def tsGetStdioPositionAndSize(self):
'''
Return position and size of window used for redirected output.
'''
if not self.ts_PyOnDemandStdioWindow:
# Establish defaults until attributes finalized
theRedirectedPos = wxPoint(-1, -1)
theRedirectedSize = wxSize(450, 300)
else:
try:
self.Display = wxDisplay(self)
theClientArea = self.Display.theRedirectedStdioArea
theRedirectedSize = wxSize(theClientArea.width,
theClientArea.height)
theRedirectedPos = wxPoint(
theClientArea.x,
theClientArea.y)
except Exception, getError:
theRedirectedPos = wxPoint(-1, -1)
theRedirectedSize = wxSize(450, 300)
self.logger.debug(
' GetStdioPositionAndSize Exception. %s' % getError)
msg = 'GetStdioPositionAndSize Exception: %s' % str(getError)
raise tse.ProgramException(tse.APPLICATION_TRAP, msg)
def tsBestSize(self):
'''
'''
borderThickness = self.tsIsBorderThickness(
style=self.ts_Style, pixels=True)
gaugeThickness = 1
gaugeLength = 10
if self.ts_Style & wx.SB_VERTICAL:
# Vertical
best = wxSize(
(gaugeThickness * wx.pixelWidthPerCharacter + \
2 * borderThickness.width),
(gaugeLength * wx.pixelHeightPerCharacter + \
2 * borderThickness.height))
else:
# Horizontal
best = wxSize(
(gaugeLength * wx.pixelWidthPerCharacter + \
2 * borderThickness.width),
(gaugeThickness * wx.pixelHeightPerCharacter + \
2 * borderThickness.height))
return (best)
def tsGetBorderCharacterDimensions(self, thickness):
'''
Return width and height of border character in pixels.
Parameter:
thickness --- Border line thickness in pixels.
'''
if thickness == -1:
if wx.USE_BORDER_BY_DEFAULT:
# Default (1-pixel) border required.
dimensions = wxSize(wx.pixelWidthPerCharacter,
wx.pixelHeightPerCharacter)
else:
# No border required.
dimensions = wxSize(0, 0)
elif thickness == 0:
# No border required.
dimensions = wxSize(0, 0)
else:
# Override thickness and apply default (1-pixel) border.
dimensions = wxSize(min(1, thickness) * wx.pixelWidthPerCharacter,
min(1, thickness) * wx.pixelHeightPerCharacter)
return (dimensions)
def SetItemBounds(self, item, x, y, w, h):
'''
Modeled after TBD in sizer.cpp file of wxWidgets.
'''
pt = wxPoint(x, y)
sz = wxSize(item.GetMinSizeWithBorder())
flag = int(item.GetFlag())
if flag & wx.EXPAND or \
flag & wx.SHAPED:
sz = wxSize(w, h)
else:
if flag & wx.ALIGN_CENTER_HORIZONTAL:
pt.x = x + (w - sz.x) // 2
elif flag & wx.ALIGN_RIGHT:
pt.x = x + (w - sz.x)
if flag & wx.ALIGN_CENTER_VERTICAL:
pt.y = y + (h - sz.y) // 2
elif flag & wx.ALIGN_BOTTOM:
pt.y = y + (h - sz.y)
item.SetDimension(pt, sz)
def SizeFromMajorMinor(self, major, minor):
'''
'''
if self.ts_Orientation == wx.HORIZONTAL:
return (wxSize(major, minor))
else: # wxVERTICAL
return (wxSize(minor, major))
def AddSpacer(self, size):
'''
'''
if self.IsVertical():
item = wxSize(0, size)
else:
item = wxSize(size, 0)
child = self.Add(item, proportion=0, flag=0, border=0, userData=None)
# Register the child in the wxSizerItemList
self.ts_Children.Add(child)
return (child)
def SetWindow(self, window):
'''
Set the window to be managed by this sizer item.
Modeled after SetWindow in sizer.h file of wxWidgets.
'''
self.logger.wxASSERT_MSG(
(window is not None),
'SetWindow cannot have window be %s.' % str(window))
self.ts_Kind = wx.Item_Window
self.ts_Window = window
# window doesn't become smaller than its initial size, whatever happens
if True:
self.ts_MinSize = window.Size
else:
if window.Size is None:
# TBD - What should size be when curses handle not yet created.
self.ts_MinSize = wxSize(10 * wx.pixelWidthPerCharacter,
3 * wx.pixelHeightPerCharacter)
else:
self.ts_MinSize = window.Size
## print('tsWxSizerItem.SetWindow: MinSize=%s' % self.ts_MinSize)
if self.ts_Flag & wx.FIXED_MINSIZE:
window.SetMinSize(self.ts_MinSize)
# aspect ratio calculated from initial size
self.SetRatioSize(self.ts_MinSize)
def tsGetClientArea(self, pixels=True):
'''
Returns the bounding rectangle the client area of the Frame,
i.e., without menu bars, tool bars, status bars and such.
'''
parent = self.ts_Parent
pos = wxPoint(self.ts_Rect.x, self.ts_Rect.y)
size = wxSize(self.ts_Rect.width, self.ts_Rect.height)
style = self.ts_Style
name = self.ts_Name
(myRect, myClientRect) = self.tsFrameWindowLayout(
parent, pos, size, style, name)
if self.ts_Rect != myRect:
# My Area changed after by new feature
fmt1 = 'Wrong layout. myRect (%s) ' % str(myRect)
fmt2 = 'changed from self.ts_Rect (%s) ' % str(self.ts_Rect)
fmt3 = 'in tsWxFrame.tsGetClientArea'
msg = fmt1 + fmt2 + fmt3
self.logger.wxASSERT_MSG(
(self.ts_Rect == myRect),
msg)
self.ts_Rect = myRect
if self.ts_ClientRect != myClientRect:
# Client Area changed after by new feature
self.ts_ClientRect = myClientRect
return (self.ts_ClientRect)
def ShowFullScreen(self, show, style):
'''
'''
# TBD - Under Construction.
# Extent resize of the top level window to include its children.
theDisplay = self.Display
theDisplayPos = wxPoint(theDisplay.ClientArea.x,
theDisplay.ClientArea.y)
theDisplaySize = wxSize(theDisplay.ClientArea.width,
theDisplay.ClientArea.height)
self.logger.debug(
' ShowFullScreen (screen): pos=%s; size=%s.' % (
str(theDisplayPos), str(theDisplaySize)))
self.Rect = wxRect(theDisplayPos.x,
theDisplayPos.y,
theDisplaySize.width,
theDisplaySize.height)
self.logger.debug(
' Need Event to ShowFullScreen (rect): %s.' % (
str(self.Rect)))
return (show)
def __init__(self, orient=wx.HORIZONTAL):
'''
Constructor for a wx.BoxSizer. orient may be one of wx.VERTICAL
or wx.HORIZONTAL for creating either a column sizer or a row sizer.
'''
theClass = 'BoxSizer'
wx.RegisterFirstCallerClassName(self, theClass)
Sizer.__init__(self)
self.tsBeginClassRegistration(theClass, id)
# either wxHORIZONTAL or wxVERTICAL
self.ts_Orientation = orient
# the sum of proportion of all of our elements
self.ts_TotalProportion = 0
# minimal size needed for this sizer as calculated by
# the last call to our CalcMin()
self.ts_MinSize = DEFAULT_SIZE
# minimal size needed for this sizer as calculated, by
# calcMin, for the containing window (panel), the parent
# of those subpanels managed by this BoxSizer instance.
self.ts_CalcMinArea = []
self.ts_CalcMinAreaProportion = []
self.ts_CalcMinKind = []
self.ts_CalcMinWindow = []
self.ts_ClientArea = []
self.ts_ContainingWindow = None
self.ts_MinSize = wxSize(0, 0)
self.ts_SizeMinThis = []
self.ts_TotalFixedSize = wxSize(0, 0)
self.ts_TotalProportion = 0
## self.ts_SizeMinThis = None
## self.ts_CalcMinArea = None
## self.ts_CalcMinAreaProportion = None
## self.ts_CalcMinKind = None
## self.ts_CalcMinWindow = None
## self.ts_ClientArea = None
## self.ts_ContainingWindow = None
self.ts_RecalcArea = None
self.tsEndClassRegistration(theClass)
def SetMinSizeXY(self, x, y):
'''
Modeled after SetMinSize in sizer.h file of wxWidgets.
'''
size = wxSize(x, y)
if (self.IsWindow()):
self.ts_Window.SetMinSize(size)
else:
self.ts_MinSize = size
def CalcMin(self):
'''
Calculate the total minimum width and height needed by all items
in the sizer according to this sizer layout algorithm.
This method is abstract and has to be overwritten by any derived
class.
Here, the sizer will do the actual calculation of its childrens
minimal sizes.
Implemented in wxGridBagSizer, and wxBoxSizer.
'''
width = 0
height = 0
for i in range(0, self.ts_Children.GetCount()):
node = self.ts_Children.GetIndex(i)
item = node.GetUserData()
size = wxSize(0, 0)
if (isinstance(self, Window)):
try:
parent = self.ts_Parent
theClientRect = parent.ClientArea
except AttributeError:
parent = None
theClientRect = wxRect(0, 0, 0, 0)
width = theClientRect.width
height = theClientRect.height
minSize = wxSize(width, height)
self.logger.debug(
'CalcMin: item=%s; minSize=%s; width=%s; height=%s' % (
str(item), str(minSize), str(width), str(height)))
size = minSize
self.logger.debug('CalcMin: size=%s' % size)
return (size)
def tsBestSize(self):
'''
'''
borderThickness = self.tsIsBorderThickness(
style=self.ts_Style, pixels=True)
maxWidth = 0
maxHeight = 0
for choice in self.ts_Choices:
buttonText = self.tsStripAcceleratorTextLabel(choice)
if len(buttonText) > maxWidth:
maxWidth = len(buttonText)
maxHeight += 1
if self.ts_Style & wx.RA_VERTICAL:
# Vertical
best = wxSize(
(maxWidth * wx.pixelWidthPerCharacter + \
2 * borderThickness.width),
(maxHeight * wx.pixelHeightPerCharacter + \
2 * borderThickness.height))
elif self.ts_Style & wx.RA_HORIZONTAL:
# Horizontal
best = wxSize(
(maxWidth * wx.pixelWidthPerCharacter + \
2 * borderThickness.width),
(maxHeight * wx.pixelHeightPerCharacter + \
2 * borderThickness.height))
else:
# TBD - Should this be allowed?
best = wxSize(
(maxWidth * wx.pixelWidthPerCharacter + \
2 * borderThickness.width),
(maxHeight * wx.pixelHeightPerCharacter + \
2 * borderThickness.height))
return (best)
def tsShow(self):
'''
Shows or hides the window. You may need to call Raise for a top
level window if you want to bring it to top, although this is not
needed if Show is called immediately after the frame creation.
Returns True if the window has been shown or hidden or False if
nothing was done because it already was in the requested state.
'''
if self.tsIsShowPermitted:
if self.ts_Handle is None:
myRect = wxRect(
self.ts_Parent.Rect.Left,
(self.ts_Parent.Rect.Bottom - \
wx.ThemeToUse['StatusBar']['WindowHeight'] - \
wx.pixelHeightPerCharacter),
self.ts_Parent.Rect.width,
wx.ThemeToUse['StatusBar']['WindowHeight'])
thePosition = wxPoint(myRect.x, myRect.y)
theSize = wxSize(myRect.width, myRect.height)
# TBD - Update Class geometry.
self.ts_Rect = myRect
self.logger.debug(
'tsShow: myRect=%s; Rect = %s' % (myRect, self.ts_Rect))
self.ts_BaseRect = self.ts_Rect
if DEBUG:
print('tsShow: myRect=%s; Rect = %s' % (myRect, self.ts_Rect))
self.Create(self,
id=-1,
pos=thePosition,
size=theSize,
style=self.ts_Style,
name=self.Name,
pixels=True)
try:
self.tsRegisterShowOrder()
except Exception, e:
self.logger.error('%s; %s' % (__title__, e))
self.tsUpdate()
def GetDefaultSize(self):
'''
Returns the default button size for this platform.
'''
thickness = self.tsIsBorderThickness(
style=self.ts_Style, pixels=False)
if False:
width = (len(self.ts_ButtonText) + 1) * wx.pixelWidthPerCharacter
height = (1) * wx.pixelHeightPerCharacter
else:
width = (thickness.width + \
len(self.ts_ButtonText) + 1) * wx.pixelWidthPerCharacter
height = (thickness.height + 1) * wx.pixelHeightPerCharacter
return (wxSize(width, height))
def SetItemBounds(self, item, x, y, w, h ):
'''
'''
pt = wxPoint(x, y)
sz = item.GetMinSizeWithBorder()
flag = item.GetFlag()
if ((flag & wx.EXPAND) or \
(flag & wx.SHAPED)):
sz = wxSize(w, h)
else:
if (flag & wx.ALIGN_CENTER_HORIZONTAL):
pt.x = x + (w - sz.width) / 2
elif (flag & wx.ALIGN_RIGHT):
pt.x = x + (w - sz.width)
if (flag & wx.ALIGN_CENTER_VERTICAL):
pt.y = y + (h - sz.height) / 2
elif (flag & wx.ALIGN_BOTTOM):
pt.y = y + (h - sz.height)
msg = 'GridSizer.SetItemBounds: ' + \
'item (%s); pt (%s); sz (%s)' % (
str(item),
str(pt),
str(sz))
if DEBUG:
print(msg)
self.logger.debug(msg)
## item.SetDimension(pt, sz)
item.ts_Window.ts_Rect = wxRect(pt.x, pt.y, sz.width, sz.height)
def GetSize(self):
'''
Get the current size of the item, as set in the last Layout.
Modeled after GetSize in sizer.cpp file of wxWidgets.
'''
if self.ts_Kind == wx.Item_None:
ret = wxSize(0, 0)
elif self.ts_Kind == wx.Item_Window:
ret = self.ts_Window.GetSize()
elif self.ts_Kind == wx.Item_Sizer:
ret = self.ts_Sizer.GetSize()
elif self.ts_Kind == wx.Item_Spacer:
ret = self.ts_Spacer.GetSize()
else:
# elif self.ts_Kind == wx.Item_Max:
self.logger.wxFAIL_MSG(
'Unexpected wxSizerItem.GetSize ts_Kind == wx.Item_Max.')
border = self.tsGetBorderCharacterDimensions(
thickness=self.ts_Border)
if self.ts_Flag & wx.WEST:
ret.x += border.width
if self.ts_Flag & wx.EAST:
ret.x += border.width
if self.ts_Flag & wx.NORTH:
ret.y += border.height
if self.ts_Flag & wx.SOUTH:
ret.y += border.height
return (ret)
def CalcMin(self):
'''
This method is where the sizer will do the actual calculation of its
childrens minimal sizes. You should not need to call this directly
as it is called by Layout
Modeled after TBD in sizer.cpp file of wxWidgets.
'''
width = 0
height = 0
for item in self.GetChildren():
# calculate the total minimum width and height needed
# by all items in the sizer according to this sizer's
# layout algorithm.
minSize = item.MinSize
width += minSize.width
height += minSize.height
size = wxSize(width, height)
self.logger.debug('CalcMin: size=%s' % size)
return (size)
def CreateOutputWindow(self, st):
'''
Create frame and text control. Append st (text) to output. Show the
frame and bind the frame OnCloseButtton to the event.
'''
# TBD - Under Construction. The class wxTextCtrl is not available.
if not (self.ts_Frame is None):
return
try:
self.ts_Frame = wxFrame(
self.ts_Parent,
id=-1,
title=self.ts_Title,
pos=wxPoint(self.ts_Rect.x, self.ts_Rect.y),
size=wxSize(self.ts_Rect.width, self.ts_Rect.height),
style=self.ts_Style,
name=self.ts_Name)
except Exception, frameError:
self.logger.error(
' CreateOutputWindow: frameError. %s' % frameError)
msg = 'CreateOutputWindow Frame Error: %s' % str(frameError)
raise tse.ProgramException(tse.APPLICATION_TRAP, msg)
def tsSetStdioWindowAttributes(self, title=None, pos=None, size=None, style=None, name=None):
"""
Set the title, position, size, style and name of the output window
if the stdio has been redirected.
"""
if self.stdioWin:
# TBD - Cannot set attributes when window does not exist.
myRect = self.Display.theRedirectedStdioArea
if title is not None:
self.stdioWin.title = title
else:
self.stdioWin.title = wx.ThemeToUse["Stdio"]["Title"]
if pos is not None:
self.stdioWin.pos = pos
else:
self.stdioWin.pos = wxPoint(myRect.x, myRect.y)
if size is not None:
self.stdioWin.size = size
else:
self.stdioWin.size = wxSize(myRect.width, myRect.height)
if style is not None:
self.stdioWin.style = style
elif wx.ThemeToUse["Stdio"]["Title"] == wx.StdioRedirectedTitleStr:
self.stdioWin.style = wx.DEFAULT_STDIO_STYLE
else:
self.stdioWin.style = wx.DEFAULT_FRAME_STYLE
if name is not None:
self.stdioWin.name = name
elif wx.ThemeToUse["Stdio"]["Title"] == wx.StdioRedirectedTitleStr:
self.stdioWin.name = wx.StdioNameStr
else:
self.stdioWin.name = wx.FrameNameStr
def tsShow(self):
'''
Create and update MenuBar specific native GUI.
'''
if self.tsIsShowPermitted:
if self.ts_Handle is None:
myRect = wxRect(
self.ts_Parent.Rect.x + wx.pixelWidthPerCharacter,
self.ts_Parent.Rect.y + wx.pixelHeightPerCharacter,
self.ts_Parent.Rect.width - 2* wx.pixelWidthPerCharacter,
wx.ThemeToUse['MenuBar']['WindowHeight'])
thePosition = wxPoint(myRect.x, myRect.y)
theSize = wxSize(myRect.width, myRect.height)
# TBD - Update Class geometry.
## self.ts_Rect = myRect
## self.logger.debug(
## '_show: myRect=%s; Rect = %s' % (myRect, self.ts_Rect))
self.Create(self,
id=-1,
pos=thePosition,
size=theSize,
style=self.ts_Style,
name=self.Name,
pixels=True)
try:
self.tsRegisterShowOrder()
except Exception, e:
self.logger.error('%s; %s' % (__title__, e))
self.tsUpdate()
def RecalcSizes(self):
'''
Using the sizes calculated by CalcMin reposition and resize all the
items managed by this sizer. You should not need to call this
directly as it is called by Layout.
Modeled after RecalcSizes in sizer.cpp file of wxWidgets.
'''
nitems = self.CalcRowsCols()
self.logger.debug(
'GridSizes.RecalcSizes: nitems=%d; Rows=%d; Cols=%d' % (
nitems, self.ts_Rows, self.ts_Cols))
if (nitems == 0):
return
# find the space allotted to this sizer
if True:
# Use CalcMin Output and Integer Arithmetic
pt = self.GetPosition()
sz = self.GetSize()
w = (sz.width - (
(self.ts_Cols - 1) * self.ts_HGap)) / self.ts_Cols
h = (sz.height - (
(self.ts_Rows - 1) * self.ts_VGap)) / self.ts_Rows
else:
# TBD - Use CalcMin Output and Floating Point Arithmetic
pt = self.GetPosition()
sz = self.GetSize()
w = (sz.width - (
(self.ts_Cols - 1) * self.ts_HGap)) / self.ts_Cols
h = (sz.height - (
(self.ts_Rows - 1) * self.ts_VGap)) / self.ts_Rows
## ptOrig = self.GetPosition()
## xOrig = ptOrig.x
## yOrig = ptOrig.y
## szOrig = self.GetSize()
## widthOrig = szOrig.width
## heightOrig = szOrig.height
## hGapOrig = self.ts_HGap
## vGapOrig = self.ts_VGap
## x = int(float(szOrig.x) + (float(wx.pixelWidthPerCharacter) / 2.0))
## sz = wxSize(szOrig.x +
## pt = ptOrig
## w = (sz.width - ((self.ts_Cols - 1) * self.ts_HGap)) / self.ts_Cols
## h = (sz.height - ((self.ts_Rows - 1) * self.ts_VGap)) / self.ts_Rows
y = pt.y
for r in range(self.ts_Rows):
x = pt.x
for c in range(self.ts_Cols):
i = (r * self.ts_Cols) + c
if (i < nitems):
node = self.ts_Children.indexedNodeList[i]
self.logger.wxASSERT_MSG(
(node is not None),
'GridSizer.RecalcSizes Failed to find node')
if True:
theItem = node.GetUserData()
thePoint = wxPoint(x, y)
theSize = wxSize(w, h)
theItem.SetDimension(thePoint, theSize)
theLabel = theItem.ts_Window.ts_Label
if DEBUG:
print(
'r=%d; c=%d; i=%d; pt=%s; sz=%s; label=%s' % (
r, c, i, str(thePoint),
str(theSize), theLabel))
self.SetItemBounds(node.GetUserData(), x, y, w, h)
x = x + w + self.ts_HGap
y = y + h + self.ts_VGap
def CalcMin(self):
'''
This method is where the sizer will do the actual calculation of its
childrens minimal sizes. You should not need to call this directly
as it is called by Layout
Modeled after TBD in sizer.cpp file of wxWidgets.
'''
nitems = self.CalcRowsCols()
if DEBUG:
print(
'GridSizes.CalcMin: nitems=%d; Rows=%d; Cols=%d' % (
nitems, self.ts_Rows, self.ts_Cols))
if (nitems == 0):
return (wxSize(0, 0))
sizerClientArea = self.FindSizerClientArea()
self.ts_Rect = sizerClientArea
self.ts_Position = wxPoint(sizerClientArea.x, sizerClientArea.y)
self.ts_Size = wxSize(sizerClientArea.width, sizerClientArea.height)
if DEBUG:
print(
'GridSizer.CalcMin: sizerClientArea=%s' % str(sizerClientArea))
sz = wxSize(
((sizerClientArea.width - (
(self.ts_Cols - 1) * self.ts_HGap)) / self.ts_Cols),
((sizerClientArea.height - (
(self.ts_Rows - 1) * self.ts_VGap)) / self.ts_Rows))
if DEBUG:
print(
'GridSizer.CalcMin: sz=%s; sizerClientArea=%s' % (
str(sz),
str(sizerClientArea)))
# Find the max width and height for any component
w = 0
h = 0
for i in range(0, self.ts_Children.GetCount()):
node = self.ts_Children.GetIndex(i)
item = node.GetUserData()
if DEBUG:
msg = 'GridSizer.CalcMin: item[%d]=%s' % (i, str(item))
print(msg)
if (item.ts_Kind == wx.Item_Sizer):
item.ts_Sizer.Layout()
## parent = item.ts_Window.ts_Parent
## clientArea = parent.ClientArea
## theRect = parent.Rect
## theClientArea = parent.ClientArea
## print('GridSizer.CalcMin: Rect=%s; ClientArea=%s' % (
## str(theRect),
## str(theClientArea)))
## tempSize = item.CalcMin()
## sz = tempSize
## sz = wxSize((min(tempSize.width,
## ((self.ts_ContainingWindowClientArea.width /
## self.ts_Cols) - self.ts_Hgap))),
## (min(tempSize.width,
## ((self.ts_ContainingWindowClientArea.height /
## self.ts_Rows) - self.ts_Vgap))))
w = wx.Max( w, sz.x )
h = wx.Max( h, sz.y )
# In case we have a nested sizer with a two step algo , give it
# a chance to adjust to that (we give it width component)
didChangeMinSize = False
for i in range(0, self.ts_Children.GetCount()):
node = self.ts_Children.GetIndex(i)
item = node.GetUserData()
didChangeMinSize |= item.InformFirstDirection(
wx.HORIZONTAL, w, -1 )
# And redo iteration in case min size changed
if(didChangeMinSize):
w = h = 0
for i in range(0, self.ts_Children.GetCount()):
node = self.ts_Children.GetIndex(i)
item = node.GetUserData()
sz = item.GetMinSizeWithBorder()
w = wx.Max( w, sz.x )
h = wx.Max( h, sz.y )
return (wxSize(self.ts_Cols * w + (self.ts_Cols-1) * self.ts_HGap,
self.ts_Rows * h + (self.ts_Rows-1) * self.ts_VGap))
from tsWxGTUI_Py2x.tsLibGUI.tsWxSizer import Sizer
from tsWxGTUI_Py2x.tsLibGUI.tsWxSizerItem import SizerItem as wxSizerItem
#---------------------------------------------------------------------------
##DEBUG = True
DEBUG = wx.Debug_GUI_Launch | \
wx.Debug_GUI_Progress | \
wx.Debug_GUI_Termination | \
wx.Debug_GUI_Exceptions
##VERBOSE = True
VERBOSE = wx.Debug_GUI_Configuration
DEFAULT_POS = wxPoint(wx.DefaultPosition)
DEFAULT_SIZE = wxSize(wx.DefaultSize)
#---------------------------------------------------------------------------
class GridSizer(Sizer):
'''
A grid sizer is a sizer which lays out its children in a two-dimensional
table with all cells having the same size. In other words, the width of
each cell within the grid is the width of the widest item added to the
sizer and the height of each grid cell is the height of the tallest item.
An optional vertical and/or horizontal gap between items can also be
specified (in pixels.)
Items are placed in the cells of the grid in the order they are added,
in row-major order. In other words, the first row is filled first, then
the second, and so on until all items have been added. (If neccessary,
def __init__(self,
parent,
id=wx.ID_ANY,
label=wx.EmptyString,
pos=wx.DefaultPosition,
size=wx.DefaultSize,
choices=wx.PyEmptyStringArray,
majorDimension=0,
style=wx.RA_HORIZONTAL,
validator=wx.DefaultValidator,
name=wx.RadioBoxNameStr):
'''
Create a Control. Normally you should only call this from a
subclass __init__ as a plain old wx.Control is not very useful.
'''
# Also, remember that wx.RA_SPECIFY_COLS means that we arrange buttons
# in left to right order and GetMajorDim() is the number of columns
# while wx.RA_SPECIFY_ROWS means that the buttons are arranged top to
# bottom and GetMajorDim() is the number of rows.
theClass = 'RadioBox'
# Capture initial caller parametsrs before they are changed
self.caller_parent = parent
self.caller_id = id
self.caller_label = label
self.caller_pos = pos
self.caller_size = size
self.caller_choices = choices
self.caller_majorDimension = majorDimension
self.caller_style = style
self.caller_validator = validator
self.caller_name = name
wx.RegisterFirstCallerClassName(self, theClass)
Control.__init__(self,
parent,
id=id,
pos=pos,
size=size,
style=style,
validator=validator,
name=name)
self.tsBeginClassRegistration(theClass, id)
if DEBUG:
self.logger.debug(' self: %s' % self)
self.logger.debug(' parent: %s' % parent)
self.logger.debug(' id: %s' % self.ts_Id)
self.logger.debug(' AssignedId: %s' % self.ts_AssignedId)
self.logger.debug(' label: %s' % label)
self.logger.debug(' pos: %s' % str(pos))
self.logger.debug(' size: %s' % str(size))
self.logger.debug(' choices: %s' % choices)
self.logger.debug(' majorDimension: %s' % majorDimension)
self.logger.debug(' style: 0x%X' % style)
# self.logger.debug(' validator: 0x%X' % validator)
self.logger.debug(' name: %s' % name)
self.ts_Default = False
self.ts_Name = name
self.ts_Parent = parent
theTopLevelClass = self
self.SetTopLevelAncestor(theTopLevelClass)
if parent is None:
self.ts_GrandParent = None
else:
self.ts_GrandParent = parent.Parent
if False:
# Leaves artifacts of different color than parent background.
self.ts_BackgroundColour = wx.ThemeToUse[
'BackgroundColour'].lower()
self.ts_ForegroundColour = wx.ThemeToUse[
'ForegroundColour'].lower()
else:
self.ts_BackgroundColour = self.Parent.ts_BackgroundColour
self.ts_ForegroundColour = self.Parent.ts_ForegroundColour
self.ts_Choices = choices
self.ts_Count = len(choices)
self.ts_Label = label
self.ts_MajorDimension = max(majorDimension, self.ts_Count)
self.ts_Style = style
self.ts_Validator = validator
myRect, myClientRect = self.tsRadioBoxLayout(
parent, pos, size, style, name)
self.ts_Rect = myRect
self.ts_ClientRect = myClientRect
bestSize = self.tsBestSize()
## style = 0
self.ts_ItemLabel = []
self.ts_ItemEnabled = []
self.ts_ItemHelpText = []
self.ts_ItemToolTip = []
self.ts_ItemShown = []
self.ts_ItemWindow = []
# TBD - Verify scaling.
if self.ts_Style & wx.RA_HORIZONTAL:
itemWidth = bestSize.width // (self.ts_MajorDimension + 1)
else:
itemWidth = bestSize.width
for item in range(self.ts_Count):
self.ts_ItemLabel.append(self.ts_Choices[item])
self.ts_ItemHelpText.append(self.ts_ItemLabel[item])
self.ts_ItemToolTip.append(self.ts_ItemLabel[item])
self.ts_ItemShown.append(True)
if item == 0:
self.ts_ItemEnabled.append(True)
else:
self.ts_ItemEnabled.append(False)
# TBD - Under Construction.
if self.ts_Style & wx.RA_HORIZONTAL:
# Horizontal layout
posTBD = wxPoint(
self.Rect.x + (item * itemWidth + 2) * wx.pixelWidthPerCharacter,
self.Rect.y + (2) * wx.pixelHeightPerCharacter)
else:
# Vertical layout
posTBD = wxPoint(
self.Rect.x + (2) * wx.pixelWidthPerCharacter,
self.Rect.y + (item + 2) * wx.pixelHeightPerCharacter)
## sizeTBD = wxSize(
## (len('(*) ') + len(
## self.ts_ItemLabel[item])) * wx.pixelWidthPerCharacter,
## wx.pixelHeightPerCharacter)
sizeTBD = wxSize(
(len('(*) ') + len(self.tsStripAcceleratorTextLabel(
self.ts_ItemLabel[item]))) * wx.pixelWidthPerCharacter,
wx.pixelHeightPerCharacter)
self.ts_ItemWindow.append(wxRadioButton(
self,
id=wx.ID_ANY,
label=self.ts_ItemLabel[item],
pos=posTBD,
size=sizeTBD,
style=(self.ts_Style & wx.ALIGN_LEFT | \
self.ts_Style & wx.ALIGN_RIGHT | \
wx.NO_BORDER),
validator=wx.DefaultValidator,
name=self.ts_ItemLabel[item]))
self.ts_ItemWindow[item].SetValue(self.ts_ItemEnabled[item])
if self.ts_Style & wx.RA_HORIZONTAL:
self.ts_ColumnCount = self.ts_MajorDimension
self.ts_RowCount = 1
elif self.ts_Style & wx.RA_VERTICAL:
self.ts_ColumnCount = 1
self.ts_RowCount = self.ts_MajorDimension
else:
# TBD - Temporary dimension
self.ts_ColumnCount = self.ts_MajorDimension
rows, cols = divmod(self.ts_Count, self.ts_MajorDimension)
if cols == 0:
self.ts_RowCount = rows
else:
self.ts_RowCount = rows + 1
self.ts_Selection = 0
self.ts_StringSelection = 0
# Automatically Bind all mouse events ASAP (now).
# Will register event in the SystemEventTable.
event = EVT_COMMAND_LEFT_CLICK
handler = self.tsOnLeftClick
source = self
self.Bind(event,
handler,
source,
useSystemEventTable=True)
# Automatically Bind all Radio Button events ASAP (now).
# Will register event in the SystemEventTable.
event = EVT_RADIOBUTTON
handler = self.tsOnRadioButtonClick
source = self
self.Bind(event,
handler,
source,
useSystemEventTable=True)
self.tsEndClassRegistration(theClass)
def tsButtonLayout(self, parent, pos, size, style, name):
'''
Calculate position and size of button based upon arguments.
'''
if (not (self.ts_Handle is None)):
# Inhibit operation once self.ts_Handle has been
# assigned a curses window identifier.
return (self.ts_Rect, self.ts_ClientRect)
if style is None:
# Prevent pylint warning.
pass
thePosition = self.tsGetClassInstanceFromTuple(pos, wxPoint)
theSize = self.tsGetClassInstanceFromTuple(size, wxSize)
theDefaultPosition = self.tsGetClassInstanceFromTuple(
wx.DefaultPosition, wxPoint)
theDefaultSize = self.tsGetClassInstanceFromTuple(
wx.DefaultSize, wxSize)
label = self.ts_ButtonText
# Ignore UseClientArea because cursor wraps beyond bottom
# when last character has been output.
if self.ts_UseClientArea:
offset = wxPoint(0, 0)
else:
offset = wxPoint(0, 0)
if theSize == theDefaultSize:
# theDefaultSize
theLabelSize = theSize
self.logger.debug(
' theLabelSize (begin): %s' % theLabelSize)
if label is wx.EmptyString:
# TBD - Adjust for cursor width
theLabelSize = wxSize(
(len(label) + len('[]')) * wx.pixelWidthPerCharacter,
wx.pixelHeightPerCharacter)
elif label.find('\n') == -1:
# TBD - Remove adjustment for extra cursor width
theLabelSize = wxSize(
(len(label) + len('[ ]')) * wx.pixelWidthPerCharacter,
wx.pixelHeightPerCharacter)
else:
# TBD - Remove adjustment for extra cursor width
theLines = label.split('\n')
maxWidth = 0
maxHeight = len(theLines)
for aLine in theLines:
if len(aLine) > maxWidth:
maxWidth = len(aLine)
theLabelSize = wxSize(
(maxWidth + len('[ ]')) * wx.pixelWidthPerCharacter,
maxHeight * wx.pixelHeightPerCharacter)
self.logger.debug(
' theLabelSize (end): %s' % theLabelSize)
if thePosition == theDefaultPosition:
# theDefaultPosition
myRect = wxRect(parent.ClientArea.x,
parent.ClientArea.y,
theLabelSize.width,
theLabelSize.height)
else:
# Not theDefaultPosition
myRect = wxRect(offset.x + thePosition.x,
offset.y + thePosition.y,
theLabelSize.width,
theLabelSize.height)
else:
# Not theDefaultSize
if thePosition == theDefaultPosition:
# theDefaultPosition
myRect = wxRect(parent.ClientArea.x,
parent.ClientArea.y,
theSize.width,
theSize.height)
else:
# Not theDefaultPosition
myRect = wxRect(offset.x + thePosition.x,
offset.y + thePosition.y,
theSize.width,
theSize.height)
## theDisplayRect = self.Display.GetClientArea()
## if not theDisplayRect.InsideRect(myRect):
## myRect = wxRect(
## max(thePosition.x, theDisplayRect.x),
## max(thePosition.y, theDisplayRect.y),
## min(theSize.width, theDisplayRect.width),
## min(theSize.height, theDisplayRect.height - 1))
## if not theDisplayRect.InsideRect(myRect):
## myRect = theDisplayRect
myClientRect = wxRect(myRect.x,
myRect.y,
myRect.width,
myRect.height)
self.tsTrapIfTooSmall(name, myRect)
fmt = 'parent=%s; pos=%s; size=%s; ' + \
'name="%s"; label="%s"; myRect=%s'
msg = fmt % (parent, str(pos), str(size), name, label, str(myRect))
self.logger.debug(' tsButtonLayout: %s' % msg)
return (myRect, myClientRect)
def __init__(
self,
parent,
id=wx.ID_ANY,
bitmap=None,
splashStyle=0,
milliseconds=0,
pos=wx.DefaultPosition,
size=wx.DefaultSize,
style=wx.DEFAULT_SPLASHSCREEN_STYLE,
):
"""
Construct class.
"""
theClass = "SplashScreen"
# Capture initial caller parametsrs before they are changed
self.caller_bitmap = bitmap
self.caller_splashStyle = splashStyle
self.caller_milliseconds = milliseconds
self.caller_parent = parent
self.caller_id = id
self.caller_pos = pos
self.caller_size = size
self.caller_style = style
wx.RegisterFirstCallerClassName(self, theClass)
TopLevelWindow.__init__(self)
self.tsBeginClassRegistration(theClass, id)
## size = wxSize(500, 300)
Frame.__init__(
self,
parent,
id=wx.ID_ANY,
title=wx.EmptyString,
pos=pos,
size=size,
style=wx.BORDER_SIMPLE, # wx.DEFAULT_SPLASHSCREEN_STYLE,
name=wx.SplashScreenNameStr,
)
splashWindow = self
splashWindow.ts_ForegroundColour = wx.COLOR_RED
splashWindow.ts_BackgroundColour = wx.COLOR_WHITE
self.ts_SplashStyle = splashStyle
self.ts_SplashWindow = splashWindow
self.ts_SplashTimeout = milliseconds
self.ts_bitmap = wxTextCtrl(
splashWindow,
id=-1,
value=wx.EmptyString,
pos=wxPoint(
splashWindow.ts_ClientRect.x + wx.pixelWidthPerCharacter,
splashWindow.ts_ClientRect.y + wx.pixelHeightPerCharacter,
),
size=wxSize(
splashWindow.ts_ClientRect.width - (2 * wx.pixelWidthPerCharacter),
splashWindow.ts_ClientRect.height - (2 * wx.pixelHeightPerCharacter),
),
style=0, # wx.TE_MULTILINE |wx.TE_READONLY,
validator=wx.DefaultValidator,
name=wx.TextCtrlNameStr,
)
self.ts_bitmap.AppendText(bitmap)
self.ts_bitmap.Show()
self.SetFocus()
## print('SplashScreen: Show')
## self.Show()
## print('SplashScreen: Sleep(%d)' % self.ts_SplashTimeout)
## time.sleep(self.ts_SplashTimeout / 1000)
## print('SplashScreen: Hide')
## self.Hide()
self.tsEndClassRegistration(theClass)
def tsGetRedirectedStdioArea(self, pixels=True):
'''
Return rectangle position and size of window used for redirected
output from print, stdout and stderr.
NOTE: Area includes top, bottom, left and right borders. It must
support at least one message. Messages may optionally include a
timestamp. The assumed length of a typical message, without its
timestamp, but with the left and right borders, is 80 characters.
The minimum height must therefore provide sufficient lines to
display the full message and its timestamp.
'''
###############################################################
# X=0 1 2 3 X=W-1
# 01234567890123456789012345678901234
# Y=0 +---------------------------------+ Frame Border Top
# 1 |Client Area |
# 2 | (ex. 35 cols x 6 rows) |
# 3 | |
# 4 | |
# 5 +---------------------------------+ Frame Border Bottom
# H-9 +---------------------------------+ Stdio Border Top
# H-8 |Stdio Output (Optionl) |
# H-7 | (ex. 35 cols x 5 rows) |
# H-6 | |
# H-5 +---------------------------------+ Stdio Border Bottom
# H-4 +---------------------------------+ Task Border Top
# H-3 |Task Bar Output (Optional) |
# H-2 | (ex. 35 cols x 4 rows) |
# Y=H-1 +---------------------------------+ Task Border Bottom
###############################################################
if Display.EnableRedirectArea:
theTotalArea = self.GetGeometry(pixels=False)
borderRows = 2
# borderCols = 2
if wx.ThemeToUse['Stdio']['Timestamp']:
minLineWidth = wx.pageWidth + len('2008/07/04 05:44:52.486 -')
else:
minLineWidth = wx.pageWidth
(minDisplayPixelWidth, minDisplayPixelHeight) = \
wx.RedirectedWindowHeight['minDisplay']
(minDisplayWidth, minDisplayHeight) = (
minDisplayPixelWidth // wx.pixelWidthPerCharacter,
minDisplayPixelHeight // wx.pixelHeightPerCharacter)
minHeightPercent = int(
wx.RedirectedWindowHeight['minHeightPercent'])
maxHeightPercent = int(
wx.RedirectedWindowHeight['maxHeightPercent'])
maxRedirectedWidth = theTotalArea.width
theTaskArea = self.tsGetTaskArea(pixels=False)
# thePosition = wxPoint(theTotalArea.x, theTotalArea.y)
theSize = wxSize(theTotalArea.width, theTotalArea.height)
theRedirectedAreaOffset = - 1
if theSize.width < minDisplayWidth:
if theSize.height < minDisplayHeight:
maxRedirectedHeight = max(
(borderRows + int(
1 + minLineWidth // maxRedirectedWidth)),
((theSize.height * minHeightPercent) // 100) * \
int(1 + minLineWidth // maxRedirectedWidth) + \
theRedirectedAreaOffset)
else:
maxRedirectedHeight = max(
(borderRows + int(
1 + minLineWidth // maxRedirectedWidth)),
((theSize.height * minHeightPercent) // 100) + \
theRedirectedAreaOffset)
elif theSize.height < minDisplayHeight:
maxRedirectedHeight = max(
(borderRows + int(
1 + minLineWidth // maxRedirectedWidth)),
((theSize.height * minHeightPercent) // 100) + \
theRedirectedAreaOffset)
else:
maxRedirectedHeight = max(
(borderRows + int(
1 + minLineWidth // maxRedirectedWidth)),
((theSize.height * maxHeightPercent) // 100) + \
theRedirectedAreaOffset)
theRedirectedSize = wxSize(maxRedirectedWidth,
maxRedirectedHeight)
theRedirectedPos = wxPoint(
theTaskArea.x,
theTaskArea.y - (theRedirectedSize.height + 0))
theCharacterArea = wxRect(theRedirectedPos.x,
theRedirectedPos.y,
theRedirectedSize.width,
theRedirectedSize.height)
thePixelArea = wxRect(
theCharacterArea.x * wx.pixelWidthPerCharacter,
theCharacterArea.y * wx.pixelHeightPerCharacter,
theCharacterArea.width * wx.pixelWidthPerCharacter,
theCharacterArea.height * wx.pixelHeightPerCharacter)
if pixels:
theArea = thePixelArea
else:
theArea = theCharacterArea
if DEBUG and VERBOSE:
self.tsPrivateLogger(
'tsGetRedirectedStdioArea: %s pixels = %s characters' % (
thePixelArea, theCharacterArea))
else:
theArea = None
if DEBUG and VERBOSE:
self.tsPrivateLogger(
'tsGetRedirectedStdioArea: %s' % theArea)
return (theArea)
def CalcMin(self):
'''
Calculate the total minimum width and height needed by all items
in the sizer according to this sizer layout algorithm.
'''
# The minimal size for the sizer should be big enough to allocate
# its element at least its minimal size but also, and this is the
# non-trivial part, to respect the children proportion. To satisfy
# the latter condition we must find the greatest min-size-to-
# proportion ratio for all elements with non-zero proportion.
# This sizer instance only manages a single parent's client area.
# Unlike wxWidgets, a parent's client area depends on size of
# Top Level Window (Frame or Dialog) that depends on initial size
# of Display Screen which was manually set by a System Operator.
sizerClientArea = self.FindSizerClientArea()
self.logger.debug(
'StaticBoxSizer.CalcMin: sizerClientArea=%s' % str(
sizerClientArea))
self.ts_CalcMinArea = []
self.ts_CalcMinAreaProportion = []
self.ts_CalcMinKind = []
self.ts_CalcMinWindow = []
self.ts_ClientArea = []
self.ts_ContainingWindow = None
self.ts_MinSize = wxSize(0, 0)
self.ts_SizeMinThis = []
self.ts_TotalFixedSize = wxSize(0, 0)
self.ts_TotalProportion = 0
for i in range(0, self.ts_Children.GetCount()):
node = self.ts_Children.GetIndex(i)
item = node.GetUserData()
msg = 'StaticBoxSizer.CalcMin: item[%d]=%s' % (i, str(item))
## print(msg)
self.logger.debug(msg)
if (True or item.IsShown()):
# sizeMinThis = item.CalcMin()
# TBD - Not sure if the following is equivalent.
if (item.ts_Kind == wx.Item_None):
msg = 'Kind: %s' % 'Item_None'
sizeMinThis = wxSize(0, 0)
self.ts_CalcMinWindow += [None]
elif (item.ts_Kind == wx.Item_Sizer):
msg = 'Kind: %s' % 'Item_Sizer'
self.ts_Sizer.Layout()
self.ts_CalcMinWindow += [None]
sizeMinThis = item.ts_Sizer.Size
elif (item.ts_Kind == wx.Item_Spacer):
msg = 'Kind: %s' % 'Item_Spacer'
self.ts_CalcMinWindow += [None]
sizeMinThis = item.ts_Spacer.Size
elif (item.ts_Kind == wx.Item_Window):
msg = 'Kind: %s' % 'Item_Window'
self.ts_CalcMinWindow += [item.ts_Window]
parent = item.ts_Window.ts_Parent
clientArea = parent.ClientArea
if (clientArea == sizerClientArea):
theRect = parent.Rect
theClientArea = parent.ClientArea
print('StaticBoxSizer.CalcMin: ' + \
'Rect=%s; ClientArea=%s' % (
str(theRect),
str(theClientArea)))
else:
theRect = parent.Rect
theClientArea = parent.ClientArea
print(
'StaticBoxSizer.CalcMin: ' + \
'Rect=%s; ClientArea=%s' % (
str(theRect),
str(theClientArea)))
self.logger.error(
'StaticBoxSizer.CalcMin: ' + \
'Rect=%s; ClientArea=%s' % (
str(theRect),
str(theClientArea)))
msg = '%s; Parent.clientArea=%s' % (msg, str(clientArea))
sizeMinThis = wxSize(clientArea.width, clientArea.height)
if (self.ts_ContainingWindow is None):
self.ts_ContainingWindow = parent
self.ts_ClientArea = clientArea
elif (self.ts_ContainingWindow == parent):
pass
else:
fmt1 = 'StaticBoxSizer.CalcMin: '
fmt2 = 'Rejected Parent=%s' % str(parent)
fmt3 = 'Previous Parent=%s' % str(
self.ts_ContainingWindow)
msgError = fmt1 + fmt2 + fmt3
print(msgError)
self.logger.error(msgError)
elif (item.ts_Kind == wx.Item_Max):
msg = 'Kind: %s' % 'Item_Max'
self.ts_CalcMinWindow += [None]
sizeMinThis = wxSize(0, 0)
else:
msg = 'Kind: %s' % 'Item_Unknown'
self.ts_CalcMinWindow += [None]
sizeMinThis = wxSize(0, 0)
self.logger.debug(msg)
propThis = item.GetProportion()
self.ts_CalcMinArea += [sizeMinThis]
self.ts_CalcMinAreaProportion += [propThis]
self.ts_CalcMinKind += [item.ts_Kind]
self.ts_SizeMinThis += [sizeMinThis]
if (propThis != 0):
# Adjustable size item
self.ts_TotalProportion += propThis
msg = 'StaticBoxSizer.CalcMin: ' + \
'item[%d]=%s; totalProp= %s' % (
i, str(item), str(self.ts_TotalProportion))
self.logger.debug(msg)
else:
# Fixed size item
self.ts_TotalFixedSize += sizeMinThis
msg = 'StaticBoxSizer.CalcMin: ' + \
'item[%d]=%s; totalFixed= %s' % (
i, str(item), str(self.ts_TotalFixedSize))
self.logger.debug(msg)
for i in range(0, self.ts_Children.GetCount()):
if (self.ts_Orientation == wx.HORIZONTAL):
orientation = 'HORIZONTAL'
self.ts_CalcMinArea[i].height = self.ts_ClientArea.height
if (self.ts_CalcMinAreaProportion[i] == 0):
self.ts_CalcMinArea[
i].width = self.ts_SizeMinThis[i].width
else:
scalableWidth = self.ts_ClientArea.width - \
self.ts_TotalFixedSize.width
self.ts_CalcMinArea[i].width = int(0.5 + (
scalableWidth * (
float(self.ts_CalcMinAreaProportion[i]) /
float(self.ts_TotalProportion))))
else:
orientation = ' VERTICAL'
self.ts_CalcMinArea[i].width = self.ts_ClientArea.width
if (self.ts_CalcMinAreaProportion[i] == 0):
self.ts_CalcMinArea[
i].height = self.ts_SizeMinThis[i].height
else:
scalableHeight = self.ts_ClientArea.height - \
self.ts_TotalFixedSize.height
self.ts_CalcMinArea[i].height = int(0.5 + (
scalableHeight * (
float(self.ts_CalcMinAreaProportion[i]) /
float(self.ts_TotalProportion))))
if True:
# Adjust to be multiple of standard character size
self.ts_CalcMinArea[i].width = (
(self.ts_CalcMinArea[i].width // \
wx.pixelWidthPerCharacter) * \
wx.pixelWidthPerCharacter)
self.ts_CalcMinArea[i].height = (
(self.ts_CalcMinArea[i].height // \
wx.pixelHeightPerCharacter) * \
wx.pixelHeightPerCharacter)
fmt1 = '%s CalcMinArea[%d]: width=%3d; height=%3d; ' % (
orientation,
i,
int(self.ts_CalcMinArea[i].width),
int(self.ts_CalcMinArea[i].height))
fmt2 = 'totalProportion=%3d' % int(self.ts_TotalProportion)
self.logger.debug(fmt1 + fmt2)
theCalcMinSize = self.GetSizeInMajorDir(self.ts_ClientArea)
self.logger.debug('theCalcMinSize=%d' % theCalcMinSize)
return (theCalcMinSize)
def tsRadioButtonLayout(self, parent, pos, size, style, name):
"""
Calculate position and size of button based upon arguments.
"""
if not (self.ts_Handle is None):
# Inhibit operation once self.ts_Handle has been
# assigned a curses window identifier.
return (self.ts_Rect, self.ts_ClientRect)
if style is None:
# Prevent pylint warning.
pass
thePosition = self.tsGetClassInstanceFromTuple(pos, wxPoint)
theSize = self.tsGetClassInstanceFromTuple(size, wxSize)
theDefaultPosition = self.tsGetClassInstanceFromTuple(wx.DefaultPosition, wxPoint)
theDefaultSize = self.tsGetClassInstanceFromTuple(wx.DefaultSize, wxSize)
label = self.ts_ButtonText
if theSize == theDefaultSize:
# theDefaultSize
## print('default size layout label="%s"; pos=%s size=%s' % (
## label, pos, size))
theLabelSize = theSize
self.logger.debug(" theLabelSize (begin): %s" % theLabelSize)
maxWidth = self.ts_Parent.ts_ClientRect.width - (2 * wx.pixelWidthPerCharacter)
if label is wx.EmptyString:
# TBD - Adjust for cursor width
theLabelSize = wxSize(maxWidth, wx.pixelHeightPerCharacter)
elif label.find("\n") == -1:
# TBD - Remove adjustment for extra cursor width
theLabelSize = wxSize((len(label) + len("[ ]")) * wx.pixelWidthPerCharacter, wx.pixelHeightPerCharacter)
else:
# TBD - Remove adjustment for extra cursor width
theLines = label.split("\n")
maxWidth = 0
maxHeight = len(theLines)
for aLine in theLines:
if len(aLine) > maxWidth:
maxWidth = len(aLine)
theLabelSize = wxSize(
(maxWidth + len("[ ]")) * wx.pixelWidthPerCharacter, maxHeight * wx.pixelHeightPerCharacter
)
self.logger.debug(" theLabelSize (end): %s" % theLabelSize)
if False and thePosition == theDefaultPosition:
# theDefaultPosition
myRect = wxRect(parent.ClientArea.x, parent.ClientArea.y, theLabelSize.width, theLabelSize.height)
else:
# Not theDefaultPosition
myRect = wxRect(thePosition.x, thePosition.y, theLabelSize.width, theLabelSize.height)
else:
# Not theDefaultSize
## print('not default size layout label="%s"; pos=%s size=%s' % (
## label, pos, size))
if False and thePosition == theDefaultPosition:
# theDefaultPosition
myRect = wxRect(parent.ClientArea.x, parent.ClientArea.y, theSize.width, theSize.height)
else:
# Not theDefaultPosition
myRect = wxRect(thePosition.x, thePosition.y, theSize.width, theSize.height)
## theDisplayRect = self.Display.GetClientArea()
## if not theDisplayRect.InsideRect(myRect):
## myRect = wxRect(
## max(thePosition.x, theDisplayRect.x),
## max(thePosition.y, theDisplayRect.y),
## min(theSize.width, theDisplayRect.width),
## min(theSize.height, theDisplayRect.height - 1))
## if not theDisplayRect.InsideRect(myRect):
## myRect = theDisplayRect
myClientRect = wxRect(myRect.x, myRect.y, myRect.width, myRect.height)
self.tsTrapIfTooSmall(name, myRect)
fmt = "parent=%s; pos=%s; size=%s; " + 'name="%s"; label="%s"; myRect=%s'
msg = fmt % (parent, str(pos), str(size), name, label, str(myRect))
self.logger.debug(" tsRadioButtonLayout: %s" % msg)
return (myRect, myClientRect)
