Source code for direct.tkwidgets.Floater

"""
Floater Class: Velocity style controller for floating point values with
                a label, entry (validated), and scale
"""

__all__ = ['Floater', 'FloaterWidget', 'FloaterGroup']

from direct.showbase.TkGlobal import *
from .Valuator import Valuator, VALUATOR_MINI, VALUATOR_FULL
from direct.task import Task
from panda3d.core import ClockObject
import math
import Pmw

FLOATER_WIDTH = 22
FLOATER_HEIGHT = 18

[docs]class Floater(Valuator):
[docs] def __init__(self, parent = None, **kw): INITOPT = Pmw.INITOPT optiondefs = ( ('style', VALUATOR_MINI, INITOPT), ) self.defineoptions(kw, optiondefs) # Initialize the superclass Valuator.__init__(self, parent) self.initialiseoptions(Floater)
[docs] def createValuator(self): self._valuator = self.createcomponent('valuator', (('floater', 'valuator'),), None, FloaterWidget, (self.interior(),), command = self.setEntry, value = self['value']) self._valuator._widget.bind('<Double-ButtonPress-1>', self.mouseReset)
[docs] def packValuator(self): # Position components if self._label: self._label.grid(row=0, column=0, sticky = EW) self._entry.grid(row=0, column=1, sticky = EW) self._valuator.grid(row=0, column=2, padx = 2, pady = 2) self.interior().columnconfigure(0, weight = 1)
[docs]class FloaterWidget(Pmw.MegaWidget):
[docs] def __init__(self, parent = None, **kw): #define the megawidget options INITOPT = Pmw.INITOPT optiondefs = ( # Appearance ('width', FLOATER_WIDTH, INITOPT), ('height', FLOATER_HEIGHT, INITOPT), ('relief', RAISED, self.setRelief), ('borderwidth', 2, self.setBorderwidth), ('background', 'grey75', self.setBackground), # Behavior # Initial value of floater, use self.set to change value ('value', 0.0, INITOPT), ('numDigits', 2, self.setNumDigits), # Command to execute on floater updates ('command', None, None), # Extra data to be passed to command function ('commandData', [], None), # Callback's to execute during mouse interaction ('preCallback', None, None), ('postCallback', None, None), # Extra data to be passed to callback function, needs to be a list ('callbackData', [], None), ) self.defineoptions(kw, optiondefs) # Initialize the superclass Pmw.MegaWidget.__init__(self, parent) # Set up some local and instance variables # Create the components interior = self.interior() # Current value self.value = self['value'] # The canvas width = self['width'] height = self['height'] self._widget = self.createcomponent('canvas', (), None, Canvas, (interior,), width = width, height = height, background = self['background'], highlightthickness = 0, scrollregion = (-width/2.0, -height/2.0, width/2.0, height/2.0)) self._widget.pack(expand = 1, fill = BOTH) # The floater icon self._widget.create_polygon(-width/2.0, 0, -2.0, -height/2.0, -2.0, height/2.0, fill = 'grey50', tags = ('floater',)) self._widget.create_polygon(width/2.0, 0, 2.0, height/2.0, 2.0, -height/2.0, fill = 'grey50', tags = ('floater',)) # Add event bindings self._widget.bind('<ButtonPress-1>', self.mouseDown) self._widget.bind('<B1-Motion>', self.updateFloaterSF) self._widget.bind('<ButtonRelease-1>', self.mouseUp) self._widget.bind('<Enter>', self.highlightWidget) self._widget.bind('<Leave>', self.restoreWidget) # Make sure input variables processed self.initialiseoptions(FloaterWidget)
[docs] def set(self, value, fCommand = 1): """ self.set(value, fCommand = 1) Set floater to new value, execute command if fCommand == 1 """ # Send command if any if fCommand and (self['command'] is not None): self['command'](*[value] + self['commandData']) # Record value self.value = value
[docs] def updateIndicator(self, value): # Nothing visible to update on this type of widget pass
[docs] def get(self): """ self.get() Get current floater value """ return self.value
## Canvas callback functions # Floater velocity controller
[docs] def mouseDown(self, event): """ Begin mouse interaction """ # Exectute user redefinable callback function (if any) self['relief'] = SUNKEN if self['preCallback']: self['preCallback'](*self['callbackData']) self.velocitySF = 0.0 self.updateTask = taskMgr.add(self.updateFloaterTask, 'updateFloater') self.updateTask.lastTime = ClockObject.getGlobalClock().getFrameTime()
[docs] def updateFloaterTask(self, state): """ Update floaterWidget value based on current scaleFactor Adjust for time to compensate for fluctuating frame rates """ currT = ClockObject.getGlobalClock().getFrameTime() dt = currT - state.lastTime self.set(self.value + self.velocitySF * dt) state.lastTime = currT return Task.cont
[docs] def updateFloaterSF(self, event): """ Update velocity scale factor based of mouse distance from origin """ x = self._widget.canvasx(event.x) y = self._widget.canvasy(event.y) offset = max(0, abs(x) - Valuator.deadband) if offset == 0: return 0 sf = math.pow(Valuator.sfBase, self.minExp + offset/Valuator.sfDist) if x > 0: self.velocitySF = sf else: self.velocitySF = -sf
[docs] def mouseUp(self, event): taskMgr.remove(self.updateTask) self.velocitySF = 0.0 # Execute user redefinable callback function (if any) if self['postCallback']: self['postCallback'](*self['callbackData']) self['relief'] = RAISED
[docs] def setNumDigits(self): """ Adjust minimum exponent to use in velocity task based upon the number of digits to be displayed in the result """ self.minExp = math.floor(-self['numDigits']/ math.log10(Valuator.sfBase))
# Methods to modify floater characteristics
[docs] def setRelief(self): self.interior()['relief'] = self['relief']
[docs] def setBorderwidth(self): self.interior()['borderwidth'] = self['borderwidth']
[docs] def setBackground(self): self._widget['background'] = self['background']
[docs] def highlightWidget(self, event): self._widget.itemconfigure('floater', fill = 'black')
[docs] def restoreWidget(self, event): self._widget.itemconfigure('floater', fill = 'grey50')
[docs]class FloaterGroup(Pmw.MegaToplevel):
[docs] def __init__(self, parent = None, **kw): # Default group size DEFAULT_DIM = 1 # Default value depends on *actual* group size, test for user input DEFAULT_VALUE = [0.0] * kw.get('dim', DEFAULT_DIM) DEFAULT_LABELS = ['v[%d]' % x for x in range(kw.get('dim', DEFAULT_DIM))] #define the megawidget options INITOPT = Pmw.INITOPT optiondefs = ( ('dim', DEFAULT_DIM, INITOPT), ('side', TOP, INITOPT), ('title', 'Floater Group', None), # A tuple of initial values, one for each floater ('value', DEFAULT_VALUE, INITOPT), # The command to be executed any time one of the floaters is updated ('command', None, None), # A tuple of labels, one for each floater ('labels', DEFAULT_LABELS, self._updateLabels), ) self.defineoptions(kw, optiondefs) # Initialize the toplevel widget Pmw.MegaToplevel.__init__(self, parent) # Create the components interior = self.interior() # Get a copy of the initial value (making sure its a list) self._value = list(self['value']) # The Menu Bar self.balloon = Pmw.Balloon() menubar = self.createcomponent('menubar', (), None, Pmw.MenuBar, (interior,), balloon = self.balloon) menubar.pack(fill=X) # FloaterGroup Menu menubar.addmenu('Floater Group', 'Floater Group Operations') menubar.addmenuitem( 'Floater Group', 'command', 'Reset the Floater Group panel', label = 'Reset', command = lambda s = self: s.reset()) menubar.addmenuitem( 'Floater Group', 'command', 'Dismiss Floater Group panel', label = 'Dismiss', command = self.withdraw) menubar.addmenu('Help', 'Floater Group Help Operations') self.toggleBalloonVar = IntVar() self.toggleBalloonVar.set(0) menubar.addmenuitem('Help', 'checkbutton', 'Toggle balloon help', label = 'Balloon Help', variable = self.toggleBalloonVar, command = self.toggleBalloon) self.floaterList = [] for index in range(self['dim']): # Add a group alias so you can configure the floaters via: # fg.configure(Valuator_XXX = YYY) f = self.createcomponent( 'floater%d' % index, (), 'Valuator', Floater, (interior,), value = self._value[index], text = self['labels'][index]) # Do this separately so command doesn't get executed during construction f['command'] = lambda val, s=self, i=index: s._floaterSetAt(i, val) f.pack(side = self['side'], expand = 1, fill = X) self.floaterList.append(f) # Make sure floaters are initialized self.set(self['value']) # Make sure input variables processed self.initialiseoptions(FloaterGroup)
def _updateLabels(self): if self['labels']: for index in range(self['dim']): self.floaterList[index]['text'] = self['labels'][index]
[docs] def toggleBalloon(self): if self.toggleBalloonVar.get(): self.balloon.configure(state = 'balloon') else: self.balloon.configure(state = 'none')
[docs] def get(self): return self._value
[docs] def getAt(self, index): return self._value[index]
# This is the command is used to set the groups value
[docs] def set(self, value, fCommand = 1): for i in range(self['dim']): self._value[i] = value[i] # Update floater, but don't execute its command self.floaterList[i].set(value[i], 0) if fCommand and (self['command'] is not None): self['command'](self._value)
[docs] def setAt(self, index, value): # Update floater and execute its command self.floaterList[index].set(value)
# This is the command used by the floater def _floaterSetAt(self, index, value): self._value[index] = value if self['command']: self['command'](self._value)
[docs] def reset(self): self.set(self['value'])
## SAMPLE CODE if __name__ == '__main__': # Initialise Tkinter and Pmw. root = Toplevel() root.title('Pmw Floater demonstration') # Dummy command def printVal(val): print(val) # Create and pack a Floater megawidget. mega1 = Floater(root, command = printVal) mega1.pack(side = 'left', expand = 1, fill = 'x') """ # These are things you can set/configure # Starting value for floater mega1['value'] = 123.456 mega1['text'] = 'Drive delta X' # To change the color of the label: mega1.label['foreground'] = 'Red' # Max change/update, default is 100 # To have really fine control, for example # mega1['maxVelocity'] = 0.1 # Number of digits to the right of the decimal point, default = 2 # mega1['numDigits'] = 5 """ # To create a floater group to set an RGBA value: group1 = FloaterGroup(root, dim = 4, title = 'Simple RGBA Panel', labels = ('R', 'G', 'B', 'A'), Valuator_min = 0.0, Valuator_max = 255.0, Valuator_resolution = 1.0, command = printVal) # Uncomment this if you aren't running in IDLE #root.mainloop()