wxWidgets/wxPython/demo/TimeCtrl.py

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#
# 11/21/2003 - Jeff Grimmett (grimmtooth@softhome.net)
#
# o presense of spin control causing probs (see spin ctrl demo for details)
#
import wx
import wx.lib.timectrl as timectl
import wx.lib.scrolledpanel as scrolled
#----------------------------------------------------------------------
class TestPanel( scrolled.ScrolledPanel ):
def __init__( self, parent, log ):
scrolled.ScrolledPanel.__init__( self, parent, -1 )
self.log = log
text1 = wx.StaticText( self, -1, "12-hour format:")
self.time12 = timectl.TimeCtrl( self, -1, name="12 hour control" )
spin1 = wx.SpinButton( self, -1, wx.DefaultPosition, (-1,20), 0 )
self.time12.BindSpinButton( spin1 )
text2 = wx.StaticText( self, -1, "24-hour format:")
spin2 = wx.SpinButton( self, -1, wx.DefaultPosition, (-1,20), 0 )
self.time24 = timectl.TimeCtrl(
self, -1, name="24 hour control", fmt24hr=True,
spinButton = spin2
)
text3 = wx.StaticText( self, -1, "No seconds\nor spin button:")
self.spinless_ctrl = timectl.TimeCtrl(
self, -1, name="spinless control",
display_seconds = False
)
grid = wx.FlexGridSizer( 0, 2, 10, 5 )
grid.Add( text1, 0, wx.ALIGN_RIGHT )
hbox1 = wx.BoxSizer( wx.HORIZONTAL )
hbox1.Add( self.time12, 0, wx.ALIGN_CENTRE )
hbox1.Add( spin1, 0, wx.ALIGN_CENTRE )
grid.Add( hbox1, 0, wx.LEFT )
grid.Add( text2, 0, wx.ALIGN_RIGHT|wx.TOP|wx.BOTTOM )
hbox2 = wx.BoxSizer( wx.HORIZONTAL )
hbox2.Add( self.time24, 0, wx.ALIGN_CENTRE )
hbox2.Add( spin2, 0, wx.ALIGN_CENTRE )
grid.Add( hbox2, 0, wx.LEFT )
grid.Add( text3, 0, wx.ALIGN_RIGHT|wx.TOP|wx.BOTTOM )
grid.Add( self.spinless_ctrl, 0, wx.LEFT )
buttonChange = wx.Button( self, -1, "Change Controls")
self.radio12to24 = wx.RadioButton(
self, -1, "Copy 12-hour time to 24-hour control",
wx.DefaultPosition, wx.DefaultSize, wx.RB_GROUP
)
self.radio24to12 = wx.RadioButton(
self, -1, "Copy 24-hour time to 12-hour control"
)
self.radioWx = wx.RadioButton( self, -1, "Set controls to 'now' using wxDateTime")
self.radioMx = wx.RadioButton( self, -1, "Set controls to 'now' using mxDateTime")
radio_vbox = wx.BoxSizer( wx.VERTICAL )
radio_vbox.Add( self.radio12to24, 0, wx.ALIGN_CENTER_VERTICAL|wx.ALL, 5 )
radio_vbox.Add( self.radio24to12, 0, wx.ALIGN_CENTER_VERTICAL|wx.ALL, 5 )
radio_vbox.Add( self.radioWx, 0, wx.ALIGN_CENTER_VERTICAL|wx.ALL, 5 )
radio_vbox.Add( self.radioMx, 0, wx.ALIGN_CENTER_VERTICAL|wx.ALL, 5 )
box_label = wx.StaticBox( self, -1, "Change Controls through API" )
buttonbox = wx.StaticBoxSizer( box_label, wx.HORIZONTAL )
buttonbox.Add( buttonChange, 0, wx.ALIGN_CENTRE|wx.ALL, 5 )
buttonbox.Add( radio_vbox, 0, wx.ALIGN_CENTRE|wx.ALL, 5 )
hbox = wx.BoxSizer( wx.HORIZONTAL )
hbox.Add( grid, 0, wx.ALIGN_LEFT|wx.ALL, 15 )
hbox.Add( buttonbox, 0, wx.ALIGN_RIGHT|wx.BOTTOM, 20 )
box_label = wx.StaticBox( self, -1, "Bounds Control" )
boundsbox = wx.StaticBoxSizer( box_label, wx.HORIZONTAL )
self.set_bounds = wx.CheckBox( self, -1, "Set time bounds:" )
minlabel = wx.StaticText( self, -1, "minimum time:" )
self.min = timectl.TimeCtrl( self, -1, name="min", display_seconds = False )
self.min.Enable( False )
maxlabel = wx.StaticText( self, -1, "maximum time:" )
self.max = timectl.TimeCtrl( self, -1, name="max", display_seconds = False )
self.max.Enable( False )
self.limit_check = wx.CheckBox( self, -1, "Limit control" )
label = wx.StaticText( self, -1, "Resulting time control:" )
self.target_ctrl = timectl.TimeCtrl( self, -1, name="new" )
grid2 = wx.FlexGridSizer( 0, 2, 0, 0 )
grid2.Add( (20, 0), 0, wx.ALIGN_LEFT|wx.ALL, 5 )
grid2.Add( (20, 0), 0, wx.ALIGN_LEFT|wx.ALL, 5 )
grid2.Add( self.set_bounds, 0, wx.ALIGN_LEFT|wx.ALL, 5 )
grid3 = wx.FlexGridSizer( 0, 2, 5, 5 )
grid3.Add(minlabel, 0, wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL )
grid3.Add( self.min, 0, wx.ALIGN_LEFT )
grid3.Add(maxlabel, 0, wx.ALIGN_RIGHT|wx.ALIGN_CENTER_VERTICAL )
grid3.Add( self.max, 0, wx.ALIGN_LEFT )
grid2.Add(grid3, 0, wx.ALIGN_LEFT )
grid2.Add( self.limit_check, 0, wx.ALIGN_LEFT|wx.ALL, 5 )
grid2.Add( (20, 0), 0, wx.ALIGN_LEFT|wx.ALL, 5 )
grid2.Add( (20, 0), 0, wx.ALIGN_LEFT|wx.ALL, 5 )
grid2.Add( (20, 0), 0, wx.ALIGN_LEFT|wx.ALL, 5 )
grid2.Add( label, 0, wx.ALIGN_LEFT|wx.ALIGN_CENTER_VERTICAL|wx.ALL, 5 )
grid2.Add( self.target_ctrl, 0, wx.ALIGN_LEFT|wx.ALL, 5 )
boundsbox.Add(grid2, 0, wx.ALIGN_CENTER|wx.EXPAND|wx.ALL, 5)
vbox = wx.BoxSizer( wx.VERTICAL )
vbox.Add( (20, 20) )
vbox.Add( hbox, 0, wx.ALIGN_LEFT|wx.ALL, 5)
vbox.Add( boundsbox, 0, wx.ALIGN_LEFT|wx.ALL, 5 )
outer_box = wx.BoxSizer( wx.VERTICAL )
outer_box.Add( vbox, 0, wx.ALIGN_LEFT|wx.ALL, 5)
# Turn on mxDateTime option only if we can import the module:
try:
from mx import DateTime
except ImportError:
self.radioMx.Enable( False )
self.SetAutoLayout( True )
self.SetSizer( outer_box )
outer_box.Fit( self )
self.SetupScrolling()
self.Bind(wx.EVT_BUTTON, self.OnButtonClick, buttonChange )
self.Bind(timectl.EVT_TIMEUPDATE, self.OnTimeChange, self.time12 )
self.Bind(timectl.EVT_TIMEUPDATE, self.OnTimeChange, self.time24 )
self.Bind(timectl.EVT_TIMEUPDATE, self.OnTimeChange, self.spinless_ctrl )
self.Bind(wx.EVT_CHECKBOX, self.OnBoundsCheck, self.set_bounds )
self.Bind(wx.EVT_CHECKBOX, self.SetTargetMinMax, self.limit_check )
self.Bind(timectl.EVT_TIMEUPDATE, self.SetTargetMinMax, self.min )
self.Bind(timectl.EVT_TIMEUPDATE, self.SetTargetMinMax, self.max )
self.Bind(timectl.EVT_TIMEUPDATE, self.OnTimeChange, self.target_ctrl )
def OnTimeChange( self, event ):
timectrl = self.FindWindowById( event.GetId() )
ib_str = [ " (out of bounds)", "" ]
self.log.write('%s time = %s%s\n' % ( timectrl.GetName(), timectrl.GetValue(), ib_str[ timectrl.IsInBounds() ] ) )
def OnButtonClick( self, event ):
if self.radio12to24.GetValue():
self.time24.SetValue( self.time12.GetValue() )
elif self.radio24to12.GetValue():
self.time12.SetValue( self.time24.GetValue() )
elif self.radioWx.GetValue():
now = wx.DateTime_Now()
self.time12.SetValue( now )
# (demonstrates that G/SetValue returns/takes a wx.DateTime)
self.time24.SetValue( self.time12.GetValue(as_wxDateTime=True) )
# (demonstrates that G/SetValue returns/takes a wx.TimeSpan)
self.spinless_ctrl.SetValue( self.time12.GetValue(as_wxTimeSpan=True) )
elif self.radioMx.GetValue():
from mx import DateTime
now = DateTime.now()
self.time12.SetValue( now )
# (demonstrates that G/SetValue returns/takes a DateTime)
self.time24.SetValue( self.time12.GetValue(as_mxDateTime=True) )
# (demonstrates that G/SetValue returns/takes a DateTimeDelta)
self.spinless_ctrl.SetValue( self.time12.GetValue(as_mxDateTimeDelta=True) )
def OnBoundsCheck( self, event ):
self.min.Enable( self.set_bounds.GetValue() )
self.max.Enable( self.set_bounds.GetValue() )
self.SetTargetMinMax()
def SetTargetMinMax( self, event=None ):
min = None
max = None
if self.set_bounds.GetValue():
min = self.min.GetWxDateTime()
max = self.max.GetWxDateTime()
else:
min, max = None, None
cur_min, cur_max = self.target_ctrl.GetBounds()
if min and (min != cur_min): self.target_ctrl.SetMin( min )
if max and (max != cur_max): self.target_ctrl.SetMax( max )
self.target_ctrl.SetLimited( self.limit_check.GetValue() )
if min != cur_min or max != cur_max:
new_min, new_max = self.target_ctrl.GetBounds()
if new_min and new_max:
self.log.write( "current min, max: (%s, %s)\n" % ( new_min.FormatTime(), new_max.FormatTime() ) )
else:
self.log.write( "current min, max: (None, None)\n" )
#----------------------------------------------------------------------
def runTest( frame, nb, log ):
win = TestPanel( nb, log )
return win
#----------------------------------------------------------------------
overview = timectl.__doc__
if __name__ == '__main__':
import sys,os
import run
run.main(['', os.path.basename(sys.argv[0])] + sys.argv[1:])