wxWidgets/wxPython/tests/wxPlotCanvas.py

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"""
This is a port of Konrad Hinsen's tkPlotCanvas.py plotting module.
After thinking long and hard I came up with the name "wxPlotCanvas.py".
This file contains two parts; first the re-usable library stuff, then, after
a "if __name__=='__main__'" test, a simple frame and a few default plots
for testing.
Harm van der Heijden, feb 1999
Original comment follows below:
# This module defines a plot widget for Tk user interfaces.
# It supports only elementary line plots at the moment.
# See the example at the end for documentation...
#
# Written by Konrad Hinsen <hinsen@cnrs-orleans.fr>
# With contributions from RajGopal Srinivasan <raj@cherubino.med.jhmi.edu>
# Last revision: 1998-7-28
#
"""
from wxPython import wx
import string
# Not everybody will have Numeric, so let's be cool about it...
try:
import Numeric
except:
# bummer!
d = wx.wxMessageDialog(wx.NULL,
"""This module requires the Numeric module, which could not be imported.
It probably is not installed (it's not part of the standard Python
distribution). See the Python site (http://www.python.org) for
information on downloading source or binaries.""",
"Numeric not found")
if d.ShowModal() == wx.wxID_CANCEL:
d = wx.wxMessageDialog(wx.NULL, "I kid you not! Pressing Cancel won't help you!", "Not a joke", wx.wxOK)
d.ShowModal()
import sys
sys.exit()
#
# Plotting classes...
#
class PolyPoints:
def __init__(self, points, attr):
self.points = Numeric.array(points)
self.scaled = self.points
self.attributes = {}
for name, value in self._attributes.items():
try:
value = attr[name]
except KeyError: pass
self.attributes[name] = value
def boundingBox(self):
return Numeric.minimum.reduce(self.points), \
Numeric.maximum.reduce(self.points)
def scaleAndShift(self, scale=1, shift=0):
self.scaled = scale*self.points+shift
class PolyLine(PolyPoints):
def __init__(self, points, **attr):
PolyPoints.__init__(self, points, attr)
_attributes = {'color': 'black',
'width': 1}
def draw(self, dc):
color = self.attributes['color']
width = self.attributes['width']
arguments = []
dc.SetPen(wx.wxPen(wx.wxNamedColour(color), width))
dc.DrawLines(map(tuple,self.scaled))
class PolyMarker(PolyPoints):
def __init__(self, points, **attr):
PolyPoints.__init__(self, points, attr)
_attributes = {'color': 'black',
'width': 1,
'fillcolor': None,
'size': 2,
'fillstyle': wx.wxSOLID,
'outline': 'black',
'marker': 'circle'}
def draw(self, dc):
color = self.attributes['color']
width = self.attributes['width']
size = self.attributes['size']
fillcolor = self.attributes['fillcolor']
fillstyle = self.attributes['fillstyle']
marker = self.attributes['marker']
dc.SetPen(wx.wxPen(wx.wxNamedColour(color),width))
if fillcolor:
dc.SetBrush(wx.wxBrush(wx.wxNamedColour(fillcolor),fillstyle))
else:
dc.SetBrush(wx.wxBrush(wx.wxNamedColour('black'), wx.wxTRANSPARENT))
self._drawmarkers(dc, self.scaled, marker, size)
def _drawmarkers(self, dc, coords, marker,size=1):
f = eval('self._' +marker)
for xc, yc in coords:
f(dc, xc, yc, size)
def _circle(self, dc, xc, yc, size=1):
dc.DrawEllipse(xc-2.5*size,yc-2.5*size,5.*size,5.*size)
def _dot(self, dc, xc, yc, size=1):
dc.DrawPoint(xc,yc)
def _square(self, dc, xc, yc, size=1):
dc.DrawRectangle(xc-2.5*size,yc-2.5*size,5.*size,5.*size)
def _triangle(self, dc, xc, yc, size=1):
dc.DrawPolygon([(-0.5*size*5,0.2886751*size*5),
(0.5*size*5,0.2886751*size*5),
(0.0,-0.577350*size*5)],xc,yc)
def _triangle_down(self, dc, xc, yc, size=1):
dc.DrawPolygon([(-0.5*size*5,-0.2886751*size*5),
(0.5*size*5,-0.2886751*size*5),
(0.0,0.577350*size*5)],xc,yc)
def _cross(self, dc, xc, yc, size=1):
dc.DrawLine(xc-2.5*size,yc-2.5*size,xc+2.5*size,yc+2.5*size)
dc.DrawLine(xc-2.5*size,yc+2.5*size,xc+2.5*size,yc-2.5*size)
def _plus(self, dc, xc, yc, size=1):
dc.DrawLine(xc-2.5*size,yc,xc+2.5*size,yc)
dc.DrawLine(xc,yc-2.5*size,xc,yc+2.5*size)
class PlotGraphics:
def __init__(self, objects):
self.objects = objects
def boundingBox(self):
p1, p2 = self.objects[0].boundingBox()
for o in self.objects[1:]:
p1o, p2o = o.boundingBox()
p1 = Numeric.minimum(p1, p1o)
p2 = Numeric.maximum(p2, p2o)
return p1, p2
def scaleAndShift(self, scale=1, shift=0):
for o in self.objects:
o.scaleAndShift(scale, shift)
def draw(self, canvas):
for o in self.objects:
o.draw(canvas)
def __len__(self):
return len(self.objects)
def __getitem__(self, item):
return self.objects[item]
class PlotCanvas(wx.wxWindow):
def __init__(self, parent, id = -1):
wx.wxWindow.__init__(self, parent, id, wx.wxPyDefaultPosition, wx.wxPyDefaultSize)
self.border = (1,1)
self.SetClientSizeWH(400,400)
self.SetBackgroundColour(wx.wxNamedColour("white"))
wx.EVT_SIZE(self,self.reconfigure)
self._setsize()
self.last_draw = None
# self.font = self._testFont(font)
def OnPaint(self, event):
pdc = wx.wxPaintDC(self)
if self.last_draw is not None:
apply(self.draw, self.last_draw + (pdc,))
def reconfigure(self, event):
(new_width,new_height) = self.GetClientSizeTuple()
if new_width == self.width and new_height == self.height:
return
self._setsize()
# self.redraw()
def _testFont(self, font):
if font is not None:
bg = self.canvas.cget('background')
try:
item = CanvasText(self.canvas, 0, 0, anchor=NW,
text='0', fill=bg, font=font)
self.canvas.delete(item)
except TclError:
font = None
return font
def _setsize(self):
(self.width,self.height) = self.GetClientSizeTuple();
self.plotbox_size = 0.97*Numeric.array([self.width, -self.height])
xo = 0.5*(self.width-self.plotbox_size[0])
yo = self.height-0.5*(self.height+self.plotbox_size[1])
self.plotbox_origin = Numeric.array([xo, yo])
def draw(self, graphics, xaxis = None, yaxis = None, dc = None):
if dc == None: dc = wx.wxClientDC(self)
dc.BeginDrawing()
dc.Clear()
self.last_draw = (graphics, xaxis, yaxis)
p1, p2 = graphics.boundingBox()
xaxis = self._axisInterval(xaxis, p1[0], p2[0])
yaxis = self._axisInterval(yaxis, p1[1], p2[1])
text_width = [0., 0.]
text_height = [0., 0.]
if xaxis is not None:
p1[0] = xaxis[0]
p2[0] = xaxis[1]
xticks = self._ticks(xaxis[0], xaxis[1])
bb = dc.GetTextExtent(xticks[0][1])
text_height[1] = bb[1]
text_width[0] = 0.5*bb[0]
bb = dc.GetTextExtent(xticks[-1][1])
text_width[1] = 0.5*bb[0]
else:
xticks = None
if yaxis is not None:
p1[1] = yaxis[0]
p2[1] = yaxis[1]
yticks = self._ticks(yaxis[0], yaxis[1])
for y in yticks:
bb = dc.GetTextExtent(y[1])
text_width[0] = max(text_width[0],bb[0])
h = 0.5*bb[1]
text_height[0] = h
text_height[1] = max(text_height[1], h)
else:
yticks = None
text1 = Numeric.array([text_width[0], -text_height[1]])
text2 = Numeric.array([text_width[1], -text_height[0]])
scale = (self.plotbox_size-text1-text2) / (p2-p1)
shift = -p1*scale + self.plotbox_origin + text1
self._drawAxes(dc, xaxis, yaxis, p1, p2,
scale, shift, xticks, yticks)
graphics.scaleAndShift(scale, shift)
graphics.draw(dc)
dc.EndDrawing()
def _axisInterval(self, spec, lower, upper):
if spec is None:
return None
if spec == 'minimal':
if lower == upper:
return lower-0.5, upper+0.5
else:
return lower, upper
if spec == 'automatic':
range = upper-lower
if range == 0.:
return lower-0.5, upper+0.5
log = Numeric.log10(range)
power = Numeric.floor(log)
fraction = log-power
if fraction <= 0.05:
power = power-1
grid = 10.**power
lower = lower - lower % grid
mod = upper % grid
if mod != 0:
upper = upper - mod + grid
return lower, upper
if type(spec) == type(()):
lower, upper = spec
if lower <= upper:
return lower, upper
else:
return upper, lower
raise ValueError, str(spec) + ': illegal axis specification'
def _drawAxes(self, dc, xaxis, yaxis,
bb1, bb2, scale, shift, xticks, yticks):
dc.SetPen(wx.wxPen(wx.wxNamedColour('BLACK'),1))
if xaxis is not None:
lower, upper = xaxis
text = 1
for y, d in [(bb1[1], -3), (bb2[1], 3)]:
p1 = scale*Numeric.array([lower, y])+shift
p2 = scale*Numeric.array([upper, y])+shift
dc.DrawLine(p1[0],p1[1],p2[0],p2[1])
for x, label in xticks:
p = scale*Numeric.array([x, y])+shift
dc.DrawLine(p[0],p[1],p[0],p[1]+d)
if text:
dc.DrawText(label,p[0],p[1])
text = 0
if yaxis is not None:
lower, upper = yaxis
text = 1
h = dc.GetCharHeight()
for x, d in [(bb1[0], -3), (bb2[0], 3)]:
p1 = scale*Numeric.array([x, lower])+shift
p2 = scale*Numeric.array([x, upper])+shift
dc.DrawLine(p1[0],p1[1],p2[0],p2[1])
for y, label in yticks:
p = scale*Numeric.array([x, y])+shift
dc.DrawLine(p[0],p[1],p[0]-d,p[1])
if text:
dc.DrawText(label,p[0]-dc.GetTextExtent(label)[0],
p[1]-0.5*h)
text = 0
def _ticks(self, lower, upper):
ideal = (upper-lower)/7.
log = Numeric.log10(ideal)
power = Numeric.floor(log)
fraction = log-power
factor = 1.
error = fraction
for f, lf in self._multiples:
e = Numeric.fabs(fraction-lf)
if e < error:
error = e
factor = f
grid = factor * 10.**power
if power > 3 or power < -3:
format = '%+7.0e'
elif power >= 0:
digits = max(1, int(power))
format = '%' + `digits`+'.0f'
else:
digits = -int(power)
format = '%'+`digits+2`+'.'+`digits`+'f'
ticks = []
t = -grid*Numeric.floor(-lower/grid)
while t <= upper:
ticks.append(t, format % (t,))
t = t + grid
return ticks
_multiples = [(2., Numeric.log10(2.)), (5., Numeric.log10(5.))]
def redraw(self,dc=None):
if self.last_draw is not None:
apply(self.draw, self.last_draw + (dc,))
def clear(self):
self.canvas.delete('all')
#
# Now a sample implementation using the above...
#
if __name__ == '__main__':
class AppFrame(wx.wxFrame):
def __init__(self, parent, id, title):
wx.wxFrame.__init__(self, parent, id, title,
wx.wxPyDefaultPosition, wx.wxSize(400, 400))
# Now Create the menu bar and items
self.mainmenu = wx.wxMenuBar()
menu = wx.wxMenu()
menu.Append(200, '&Print...', 'Print the current plot')
wx.EVT_MENU(self, 200, self.OnFilePrint)
menu.Append(209, 'E&xit', 'Enough of this already!')
wx.EVT_MENU(self, 209, self.OnFileExit)
self.mainmenu.Append(menu, '&File')
menu = wx.wxMenu()
menu.Append(210, '&Draw', 'Draw plots')
wx.EVT_MENU(self,210,self.OnPlotDraw)
menu.Append(211, '&Redraw', 'Redraw plots')
wx.EVT_MENU(self,211,self.OnPlotRedraw)
menu.Append(212, '&Clear', 'Clear canvas')
wx.EVT_MENU(self,212,self.OnPlotClear)
self.mainmenu.Append(menu, '&Plot')
menu = wx.wxMenu()
menu.Append(220, '&About', 'About this thing...')
wx.EVT_MENU(self, 220, self.OnHelpAbout)
self.mainmenu.Append(menu, '&Help')
self.SetMenuBar(self.mainmenu)
# A status bar to tell people what's happening
self.CreateStatusBar(1)
self.client = PlotCanvas(self)
def OnFilePrint(self, event):
d = wx.wxMessageDialog(self,
"""As of this writing, printing support in wxPython is shaky at best.
Are you sure you want to do this?""", "Danger!", wx.wxYES_NO)
if d.ShowModal() == wx.wxID_YES:
psdc = wx.wxPostScriptDC("out.ps", wx.TRUE, self)
self.client.redraw(psdc)
def OnFileExit(self, event):
self.Close()
def OnPlotDraw(self, event):
self.client.draw(InitObjects(),'automatic','automatic');
def OnPlotRedraw(self,event):
self.client.redraw()
def OnPlotClear(self,event):
self.client.last_draw = None
dc = wx.wxClientDC(self.client)
dc.Clear()
def OnHelpAbout(self, event):
about = wx.wxMessageDialog(self, __doc__, "About...", wx.wxOK)
about.ShowModal()
def OnCloseWindow(self, event):
self.Destroy()
def InitObjects():
# 100 points sin function, plotted as green circles
data1 = 2.*Numeric.pi*Numeric.arange(200)/200.
data1.shape = (100, 2)
data1[:,1] = Numeric.sin(data1[:,0])
markers1 = PolyMarker(data1, color='green', marker='circle',size=1)
# 50 points cos function, plotted as red line
data1 = 2.*Numeric.pi*Numeric.arange(100)/100.
data1.shape = (50,2)
data1[:,1] = Numeric.cos(data1[:,0])
lines = PolyLine(data1, color='red')
# A few more points...
pi = Numeric.pi
markers2 = PolyMarker([(0., 0.), (pi/4., 1.), (pi/2, 0.),
(3.*pi/4., -1)], color='blue',
fillcolor='green', marker='cross')
return PlotGraphics([markers1, lines, markers2])
class MyApp(wx.wxApp):
def OnInit(self):
frame = AppFrame(wx.NULL, -1, "wxPlotCanvas")
frame.Show(wx.TRUE)
self.SetTopWindow(frame)
return wx.TRUE
app = MyApp(0)
app.MainLoop()