X-Git-Url: https://git.saurik.com/wxWidgets.git/blobdiff_plain/e732529375cfcca3b0bc79c37e350cb7a80525c6..2706d2fedee4cfc34ba0c838bd157bc0d9718ce1:/wxPython/demo/FloatCanvas.py diff --git a/wxPython/demo/FloatCanvas.py b/wxPython/demo/FloatCanvas.py index 2443131388..275b8d852e 100644 --- a/wxPython/demo/FloatCanvas.py +++ b/wxPython/demo/FloatCanvas.py @@ -1,152 +1,263 @@ -# 11/25/2003 - Jeff Grimmett (grimmtooth@softhome.net) -# -# o Updated for V2.5 -# -import wx - -# Stuff to integrate FloatCanvas into wxPython Demo try: import Numeric + import RandomArray haveNumeric = True except ImportError: - haveNumeric = False - + try: + import numarray as Numeric + import numarray.random_array as RandomArray + haveNumeric = True + except ImportError: + haveNumeric = False if not haveNumeric: - errorText = """\ -The FloatCanvas requires the Numeric module: -You can get it at: + errorText = """ +The FloatCanvas requires either the Numeric or Numarray module: +You can get them at: http://sourceforge.net/projects/numpy -""" - def runTest(frame, nb, log): - dlg = wx.MessageDialog( - frame, errorText, 'Sorry', wx.OK | wx.ICON_INFORMATION - ) +NOTE: The Numeric module is substantially faster than numarray for this +purpose, if you have lot's of objects +""" + + def runTest(frame, nb, log): + dlg = wx.MessageDialog(frame, errorText, 'Sorry', wx.OK | + wx.ICON_INFORMATION) dlg.ShowModal() dlg.Destroy() overview = "" - + else: - from wxPython.lib import floatcanvas - import wxPython.lib.colourdb + StartUpDemo = "all" + if __name__ == "__main__": # parse options if run stand-alone + # check options: + import sys, getopt + optlist, args = getopt.getopt(sys.argv[1:],'l',["local","all","text","map","stext","hit","hitf","animate","speed","temp"]) + + for opt in optlist: + if opt[0] == "--all": + StartUpDemo = "all" + elif opt[0] == "--text": + StartUpDemo = "text" + elif opt[0] == "--map": + StartUpDemo = "map" + elif opt[0] == "--stext": + StartUpDemo = "stext" + elif opt[0] == "--hit": + StartUpDemo = "hit" + elif opt[0] == "--hitf": + StartUpDemo = "hitf" + elif opt[0] == "--animate": + StartUpDemo = "animate" + elif opt[0] == "--speed": + StartUpDemo = "speed" + elif opt[0] == "--temp": + StartUpDemo = "temp" + import wx + import time, random - ID_ABOUT_MENU = wx.NewId() - ID_EXIT_MENU = wx.NewId() - ID_ZOOM_TO_FIT_MENU = wx.NewId() - ID_DRAWTEST_MENU = wx.NewId() - ID_LINETEST_MENU = wx.NewId() - ID_DRAWMAP_MENU = wx.NewId() - ID_DRAWMAP2_MENU = wx.NewId() - ID_CLEAR_MENU = wx.NewId() - - - colors = [] - LineStyles = floatcanvas.draw_object.LineStyleList.keys() + def runTest(frame, nb, log): + """ + This method is used by the wxPython Demo Framework for integrating + this demo with the rest. + """ + win = DrawFrame(None, -1, "FloatCanvas Drawing Window",wx.DefaultPosition,(500,500)) + frame.otherWin = win + win.Show(True) + win.DrawTest() + try: + from floatcanvas import NavCanvas, FloatCanvas + except ImportError: # if it's not there locally, try the wxPython lib. + from wx.lib.floatcanvas import NavCanvas, FloatCanvas + import wxPython.lib.colourdb class DrawFrame(wx.Frame): """ - A frame used for the FloatCanvas Demo """ - def __init__(self, parent, id, title, position, size): + + def __init__(self,parent, id,title,position,size): wx.Frame.__init__(self,parent, id,title,position, size) - # Set up the MenuBar - + ## Set up the MenuBar MenuBar = wx.MenuBar() file_menu = wx.Menu() - file_menu.Append(ID_EXIT_MENU, "&Close","Close this frame") - self.Bind(wx.EVT_MENU, self.OnQuit, id=ID_EXIT_MENU) + item = file_menu.Append(-1, "&Close","Close this frame") + self.Bind(wx.EVT_MENU, self.OnQuit, item) MenuBar.Append(file_menu, "&File") draw_menu = wx.Menu() - draw_menu.Append(ID_DRAWTEST_MENU, "&Draw Test","Run a test of drawing random components") - self.Bind(wx.EVT_MENU, self.DrawTest, id=ID_DRAWTEST_MENU) - draw_menu.Append(ID_LINETEST_MENU, "&Line Test","Run a test of drawing random lines") - self.Bind(wx.EVT_MENU, self.LineTest, id=ID_LINETEST_MENU) - draw_menu.Append(ID_DRAWMAP_MENU, "Draw &Map","Run a test of drawing a map") - self.Bind(wx.EVT_MENU, self.DrawMap, id=ID_DRAWMAP_MENU) - draw_menu.Append(ID_CLEAR_MENU, "&Clear","Clear the Canvas") - self.Bind(wx.EVT_MENU, self.Clear, id=ID_CLEAR_MENU) - MenuBar.Append(draw_menu, "&Draw") + item = draw_menu.Append(-1, "&Draw Test","Run a test of drawing random components") + self.Bind(wx.EVT_MENU, self.DrawTest, item) + + item = draw_menu.Append(-1, "&Line Test","Run a test of drawing random lines") + self.Bind(wx.EVT_MENU, self.LineTest, item) + + item = draw_menu.Append(-1, "Draw &Map","Run a test of drawing a map") + self.Bind(wx.EVT_MENU, self.DrawMap, item) + item = draw_menu.Append(-1, "&Text Test","Run a test of text drawing") + self.Bind(wx.EVT_MENU, self.TestText, item) + item = draw_menu.Append(-1, "&ScaledText Test","Run a test of text drawing") + self.Bind(wx.EVT_MENU, self.TestScaledText, item) + item = draw_menu.Append(-1, "&Clear","Clear the Canvas") + self.Bind(wx.EVT_MENU, self.Clear, item) + item = draw_menu.Append(-1, "&Hit Test","Run a test of the hit test code") + self.Bind(wx.EVT_MENU, self.TestHitTest, item) + item = draw_menu.Append(-1, "&Hit Test Foreground","Run a test of the hit test code with a foreground Object") + self.Bind(wx.EVT_MENU, self.TestHitTestForeground, item) + item = draw_menu.Append(-1, "&Animation","Run a test of Animation") + self.Bind(wx.EVT_MENU, self.TestAnimation, item) + item = draw_menu.Append(-1, "&Speed","Run a test of Drawing Speed") + self.Bind(wx.EVT_MENU, self.SpeedTest, item) + MenuBar.Append(draw_menu, "&Tests") + view_menu = wx.Menu() - view_menu.Append(ID_ZOOM_TO_FIT_MENU, "Zoom to &Fit","Zoom to fit the window") - self.Bind(wx.EVT_MENU, self.ZoomToFit, id=ID_ZOOM_TO_FIT_MENU) + item = view_menu.Append(-1, "Zoom to &Fit","Zoom to fit the window") + self.Bind(wx.EVT_MENU, self.ZoomToFit, item) MenuBar.Append(view_menu, "&View") help_menu = wx.Menu() - help_menu.Append(ID_ABOUT_MENU, "&About", + item = help_menu.Append(-1, "&About", "More information About this program") - self.Bind(wx.EVT_MENU, self.OnAbout, id=ID_ABOUT_MENU) + self.Bind(wx.EVT_MENU, self.OnAbout, item) MenuBar.Append(help_menu, "&Help") self.SetMenuBar(MenuBar) - self.CreateStatusBar() - self.SetStatusText("") - - self.Bind(wx.EVT_CLOSE, self.OnCloseWindow) - - # Other event handlers: - self.Bind(wx.EVT_RIGHT_DOWN, self.RightButtonEvent) - + self.CreateStatusBar() # Add the Canvas - self.Canvas = floatcanvas.FloatCanvas(self,-1,(500,500), - ProjectionFun = 'FlatEarth', - Debug = 0, - EnclosingFrame = self, - BackgroundColor = "DARK SLATE BLUE", - UseBackground = 0, - UseToolbar = 1) - self.Show(True) - - self.object_list = [] - + self.Canvas = NavCanvas.NavCanvas(self, + -1, + (500,500), + Debug = 1, + BackgroundColor = "DARK SLATE BLUE") + + wx.EVT_CLOSE(self, self.OnCloseWindow) + + FloatCanvas.EVT_MOTION(self.Canvas, self.OnMove ) + #FloatCanvas.EVT_LEFT_UP(self.Canvas, self.OnLeftUp ) + + self.EventsAreBound = False + + ## getting all the colors and linestyles for random objects + wxPython.lib.colourdb.updateColourDB() + self.colors = wxPython.lib.colourdb.getColourList() + #self.LineStyles = FloatCanvas.DrawObject.LineStyleList.keys() + + return None - - def RightButtonEvent(self,event): + + def BindAllMouseEvents(self): + if not self.EventsAreBound: + ## Here is how you catch FloatCanvas mouse events + FloatCanvas.EVT_LEFT_DOWN(self.Canvas, self.OnLeftDown ) + FloatCanvas.EVT_LEFT_UP(self.Canvas, self.OnLeftUp ) + FloatCanvas.EVT_LEFT_DCLICK(self.Canvas, self.OnLeftDouble ) + + FloatCanvas.EVT_MIDDLE_DOWN(self.Canvas, self.OnMiddleDown ) + FloatCanvas.EVT_MIDDLE_UP(self.Canvas, self.OnMiddleUp ) + FloatCanvas.EVT_MIDDLE_DCLICK(self.Canvas, self.OnMiddleDouble ) + + FloatCanvas.EVT_RIGHT_DOWN(self.Canvas, self.OnRightDown ) + FloatCanvas.EVT_RIGHT_UP(self.Canvas, self.OnRightUp ) + FloatCanvas.EVT_RIGHT_DCLICK(self.Canvas, self.OnRightDouble ) + + FloatCanvas.EVT_MOUSEWHEEL(self.Canvas, self.OnWheel ) + self.EventsAreBound = True + + def UnBindAllMouseEvents(self): + ## Here is how you catch FloatCanvas mouse events + FloatCanvas.EVT_LEFT_DOWN(self.Canvas, None ) + FloatCanvas.EVT_LEFT_UP(self.Canvas, None ) + FloatCanvas.EVT_LEFT_DCLICK(self.Canvas, None) + + FloatCanvas.EVT_MIDDLE_DOWN(self.Canvas, None ) + FloatCanvas.EVT_MIDDLE_UP(self.Canvas, None ) + FloatCanvas.EVT_MIDDLE_DCLICK(self.Canvas, None ) + + FloatCanvas.EVT_RIGHT_DOWN(self.Canvas, None ) + FloatCanvas.EVT_RIGHT_UP(self.Canvas, None ) + FloatCanvas.EVT_RIGHT_DCLICK(self.Canvas, None ) + + FloatCanvas.EVT_MOUSEWHEEL(self.Canvas, None ) + + self.EventsAreBound = False + + def PrintCoords(self,event): + print "coords are: %s"%(event.Coords,) + print "pixel coords are: %s\n"%(event.GetPosition(),) + + def OnLeftDown(self, event): + print "Left Button has been clicked in DrawFrame" + self.PrintCoords(event) + + def OnLeftUp(self, event): + print "Left up in DrawFrame" + self.PrintCoords(event) + + def OnLeftDouble(self, event): + print "Left Double Click in DrawFrame" + self.PrintCoords(event) + + def OnMiddleDown(self, event): + print "Middle Button clicked in DrawFrame" + self.PrintCoords(event) + + def OnMiddleUp(self, event): + print "Middle Button Up in DrawFrame" + self.PrintCoords(event) + + def OnMiddleDouble(self, event): + print "Middle Button Double clicked in DrawFrame" + self.PrintCoords(event) + + def OnRightDown(self, event): print "Right Button has been clicked in DrawFrame" - print "coords are: %i, %i"%(event.GetX(),event.GetY()) - event.Skip() - + self.PrintCoords(event) + + def OnRightUp(self, event): + print "Right Button Up in DrawFrame" + self.PrintCoords(event) + + def OnRightDouble(self, event): + print "Right Button Double clicked in DrawFrame" + self.PrintCoords(event) + + def OnWheel(self, event): + print "Mouse Wheel Moved in DrawFrame" + self.PrintCoords(event) + + def OnMove(self, event): + """ + Updates the staus bar with the world coordinates + """ + self.SetStatusText("%.2f, %.2f"%tuple(event.Coords)) + def OnAbout(self, event): + print "OnAbout called" + dlg = wx.MessageDialog(self, "This is a small program to demonstrate\n" "the use of the FloatCanvas\n", "About Me", wx.OK | wx.ICON_INFORMATION) dlg.ShowModal() dlg.Destroy() - def SetMode(self,event): - for id in [ID_ZOOM_IN_BUTTON,ID_ZOOM_OUT_BUTTON,ID_MOVE_MODE_BUTTON]: - self.ToolBar.ToggleTool(id,0) - - self.ToolBar.ToggleTool(event.GetId(),1) - - if event.GetId() == ID_ZOOM_IN_BUTTON: - self.Canvas.SetGUIMode("ZoomIn") - - elif event.GetId() == ID_ZOOM_OUT_BUTTON: - self.Canvas.SetGUIMode("ZoomOut") - - elif event.GetId() == ID_MOVE_MODE_BUTTON: - self.Canvas.SetGUIMode("Move") - def ZoomToFit(self,event): self.Canvas.ZoomToBB() def Clear(self,event = None): - self.Canvas.RemoveObjects(self.object_list) - self.object_list = [] + self.UnBindAllMouseEvents() + self.Canvas.ClearAll() + self.Canvas.SetProjectionFun(None) self.Canvas.Draw() def OnQuit(self,event): @@ -155,45 +266,46 @@ else: def OnCloseWindow(self, event): self.Destroy() - def DrawTest(self,event): - wx.GetApp().Yield() - - import random - import RandomArray - + def DrawTest(self,event=None): +# import random +# import RandomArray Range = (-10,10) - + colors = self.colors + + self.BindAllMouseEvents() Canvas = self.Canvas - object_list = self.object_list - - # Random tests of everything: + + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + + ## Random tests of everything: # Rectangles - for i in range(5): + for i in range(3): x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) lw = random.randint(1,5) cf = random.randint(0,len(colors)-1) h = random.randint(1,5) w = random.randint(1,5) - object_list.append(Canvas.AddRectangle(x,y,h,w,LineWidth = lw,FillColor = colors[cf])) + Canvas.AddRectangle(x,y,h,w,LineWidth = lw,FillColor = colors[cf]) - # Ellipses - for i in range(5): + # Ellipses + for i in range(3): x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) lw = random.randint(1,5) cf = random.randint(0,len(colors)-1) h = random.randint(1,5) w = random.randint(1,5) - object_list.append(Canvas.AddEllipse(x,y,h,w,LineWidth = lw,FillColor = colors[cf])) + Canvas.AddEllipse(x,y,h,w,LineWidth = lw,FillColor = colors[cf]) - # Dots - for i in range(5): - x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) - D = random.randint(1,50) - lw = random.randint(1,5) - cf = random.randint(0,len(colors)-1) - cl = random.randint(0,len(colors)-1) - object_list.append(Canvas.AddDot(x,y,D,LineWidth = lw,LineColor = colors[cl],FillColor = colors[cf])) +## # Dots -- Does anyone need this? +## for i in range(5): +## x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) +## D = random.randint(1,50) +## lw = random.randint(1,5) +## cf = random.randint(0,len(colors)-1) +## cl = random.randint(0,len(colors)-1) +## Canvas.AddDot(x,y,D,LineWidth = lw,LineColor = colors[cl],FillColor = colors[cf]) # Circles for i in range(5): @@ -202,8 +314,8 @@ else: lw = random.randint(1,5) cf = random.randint(0,len(colors)-1) cl = random.randint(0,len(colors)-1) - object_list.append(Canvas.AddCircle(x,y,D,LineWidth = lw,LineColor = colors[cl],FillColor = colors[cf])) - self.object_list.append(self.Canvas.AddText("Circle # %i"%(i),x,y,Size = 12,BackGround = None,Position = "cc")) + Canvas.AddCircle(x,y,D,LineWidth = lw,LineColor = colors[cl],FillColor = colors[cf]) + Canvas.AddText("Circle # %i"%(i),x,y,Size = 12,BackgroundColor = None,Position = "cc") # Lines for i in range(5): @@ -214,7 +326,7 @@ else: lw = random.randint(1,10) cf = random.randint(0,len(colors)-1) cl = random.randint(0,len(colors)-1) - self.object_list.append(self.Canvas.AddLine(points, LineWidth = lw, LineColor = colors[cl])) + Canvas.AddLine(points, LineWidth = lw, LineColor = colors[cl]) # Polygons for i in range(3): @@ -225,84 +337,615 @@ else: lw = random.randint(1,6) cf = random.randint(0,len(colors)-1) cl = random.randint(0,len(colors)-1) - self.object_list.append(self.Canvas.AddPolygon(points, - LineWidth = lw, - LineColor = colors[cl], - FillColor = colors[cf], - FillStyle = 'Solid')) - - + Canvas.AddPolygon(points, + LineWidth = lw, + LineColor = colors[cl], + FillColor = colors[cf], + FillStyle = 'Solid') + ## Pointset for i in range(4): points = [] points = RandomArray.uniform(Range[0],Range[1],(100,2)) cf = random.randint(0,len(colors)-1) D = random.randint(1,4) - self.object_list.append(self.Canvas.AddPointSet(points, Color = colors[cf], Diameter = D)) + Canvas.AddPointSet(points, Color = colors[cf], Diameter = D) # Text - String = "Some text" - for i in range(10): + String = "Unscaled text" + for i in range(3): ts = random.randint(10,40) cf = random.randint(0,len(colors)-1) x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) - self.object_list.append(self.Canvas.AddText(String,x,y,Size = ts,ForeGround = colors[cf],Position = "cc")) + Canvas.AddText(String, x, y, Size = ts, Color = colors[cf], Position = "cc") + + # Scaled Text + String = "Scaled text" + for i in range(3): + ts = random.random()*3 + 0.2 + cf = random.randint(0,len(colors)-1) + x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) + Canvas.AddScaledText(String, x, y, Size = ts, Color = colors[cf], Position = "cc") + + Canvas.ZoomToBB() + + def TestAnimation(self,event=None): + """ + + In this test, a relatively complex background is drawn, and + a simple object placed in the foreground is moved over + it. This demonstrates how to use the InForeground attribute + to make an object in the foregorund draw fast, without + having to re-draw the whole background. + + """ + print "Running TestAnimation" + Range = (-10,10) + self.Range = Range + + self.UnBindAllMouseEvents() + Canvas = self.Canvas + + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + + ## Random tests of everything: + colors = self.colors + # Rectangles + for i in range(3): + x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) + lw = random.randint(1,5) + cf = random.randint(0,len(colors)-1) + h = random.randint(1,5) + w = random.randint(1,5) + Canvas.AddRectangle(x,y,h,w,LineWidth = lw,FillColor = colors[cf]) + + # Ellipses + for i in range(3): + x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) + lw = random.randint(1,5) + cf = random.randint(0,len(colors)-1) + h = random.randint(1,5) + w = random.randint(1,5) + Canvas.AddEllipse(x,y,h,w,LineWidth = lw,FillColor = colors[cf]) + + # Circles + for i in range(5): + x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) + D = random.randint(1,5) + lw = random.randint(1,5) + cf = random.randint(0,len(colors)-1) + cl = random.randint(0,len(colors)-1) + Canvas.AddCircle(x,y,D,LineWidth = lw,LineColor = colors[cl],FillColor = colors[cf]) + Canvas.AddText("Circle # %i"%(i),x,y,Size = 12,BackgroundColor = None,Position = "cc") + + # Lines + for i in range(5): + points = [] + for j in range(random.randint(2,10)): + point = (random.randint(Range[0],Range[1]),random.randint(Range[0],Range[1])) + points.append(point) + lw = random.randint(1,10) + cf = random.randint(0,len(colors)-1) + cl = random.randint(0,len(colors)-1) + Canvas.AddLine(points, LineWidth = lw, LineColor = colors[cl]) + + # Polygons + for i in range(3): + points = [] + for j in range(random.randint(2,6)): + point = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) + points.append(point) + lw = random.randint(1,6) + cf = random.randint(0,len(colors)-1) + cl = random.randint(0,len(colors)-1) + Canvas.AddPolygon(points, + LineWidth = lw, + LineColor = colors[cl], + FillColor = colors[cf], + FillStyle = 'Solid') + + # Scaled Text + String = "Scaled text" + for i in range(3): + ts = random.random()*3 + 0.2 + cf = random.randint(0,len(colors)-1) + x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) + Canvas.AddScaledText(String, x, y, Size = ts, Color = colors[cf], Position = "cc") + + + # Now the Foreground Object: + C = Canvas.AddCircle(0,0,7,LineWidth = 2,LineColor = "Black",FillColor = "Red", InForeground = True) + T = Canvas.AddScaledText("Click to Move",0,0, Size = 0.8, Position = 'cc', InForeground = True) + C.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.MoveMe) + C.Text = T + + self.Timer = wx.PyTimer(self.ShowFrame) + self.FrameDelay = 50 # milliseconds + + Canvas.ZoomToBB() + + def ShowFrame(self): + Object = self.MovingObject + Range = self.Range + if self.TimeStep < self.NumTimeSteps: + x,y = Object.XY + if x > Range[1] or x < Range[0]: + self.dx = -self.dx + if y > Range[1] or y < Range[0]: + self.dy = -self.dy + Object.Move( (self.dx,self.dy) ) + Object.Text.Move( (self.dx,self.dy)) + self.Canvas.Draw() + self.TimeStep += 1 + else: + self.Timer.Stop() + + + def MoveMe(self, Object): + self.MovingObject = Object + Range = self.Range + self.dx = random.uniform(Range[0]/4,Range[1]/4) + self.dy = random.uniform(Range[0]/4,Range[1]/4) + #import time + #start = time.time() + self.NumTimeSteps = 500 + self.TimeStep = 1 + self.Timer.Start(self.FrameDelay) + #print "Did %i frames in %f seconds"%(N, (time.time() - start) ) + def TestHitTest(self,event=None): + + self.UnBindAllMouseEvents() + Canvas = self.Canvas + + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + + #Add a HitAble rectangle + w, h = 60, 20 + + dx = 80 + dy = 40 + x,y = 20, 20 + + #Add one that is not HitAble + Canvas.AddRectangle(x, y, w, h, LineWidth = 2) + Canvas.AddText("Not Hit-able", x, y, Position = "bl") + + + x += dx + R = Canvas.AddRectangle(x, y, w, h,LineWidth = 2) + R.Name = "Line Rectangle" + R.HitFill = False + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectGotHit) + Canvas.AddText("Left Click Line", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + + x += dx + color = "Red" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + "Rectangle" + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectGotHit) + Canvas.AddText("Left Click Fill", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x = 20 + y += dy + color = "LightBlue" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + " Rectangle" + R.Bind(FloatCanvas.EVT_FC_RIGHT_DOWN, self.RectGotHit) + Canvas.AddText("Right Click Fill", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "Grey" + R = Canvas.AddEllipse(x, y, w, h,LineWidth = 2,FillColor = color) + R.Name = color +" Ellipse" + R.Bind(FloatCanvas.EVT_FC_RIGHT_DOWN, self.RectGotHit) + Canvas.AddText("Right Click Fill", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "Brown" + R = Canvas.AddCircle(x+dx/2, y+dy/2, dx/4, LineWidth = 2, FillColor = color) + R.Name = color + " Circle" + R.HitFill = True + R.Bind(FloatCanvas.EVT_FC_LEFT_DCLICK, self.RectGotHit) + Canvas.AddText("Left D-Click Fill", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x = 20 + y += dy + color = "Pink" + R = Canvas.AddCircle(x+dx/2, y+dy/2, dx/4, LineWidth = 2,FillColor = color) + R.Name = color + " Circle" + R.Bind(FloatCanvas.EVT_FC_LEFT_UP, self.RectGotHit) + Canvas.AddText("Left Up Fill", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "White" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + " Rectangle" + R.Bind(FloatCanvas.EVT_FC_MIDDLE_DOWN, self.RectGotHit) + Canvas.AddText("Middle Down", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "AQUAMARINE" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + " Rectangle" + R.Bind(FloatCanvas.EVT_FC_MIDDLE_UP, self.RectGotHit) + Canvas.AddText("Middle Up", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x = 20 + y += dy + color = "CORAL" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + " Rectangle" + R.Bind(FloatCanvas.EVT_FC_MIDDLE_DCLICK, self.RectGotHit) + Canvas.AddText("Middle DoubleClick", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "CYAN" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + " Rectangle" + R.Bind(FloatCanvas.EVT_FC_RIGHT_UP, self.RectGotHit) + Canvas.AddText("Right Up", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "LIME GREEN" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + " Rectangle" + R.Bind(FloatCanvas.EVT_FC_RIGHT_DCLICK, self.RectGotHit) + Canvas.AddText("Right Double Click", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x = 20 + y += dy + color = "MEDIUM GOLDENROD" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + R.Bind(FloatCanvas.EVT_FC_RIGHT_DOWN, self.RectGotHitRight) + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectGotHitLeft) + Canvas.AddText("L and R Click", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "SALMON" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + " Rectangle" + R.Bind(FloatCanvas.EVT_FC_ENTER_OBJECT, self.RectMouseOver) + Canvas.AddText("Mouse Enter", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "MEDIUM VIOLET RED" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + R.Bind(FloatCanvas.EVT_FC_LEAVE_OBJECT, self.RectMouseLeave) + Canvas.AddText("Mouse Leave", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x = 20 + y += dy + color = "SKY BLUE" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color) + R.Name = color + R.Bind(FloatCanvas.EVT_FC_ENTER_OBJECT, self.RectMouseOver) + R.Bind(FloatCanvas.EVT_FC_LEAVE_OBJECT, self.RectMouseLeave) + Canvas.AddText("Enter and Leave", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "WHEAT" + R = Canvas.AddRectangle(x, y, w+12, h, LineColor = None, FillColor = color) + R.Name = color + R.Bind(FloatCanvas.EVT_FC_ENTER_OBJECT, self.RectMouseOver) + R.Bind(FloatCanvas.EVT_FC_LEAVE_OBJECT, self.RectMouseLeave) + Canvas.AddText("Mouse Enter&Leave", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "KHAKI" + R = Canvas.AddRectangle(x-12, y, w+12, h, LineColor = None, FillColor = color) + R.Name = color + R.Bind(FloatCanvas.EVT_FC_ENTER_OBJECT, self.RectMouseOver) + R.Bind(FloatCanvas.EVT_FC_LEAVE_OBJECT, self.RectMouseLeave) + Canvas.AddText("Mouse ENter&Leave", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x = 20 + y += dy + L = Canvas.AddLine(( (x, y), (x+10, y+10), (x+w, y+h) ), LineWidth = 2, LineColor = "Red") + L.Name = "A Line" + L.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectGotHitLeft) + Canvas.AddText("Left Down", x, y, Position = "bl") + Canvas.AddText(L.Name, x, y+h, Position = "tl") + + x += dx + color = "SEA GREEN" + Points = Numeric.array(( (x, y), (x, y+2.*h/3), (x+w, y+h), (x+w, y+h/2.), (x + 2.*w/3, y+h/2.), (x + 2.*w/3,y) ), Numeric.Float) + R = Canvas.AddPolygon(Points, LineWidth = 2, FillColor = color) + R.Name = color + " Polygon" + R.Bind(FloatCanvas.EVT_FC_RIGHT_DOWN, self.RectGotHitRight) + Canvas.AddText("RIGHT_DOWN", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x += dx + color = "Red" + Points = Numeric.array(( (x, y), (x, y+2.*h/3), (x+w, y+h), (x+w, y+h/2.), (x + 2.*w/3, y+h/2.), (x + 2.*w/3,y) ), Numeric.Float) + R = Canvas.AddPointSet(Points, Diameter = 4, Color = color) + R.Name = "PointSet" + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.PointSetGotHit) + Canvas.AddText("LEFT_DOWN", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + x = 20 + y += dy + T = Canvas.AddText("Hit-able Text", x, y, Size = 15, Color = "Red", Position = 'tl') + T.Name = "Hit-able Text" + T.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectGotHitLeft) + Canvas.AddText("Left Down", x, y, Position = "bl") + + x += dx + T = Canvas.AddScaledText("Scaled Text", x, y, Size = 1./2*h, Color = "Pink", Position = 'bl') + Canvas.AddPointSet( (x, y), Diameter = 3) + T.Name = "Scaled Text" + T.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectGotHitLeft) + Canvas.AddText("Left Down", x, y, Position = "tl") + + self.Canvas.ZoomToBB() + + def TestHitTestForeground(self,event=None): + print "Running: TestHitTestForeground" + + self.UnBindAllMouseEvents() + Canvas = self.Canvas + + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + + #Add a Hitable rectangle + w, h = 60, 20 + + dx = 80 + dy = 40 + x,y = 20, 20 + + color = "Red" + R = Canvas.AddRectangle(x, y, w, h, LineWidth = 2, FillColor = color, InForeground = False) + R.Name = color + "Rectangle" + R.HitFill = True + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectGotHit) + Canvas.AddText("Left Click Fill", x, y, Position = "bl") + Canvas.AddText(R.Name, x, y+h, Position = "tl") + + ## A set of Rectangles that move together + + ## NOTE: In a real app, it might be better to create a new + ## custom FloatCanvas DrawObject + + self.MovingRects = [] + x += dx + color = "LightBlue" + R = Canvas.AddRectangle(x, y, w/2, h/2, LineWidth = 2, FillColor = color, InForeground = True) + R.HitFill = True + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectMoveLeft) + L = Canvas.AddText("Left", x + w/4, y + h/4, Position = "cc", InForeground = True) + self.MovingRects.extend( (R,L) ) + + x += w/2 + R = Canvas.AddRectangle(x, y, w/2, h/2, LineWidth = 2, FillColor = color, InForeground = True) + R.HitFill = True + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectMoveRight) + L = Canvas.AddText("Right", x + w/4, y + h/4, Position = "cc", InForeground = True) + self.MovingRects.extend( (R,L) ) + + x -= w/2 + y += h/2 + R = Canvas.AddRectangle(x, y, w/2, h/2, LineWidth = 2, FillColor = color, InForeground = True) + R.HitFill = True + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectMoveUp) + L = Canvas.AddText("Up", x + w/4, y + h/4, Position = "cc", InForeground = True) + self.MovingRects.extend( (R,L) ) + + + x += w/2 + R = Canvas.AddRectangle(x, y, w/2, h/2, LineWidth = 2, FillColor = color, InForeground = True) + R.HitFill = True + R.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.RectMoveDown) + L = Canvas.AddText("Down", x + w/4, y + h/4, Position = "cc", InForeground = True) + self.MovingRects.extend( (R,L) ) + + self.Canvas.ZoomToBB() + + def RectMoveLeft(self,Object): + self.MoveRects("left") + + def RectMoveRight(self,Object): + self.MoveRects("right") + + def RectMoveUp(self,Object): + self.MoveRects("up") + + def RectMoveDown(self,Object): + self.MoveRects("down") + + def MoveRects(self, Dir): + for Object in self.MovingRects: + X,Y = Object.XY + if Dir == "left": X -= 10 + elif Dir == "right": X += 10 + elif Dir == "up": Y += 10 + elif Dir == "down": Y -= 10 + Object.SetXY(X,Y) + self.Canvas.Draw() + + + def PointSetGotHit(self, Object): + print Object.Name, "Got Hit\n" + + def RectGotHit(self, Object): + print Object.Name, "Got Hit\n" + + def RectGotHitRight(self, Object): + print Object.Name, "Got Hit With Right\n" + + def RectGotHitLeft(self, Object): + print Object.Name, "Got Hit with Left\n" + + def RectMouseOver(self, Object): + print "Mouse entered:", Object.Name + + def RectMouseLeave(self, Object): + print "Mouse left ", Object.Name + + + def TestText(self, event= None): + + self.BindAllMouseEvents() + Canvas = self.Canvas + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + + x,y = (0, 0) + + ## Add a non-visible rectangle, just to get a Bounding Box + ## Text objects have a zero-size bounding box, because it changes with zoom + Canvas.AddRectangle(-10,-10,20,20,LineWidth = 1, LineColor = None) + + # Text + String = "Some text" +## for i in range(10): +## ts = random.randint(10,40) +## cf = random.randint(0,len(colors)-1) +## x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) + self.Canvas.AddText("Top Left",x,y,Size = 14,Color = "Yellow",BackgroundColor = "Blue", Position = "tl") + self.Canvas.AddText("Bottom Left",x,y,Size = 14,Color = "Cyan",BackgroundColor = "Black",Position = "bl") + self.Canvas.AddText("Top Right",x,y,Size = 14,Color = "Black",BackgroundColor = "Cyan",Position = "tr") + self.Canvas.AddText("Bottom Right",x,y,Size = 14,Color = "Blue",BackgroundColor = "Yellow",Position = "br") + Canvas.AddPointSet((x,y), Color = "White", Diameter = 2) + + x,y = (0, 2) + + Canvas.AddPointSet((x,y), Color = "White", Diameter = 2) + self.Canvas.AddText("Top Center",x,y,Size = 14,Color = "Black",Position = "tc") + self.Canvas.AddText("Bottom Center",x,y,Size = 14,Color = "White",Position = "bc") + + x,y = (0, 4) + + Canvas.AddPointSet((x,y), Color = "White", Diameter = 2) + self.Canvas.AddText("Center Right",x,y,Size = 14,Color = "Black",Position = "cr") + self.Canvas.AddText("Center Left",x,y,Size = 14,Color = "Black",Position = "cl") + + x,y = (0, -2) + + Canvas.AddPointSet((x,y), Color = "White", Diameter = 2) + self.Canvas.AddText("Center Center",x,y,Size = 14,Color = "Black",Position = "cc") + + self.Canvas.AddText("40 Pixels",-10,8,Size = 40) + self.Canvas.AddText("20 Pixels",-10,5,Size = 20) + self.Canvas.AddText("10 Pixels",-10,3,Size = 10) + + self.Canvas.AddText("MODERN Font", -10, 0, Family = wx.MODERN) + self.Canvas.AddText("DECORATIVE Font", -10, -1, Family = wx.DECORATIVE) + self.Canvas.AddText("ROMAN Font", -10, -2, Family = wx.ROMAN) + self.Canvas.AddText("SCRIPT Font", -10, -3, Family = wx.SCRIPT) + self.Canvas.AddText("ROMAN BOLD Font", -10, -4, Family = wx.ROMAN, Weight=wx.BOLD) + self.Canvas.AddText("ROMAN ITALIC BOLD Font", -10, -5, Family = wx.ROMAN, Weight=wx.BOLD, Style=wx.ITALIC) + + # NOTE: this font exists on my Linux box..who knows were else you'll find it! + Font = wx.Font(20, wx.DEFAULT, wx.ITALIC, wx.NORMAL, False, "zapf chancery") + self.Canvas.AddText("zapf chancery Font", -10, -6, Font = Font) + + self.Canvas.ZoomToBB() + + def TestScaledText(self, event= None): + + self.BindAllMouseEvents() + Canvas = self.Canvas + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + + x,y = (0, 0) + + T = Canvas.AddScaledText("Top Left",x,y,Size = 5,Color = "Yellow",BackgroundColor = "Blue", Position = "tl") + T = Canvas.AddScaledText("Bottom Left",x,y,Size = 5,Color = "Cyan",BackgroundColor = "Black",Position = "bl") + T = Canvas.AddScaledText("Top Right",x,y,Size = 5,Color = "Black",BackgroundColor = "Cyan",Position = "tr") + T = Canvas.AddScaledText("Bottom Right",x,y,Size = 5,Color = "Blue",BackgroundColor = "Yellow",Position = "br") + Canvas.AddPointSet((x,y), Color = "Red", Diameter = 4) + + + x,y = (0, 20) + + Canvas.AddScaledText("Top Center",x,y,Size = 7,Color = "Black",Position = "tc") + Canvas.AddScaledText("Bottom Center",x,y,Size = 7,Color = "White",Position = "bc") + Canvas.AddPointSet((x,y), Color = "White", Diameter = 4) + + x,y = (0, -20) + + Canvas.AddScaledText("Center Right",x,y,Size = 9,Color = "Black",Position = "cr") + Canvas.AddScaledText("Center Left",x,y,Size = 9,Color = "Black",Position = "cl") + Canvas.AddPointSet((x,y), Color = "White", Diameter = 4) + + x = -200 + + self.Canvas.AddScaledText("MODERN Font", x, 0, Size = 7, Family = wx.MODERN, Color = (0,0,0)) + self.Canvas.AddScaledText("DECORATIVE Font", x, -10, Size = 7, Family = wx.DECORATIVE, Color = (0,0,1)) + self.Canvas.AddScaledText("ROMAN Font", x, -20, Size = 7, Family = wx.ROMAN) + self.Canvas.AddScaledText("SCRIPT Font", x, -30, Size = 7, Family = wx.SCRIPT) + self.Canvas.AddScaledText("ROMAN BOLD Font", x, -40, Size = 7, Family = wx.ROMAN, Weight=wx.BOLD) + self.Canvas.AddScaledText("ROMAN ITALIC BOLD Font", x, -50, Size = 7, Family = wx.ROMAN, Weight=wx.BOLD, Style=wx.ITALIC) + Canvas.AddPointSet((x,0), Color = "White", Diameter = 4) + + + # NOTE: this font exists on my Linux box..who knows were else you'll find it! + x,y = (-100, 50) + Font = wx.Font(12, wx.DEFAULT, wx.ITALIC, wx.NORMAL, False, "zapf chancery") + T = self.Canvas.AddScaledText("zapf chancery Font", x, y, Size = 20, Font = Font, Position = 'bc') + + x,y = (-50, -50) + Font = wx.Font(12, wx.DEFAULT, wx.ITALIC, wx.NORMAL, False, "bookman") + T = self.Canvas.AddScaledText("Bookman Font", x, y, Size = 8, Font = Font) + self.Canvas.ZoomToBB() def DrawMap(self,event = None): - wx.GetApp().Yield() import os, time + self.BindAllMouseEvents() + ## Test of Actual Map Data - self.Clear() - start = time.clock() + self.Canvas.ClearAll() + self.Canvas.SetProjectionFun("FlatEarth") + #start = time.clock() Shorelines = Read_MapGen(os.path.join("data",'world.dat'),stats = 0) - print "It took %f seconds to load %i shorelines"%(time.clock() - start,len(Shorelines) ) - start = time.clock() + #print "It took %f seconds to load %i shorelines"%(time.clock() - start,len(Shorelines) ) + #start = time.clock() for segment in Shorelines: - self.object_list.append(self.Canvas.AddLine(segment)) - print "It took %f seconds to add %i shorelines"%(time.clock() - start,len(Shorelines) ) - start = time.clock() + self.Canvas.AddLine(segment) + #print "It took %f seconds to add %i shorelines"%(time.clock() - start,len(Shorelines) ) + #start = time.clock() self.Canvas.ZoomToBB() - print "It took %f seconds to draw %i shorelines"%(time.clock() - start,len(Shorelines) ) - - ## def LineTest(self,event = None): - ## wxGetApp().Yield() - ## import os, time - ## import random - ## Range = (-10,10) - ## ## Test of drawing lots of lines - ## self.Clear() - ## start = time.clock() - ## linepoints = [] - ## linecolors = [] - ## linewidths = [] - ## linestyles = [] - ## for i in range(500): - ## points = (random.randint(Range[0],Range[1]), - ## random.randint(Range[0],Range[1])) - ## linepoints.append(points) - ## points = (random.randint(Range[0],Range[1]), - ## random.randint(Range[0],Range[1])) - ## linepoints.append(points) - ## linewidths.append(random.randint(1,10) ) - ## linecolors.append(colors[random.randint(0,len(colors)-1) ]) - ## linestyles.append(LineStyles[random.randint(0, len(LineStyles)-1)]) - - ## self.object_list.append(self.Canvas.AddLineSet(linepoints, LineWidths = linewidths, LineColors = linecolors, LineStyles = linestyles)) - ## print "It took %f seconds to add %i lines"%(time.clock() - start,len(linepoints) ) - ## start = time.clock() - ## self.Canvas.ZoomToBB() - ## print "It took %f seconds to draw %i lines"%(time.clock() - start,len(linepoints) ) + #print "It took %f seconds to draw %i shorelines"%(time.clock() - start,len(Shorelines) ) + def LineTest(self,event = None): - wx.GetApp().Yield() import os, time - import random +# import random + colors = self.colors Range = (-10,10) ## Test of drawing lots of lines - self.Clear() - start = time.clock() + Canvas = self.Canvas + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + #start = time.clock() linepoints = [] linecolors = [] linewidths = [] @@ -315,12 +958,199 @@ else: linewidths.append(random.randint(1,10) ) linecolors.append(random.randint(0,len(colors)-1) ) for (points,color,width) in zip(linepoints,linecolors,linewidths): - self.object_list.append(self.Canvas.AddLine((points[0:2],points[2:4]), LineWidth = width, LineColor = colors[color])) - print "It took %f seconds to add %i lines"%(time.clock() - start,len(linepoints) ) + Canvas.AddLine((points[0:2],points[2:4]), LineWidth = width, LineColor = colors[color]) + #print "It took %f seconds to add %i lines"%(time.clock() - start,len(linepoints) ) + #start = time.clock() + Canvas.ZoomToBB() + #print "It took %f seconds to draw %i lines"%(time.clock() - start,len(linepoints) ) + + def SpeedTest(self,event=None): +# import random +# import RandomArray + BigRange = (-1000,1000) + colors = self.colors + + self.UnBindAllMouseEvents() + Canvas = self.Canvas + + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + + # Lots of Text + String = "Unscaled text" + coords = [] + text = [] + for i in range(5000): + x,y = (random.uniform(BigRange[0],BigRange[1]),random.uniform(BigRange[0],BigRange[1])) + coords.append( (x,y) ) + print "Drawing the Numbers" start = time.clock() - self.Canvas.ZoomToBB() - print "It took %f seconds to draw %i lines"%(time.clock() - start,len(linepoints) ) - + for i in xrange( len(coords) ): + Canvas.AddText("%i"%(i), + coords[i][0], + coords[i][1], + Size = 12, + Position = "cc", + BackgroundColor = "White") + print "It took %s seconds to add the numbers"%(time.clock() - start) + + +## ObjectList = [] + +## print "Building a list of lots of random objects" +## ## Random tests of everything: +## def MakeRange(): +## while True: +## Range = ( random.randint(BigRange[0],BigRange[1]), random.randint(BigRange[0],BigRange[1]) ) +## if abs (Range[0] - Range[1]) < 10: +## continue +## if Range[0] > Range[1]: +## Range = ( Range[1], Range[0] ) +## break +## return Range + +## # Rectangles +## for i in range(300): +## Range = MakeRange() +## x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) +## lw = random.randint(1,5) +## cf = random.randint(0,len(colors)-1) +## h = random.randint(1, Range[1] - Range[0]) +## w = random.randint(1, Range[1] - Range[0]) +## ObjectList.append(FloatCanvas.Rectangle(x,y,h,w,LineWidth = lw,FillColor = colors[cf])) + +## # Ellipses +## for i in range(300): +## Range = MakeRange() +## x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) +## lw = random.randint(1,5) +## cf = random.randint(0,len(colors)-1) +## h = random.randint(1, Range[1] - Range[0]) +## w = random.randint(1, Range[1] - Range[0]) +## ObjectList.append(FloatCanvas.Ellipse(x,y,h,w,LineWidth = lw,FillColor = colors[cf])) + + +## # Circles +## for i in range(500): +## Range = MakeRange() +## x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) +## D = random.randint(1, (Range[1] - Range[0]) / 2) +## lw = random.randint(1,5) +## cf = random.randint(0,len(colors)-1) +## cl = random.randint(0,len(colors)-1) +## ObjectList.append(FloatCanvas.Circle(x,y,D,LineWidth = lw,LineColor = colors[cl],FillColor = colors[cf])) +## #ObjectList.append(FloatCanvas.Text("Circle # %i"%(i),x,y,Size = 12,BackgroundColor = None,Position = "cc")) + +## # Lines +## for i in range(500): +## Range = MakeRange() +## points = [] +## for j in range(random.randint(2,100)): +## point = (random.randint(Range[0],Range[1]),random.randint(Range[0],Range[1])) +## points.append(point) +## lw = random.randint(1,10) +## cf = random.randint(0,len(colors)-1) +## cl = random.randint(0,len(colors)-1) +## ObjectList.append(FloatCanvas.Line(points, LineWidth = lw, LineColor = colors[cl]) ) + +## # Polygons +## for i in range(300): +## Range = MakeRange() +## points = [] +## for j in range(random.randint(2,60)): +## point = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) +## points.append(point) +## lw = random.randint(1,6) +## cf = random.randint(0,len(colors)-1) +## cl = random.randint(0,len(colors)-1) +## ObjectList.append(FloatCanvas.Polygon(points, +## LineWidth = lw, +## LineColor = colors[cl], +## FillColor = colors[cf], +## FillStyle = 'Solid') ) +## random.shuffle(ObjectList) +## print "Adding lots of random objects" +## start = time.clock() +## for Object in ObjectList: +## Canvas.AddObject(Object) +## print "It took %s Seconds to add %i objects "%(time.clock() - start, len(ObjectList) ) + +## ## Pointset +## for i in range(100): +## points = [] +## points = RandomArray.uniform(Range[0],Range[1],(100,2)) +## cf = random.randint(0,len(colors)-1) +## D = random.randint(1,4) +## Canvas.AddPointSet(points, Color = colors[cf], Diameter = D) + + +## # Scaled Text +## String = "Scaled text" +## for i in range(30): +## ts = random.random()*3 + 0.2 +## cf = random.randint(0,len(colors)-1) +## x,y = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) +## Canvas.AddScaledText(String, x, y, Size = ts, Color = colors[cf], Position = "cc") + + Canvas.ZoomToBB() + + + def TempTest(self, event= None): + "Running the Temporary test" + + self.UnBindAllMouseEvents() + Canvas = self.Canvas + Canvas.ClearAll() + Canvas.SetProjectionFun(None) + +# import random +# import RandomArray + Range = (-10,10) + + # Create a random Polygon + points = [] + for j in range(6): + point = (random.uniform(Range[0],Range[1]),random.uniform(Range[0],Range[1])) + points.append(point) + Poly = Canvas.AddPolygon(points, + LineWidth = 2, + LineColor = "Black", + FillColor = "LightBlue", + FillStyle = 'Solid') + + Poly.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.SelectPoly) + + self.SelectedPoly = None + self.SelectPoints = [] + self.SelectedPoint = None + + Canvas.ZoomToBB() + + def SelectPoly(self, Object): + print "In SelectPoly" + Canvas = self.Canvas + if Object is self.SelectedPoly: + pass + else: + #fixme: Do something to unselect the old one + self.SelectedPoly = Object + Canvas.RemoveObjects(self.SelectPoints) + self.SelectPoints = [] + # Draw points on the Vertices of the Selected Poly: + for i, point in enumerate(Object.Points): + P = Canvas.AddPointSet(point, Diameter = 6, Color = "Red") + P.VerticeNum = i + P.Bind(FloatCanvas.EVT_FC_LEFT_DOWN, self.SelectPointHit) + self.SelectPoints.append(P) + #Canvas.ZoomToBB() + Canvas.Draw() + + def SelectPointHit(self, Point): + print "Point Num: %i Hit"%Point.VerticeNum + self.SelectedPoint = Point + + + class DemoApp(wx.App): """ How the demo works: @@ -370,17 +1200,41 @@ else: Chris.Barker@noaa.gov """ + + def __init__(self, *args, **kwargs): + wx.App.__init__(self, *args, **kwargs) def OnInit(self): - global colors - wxPython.lib.colourdb.updateColourDB() - colors = wxPython.lib.colourdb.getColourList() - - frame = DrawFrame(None, -1, "FloatCanvas Demo App", - wx.DefaultPosition, (700,700)) + wx.InitAllImageHandlers() + frame = DrawFrame(None, -1, "FloatCanvas Demo App",wx.DefaultPosition,(700,700)) self.SetTopWindow(frame) - + frame.Show() + + ## check to see if the demo is set to start in a particular mode. + if StartUpDemo == "text": + frame.TestText() + if StartUpDemo == "stext": + frame.TestScaledText() + elif StartUpDemo == "all": + frame.DrawTest() + elif StartUpDemo == "map": + frame.DrawMap() + elif StartUpDemo == "hit": + frame.TestHitTest() + elif StartUpDemo == "hitf": + "starting TestHitTestForeground" + frame.TestHitTestForeground() + elif StartUpDemo == "animate": + "starting TestAnimation" + frame.TestAnimation() + elif StartUpDemo == "speed": + "starting SpeedTest" + frame.SpeedTest() + elif StartUpDemo == "temp": + "starting temp Test" + frame.TempTest() + return True def Read_MapGen(filename,stats = 0,AllLines=0): @@ -395,7 +1249,6 @@ else: """ import string - from Numeric import array file = open(filename,'rt') data = file.readlines() data = map(string.strip,data) @@ -405,11 +1258,11 @@ else: for line in data: if line: if line == "# -b": #New segment beginning - if segment: Shorelines.append(array(segment)) + if segment: Shorelines.append(Numeric.array(segment)) segment = [] else: segment.append(map(float,string.split(line))) - if segment: Shorelines.append(array(segment)) + if segment: Shorelines.append(Numeric.array(segment)) if stats: NumSegments = len(Shorelines) @@ -427,49 +1280,43 @@ else: Lines.append(point) Lines.append(point) Lines.append(segment[-1]) - #print Shorelines - #for point in Lines: print point return Lines else: return Shorelines - - - #---------------------------------------------------------------------- - - def runTest(frame, nb, log): - """ - This method is used by the wxPython Demo Framework for integrating - this demo with the rest. - """ - global colors - wxPython.lib.colourdb.updateColourDB() - colors = wxPython.lib.colourdb.getColourList() - - win = DrawFrame(None, -1, "FloatCanvas Drawing Window", - wx.DefaultPosition, (500,500)) - frame.otherWin = win - win.Show(True) - - - ## for the wxPython demo: - overview = floatcanvas.FloatCanvas.__doc__ - + try: + import floatcanvas + except ImportError: # if it's not there locally, try the wxPython lib. + from wx.lib import floatcanvas + overview = floatcanvas.__doc__ if __name__ == "__main__": if not haveNumeric: print errorText else: - app = DemoApp(0) - - import wx.lib.colourdb - wx.lib.colourdb.updateColourDB() - colors = wx.lib.colourdb.getColourList() - + app = DemoApp(False)# put in True if you want output to go to it's own window. app.MainLoop() + + + + + + + + + + + + + + + + + +