I cannot get tkinter to update a pair of simple "application global" boolean variables to match that of the associated checkbox. The booleans are initialized, updated and stored in one file and are referenced (read-only) by another file. Regardless of the checkbox state the booleans never change from their default value. (A side point of note: The initial values of False/True get changed into 0/1, presumably due to the problematic way tkinter impelements booleans).
Curiously, there are NO problems with the similar “application global” TABLE of booleans that corresponds to a table of tkinter checkboxes. The table is an instance of a class defined by a third file. The table resides in the same file (and is treated in the same way) as the simple booleans.
All boolean values are used (read-only) in one file (File1.py) and are only modified by the other file (File2.py). Explicitly returning the problem booleans (from File2.py to File1.py) did not work.
The environment being used is Windows 7, Python 3.2.2 on Eclipse Juno (4.2.2, build M20130204-1200) with the Pydev 2.7.32013031601 plug-in. The application is being run from the Eclipse console.
By the LEGB scoping rules everything seems OK (the include and global statements are present and the dotted name form is being used for the externally defined “application level” global variables). As I see it, either all boolean updates should work or none should work. So why does the boolean table work properly but not the simple booleans - and what is needed to get the simple booleans to work properly?
Speculating, could it have something to do with the way python implements variables that have basic values (e.g. 0, 1, 2, 3, True? False?) as “shared values” instead of separate variables - and this leads to problems when referencing these simple values from other modules?
The sample application consists of 3 files; each has been reduced as far as possible while remaining able to show the problem. When run on Windows 7 you should see this:
File1.py - mainline, contains the callback function “Get_User_Selections”:
from tkinter import * from tkinter import ttk import File2 #========================================================================== def Get_User_Selections( ): print( "\nDoAllReports=", File2.DoAllReports, "DoNoReports=", File2.DoNoReports ) if ( not File2.DoNoReports ) : for row in range( len( File2.ChosenReports ) ): for column in range( len( File2.ChosenReports[ 0 ] ) ) : if ( File2.ChosenReports[ row ][ column ].get() or File2.DoAllReports ) : print( "Do report (", row, ',', column, ')' ) return #========================================================================== def CreateTheReports( *args ): Get_User_Selections( ) return #========================================================================== ''' *********** MAIN PROCEDURE ***************** ''' root = Tk() root.title( 'tkinter Boolean problem' ) mainframe = ttk.Frame( root ) mainframe.grid( ) File2.ChooseReports( mainframe ) DoItButton = Button( mainframe, text = 'DO IT!', command = CreateTheReports ) DoItButton.grid() root.mainloop() #==========================================================================
File2.py - defines the GUI, updates all of the “application level global” booleans:
from tkinter import * # import the custom "GUI table" widgit class (which works as expected) from TkinterCheckBoxTableClass import TkinterCheckBoxTableClass # Determine the table "shape" (in the original application the strings become # the row and column headers, these headers NOT shown by this example code). RowTitles = [ "A", "B" ] ColumnTitles = [ "1", "2", "3", "4" ] DefaultReports = [ ] for i in RowTitles : for j in ColumnTitles : DefaultReports = DefaultReports + [ False ] # Initialize the three "APPLICATION LEVEL" global variables that preserve the # user choices across invocations of the routine. Each invocation is caused # by the user pressing the "DO IT!" button on the GUI. ChosenReports = DefaultReports # table of user choices (works properly) # These two "application" globals override the table (above) of individual # choices. "DoNoReports" overrides "DoAllReports"; both override the table. DoAllReports = False # does not work, value never changes DoNoReports = False # does not work, value never changes #========================================================================== def ChooseReports( ParentFrame ): # Purpose : Interface between the "application globals" and what appears # on the GUI. Called from File1.py whenever user presses # the "DO IT" button global ChosenReports # "application" global, resides in this file global DoAllReports # "application" global, resides in this file global DoNoReports # "application" global, resides in this file GuiTable = [ [ IntVar() for j in range( len( ColumnTitles ) ) ] for i in range( len( RowTitles ) ) ] ThisFrame = LabelFrame( ParentFrame, text = " Select Reports " ) ThisFrame.grid( row = 1, column = 0 ) DoAll = IntVar( value = DoAllReports ) DoNone = IntVar( value = DoNoReports ) SelectAll = Checkbutton( ThisFrame, variable = DoAll, text = "All", onvalue = True, offvalue = False) SelectAll.grid( row = 0, column = 1 ) SelectNone = Checkbutton( ThisFrame, variable = DoNone, text ='None', onvalue = True, offvalue = False ) SelectNone.grid( row = 0, column = 2 ) TableFrame = LabelFrame( ThisFrame, background = 'grey', borderwidth = 1, relief = FLAT ) TableFrame.grid( row = 1, column = 0, columnspan = 3, rowspan = 2 ) # Create the custom Checkbox Table, works without any problems. ChooseTheReports = TkinterCheckBoxTableClass( FrameID = TableFrame, UserSelections = GuiTable ) # Update the "application level" globals DoAllReports = DoAll.get( ) DoNoReports = DoNone.get( ) ChosenReports = ChooseTheReports.getTable( ) # Passing back the above variables in the return statement did NOT work. # Returning them shouldn't even be needed since a) they have "application" # level scope, b) they reside in THIS file and c) are ONLY modified by THIS # file (with the new values being accessible from other files). return #==========================================================================
TkinterCheckBoxTableClass.py - implements the table of booleans:
''' Implements a 2-D matrix (table) of tkinter checkboxes (for Python 3.x). ''' from tkinter import * from tkinter import ttk class TkinterCheckBoxTableClass( object ): ''' Python 3.x interface to a matrix (2-D table) of tkinter checkboxes. Must pass a tkinter frame and the matrix to the constructor. Class constructor parameters: FrameID - tkinter parent frame that displays the table UserSelections - matrix of True/False values passed to/from to GUI Entire Table Methods: getTable() - extracts 2-D array of UserSelections from tkinter ''' '''----------------------------------------------------------------------''' ''' Constructor ''' def __init__( self , FrameID, UserSelections ) : self.frameID = FrameID self.userSelections = UserSelections self.rowCount = max( 1, len( self.userSelections ) ) self.columnCount = max( 1, len( self.userSelections[ 0 ] ) ) self.checkBoxTable = [ [ IntVar() for j in range( self.columnCount ) ] for i in range( self.rowCount ) ] # Construct and display the table of tkinter checkboxes for i in range( self.rowCount ) : for j in range( self.columnCount ) : self.checkBoxTable[i][j] = Checkbutton( self.frameID, variable = self.userSelections[ i ][ j ], onvalue = True, offvalue = False ) self.checkBoxTable[i][j].grid( row = i + 1, column = j + 1, sticky = W ) '''----------------------------------------------------------------------''' '''Methods:''' def getTable( self ) : for i in range( self.rowCount ) : for j in range( self.columnCount ) : self.checkBoxTable[i][j] = Checkbutton( self.frameID, variable = self.userSelections[ i ][ j ], onvalue = True,offvalue = False ) self.checkBoxTable[i][j].grid( row = i + 1, column = j + 1, sticky = W ) return self.userSelections ''' END CLASS '''
BTW, as to PEP8: see the section immediately after the PEP8 introduction. ;>) I am also well aware of the advantages/disadvantages of “application globals” and of the kludgey “create a universal include file and import it everywhere” approach; one that I’d prefer NOT to use unless there is ABSOLUTELY no other simple way of fixing my problem. (I much prefer importing modules ONLY where they are needed.)