#--------------------------------------------------------------------------- # Name: wx.lib.mixins.rubberband # Purpose: A mixin class for doing "RubberBand"-ing on a window. # # Author: Robb Shecter and members of wxPython-users # # Created: 11-September-2002 # Copyright: (c) 2002 by db-X Corporation # Licence: wxWindows license # Tags: phoenix-port #--------------------------------------------------------------------------- # 12/14/2003 - Jeff Grimmett (grimmtooth@softhome.net) # # o 2.5 compatability update. # o Tested, but there is an anomaly between first use and subsequent uses. # First use is odd, subsequent uses seem to be OK. Init error? # -- No, the first time it uses an aspect ratio, but after the reset it doesn't. # """ A mixin class for doing "RubberBand"-ing on a window. """ import wx # # Some miscellaneous mathematical and geometrical functions # def isNegative(aNumber): """ x < 0: 1 else: 0 """ return aNumber < 0 def normalizeBox(box): """ Convert any negative measurements in the current box to positive, and adjust the origin. """ x, y, w, h = box if w < 0: x += (w+1) w *= -1 if h < 0: y += (h+1) h *= -1 return (x, y, w, h) def boxToExtent(box): """ Convert a box specification to an extent specification. I put this into a seperate function after I realized that I had been implementing it wrong in several places. """ b = normalizeBox(box) return (b[0], b[1], b[0]+b[2]-1, b[1]+b[3]-1) def pointInBox(x, y, box): """ Return True if the given point is contained in the box. """ e = boxToExtent(box) return x >= e[0] and x <= e[2] and y >= e[1] and y <= e[3] def pointOnBox(x, y, box, thickness=1): """ Return True if the point is on the outside edge of the box. The thickness defines how thick the edge should be. This is necessary for HCI reasons: For example, it's normally very difficult for a user to manuever the mouse onto a one pixel border. """ outerBox = box innerBox = (box[0]+thickness, box[1]+thickness, box[2]-(thickness*2), box[3]-(thickness*2)) return pointInBox(x, y, outerBox) and not pointInBox(x, y, innerBox) def getCursorPosition(x, y, box, thickness=1): """ Return a position number in the range 0 .. 7 to indicate where on the box border the point is. The layout is: 0 1 2 7 3 6 5 4 """ x0, y0, x1, y1 = boxToExtent(box) w, h = box[2], box[3] delta = thickness - 1 p = None if pointInBox(x, y, (x0, y0, thickness, thickness)): p = 0 elif pointInBox(x, y, (x1-delta, y0, thickness, thickness)): p = 2 elif pointInBox(x, y, (x1-delta, y1-delta, thickness, thickness)): p = 4 elif pointInBox(x, y, (x0, y1-delta, thickness, thickness)): p = 6 elif pointInBox(x, y, (x0+thickness, y0, w-(thickness*2), thickness)): p = 1 elif pointInBox(x, y, (x1-delta, y0+thickness, thickness, h-(thickness*2))): p = 3 elif pointInBox(x, y, (x0+thickness, y1-delta, w-(thickness*2), thickness)): p = 5 elif pointInBox(x, y, (x0, y0+thickness, thickness, h-(thickness*2))): p = 7 return p class RubberBand: """ A stretchable border which is drawn on top of an image to define an area. """ def __init__(self, drawingSurface, aspectRatio=None): self.__THICKNESS = 5 self.drawingSurface = drawingSurface self.aspectRatio = aspectRatio self.hasLetUp = 0 self.currentlyMoving = None self.currentBox = None self.__enabled = 1 self.__currentCursor = None drawingSurface.Bind(wx.EVT_MOUSE_EVENTS, self.__handleMouseEvents) drawingSurface.Bind(wx.EVT_PAINT, self.__handleOnPaint) def __setEnabled(self, enabled): self.__enabled = enabled def __isEnabled(self): return self.__enabled def __handleOnPaint(self, event): #print('paint') event.Skip() def __isMovingCursor(self): """ Return True if the current cursor is one used to mean moving the rubberband. """ return self.__currentCursor == wx.CURSOR_HAND def __isSizingCursor(self): """ Return True if the current cursor is one of the ones I may use to signify sizing. """ sizingCursors = [wx.CURSOR_SIZENESW, wx.CURSOR_SIZENS, wx.CURSOR_SIZENWSE, wx.CURSOR_SIZEWE, wx.CURSOR_SIZING, wx.CURSOR_CROSS] try: sizingCursors.index(self.__currentCursor) return 1 except ValueError: return 0 def __handleMouseEvents(self, event): """ React according to the new event. This is the main entry point into the class. This method contains the logic for the class's behavior. """ if not self.enabled: return x, y = event.GetPosition() # First make sure we have started a box. if self.currentBox == None and not event.LeftDown(): # No box started yet. Set cursor to the initial kind. self.__setCursor(wx.CURSOR_CROSS) return if event.LeftDown(): if self.currentBox == None: # No RB Box, so start a new one. self.currentBox = (x, y, 0, 0) self.hasLetUp = 0 elif self.__isSizingCursor(): # Starting a sizing operation. Change the origin. position = getCursorPosition(x, y, self.currentBox, thickness=self.__THICKNESS) self.currentBox = self.__denormalizeBox(position, self.currentBox) elif event.Dragging() and event.LeftIsDown(): # Use the cursor type to determine operation if self.__isMovingCursor(): if self.currentlyMoving or pointInBox(x, y, self.currentBox): if not self.currentlyMoving: self.currentlyMoving = (x - self.currentBox[0], y - self.currentBox[1]) self.__moveTo(x - self.currentlyMoving[0], y - self.currentlyMoving[1]) elif self.__isSizingCursor(): self.__resizeBox(x, y) elif event.LeftUp(): self.hasLetUp = 1 self.currentlyMoving = None self.__normalizeBox() elif event.Moving() and not event.Dragging(): # Simple mouse movement event self.__mouseMoved(x,y) def __denormalizeBox(self, position, box): x, y, w, h = box b = box if position == 2 or position == 3: b = (x, y + (h-1), w, h * -1) elif position == 0 or position == 1 or position == 7: b = (x + (w-1), y + (h-1), w * -1, h * -1) elif position == 6: b = (x + (w-1), y, w * -1, h) return b def __resizeBox(self, x, y): """ Resize and repaint the box based on the given mouse coordinates. """ # Implement the correct behavior for dragging a side # of the box: Only change one dimension. if not self.aspectRatio: if self.__currentCursor == wx.CURSOR_SIZENS: x = None elif self.__currentCursor == wx.CURSOR_SIZEWE: y = None x0,y0,w0,h0 = self.currentBox currentExtent = boxToExtent(self.currentBox) if x == None: if w0 < 1: w0 += 1 else: w0 -= 1 x = x0 + w0 if y == None: if h0 < 1: h0 += 1 else: h0 -= 1 y = y0 + h0 x1,y1 = x, y w, h = abs(x1-x0)+1, abs(y1-y0)+1 if self.aspectRatio: w = max(w, int(h * self.aspectRatio)) h = int(w / self.aspectRatio) w *= [1,-1][isNegative(x1-x0)] h *= [1,-1][isNegative(y1-y0)] newbox = (x0, y0, w, h) self.__drawAndErase(boxToDraw=normalizeBox(newbox), boxToErase=normalizeBox(self.currentBox)) self.currentBox = (x0, y0, w, h) def __normalizeBox(self): """ Convert any negative measurements in the current box to positive, and adjust the origin. """ self.currentBox = normalizeBox(self.currentBox) def __mouseMoved(self, x, y): """ Called when the mouse moved without any buttons pressed or dragging being done. """ # Are we on the bounding box? if pointOnBox(x, y, self.currentBox, thickness=self.__THICKNESS): position = getCursorPosition(x, y, self.currentBox, thickness=self.__THICKNESS) cursor = [ wx.CURSOR_SIZENWSE, wx.CURSOR_SIZENS, wx.CURSOR_SIZENESW, wx.CURSOR_SIZEWE, wx.CURSOR_SIZENWSE, wx.CURSOR_SIZENS, wx.CURSOR_SIZENESW, wx.CURSOR_SIZEWE ] [position] self.__setCursor(cursor) elif pointInBox(x, y, self.currentBox): self.__setCursor(wx.CURSOR_HAND) else: self.__setCursor() def __setCursor(self, id=None): """ Set the mouse cursor to the given id. """ if self.__currentCursor != id: # Avoid redundant calls if id: self.drawingSurface.SetCursor(wx.Cursor(id)) else: self.drawingSurface.SetCursor(wx.NullCursor) self.__currentCursor = id def __moveCenterTo(self, x, y): """ Move the rubber band so that its center is at (x,y). """ x0, y0, w, h = self.currentBox x2, y2 = x - (w/2), y - (h/2) self.__moveTo(x2, y2) def __moveTo(self, x, y): """ Move the rubber band so that its origin is at (x,y). """ newbox = (x, y, self.currentBox[2], self.currentBox[3]) self.__drawAndErase(boxToDraw=newbox, boxToErase=self.currentBox) self.currentBox = newbox def __drawAndErase(self, boxToDraw, boxToErase=None): """ Draw one box shape and possibly erase another. """ dc = wx.ClientDC(self.drawingSurface) dc.SetPen(wx.Pen(wx.WHITE, 1, wx.PENSTYLE_DOT)) dc.SetBrush(wx.TRANSPARENT_BRUSH) dc.SetLogicalFunction(wx.XOR) if boxToErase: r = wx.Rect(*boxToErase) dc.DrawRectangle(r) r = wx.Rect(*boxToDraw) dc.DrawRectangle(r) def __dumpMouseEvent(self, event): print('Moving: ',event.Moving()) print('Dragging: ',event.Dragging()) print('LeftDown: ',event.LeftDown()) print('LeftisDown: ',event.LeftIsDown()) print('LeftUp: ',event.LeftUp()) print('Position: ',event.GetPosition()) print('x,y: ',event.GetX(),event.GetY()) print() # # The public API: # def reset(self, aspectRatio=None): """ Clear the existing rubberband """ self.currentBox = None self.aspectRatio = aspectRatio self.drawingSurface.Refresh() def getCurrentExtent(self): """ Return (x0, y0, x1, y1) or None if no drawing has yet been done. """ if not self.currentBox: extent = None else: extent = boxToExtent(self.currentBox) return extent enabled = property(__isEnabled, __setEnabled, None, 'True if I am responding to mouse events') if __name__ == '__main__': app = wx.App() frame = wx.Frame(None, -1, title='RubberBand Test', size=(300,300)) # Add a panel that the rubberband will work on. panel = wx.Panel(frame, -1) panel.SetBackgroundColour(wx.BLUE) # Create the rubberband frame.rubberBand = RubberBand(drawingSurface=panel) frame.rubberBand.reset(aspectRatio=0.5) # Add a button that creates a new rubberband def __newRubberBand(event): frame.rubberBand.reset() button = wx.Button(frame, 100, 'Reset Rubberband') frame.Bind(wx.EVT_BUTTON, __newRubberBand, button) # Layout the frame sizer = wx.BoxSizer(wx.VERTICAL) sizer.Add(panel, 1, wx.EXPAND | wx.ALL, 5) sizer.Add(button, 0, wx.ALIGN_CENTER | wx.ALL, 5) frame.SetAutoLayout(1) frame.SetSizer(sizer) frame.Show(1) app.MainLoop()