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1 | """ | |
2 | This is a port of Konrad Hinsen's tkPlotCanvas.py plotting module. | |
3 | After thinking long and hard I came up with the name "wxPlotCanvas.py". | |
4 | ||
5 | This file contains two parts; first the re-usable library stuff, then, after | |
6 | a "if __name__=='__main__'" test, a simple frame and a few default plots | |
7 | for testing. | |
8 | ||
9 | Harm van der Heijden, feb 1999 | |
10 | ||
11 | Original comment follows below: | |
12 | # This module defines a plot widget for Tk user interfaces. | |
13 | # It supports only elementary line plots at the moment. | |
14 | # See the example at the end for documentation... | |
15 | # | |
16 | # Written by Konrad Hinsen <hinsen@cnrs-orleans.fr> | |
17 | # With contributions from RajGopal Srinivasan <raj@cherubino.med.jhmi.edu> | |
18 | # Last revision: 1998-7-28 | |
19 | # | |
20 | """ | |
21 | ||
22 | from wxPython import wx | |
23 | import string | |
24 | ||
25 | # Not everybody will have Numeric, so let's be cool about it... | |
26 | try: | |
27 | import Numeric | |
28 | except: | |
29 | # bummer! | |
30 | d = wx.wxMessageDialog(wx.NULL, | |
31 | """This module requires the Numeric module, which could not be imported. | |
32 | It probably is not installed (it's not part of the standard Python | |
33 | distribution). See the Python site (http://www.python.org) for | |
34 | information on downloading source or binaries.""", | |
35 | "Numeric not found") | |
36 | if d.ShowModal() == wx.wxID_CANCEL: | |
37 | d = wx.wxMessageDialog(wx.NULL, "I kid you not! Pressing Cancel won't help you!", "Not a joke", wx.wxOK) | |
38 | d.ShowModal() | |
39 | import sys | |
40 | sys.exit() | |
41 | ||
42 | # | |
43 | # Plotting classes... | |
44 | # | |
45 | class PolyPoints: | |
46 | ||
47 | def __init__(self, points, attr): | |
48 | self.points = Numeric.array(points) | |
49 | self.scaled = self.points | |
50 | self.attributes = {} | |
51 | for name, value in self._attributes.items(): | |
52 | try: | |
53 | value = attr[name] | |
54 | except KeyError: pass | |
55 | self.attributes[name] = value | |
56 | ||
57 | def boundingBox(self): | |
58 | return Numeric.minimum.reduce(self.points), \ | |
59 | Numeric.maximum.reduce(self.points) | |
60 | ||
61 | def scaleAndShift(self, scale=1, shift=0): | |
62 | self.scaled = scale*self.points+shift | |
63 | ||
64 | ||
65 | class PolyLine(PolyPoints): | |
66 | ||
67 | def __init__(self, points, **attr): | |
68 | PolyPoints.__init__(self, points, attr) | |
69 | ||
70 | _attributes = {'color': 'black', | |
71 | 'width': 1} | |
72 | ||
73 | def draw(self, dc): | |
74 | color = self.attributes['color'] | |
75 | width = self.attributes['width'] | |
76 | arguments = [] | |
77 | dc.SetPen(wx.wxPen(wx.wxNamedColour(color), width)) | |
78 | dc.DrawLines(map(tuple,self.scaled)) | |
79 | ||
80 | ||
81 | class PolyMarker(PolyPoints): | |
82 | ||
83 | def __init__(self, points, **attr): | |
84 | ||
85 | PolyPoints.__init__(self, points, attr) | |
86 | ||
87 | _attributes = {'color': 'black', | |
88 | 'width': 1, | |
89 | 'fillcolor': None, | |
90 | 'size': 2, | |
91 | 'fillstyle': wx.wxSOLID, | |
92 | 'outline': 'black', | |
93 | 'marker': 'circle'} | |
94 | ||
95 | def draw(self, dc): | |
96 | color = self.attributes['color'] | |
97 | width = self.attributes['width'] | |
98 | size = self.attributes['size'] | |
99 | fillcolor = self.attributes['fillcolor'] | |
100 | fillstyle = self.attributes['fillstyle'] | |
101 | marker = self.attributes['marker'] | |
102 | ||
103 | dc.SetPen(wx.wxPen(wx.wxNamedColour(color),width)) | |
104 | if fillcolor: | |
105 | dc.SetBrush(wx.wxBrush(wx.wxNamedColour(fillcolor),fillstyle)) | |
106 | else: | |
107 | dc.SetBrush(wx.wxBrush(wx.wxNamedColour('black'), wx.wxTRANSPARENT)) | |
108 | ||
109 | self._drawmarkers(dc, self.scaled, marker, size) | |
110 | ||
111 | def _drawmarkers(self, dc, coords, marker,size=1): | |
112 | f = eval('self._' +marker) | |
113 | for xc, yc in coords: | |
114 | f(dc, xc, yc, size) | |
115 | ||
116 | def _circle(self, dc, xc, yc, size=1): | |
117 | dc.DrawEllipse(xc-2.5*size,yc-2.5*size,5.*size,5.*size) | |
118 | ||
119 | def _dot(self, dc, xc, yc, size=1): | |
120 | dc.DrawPoint(xc,yc) | |
121 | ||
122 | def _square(self, dc, xc, yc, size=1): | |
123 | dc.DrawRectangle(xc-2.5*size,yc-2.5*size,5.*size,5.*size) | |
124 | ||
125 | def _triangle(self, dc, xc, yc, size=1): | |
126 | dc.DrawPolygon([(-0.5*size*5,0.2886751*size*5), | |
127 | (0.5*size*5,0.2886751*size*5), | |
128 | (0.0,-0.577350*size*5)],xc,yc) | |
129 | ||
130 | def _triangle_down(self, dc, xc, yc, size=1): | |
131 | dc.DrawPolygon([(-0.5*size*5,-0.2886751*size*5), | |
132 | (0.5*size*5,-0.2886751*size*5), | |
133 | (0.0,0.577350*size*5)],xc,yc) | |
134 | ||
135 | def _cross(self, dc, xc, yc, size=1): | |
136 | dc.DrawLine(xc-2.5*size,yc-2.5*size,xc+2.5*size,yc+2.5*size) | |
137 | dc.DrawLine(xc-2.5*size,yc+2.5*size,xc+2.5*size,yc-2.5*size) | |
138 | ||
139 | def _plus(self, dc, xc, yc, size=1): | |
140 | dc.DrawLine(xc-2.5*size,yc,xc+2.5*size,yc) | |
141 | dc.DrawLine(xc,yc-2.5*size,xc,yc+2.5*size) | |
142 | ||
143 | class PlotGraphics: | |
144 | ||
145 | def __init__(self, objects): | |
146 | self.objects = objects | |
147 | ||
148 | def boundingBox(self): | |
149 | p1, p2 = self.objects[0].boundingBox() | |
150 | for o in self.objects[1:]: | |
151 | p1o, p2o = o.boundingBox() | |
152 | p1 = Numeric.minimum(p1, p1o) | |
153 | p2 = Numeric.maximum(p2, p2o) | |
154 | return p1, p2 | |
155 | ||
156 | def scaleAndShift(self, scale=1, shift=0): | |
157 | for o in self.objects: | |
158 | o.scaleAndShift(scale, shift) | |
159 | ||
160 | def draw(self, canvas): | |
161 | for o in self.objects: | |
162 | o.draw(canvas) | |
163 | ||
164 | def __len__(self): | |
165 | return len(self.objects) | |
166 | ||
167 | def __getitem__(self, item): | |
168 | return self.objects[item] | |
169 | ||
170 | ||
171 | class PlotCanvas(wx.wxWindow): | |
172 | ||
173 | def __init__(self, parent, id = -1): | |
174 | wx.wxWindow.__init__(self, parent, id, wx.wxPyDefaultPosition, wx.wxPyDefaultSize) | |
175 | self.border = (1,1) | |
176 | self.SetClientSizeWH(400,400) | |
177 | self.SetBackgroundColour(wx.wxNamedColour("white")) | |
178 | ||
179 | wx.EVT_SIZE(self,self.reconfigure) | |
180 | self._setsize() | |
181 | self.last_draw = None | |
182 | # self.font = self._testFont(font) | |
183 | ||
184 | def OnPaint(self, event): | |
185 | pdc = wx.wxPaintDC(self) | |
186 | if self.last_draw is not None: | |
187 | apply(self.draw, self.last_draw + (pdc,)) | |
188 | ||
189 | def reconfigure(self, event): | |
190 | (new_width,new_height) = self.GetClientSizeTuple() | |
191 | if new_width == self.width and new_height == self.height: | |
192 | return | |
193 | self._setsize() | |
194 | # self.redraw() | |
195 | ||
196 | def _testFont(self, font): | |
197 | if font is not None: | |
198 | bg = self.canvas.cget('background') | |
199 | try: | |
200 | item = CanvasText(self.canvas, 0, 0, anchor=NW, | |
201 | text='0', fill=bg, font=font) | |
202 | self.canvas.delete(item) | |
203 | except TclError: | |
204 | font = None | |
205 | return font | |
206 | ||
207 | def _setsize(self): | |
208 | (self.width,self.height) = self.GetClientSizeTuple(); | |
209 | self.plotbox_size = 0.97*Numeric.array([self.width, -self.height]) | |
210 | xo = 0.5*(self.width-self.plotbox_size[0]) | |
211 | yo = self.height-0.5*(self.height+self.plotbox_size[1]) | |
212 | self.plotbox_origin = Numeric.array([xo, yo]) | |
213 | ||
214 | def draw(self, graphics, xaxis = None, yaxis = None, dc = None): | |
215 | if dc == None: dc = wx.wxClientDC(self) | |
216 | dc.BeginDrawing() | |
217 | dc.Clear() | |
218 | self.last_draw = (graphics, xaxis, yaxis) | |
219 | p1, p2 = graphics.boundingBox() | |
220 | xaxis = self._axisInterval(xaxis, p1[0], p2[0]) | |
221 | yaxis = self._axisInterval(yaxis, p1[1], p2[1]) | |
222 | text_width = [0., 0.] | |
223 | text_height = [0., 0.] | |
224 | if xaxis is not None: | |
225 | p1[0] = xaxis[0] | |
226 | p2[0] = xaxis[1] | |
227 | xticks = self._ticks(xaxis[0], xaxis[1]) | |
228 | bb = dc.GetTextExtent(xticks[0][1]) | |
229 | text_height[1] = bb[1] | |
230 | text_width[0] = 0.5*bb[0] | |
231 | bb = dc.GetTextExtent(xticks[-1][1]) | |
232 | text_width[1] = 0.5*bb[0] | |
233 | else: | |
234 | xticks = None | |
235 | if yaxis is not None: | |
236 | p1[1] = yaxis[0] | |
237 | p2[1] = yaxis[1] | |
238 | yticks = self._ticks(yaxis[0], yaxis[1]) | |
239 | for y in yticks: | |
240 | bb = dc.GetTextExtent(y[1]) | |
241 | text_width[0] = max(text_width[0],bb[0]) | |
242 | h = 0.5*bb[1] | |
243 | text_height[0] = h | |
244 | text_height[1] = max(text_height[1], h) | |
245 | else: | |
246 | yticks = None | |
247 | text1 = Numeric.array([text_width[0], -text_height[1]]) | |
248 | text2 = Numeric.array([text_width[1], -text_height[0]]) | |
249 | scale = (self.plotbox_size-text1-text2) / (p2-p1) | |
250 | shift = -p1*scale + self.plotbox_origin + text1 | |
251 | self._drawAxes(dc, xaxis, yaxis, p1, p2, | |
252 | scale, shift, xticks, yticks) | |
253 | graphics.scaleAndShift(scale, shift) | |
254 | graphics.draw(dc) | |
255 | dc.EndDrawing() | |
256 | ||
257 | def _axisInterval(self, spec, lower, upper): | |
258 | if spec is None: | |
259 | return None | |
260 | if spec == 'minimal': | |
261 | if lower == upper: | |
262 | return lower-0.5, upper+0.5 | |
263 | else: | |
264 | return lower, upper | |
265 | if spec == 'automatic': | |
266 | range = upper-lower | |
267 | if range == 0.: | |
268 | return lower-0.5, upper+0.5 | |
269 | log = Numeric.log10(range) | |
270 | power = Numeric.floor(log) | |
271 | fraction = log-power | |
272 | if fraction <= 0.05: | |
273 | power = power-1 | |
274 | grid = 10.**power | |
275 | lower = lower - lower % grid | |
276 | mod = upper % grid | |
277 | if mod != 0: | |
278 | upper = upper - mod + grid | |
279 | return lower, upper | |
280 | if type(spec) == type(()): | |
281 | lower, upper = spec | |
282 | if lower <= upper: | |
283 | return lower, upper | |
284 | else: | |
285 | return upper, lower | |
286 | raise ValueError, str(spec) + ': illegal axis specification' | |
287 | ||
288 | def _drawAxes(self, dc, xaxis, yaxis, | |
289 | bb1, bb2, scale, shift, xticks, yticks): | |
290 | dc.SetPen(wx.wxPen(wx.wxNamedColour('BLACK'),1)) | |
291 | if xaxis is not None: | |
292 | lower, upper = xaxis | |
293 | text = 1 | |
294 | for y, d in [(bb1[1], -3), (bb2[1], 3)]: | |
295 | p1 = scale*Numeric.array([lower, y])+shift | |
296 | p2 = scale*Numeric.array([upper, y])+shift | |
297 | dc.DrawLine(p1[0],p1[1],p2[0],p2[1]) | |
298 | for x, label in xticks: | |
299 | p = scale*Numeric.array([x, y])+shift | |
300 | dc.DrawLine(p[0],p[1],p[0],p[1]+d) | |
301 | if text: | |
302 | dc.DrawText(label,p[0],p[1]) | |
303 | text = 0 | |
304 | ||
305 | if yaxis is not None: | |
306 | lower, upper = yaxis | |
307 | text = 1 | |
308 | h = dc.GetCharHeight() | |
309 | for x, d in [(bb1[0], -3), (bb2[0], 3)]: | |
310 | p1 = scale*Numeric.array([x, lower])+shift | |
311 | p2 = scale*Numeric.array([x, upper])+shift | |
312 | dc.DrawLine(p1[0],p1[1],p2[0],p2[1]) | |
313 | for y, label in yticks: | |
314 | p = scale*Numeric.array([x, y])+shift | |
315 | dc.DrawLine(p[0],p[1],p[0]-d,p[1]) | |
316 | if text: | |
317 | dc.DrawText(label,p[0]-dc.GetTextExtent(label)[0], | |
318 | p[1]-0.5*h) | |
319 | text = 0 | |
320 | ||
321 | def _ticks(self, lower, upper): | |
322 | ideal = (upper-lower)/7. | |
323 | log = Numeric.log10(ideal) | |
324 | power = Numeric.floor(log) | |
325 | fraction = log-power | |
326 | factor = 1. | |
327 | error = fraction | |
328 | for f, lf in self._multiples: | |
329 | e = Numeric.fabs(fraction-lf) | |
330 | if e < error: | |
331 | error = e | |
332 | factor = f | |
333 | grid = factor * 10.**power | |
334 | if power > 3 or power < -3: | |
335 | format = '%+7.0e' | |
336 | elif power >= 0: | |
337 | digits = max(1, int(power)) | |
338 | format = '%' + `digits`+'.0f' | |
339 | else: | |
340 | digits = -int(power) | |
341 | format = '%'+`digits+2`+'.'+`digits`+'f' | |
342 | ticks = [] | |
343 | t = -grid*Numeric.floor(-lower/grid) | |
344 | while t <= upper: | |
345 | ticks.append(t, format % (t,)) | |
346 | t = t + grid | |
347 | return ticks | |
348 | ||
349 | _multiples = [(2., Numeric.log10(2.)), (5., Numeric.log10(5.))] | |
350 | ||
351 | def redraw(self,dc=None): | |
352 | if self.last_draw is not None: | |
353 | apply(self.draw, self.last_draw + (dc,)) | |
354 | ||
355 | def clear(self): | |
356 | self.canvas.delete('all') | |
357 | ||
358 | # | |
359 | # Now a sample implementation using the above... | |
360 | # | |
361 | ||
362 | if __name__ == '__main__': | |
363 | ||
364 | class AppFrame(wx.wxFrame): | |
365 | def __init__(self, parent, id, title): | |
366 | wx.wxFrame.__init__(self, parent, id, title, | |
367 | wx.wxPyDefaultPosition, wx.wxSize(400, 400)) | |
368 | ||
369 | # Now Create the menu bar and items | |
370 | self.mainmenu = wx.wxMenuBar() | |
371 | ||
372 | menu = wx.wxMenu() | |
373 | menu.Append(200, '&Print...', 'Print the current plot') | |
374 | wx.EVT_MENU(self, 200, self.OnFilePrint) | |
375 | menu.Append(209, 'E&xit', 'Enough of this already!') | |
376 | wx.EVT_MENU(self, 209, self.OnFileExit) | |
377 | self.mainmenu.Append(menu, '&File') | |
378 | ||
379 | menu = wx.wxMenu() | |
380 | menu.Append(210, '&Draw', 'Draw plots') | |
381 | wx.EVT_MENU(self,210,self.OnPlotDraw) | |
382 | menu.Append(211, '&Redraw', 'Redraw plots') | |
383 | wx.EVT_MENU(self,211,self.OnPlotRedraw) | |
384 | menu.Append(212, '&Clear', 'Clear canvas') | |
385 | wx.EVT_MENU(self,212,self.OnPlotClear) | |
386 | self.mainmenu.Append(menu, '&Plot') | |
387 | ||
388 | menu = wx.wxMenu() | |
389 | menu.Append(220, '&About', 'About this thing...') | |
390 | wx.EVT_MENU(self, 220, self.OnHelpAbout) | |
391 | self.mainmenu.Append(menu, '&Help') | |
392 | ||
393 | self.SetMenuBar(self.mainmenu) | |
394 | ||
395 | # A status bar to tell people what's happening | |
396 | self.CreateStatusBar(1) | |
397 | ||
398 | self.client = PlotCanvas(self) | |
399 | ||
400 | def OnFilePrint(self, event): | |
401 | d = wx.wxMessageDialog(self, | |
402 | """As of this writing, printing support in wxPython is shaky at best. | |
403 | Are you sure you want to do this?""", "Danger!", wx.wxYES_NO) | |
404 | if d.ShowModal() == wx.wxID_YES: | |
405 | psdc = wx.wxPostScriptDC("out.ps", wx.TRUE, self) | |
406 | self.client.redraw(psdc) | |
407 | ||
408 | def OnFileExit(self, event): | |
409 | self.Close() | |
410 | ||
411 | def OnPlotDraw(self, event): | |
412 | self.client.draw(InitObjects(),'automatic','automatic'); | |
413 | ||
414 | def OnPlotRedraw(self,event): | |
415 | self.client.redraw() | |
416 | ||
417 | def OnPlotClear(self,event): | |
418 | self.client.last_draw = None | |
419 | dc = wx.wxClientDC(self.client) | |
420 | dc.Clear() | |
421 | ||
422 | def OnHelpAbout(self, event): | |
423 | about = wx.wxMessageDialog(self, __doc__, "About...", wx.wxOK) | |
424 | about.ShowModal() | |
425 | ||
426 | def OnCloseWindow(self, event): | |
427 | self.Destroy() | |
428 | ||
429 | def InitObjects(): | |
430 | # 100 points sin function, plotted as green circles | |
431 | data1 = 2.*Numeric.pi*Numeric.arange(200)/200. | |
432 | data1.shape = (100, 2) | |
433 | data1[:,1] = Numeric.sin(data1[:,0]) | |
434 | markers1 = PolyMarker(data1, color='green', marker='circle',size=1) | |
435 | ||
436 | # 50 points cos function, plotted as red line | |
437 | data1 = 2.*Numeric.pi*Numeric.arange(100)/100. | |
438 | data1.shape = (50,2) | |
439 | data1[:,1] = Numeric.cos(data1[:,0]) | |
440 | lines = PolyLine(data1, color='red') | |
441 | ||
442 | # A few more points... | |
443 | pi = Numeric.pi | |
444 | markers2 = PolyMarker([(0., 0.), (pi/4., 1.), (pi/2, 0.), | |
445 | (3.*pi/4., -1)], color='blue', | |
446 | fillcolor='green', marker='cross') | |
447 | ||
448 | return PlotGraphics([markers1, lines, markers2]) | |
449 | ||
450 | ||
451 | class MyApp(wx.wxApp): | |
452 | def OnInit(self): | |
453 | frame = AppFrame(wx.NULL, -1, "wxPlotCanvas") | |
454 | frame.Show(wx.TRUE) | |
455 | self.SetTopWindow(frame) | |
456 | return wx.TRUE | |
457 | ||
458 | ||
459 | app = MyApp(0) | |
460 | app.MainLoop() |