the background.
By default, this Widget uses :py:class:`FramedImageBackground` as its Background class.
Note that this feature is currently not working properly, and will thus output a warning on the console if tried to use.
"""
def __init__(self,name,submenu,window,peng,
pos=None, size=[100,24],bg=None,
label="Button",
bg_idle=[GL_TEXTURE_2D,GL_TEXTURE1,[0]*12],
bg_hover=None,
bg_disabled=None,
bg_pressed=None,
frame_size=[[2,10,2],[2,10,2]],
):
if bg is None:
bg = FramedImageBackground(self,bg_idle,bg_hover,bg_disabled,bg_pressed,frame_size)
super(FramedImageButton,self).__init__(name,submenu,window,peng,pos,size,bg,label=label)
[docs]class ToggleButton(Button):
"""
Variant of :py:class:`Button` that stays pressed until clicked again.
This widgets adds the following actions:
- ``press_down`` is called upon depressing the button
- ``press_up`` is called upon releasing the button
- ``click`` is changed to be called on every click on the button, e.g. like ``press_down`` and ``press_up`` combined
"""
def on_mouse_press(self,x,y,button,modifiers):
if not self.clickable:
return
elif mouse_aabb([x,y],self.size,self.pos):
if button == pyglet.window.mouse.LEFT:
self.doAction("click")
self.pressed = not self.pressed
if self.pressed:
self.doAction("press_down")
else:
self.doAction("press_up")
elif button == pyglet.window.mouse.RIGHT:
self.doAction("context")
self.redraw()
def on_mouse_release(self,x,y,button,modifiers):
pass
[docs]class CheckboxBackground(ButtonBackground):
"""
Background for the :py:class:`Checkbox` Widget.
This background looks like a button, but adds a square in the middle if it is pressed.
The color of the square defaults to a tone of orange commonly found in GTK GUIs on Ubuntu.
"""
vlist_layer = 1
def __init__(self,widget,borderstyle,checkcolor=[240,119,70],**kwargs):
self.checkcolor = checkcolor
super(CheckboxBackground,self).__init__(widget,[3,3],borderstyle,**kwargs)
[docs] def init_bg(self):
super(CheckboxBackground,self).init_bg()
self.vlist_check = self.submenu.batch2d.add(4,GL_QUADS,pyglet.graphics.OrderedGroup(10),
"v2f",
"c3B",
)
self.reg_vlist(self.vlist_check)
[docs] def redraw_bg(self):
# Convenience variables
sx,sy = self.widget.size
x,y = self.widget.pos
bx,by = self.border
# Button background
# Outer vertices
# x y
v1 = x, y+sy
v2 = x+sx, y+sy
v3 = x, y
v4 = x+sx, y
# Inner vertices
# x y
v5 = x+bx, y+sy-by
v6 = x+sx-bx, y+sy-by
v7 = x+bx, y+by
v8 = x+sx-bx, y+by
# 5 Quads, for edges and the center
qb1 = v5+v6+v2+v1
qb2 = v8+v4+v2+v6
qb3 = v3+v4+v8+v7
qb4 = v3+v7+v5+v1
qc = v7+v8+v6+v5
v = qb1+qb2+qb3+qb4+qc
self.vlist.vertices = v
bg = self.submenu.bg[:3] if isinstance(self.submenu.bg,list) or isinstance(self.submenu.bg,tuple) else [242,241,240]
o,i = bg, [min(bg[0]+8,255),min(bg[1]+8,255),min(bg[2]+8,255)]
s,h = [max(bg[0]-40,0),max(bg[1]-40,0),max(bg[2]-40,0)], [min(bg[0]+12,255),min(bg[1]+12,255),min(bg[2]+12,255)]
# Outer,Inner,Shadow,Highlight
if self.borderstyle == "flat":
if self.widget.pressed:
i = s
cb1 = i+i+i+i
cb2 = i+i+i+i
cb3 = i+i+i+i
cb4 = i+i+i+i
cc = i+i+i+i
elif self.borderstyle == "gradient":
if self.widget.pressed:
i = s
elif self.widget.is_hovering:
i = [min(i[0]+6,255),min(i[1]+6,255),min(i[2]+6,255)]
cb1 = i+i+o+o
cb2 = i+o+o+i
cb3 = o+o+i+i
cb4 = o+i+i+o
cc = i+i+i+i
elif self.borderstyle == "oldshadow":
if self.widget.pressed:
i = s
s,h = h,s
elif self.widget.is_hovering:
i = [min(i[0]+6,255),min(i[1]+6,255),min(i[2]+6,255)]
s = [min(s[0]+6,255),min(s[1]+6,255),min(s[2]+6,255)]
cb1 = h+h+h+h
cb2 = s+s+s+s
cb3 = s+s+s+s
cb4 = h+h+h+h
cc = i+i+i+i
elif self.borderstyle == "material":
if self.widget.pressed:
i = [max(bg[0]-20,0),max(bg[1]-20,0),max(bg[2]-20,0)]
elif self.widget.is_hovering:
i = [max(bg[0]-10,0),max(bg[1]-10,0),max(bg[2]-10,0)]
cb1 = s+s+o+o
cb2 = s+o+o+s
cb3 = o+o+s+s
cb4 = o+s+s+o
cc = i+i+i+i
else:
raise ValueError("Invalid Border style")
c = cb1+cb2+cb3+cb4+cc
self.vlist.colors = c
# Cross
# Old method that displayed a tick
"""if not self.widget.pressed:
self.vlist_cross.colors = 6*bg
else:
if self.borderstyle=="flat":
c = [min(bg[0]+8,255),min(bg[1]+8,255),min(bg[2]+8,255)]
elif self.borderstyle=="gradient":
c = h
elif self.borderstyle=="oldshadow":
c = h
elif self.borderstyle=="material":
c = s
self.vlist_cross.colors = 6*c
# Convenience variables
sx,sy = self.widget.size
x,y = self.widget.pos
bx,by = self.border
v1 = x+bx, y+(sy-by*2)/2+by
v2 = x+sx/2, y+(sy-by*2)/4+by
v3 = v6
v4 = x+sx, y+sy
v5 = x+sx/2, y+by
v6 = x+bx, y+(sy-by*2)/4+by
self.vlist_cross.vertices = v2+v1+v6+v5+v4+v3"""
# TODO: add better visual indicator
v1 = x+bx*1.5, y+sy-by*1.5
v2 = x+sx-bx*1.5, y+sy-by*1.5
v3 = x+bx*1.5, y+by*1.5
v4 = x+sx-bx*1.5, y+by*1.5
self.vlist_check.colors = self.checkcolor*4 if self.widget.pressed else i*4
self.vlist_check.vertices = v3+v4+v2+v1
[docs]class Checkbox(ToggleButton):
"""
Variant of :py:class:`ToggleButton` using a different visual indicator.
By default, this Widget uses :py:class:`CheckboxBackground` as its Background class.
Note that the position and size given are for the indicator, the label will be bigger than the given size.
The label given will be displayed to the right of the Checkbox.
"""
def __init__(self,name,submenu,window,peng,
pos=None, size=[100,24],bg=None,
borderstyle="flat",
label="Checkbox",
checkcolor=[240,119,70]):
if bg is None:
bg = CheckboxBackground(self,borderstyle,checkcolor)
super(Checkbox,self).__init__(name,submenu,window,peng,pos,size,bg,borderstyle=borderstyle,label=label)
[docs] def redraw_label(self):
"""
Re-calculates the position of the Label.
"""
# Convenience variables
sx,sy = self.size
x,y = self.pos
# Label position
self._label.anchor_x = "left"
self._label.x = x+sx/2.+sx
self._label.y = y+sy/2.+sy*.15
self._label._update() # Needed to prevent the label from drifting to the top-left after resizing by odd amounts