wxWidgets/wxPython/wx/lib/analogclock.py
Robin Dunn 4e5d278c12 Docstring updates
git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@34032 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
2005-05-12 22:46:53 +00:00

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# -*- coding: iso-8859-1 -*-
#----------------------------------------------------------------------
# Name: wx.lib.analogclock
# Purpose: A simple analog clock window
#
# Author: several folks on wxPython-users
#
# Created: 16-April-2003
# RCS-ID: $Id$
# Copyright: (c) 2003 by Total Control Software
# Licence: wxWindows license
#----------------------------------------------------------------------
# 11/30/2003 - Jeff Grimmett (grimmtooth@softhome.net)
#
# o Updated for wx namespace
# o Tested with updated demo and with builtin test.
#
# 15-February-2004 - E. A. Tacao
#
# o Many ehnacements
#
"""
`AnalogClockWindow` is a simple analog clock class.
"""
import math
import sys
import string
import time
import wx
from analogclockopts import ACCustomizationFrame
# self.clockStyle:
SHOW_QUARTERS_TICKS = 1
SHOW_HOURS_TICKS = 2
SHOW_MINUTES_TICKS = 4
ROTATE_TICKS = 8
SHOW_HOURS_HAND = 16
SHOW_MINUTES_HAND = 32
SHOW_SECONDS_HAND = 64
SHOW_SHADOWS = 128
OVERLAP_TICKS = 256
# self.tickMarkHoursStyle and self.tickMarkMinutesStyle:
TICKS_NONE = 1
TICKS_SQUARE = 2
TICKS_CIRCLE = 4
TICKS_POLY = 8
TICKS_DECIMAL = 16
TICKS_ROMAN = 32
class AnalogClockWindow(wx.PyWindow):
"""An analog clock window"""
def __init__(self, parent, ID=-1, pos=wx.DefaultPosition, size=wx.DefaultSize,
style=0, name="clock"):
# Initialize the wxWindow...
wx.PyWindow.__init__(self, parent, ID, pos, size, style, name)
# Initialize some variables and defaults...
self.clockStep = 1
self.prefs_open = False
self.tickShapeHours = self.tickShapeMinutes= [[0,0],
[1,-1],
[2,0],
[1,4]]
self.handHoursThickness = 5
self.handHoursColour = (0, 0, 0)
self.handMinutesThickness = 3
self.handMinutesColour = (0, 0, 0)
self.handSecondsThickness = 1
self.handSecondsColour = (0, 0, 0)
self.tickMarkHoursPen = wx.Pen((0, 0, 0), 1, wx.SOLID)
self.tickMarkHoursBrush = wx.Brush((0, 0, 0), wx.SOLID)
self.markSizeHour = 10
self.tickMarkHoursFont = wx.Font(1, wx.SWISS, wx.NORMAL, wx.BOLD)
self.tickMarkHoursFont.SetPointSize(self.markSizeHour)
self.tickMarkMinutesPen = wx.Pen((0, 0, 0), 1, wx.SOLID)
self.tickMarkMinutesBrush = wx.Brush((0, 0, 0), wx.SOLID)
self.markSizeMin = 6
self.tickMarkMinutesFont = wx.Font(self.markSizeMin, wx.SWISS, wx.NORMAL, wx.BOLD)
self.offM = 0
self.shadowPenColour = self.shadowBrushColour = (128,128,128)
self.watchPen = None
self.watchBrush = None
self.clockStyle = SHOW_HOURS_TICKS | SHOW_MINUTES_TICKS | SHOW_SHADOWS | ROTATE_TICKS
self.handsStyle = SHOW_SECONDS_HAND
self.tickMarkHoursStyle = TICKS_POLY
self.tickMarkMinutesStyle = TICKS_CIRCLE
self.currentTime=None
size = wx.Size(*size)
bestSize = self.GetBestSize()
size.x = max(size.x, bestSize.x)
size.y = max(size.y, bestSize.y)
self.SetSize(size)
# Make an initial bitmap for the face, it will be updated and
# painted at the first EVT_SIZE event.
W, H = size
self.faceBitmap = wx.EmptyBitmap(max(W,1), max(H,1))
# Set event handlers...
self.Bind(wx.EVT_PAINT, self.OnPaint)
self.Bind(wx.EVT_ERASE_BACKGROUND, lambda x: None)
self.Bind(wx.EVT_SIZE, self.OnSize)
self.Bind(wx.EVT_TIMER, self.OnTimerExpire)
self.Bind(wx.EVT_WINDOW_DESTROY, self.OnQuit)
self.Bind(wx.EVT_RIGHT_DOWN, self.OnRightDown)
self.Bind(wx.EVT_RIGHT_UP, self.OnRightClick)
# Initialize the timer that drives the update of the clock
# face. Update every half second to ensure that there is at
# least one true update during each realtime second.
self.timer = wx.Timer(self)
self.timer.Start(500)
def DoGetBestSize(self):
return wx.Size(25,25)
def OnPaint(self, event):
dc = wx.BufferedPaintDC(self)
if hasattr(self, 'coords'):
self._doDrawHands(dc, True)
def OnTimerExpire(self, event):
size = self.GetClientSize()
dc = wx.BufferedDC(wx.ClientDC(self), size)
self._doDrawHands(dc, True)
def OnQuit(self, event):
self.timer.Stop()
del self.timer
def OnRightDown(self, event):
self.x = event.GetX()
self.y = event.GetY()
event.Skip()
def OnRightClick(self, event):
# only do this part the first time so the events are only bound once
if not hasattr(self, "popupID1"):
self.popupID1 = wx.NewId()
self.popupID2 = wx.NewId()
self.Bind(wx.EVT_MENU, self.OnPopupOne, id=self.popupID1)
self.Bind(wx.EVT_MENU, self.OnPopupTwo, id=self.popupID2)
# make a menu
sm = wx.Menu()
sm.Append(self.popupID1, "Customize...")
sm.Append(self.popupID2, "About...")
# If there already a setup window open, we must not appear...
if not self.prefs_open:
# Popup the menu. If an item is selected then its handler
# will be called before PopupMenu returns.
self.PopupMenu(sm, (self.x,self.y))
sm.Destroy()
def OnPopupOne(self, event):
self.prefs_open=True
frame = ACCustomizationFrame(self, -1, "AnalogClock Preferences")
frame.Show(True)
def OnPopupTwo(self, event):
dlg = wx.MessageDialog(self, "AnalogClockWindow\n\nby Several folks on wxPython-users\nwith enhancements from E. A. Tac<61>o",
'About', wx.OK | wx.ICON_INFORMATION)
dlg.ShowModal()
dlg.Destroy()
def OnSize(self, event):
# The faceBitmap init is done here, to make sure the buffer is always
# the same size as the Window
size = self.GetClientSize()
if size.x < 1 or size.y < 1:
return
self.faceBitmap = wx.EmptyBitmap(size.width, size.height)
# Update drawing coordinates...
new_dim = size.Get()
if not hasattr(self,"dim"):
self.dim = new_dim
x,y=[0,1]
self.scale = min([float(new_dim[x]) / self.dim[x],
float(new_dim[y]) / self.dim[y]])
self.centerX = self.faceBitmap.GetWidth() / 2
self.centerY = self.faceBitmap.GetHeight() / 2
self.shadowDistance = 2 * self.scale
self.radius_watch = min(self.centerX, self.centerY)
self._doDrawFace()
def _doDrawHands(self, drawDC, force=0):
currentTime = list(time.localtime(time.time())[3:6])
if not (self.handsStyle & SHOW_SECONDS_HAND):
currentTime[2]=-1
if not (force or currentTime != self.currentTime):
return
self.currentTime = currentTime
hour, minutes, seconds = currentTime
# Start by drawing the face bitmap
drawDC.DrawBitmap(self.faceBitmap, 0,0)
# NOTE: All this hand drawing code below should be refactored into a helper function.
# Draw hours hand shadow
mStep = 6 * self.clockStep
angle = hour * 30
if angle > 360:
angle = angle - 360
angle = angle + round(minutes/(mStep*2)) * mStep
x,y,f = self._getCoords("hand_hours", angle)
if f and self.clockStyle & SHOW_SHADOWS:
drawDC.SetPen(wx.Pen(self.shadowPenColour,
int(self.handHoursThickness * self.scale),
wx.SOLID))
drawDC.DrawLine(self.centerX + self.shadowDistance,
self.centerY + self.shadowDistance,
x + self.shadowDistance,
y + self.shadowDistance)
# Draw minutes hand shadow
angle = minutes * 6
x,y,f = self._getCoords("hand_minutes", angle)
if f and self.clockStyle & SHOW_SHADOWS:
drawDC.SetPen(wx.Pen(self.shadowPenColour,
int(self.handMinutesThickness * self.scale),
wx.SOLID))
drawDC.DrawLine(self.centerX + self.shadowDistance,
self.centerY + self.shadowDistance,
x + self.shadowDistance,
y + self.shadowDistance)
# Draw seconds hand shadow if required
if seconds >= 0:
angle = seconds * 6
x,y,f = self._getCoords("hand_seconds", angle)
if f and self.clockStyle & SHOW_SHADOWS:
drawDC.SetPen(wx.Pen(self.shadowPenColour,
int(self.handSecondsThickness * self.scale),
wx.SOLID))
drawDC.DrawLine(self.centerX + self.shadowDistance,
self.centerY + self.shadowDistance,
x + self.shadowDistance,
y + self.shadowDistance)
# Draw hours hand
angle = hour * 30
if angle > 360:
angle = angle - 360
angle = angle + round(minutes/(mStep*2)) * mStep
x,y,f = self._getCoords("hand_hours", angle)
if f:
drawDC.SetPen(wx.Pen(self.handHoursColour,
int(self.handHoursThickness * self.scale),
wx.SOLID))
drawDC.DrawLine(self.centerX, self.centerY, x, y)
# Draw minutes hand
angle = minutes * 6
x,y,f = self._getCoords("hand_minutes", angle)
if f:
drawDC.SetPen(wx.Pen(self.handMinutesColour,
int(self.handMinutesThickness * self.scale),
wx.SOLID))
drawDC.DrawLine(self.centerX, self.centerY, x, y)
# Draw seconds hand if required
if seconds >= 0:
angle = seconds * 6
x,y,f = self._getCoords("hand_seconds", angle)
if f:
drawDC.SetPen(wx.Pen(self.handSecondsColour,
int(self.handSecondsThickness * self.scale),
wx.SOLID))
drawDC.DrawLine(self.centerX, self.centerY, x, y)
def _doDrawFace(self):
backgroundBrush = wx.Brush(self.GetBackgroundColour(), wx.SOLID)
drawDC = wx.MemoryDC()
drawDC.SelectObject(self.faceBitmap)
drawDC.SetBackground(backgroundBrush)
drawDC.Clear()
self.handHoursLength = 0.65 * (self.radius_watch - self._getMarkMaxSize("ticks_hours", drawDC))
self.handMinutesLength = 0.85 * (self.radius_watch - self._getMarkMaxSize("ticks_hours", drawDC))
self.handSecondsLength = 0.85 * (self.radius_watch - self._getMarkMaxSize("ticks_hours", drawDC))
self.radius_ticks_hours = self.radius_watch - self.shadowDistance - self._getMarkMaxSize("ticks_hours", drawDC)
self.radius_ticks_minutes = self.radius_ticks_hours
self._calcSteps()
# Draw the watch...
self._drawWatch(drawDC)
# Draw the marks for hours and minutes...
circle = 360
mStep = 6 * self.clockStep
if self.clockStyle & SHOW_SHADOWS:
for i in range(0, circle, mStep):
for t in self.coords.keys():
if t.find("ticks") > -1:
x,y,f = self._getCoords(t, i)
if f:
self._doDrawTickMark(i, drawDC, t,
x + self.shadowDistance,
y + self.shadowDistance,
True)
for i in range(0, circle, mStep):
for t in self.coords.keys():
if t.find("ticks") > -1:
x,y,f = self._getCoords(t, i)
if f:
self._doDrawTickMark(i, drawDC, t, x, y)
def _doDrawTickMark(self, angle, drawDC, tipo, x, y, is_a_shadow=None):
opts = {"ticks_hours": [self.tickMarkHoursPen, self.tickMarkHoursBrush, self.markSizeHour, self.tickMarkHoursStyle],
"ticks_quarters": [self.tickMarkHoursPen, self.tickMarkHoursBrush, self.markSizeHour, self.tickMarkHoursStyle],
"ticks_minutes": [self.tickMarkMinutesPen, self.tickMarkMinutesBrush, self.markSizeMin, self.tickMarkMinutesStyle]}
pen, brush, size, style = opts[tipo];
size = size * self.scale
if is_a_shadow:
drawDC.SetPen(wx.Pen(self.shadowPenColour, 1, wx.SOLID))
drawDC.SetBrush(wx.Brush(self.shadowBrushColour, wx.SOLID))
drawDC.SetTextForeground(self.shadowBrushColour)
else:
drawDC.SetPen(pen)
drawDC.SetBrush(brush)
drawDC.SetTextForeground(brush.GetColour())
if style & TICKS_CIRCLE:
x, y = self._center2corner(x, y, tipo)
drawDC.DrawEllipse(x, y, size, size)
elif style & TICKS_SQUARE:
x, y = self._center2corner(x, y, tipo)
drawDC.DrawRectangle(x, y, size, size)
elif (style & TICKS_DECIMAL) or (style & TICKS_ROMAN):
self._draw_rotate_text(drawDC, x, y, tipo, angle)
elif style & TICKS_POLY:
self._draw_rotate_polygon(drawDC, x, y, tipo, angle)
def _draw_rotate_text(self, drawDC, x, y, tipo, angle):
text = self._build_text(angle, tipo)
lX, lY = self._center2corner(x, y, tipo, drawDC)
lX = lX * len(text)
angle = 360 - angle
if self.clockStyle & ROTATE_TICKS:
radiansPerDegree = math.pi / 180
x = int(x -
((math.cos((angle) * radiansPerDegree)*lX) +
(math.sin((angle) * radiansPerDegree)*lY)))
y = int(y -
((math.cos((angle) * radiansPerDegree)*lY) -
(math.sin((angle) * radiansPerDegree)*lX)))
drawDC.DrawRotatedText(text, x,y, angle)
else:
x = x - lX
y = y - lY
drawDC.DrawText(text, x, y)
def _draw_rotate_polygon(self, drawDC, x, y, tipo, angle):
if tipo=="ticks_quarters":
tipo="ticks_hours"
# Add to empty list to prevent system-wide hard freezes under XP...
points = {"ticks_hours":self.tickShapeHours+[], "ticks_minutes":self.tickShapeMinutes+[]}[tipo]
size = self.scale * {"ticks_hours":self.markSizeHour, "ticks_minutes":self.markSizeMin}[tipo]
maxX = max(map(lambda x:x[0],points))
minX = min(map(lambda x:x[0],points))
maxY = max(map(lambda x:x[0],points))
minY = min(map(lambda x:x[0],points))
maxB = abs(max(maxX, maxY));
f = size / maxB
orgX = (maxX - minX) / 2.
orgY = (maxY - minY) / 2.
radiansPerDegree = math.pi / 180
scaledX = x
scaledY = y
for z in range(0, len(points)):
x,y = points[z]
x = x * f - orgX * f
y = y * f - orgY * f
if self.clockStyle & ROTATE_TICKS:
m,t = self._rect2pol(x,y)
t = t + angle
x,y = self._pol2rect(m,t)
x = x + scaledX
y = y + scaledY
points[z] = [int(x), int(y)]
drawDC.DrawPolygon(points)
def _pol2rect(self, r, w, deg=1): # radian if deg=0; degree if deg=1
if deg:
w = math.pi * w / 180.0
return r * math.cos(w), r * math.sin(w)
def _rect2pol(self, x, y, deg=1): # radian if deg=0; degree if deg=1
if deg:
return math.hypot(x, y), 180.0 * math.atan2(y, x) / math.pi
else:
return math.hypot(x, y), math.atan2(y, x)
def _center2corner(self, x, y, tipo, drawDC=None):
if tipo == "ticks_quarters":
tipo = "ticks_hours"
style = {"ticks_hours":self.tickMarkHoursStyle, "ticks_minutes":self.tickMarkMinutesStyle}[tipo]
size = self.scale * {"ticks_hours":self.markSizeHour, "ticks_minutes":self.markSizeMin}[tipo]
if style & TICKS_DECIMAL or style & TICKS_ROMAN:
font = {"ticks_hours":self.tickMarkHoursFont, "ticks_minutes":self.tickMarkMinutesFont}[tipo]
font.SetPointSize(int(size));
drawDC.SetFont(font)
lX = drawDC.GetCharWidth() / 2.
lY = drawDC.GetCharHeight() / 2.
x = lX
y = lY
else:
size = self.scale * {"ticks_hours":self.markSizeHour, "ticks_minutes":self.markSizeMin}[tipo]
x=x-size/2.;y=y-size/2.
return x, y
def _build_text(self, angle, tipo):
if tipo == "ticks_quarters":
tipo = "ticks_hours"
a = angle
if a <= 0:
a = a + 360
divider = {"ticks_hours":30,"ticks_minutes":6}[tipo]
a = int(a / divider)
style = {"ticks_hours":self.tickMarkHoursStyle," ticks_minutes":self.tickMarkMinutesStyle}[tipo]
if style & TICKS_ROMAN:
text=["I","II","III","IV","V","VI","VII","VIII","IX","X", \
"XI","XII","XIII","XIV","XV","XVI","XVII","XVIII","XIX","XX", \
"XXI","XXII","XXIII","XXIV","XXV","XXVI","XXVII","XXVIII","XXIX","XXX", \
"XXXI","XXXII","XXXIII","XXXIV","XXXV","XXXVI","XXXVII","XXXVIII","XXXIX","XL", \
"XLI","XLII","XLIII","XLIV","XLV","XLVI","XLVII","XLVIII","XLIX","L", \
"LI","LII","LIII","LIV","LV","LVI","LVII","LVIII","LIX","LX"][a-1]
else:
text = "%s" % a
return text
def _getMarkMaxSize(self, tipo, drawDC=None):
if tipo == "ticks_quarters":
tipo = "ticks_hours"
style = {"ticks_hours":self.tickMarkHoursStyle, "ticks_minutes":self.tickMarkMinutesStyle}[tipo]
size = self.scale * {"ticks_hours":self.markSizeHour, "ticks_minutes":self.markSizeMin}[tipo]
if style & TICKS_DECIMAL or style & TICKS_ROMAN:
lX = 2 * drawDC.GetCharWidth()
lY = drawDC.GetCharHeight()
size = math.sqrt(lX**2 + lY**2) * self.scale
else:
size=math.sqrt(2) * size
return size
def _drawWatch(self, drawDC):
# Draw the watch...
if self.watchPen or self.watchBrush:
if self.watchPen:
drawDC.SetPen(self.watchPen)
if self.watchBrush:
drawDC.SetBrush(self.watchBrush)
else:
drawDC.SetBrush(wx.Brush(self.GetBackgroundColour(), wx.SOLID))
drawDC.DrawCircle(self.centerX, self.centerY, self.radius_watch)
def _calcSteps(self):
# Calcule todos os pontos para:
# - marcas de horas
# - marcas de minutos
# - ponteiro de horas
# - ponteiro de minutos
# - ponteiro de segundos
circle = 360
mStep = 6 * self.clockStep # Step in degrees...
vq = 90 * (self.clockStyle & SHOW_QUARTERS_TICKS) / SHOW_QUARTERS_TICKS
vh = 30 * (self.clockStyle & SHOW_HOURS_TICKS) / SHOW_HOURS_TICKS
vm = 1 * (self.clockStyle & SHOW_MINUTES_TICKS) / SHOW_MINUTES_TICKS
coords = {"ticks_quarters": [self.radius_ticks_hours, 60,vq,{}],
"ticks_hours": [self.radius_ticks_hours, 60,vh,{}],
"ticks_minutes": [self.radius_ticks_minutes,60,vm,{}],
"hand_hours": [self.handHoursLength, 60,1, {}],
"hand_minutes": [self.handMinutesLength, 60,1, {}],
"hand_seconds": [self.handSecondsLength, 60,1, {}]}
radiansPerDegree = math.pi / 180
for t in coords.keys():
for i in range(0, circle+mStep, mStep):
radius = coords[t][0]
if t == "ticks_minutes":
radius = radius - self.offM
step_angle = 360. / coords[t][1]
pre = coords[t][2]
x = self.centerX + radius * math.sin(i * radiansPerDegree)
y = self.centerY + radius * math.cos(i * radiansPerDegree)
f = (pre and (i/step_angle == int(i/step_angle)) and (float(i)/pre == int(i/pre)))
coords[t][3][i] = [x,y,f]
if not self.clockStyle & OVERLAP_TICKS:
for i in range(0, circle + mStep, mStep):
f=coords["ticks_minutes"][3][i][2]
if f and \
(coords["ticks_hours"][3].get(i,[0,0,0])[2] or coords["ticks_quarters"][3].get(i,[0,0,0])[2]):
f=False
coords["ticks_minutes"][3][i][2]=f
self.coords = coords
def _getCoords(self, tipo, angle):
# Returns coords and 'use flag' based on current angle...
k = 360 - (angle + 180)
if k <= 0:
k = k + 360
return self.coords[tipo][3][k]
# -----------------------------------------------------
#
def SetTickShapes(self, tsh, tsm=None):
"""
tsh, tsm: [[x0,y0], [x1,y1], ... [xn,yn]]
Sets lists of lists of points to be used as polygon shapes
when using the TICKS_POLY style. If tsm is ommitted,
we'll use tsh for both shapes.
"""
if not tsm:
tsm=tsh
self.tickShapeHours = tsh
self.tickShapeMinutes = tsm
def SetHandWeights(self, h=None, m=None, s=None):
"""
h, m, s: value
Sets thickness of hands.
"""
if h:
self.handHoursThickness = h
if m:
self.handMinutesThickness = m
if s:
self.handSecondsThickness = s
def SetHandColours(self, h=None, m=None, s=None):
"""
h, m, s: wx.Colour
Sets colours of hands. If m and s are ommitted,
we'll use h for all.
"""
if h and not m and not s:
m=h
s=h
if h:
self.handHoursColour = h
if m:
self.handMinutesColour = m
if s:
self.handSecondsColour = s
def SetTickColours(self, h=None, m=None):
"""
h, m: wx.Colour
Sets colours of ticks. If m is ommitted,
we'll use h for both.
"""
if not m:
m=h
if h:
self.tickMarkHoursPen = wx.Pen(h, 1, wx.SOLID)
self.tickMarkHoursBrush = wx.Brush(h, wx.SOLID)
if m:
self.tickMarkMinutesPen = wx.Pen(m, 1, wx.SOLID)
self.tickMarkMinutesBrush = wx.Brush(m, wx.SOLID)
def SetTickSizes(self, h=None, m=None):
"""
h, m: value
Sizes for tick marks.
"""
if h:
self.markSizeHour = h
if m:
self.markSizeMin = m
def SetTickFonts(self, h=None, m=None):
"""
h, m: wx.Font
Fonts for tick marks when using TICKS_DECIMAL or TICKS_ROMAN style.
If m is ommitted, we'll use h for both.
"""
if not m:
m=h
if h:
self.tickMarkHoursFont = h
self.tickMarkHoursFont.SetPointSize(self.markSizeHour)
if m:
self.tickMarkMinutesFont = m
self.tickMarkMinutesFont.SetPointSize(self.markSizeMin)
def SetMinutesOffset(self, o):
"""
s = value
Sets the distance between tick marks for hours and minutes.
"""
self.offM = o
def SetShadowColour(self, s):
"""
s = wx.Colour or (r,g,b) tuple.
Sets the colour to be used to draw shadows.
"""
self.shadowPenColour = self.shadowBrushColour = s
def SetWatchPenBrush(self, p=None, b=None):
"""
p = wx.Pen; b = wx.Brush
Set the pen and brush for the watch.
"""
if p:
self.watchPen = p
if b:
self.watchBrush = b
def SetClockStyle(self, style):
"""
Set the clock style, acording to these options:
==================== ================================
SHOW_QUARTERS_TICKS Show marks for hours 3, 6, 9, 12
SHOW_HOURS_TICKS Show marks for all hours
SHOW_MINUTES_TICKS Show marks for minutes
SHOW_HOURS_HAND Show hours hand
SHOW_MINUTES_HAND Show minutes hand
SHOW_SECONDS_HAND Show seconds hand
SHOW_SHADOWS Show hands and marks shadows
ROTATE_TICKS Align tick marks to watch
OVERLAP_TICKS Draw tick marks for minutes even
when they match the hours marks.
==================== ================================
"""
self.clockStyle = style
def SetTickStyles(self, h=None, m=None):
"""
Set the ticks styles, acording to the options below.
================= =====================================
TICKS_NONE Don't show tick marks.
TICKS_SQUARE Use squares as tick marks.
TICKS_CIRCLE Use circles as tick marks.
TICKS_POLY Use a polygon as tick marks. The
polygon must be passed using
SetTickShapes, otherwise the default
polygon will be used.
TICKS_DECIMAL Use decimal numbers.
TICKS_ROMAN Use Roman numbers.
================= =====================================
"""
if h:
self.tickMarkHoursStyle = h
if m:
self.tickMarkMinutesStyle = m
#
# -----------------------------------------------------
if __name__ == "__main__":
print wx.VERSION_STRING
class App(wx.App):
def OnInit(self):
frame = wx.Frame(None, -1, "AnalogClockWindow", size=(375,375))
clock = AnalogClockWindow(frame)
# Settings below are used by default...
#clock.SetClockStyle(SHOW_HOURS_TICKS|SHOW_MINUTES_TICKS|SHOW_SHADOWS|ROTATE_TICKS)
#clock.SetTickStyles(TICKS_POLY, TICKS_CIRCLE)
frame.Centre(wx.BOTH)
frame.Show(True)
self.SetTopWindow(frame)
return True
theApp = App(0)
theApp.MainLoop()
#
##
### eof