"""! @package mapdisp.mapwindow @brief Map display canvas - buffered window. Classes: - mapwindow::BufferedWindow - mapwindow::GraphicsSet - mapwindow::GraphicsSetItem (C) 2006-2012 by the GRASS Development Team This program is free software under the GNU General Public License (>=v2). Read the file COPYING that comes with GRASS for details. @author Martin Landa @author Michael Barton @author Jachym Cepicky @author Vaclav Petras (handlers support) @author Stepan Turek (handlers support, GraphicsSet) """ import os import time import math import sys from copy import copy import wx import grass.script as grass from gui_core.dialogs import SavedRegion from core.gcmd import RunCommand, GException, GError from core.debug import Debug from core.settings import UserSettings from gui_core.mapwindow import MapWindow try: import grass.lib.gis as gislib haveCtypes = True except ImportError: haveCtypes = False class BufferedWindow(MapWindow, wx.Window): """!A Buffered window class (2D view mode) Superclass for VDigitWindow (vector digitizer). When the drawing needs to change, you app needs to call the UpdateMap() method. Since the drawing is stored in a bitmap, you can also save the drawing to file by calling the SaveToFile() method. """ def __init__(self, parent, id = wx.ID_ANY, Map = None, tree = None, lmgr = None, style = wx.NO_FULL_REPAINT_ON_RESIZE, **kwargs): MapWindow.__init__(self, parent, id, Map, tree, lmgr, **kwargs) wx.Window.__init__(self, parent, id, style = style, **kwargs) # flags self.resize = False # indicates whether or not a resize event has taken place self.dragimg = None # initialize variable for map panning self.alwaysRender = False # if it always sets render to True in self.UpdateMap() # variables for drawing on DC self.pen = None # pen for drawing zoom boxes, etc. self.polypen = None # pen for drawing polylines (measurements, profiles, etc) # List of wx.Point tuples defining a polyline (geographical coordinates) self.polycoords = [] # ID of rubber band line self.lineid = None # ID of poly line resulting from cumulative rubber band lines (e.g. measurement) self.plineid = None # event bindings self.Bind(wx.EVT_PAINT, self.OnPaint) self.Bind(wx.EVT_SIZE, self.OnSize) self.Bind(wx.EVT_IDLE, self.OnIdle) self._bindMouseEvents() self.processMouse = True # render output objects self.mapfile = None # image file to be rendered self.img = None # wx.Image object (self.mapfile) # decoration overlays self.overlays = {} # images and their PseudoDC ID's for painting and dragging self.imagedict = {} self.select = {} # selecting/unselecting decorations for dragging self.textdict = {} # text, font, and color indexed by id self.currtxtid = None # PseudoDC id for currently selected text # zoom objects self.zoomhistory = [] # list of past zoom extents self.currzoom = 0 # current set of extents in zoom history being used self.zoomtype = 1 # 1 zoom in, 0 no zoom, -1 zoom out self.hitradius = 10 # distance for selecting map decorations self.dialogOffset = 5 # offset for dialog (e.g. DisplayAttributesDialog) # OnSize called to make sure the buffer is initialized. # This might result in OnSize getting called twice on some # platforms at initialization, but little harm done. ### self.OnSize(None) self._definePseudoDC() # redraw all pdc's, pdcTmp layer is redrawn always (speed issue) self.redrawAll = True # will store an off screen empty bitmap for saving to file self._buffer = wx.EmptyBitmap(max(1, self.Map.width), max(1, self.Map.height)) self.Bind(wx.EVT_ERASE_BACKGROUND, lambda x:None) # vars for handling mouse clicks self.dragid = -1 self.lastpos = (0, 0) # list for registration of graphics to draw self.graphicsSetList = [] def _definePseudoDC(self): """!Define PseudoDC objects to use """ # create PseudoDC used for background map, map decorations like scales and legends self.pdc = wx.PseudoDC() # used for digitization tool self.pdcVector = None # decorations (region box, etc.) self.pdcDec = wx.PseudoDC() # pseudoDC for temporal objects (select box, measurement tool, etc.) self.pdcTmp = wx.PseudoDC() def _bindMouseEvents(self): self.Bind(wx.EVT_MOUSE_EVENTS, self.MouseActions) self.Bind(wx.EVT_MOTION, self.OnMotion) self.Bind(wx.EVT_CONTEXT_MENU, self.OnContextMenu) def OnContextMenu(self, event): """!Show Map Display context menu""" if hasattr(self, "digit"): event.Skip() return if not hasattr(self, "popupCopyCoordinates"): self.popupCopyCoordinates = wx.NewId() self.Bind(wx.EVT_MENU, self.OnCopyCoordinates, id = self.popupCopyCoordinates) # generate popup-menu menu = wx.Menu() menu.Append(self.popupCopyCoordinates, _("Copy coordinates to clipboard")) self.PopupMenu(menu) menu.Destroy() def Draw(self, pdc, img = None, drawid = None, pdctype = 'image', coords = [0, 0, 0, 0]): """!Draws map and overlay decorations """ if drawid == None: if pdctype == 'image' and img: drawid = self.imagedict[img] elif pdctype == 'clear': drawid == None else: drawid = wx.NewId() if img and pdctype == 'image': # self.imagedict[img]['coords'] = coords self.select[self.imagedict[img]['id']] = False # ? pdc.BeginDrawing() if drawid != 99: bg = wx.TRANSPARENT_BRUSH else: bg = wx.Brush(self.GetBackgroundColour()) pdc.SetBackground(bg) Debug.msg (5, "BufferedWindow.Draw(): id=%s, pdctype = %s, coord=%s" % \ (drawid, pdctype, coords)) # set PseudoDC id if drawid is not None: pdc.SetId(drawid) if pdctype == 'clear': # erase the display bg = wx.WHITE_BRUSH # bg = wx.Brush(self.GetBackgroundColour()) pdc.SetBackground(bg) pdc.RemoveAll() pdc.Clear() pdc.EndDrawing() self.Refresh() return if pdctype == 'image': # draw selected image bitmap = wx.BitmapFromImage(img) w,h = bitmap.GetSize() pdc.DrawBitmap(bitmap, coords[0], coords[1], True) # draw the composite map pdc.SetIdBounds(drawid, wx.Rect(coords[0],coords[1], w, h)) elif pdctype == 'box': # draw a box on top of the map if self.pen: pdc.SetBrush(wx.Brush(wx.CYAN, wx.TRANSPARENT)) pdc.SetPen(self.pen) x2 = max(coords[0],coords[2]) x1 = min(coords[0],coords[2]) y2 = max(coords[1],coords[3]) y1 = min(coords[1],coords[3]) rwidth = x2-x1 rheight = y2-y1 rect = wx.Rect(x1, y1, rwidth, rheight) pdc.DrawRectangleRect(rect) pdc.SetIdBounds(drawid, rect) elif pdctype == 'line': # draw a line on top of the map if self.pen: pdc.SetBrush(wx.Brush(wx.CYAN, wx.TRANSPARENT)) pdc.SetPen(self.pen) pdc.DrawLinePoint(wx.Point(coords[0], coords[1]),wx.Point(coords[2], coords[3])) pdc.SetIdBounds(drawid, wx.Rect(coords[0], coords[1], coords[2], coords[3])) elif pdctype == 'polyline': # draw a polyline on top of the map if self.polypen: pdc.SetBrush(wx.Brush(wx.CYAN, wx.TRANSPARENT)) pdc.SetPen(self.polypen) if (len(coords) < 2): return i = 1 while i < len(coords): pdc.DrawLinePoint(wx.Point(coords[i-1][0], coords[i-1][1]), wx.Point(coords[i][0], coords[i][1])) i += 1 # get bounding rectangle for polyline xlist = [] ylist = [] if len(coords) > 0: for point in coords: x,y = point xlist.append(x) ylist.append(y) x1 = min(xlist) x2 = max(xlist) y1 = min(ylist) y2 = max(ylist) pdc.SetIdBounds(drawid, wx.Rect(x1,y1,x2,y2)) # self.ovlcoords[drawid] = [x1,y1,x2,y2] elif pdctype == 'point': # draw point if self.pen: pdc.SetPen(self.pen) pdc.DrawPoint(coords[0], coords[1]) coordsBound = (coords[0] - 5, coords[1] - 5, coords[0] + 5, coords[1] + 5) pdc.SetIdBounds(drawid, wx.Rect(coordsBound)) elif pdctype == 'text': # draw text on top of map if not img['active']: return # only draw active text if 'rotation' in img: rotation = float(img['rotation']) else: rotation = 0.0 w, h = self.GetFullTextExtent(img['text'])[0:2] pdc.SetFont(img['font']) pdc.SetTextForeground(img['color']) coords, bbox = self.TextBounds(img) if rotation == 0: pdc.DrawText(img['text'], coords[0], coords[1]) else: pdc.DrawRotatedText(img['text'], coords[0], coords[1], rotation) pdc.SetIdBounds(drawid, bbox) pdc.EndDrawing() self.Refresh() return drawid def TextBounds(self, textinfo, relcoords = False): """!Return text boundary data @param textinfo text metadata (text, font, color, rotation) @param coords reference point @return coords of nonrotated text bbox (TL corner) @return bbox of rotated text bbox (wx.Rect) @return relCoords are text coord inside bbox """ if 'rotation' in textinfo: rotation = float(textinfo['rotation']) else: rotation = 0.0 coords = textinfo['coords'] bbox = wx.Rect(coords[0], coords[1], 0, 0) relCoords = (0, 0) Debug.msg (4, "BufferedWindow.TextBounds(): text=%s, rotation=%f" % \ (textinfo['text'], rotation)) self.Update() self.SetFont(textinfo['font']) w, h = self.GetTextExtent(textinfo['text']) if rotation == 0: bbox[2], bbox[3] = w, h if relcoords: return coords, bbox, relCoords else: return coords, bbox boxh = math.fabs(math.sin(math.radians(rotation)) * w) + h boxw = math.fabs(math.cos(math.radians(rotation)) * w) + h if rotation > 0 and rotation < 90: bbox[1] -= boxh relCoords = (0, boxh) elif rotation >= 90 and rotation < 180: bbox[0] -= boxw bbox[1] -= boxh relCoords = (boxw, boxh) elif rotation >= 180 and rotation < 270: bbox[0] -= boxw relCoords = (boxw, 0) bbox[2] = boxw bbox[3] = boxh bbox.Inflate(h,h) if relcoords: return coords, bbox, relCoords else: return coords, bbox def OnPaint(self, event): """!Draw PseudoDC's to buffered paint DC If self.redrawAll is False on self.pdcTmp content is re-drawn """ Debug.msg(4, "BufferedWindow.OnPaint(): redrawAll=%s" % self.redrawAll) dc = wx.BufferedPaintDC(self, self._buffer) dc.Clear() # use PrepareDC to set position correctly self.PrepareDC(dc) # create a clipping rect from our position and size # and update region rgn = self.GetUpdateRegion().GetBox() dc.SetClippingRect(rgn) switchDraw = False if self.redrawAll is None: self.redrawAll = True switchDraw = True if self.redrawAll: # redraw pdc and pdcVector # draw to the dc using the calculated clipping rect self.pdc.DrawToDCClipped(dc, rgn) # draw vector map layer if hasattr(self, "digit"): # decorate with GDDC (transparency) try: gcdc = wx.GCDC(dc) self.pdcVector.DrawToDCClipped(gcdc, rgn) except NotImplementedError, e: print >> sys.stderr, e self.pdcVector.DrawToDCClipped(dc, rgn) self.bufferLast = None else: # do not redraw pdc and pdcVector if self.bufferLast is None: # draw to the dc self.pdc.DrawToDC(dc) if hasattr(self, "digit"): # decorate with GDDC (transparency) try: gcdc = wx.GCDC(dc) self.pdcVector.DrawToDC(gcdc) except NotImplementedError, e: print >> sys.stderr, e self.pdcVector.DrawToDC(dc) # store buffered image # self.bufferLast = wx.BitmapFromImage(self.buffer.ConvertToImage()) self.bufferLast = dc.GetAsBitmap(wx.Rect(0, 0, self.Map.width, self.Map.height)) self.pdc.DrawBitmap(self.bufferLast, 0, 0, False) self.pdc.DrawToDC(dc) # draw decorations (e.g. region box) try: gcdc = wx.GCDC(dc) self.pdcDec.DrawToDC(gcdc) except NotImplementedError, e: print >> sys.stderr, e self.pdcDec.DrawToDC(dc) # draw temporary object on the foreground ### self.pdcTmp.DrawToDCClipped(dc, rgn) self.pdcTmp.DrawToDC(dc) if switchDraw: self.redrawAll = False def OnSize(self, event): """!Scale map image so that it is the same size as the Window """ # re-render image on idle self.resize = time.clock() def OnIdle(self, event): """!Only re-render a composite map image from GRASS during idle time instead of multiple times during resizing. """ # use OnInternalIdle() instead ? if self.resize and self.resize + 0.2 < time.clock(): Debug.msg(3, "BufferedWindow.OnSize():") # set size of the input image self.Map.ChangeMapSize(self.GetClientSize()) # Make new off screen bitmap: this bitmap will always have the # current drawing in it, so it can be used to save the image to # a file, or whatever. self._buffer.Destroy() self._buffer = wx.EmptyBitmap(max(1, self.Map.width), max(1, self.Map.height)) # get the image to be rendered self.img = self.GetImage() # update map display updatemap = True if self.img and self.Map.width + self.Map.height > 0: # scale image after resize self.img = self.img.Scale(self.Map.width, self.Map.height) if len(self.Map.GetListOfLayers()) > 0: self.UpdateMap() updatemap = False # reposition checkbox in statusbar self.parent.StatusbarReposition() # update statusbar self.parent.StatusbarUpdate() if updatemap: self.UpdateMap(render = True) self.resize = False elif self.resize: event.RequestMore() event.Skip() def SaveToFile(self, FileName, FileType, width, height): """!This draws the pseudo DC to a buffer that can be saved to a file. @param FileName file name @param FileType type of bitmap @param width image width @param height image height """ busy = wx.BusyInfo(message = _("Please wait, exporting image..."), parent = self) wx.Yield() self.Map.ChangeMapSize((width, height)) ibuffer = wx.EmptyBitmap(max(1, width), max(1, height)) self.Map.Render(force = True, windres = False) img = self.GetImage() self.pdc.RemoveAll() self.Draw(self.pdc, img, drawid = 99) # compute size ratio to move overlay accordingly cSize = self.GetClientSizeTuple() ratio = float(width) / cSize[0], float(height) / cSize[1] # redraw legend, scalebar for img in self.GetOverlay(): # draw any active and defined overlays if self.imagedict[img]['layer'].IsActive(): id = self.imagedict[img]['id'] coords = int(ratio[0] * self.overlays[id]['coords'][0]),\ int(ratio[1] * self.overlays[id]['coords'][1]) self.Draw(self.pdc, img = img, drawid = id, pdctype = self.overlays[id]['pdcType'], coords = coords) # redraw text labels for id in self.textdict.keys(): textinfo = self.textdict[id] oldCoords = textinfo['coords'] textinfo['coords'] = ratio[0] * textinfo['coords'][0],\ ratio[1] * textinfo['coords'][1] self.Draw(self.pdc, img = self.textdict[id], drawid = id, pdctype = 'text') # set back old coordinates textinfo['coords'] = oldCoords dc = wx.BufferedDC(None, ibuffer) dc.Clear() self.PrepareDC(dc) self.pdc.DrawToDC(dc) if self.pdcVector: self.pdcVector.DrawToDC(dc) ibuffer.SaveFile(FileName, FileType) busy.Destroy() self.UpdateMap(render = True) self.Refresh() def GetOverlay(self): """!Converts rendered overlay files to wx.Image Updates self.imagedict @return list of images """ imgs = [] for overlay in self.Map.GetListOfLayers(l_type = "overlay", l_active = True): if overlay.mapfile is not None \ and os.path.isfile(overlay.mapfile) and os.path.getsize(overlay.mapfile): img = wx.Image(overlay.mapfile, wx.BITMAP_TYPE_ANY) for key in self.imagedict.keys(): if self.imagedict[key]['id'] == overlay.id: del self.imagedict[key] self.imagedict[img] = { 'id' : overlay.id, 'layer' : overlay } imgs.append(img) return imgs def GetImage(self): """!Converts redered map files to wx.Image Updates self.imagedict (id=99) @return wx.Image instance (map composition) """ imgId = 99 if self.mapfile and self.Map.mapfile and os.path.isfile(self.Map.mapfile) and \ os.path.getsize(self.Map.mapfile): img = wx.Image(self.Map.mapfile, wx.BITMAP_TYPE_ANY) else: img = None for key in self.imagedict.keys(): if self.imagedict[key]['id'] == imgId: del self.imagedict[key] self.imagedict[img] = { 'id': imgId } return img def SetAlwaysRenderEnabled(self, alwaysRender = True): self.alwaysRender = alwaysRender def IsAlwaysRenderEnabled(self): return self.alwaysRender def UpdateMap(self, render = True, renderVector = True): """!Updates the canvas anytime there is a change to the underlaying images or to the geometry of the canvas. @param render re-render map composition @param renderVector re-render vector map layer enabled for editing (used for digitizer) """ start = time.clock() self.resize = False # was if self.Map.cmdfile and ... if self.IsAlwaysRenderEnabled() and self.img is None: render = True # # initialize process bar (only on 'render') # if render or renderVector: self.parent.GetProgressBar().Show() if self.parent.GetProgressBar().GetRange() > 0: self.parent.GetProgressBar().SetValue(1) # # render background image if needed # # update layer dictionary if there has been a change in layers if self.tree and self.tree.reorder: self.tree.ReorderLayers() # reset flag for auto-rendering if self.tree: self.tree.rerender = False try: if render: # update display size self.Map.ChangeMapSize(self.GetClientSize()) if self.parent.GetProperty('resolution'): # use computation region resolution for rendering windres = True else: windres = False self.mapfile = self.Map.Render(force = True, mapWindow = self.parent, windres = windres) else: self.mapfile = self.Map.Render(force = False, mapWindow = self.parent) except GException, e: GError(message = e.value) self.mapfile = None self.img = self.GetImage() # id=99 # # clear pseudoDcs # for pdc in (self.pdc, self.pdcDec, self.pdcTmp): pdc.Clear() pdc.RemoveAll() # # draw background map image to PseudoDC # if not self.img: self.Draw(self.pdc, pdctype = 'clear') else: try: id = self.imagedict[self.img]['id'] except: return False self.Draw(self.pdc, self.img, drawid = id) # # render vector map layer # if renderVector and hasattr(self, "digit"): self._updateMap() # # render overlays # for img in self.GetOverlay(): # draw any active and defined overlays if self.imagedict[img]['layer'].IsActive(): id = self.imagedict[img]['id'] self.Draw(self.pdc, img = img, drawid = id, pdctype = self.overlays[id]['pdcType'], coords = self.overlays[id]['coords']) for id in self.textdict.keys(): self.Draw(self.pdc, img = self.textdict[id], drawid = id, pdctype = 'text', coords = [10, 10, 10, 10]) # optionally draw computational extent box self.DrawCompRegionExtent() # # redraw pdcTmp if needed # # draw registered graphics if len(self.graphicsSetList) > 0: penOrig = self.pen polypenOrig = self.polypen for item in self.graphicsSetList: try: item.Draw(self.pdcTmp) except: GError(parent = self, message = _('Unable to draw registered graphics. ' 'The graphics was unregistered.')) self.UnregisterGraphicsToDraw(item) self.pen = penOrig self.polypen = polypenOrig if len(self.polycoords) > 0: self.DrawLines(self.pdcTmp) # # clear measurement # if self.mouse["use"] == "measure": self.ClearLines(pdc = self.pdcTmp) self.polycoords = [] self.mouse['use'] = 'pointer' self.mouse['box'] = 'point' self.mouse['end'] = [0, 0] self.SetCursor(self.parent.cursors["default"]) stop = time.clock() # # hide process bar # self.parent.GetProgressBar().Hide() # # update statusbar # ### self.Map.SetRegion() self.parent.StatusbarUpdate() Debug.msg (1, "BufferedWindow.UpdateMap(): render=%s, renderVector=%s -> time=%g" % \ (render, renderVector, (stop-start))) return True def DrawCompRegionExtent(self): """!Draw computational region extent in the display Display region is drawn as a blue box inside the computational region, computational region inside a display region as a red box). """ if hasattr(self, "regionCoords"): compReg = self.Map.GetRegion() dispReg = self.Map.GetCurrentRegion() reg = None if self.IsInRegion(dispReg, compReg): self.polypen = wx.Pen(colour = wx.Colour(0, 0, 255, 128), width = 3, style = wx.SOLID) reg = dispReg else: self.polypen = wx.Pen(colour = wx.Colour(255, 0, 0, 128), width = 3, style = wx.SOLID) reg = compReg self.regionCoords = [] self.regionCoords.append((reg['w'], reg['n'])) self.regionCoords.append((reg['e'], reg['n'])) self.regionCoords.append((reg['e'], reg['s'])) self.regionCoords.append((reg['w'], reg['s'])) self.regionCoords.append((reg['w'], reg['n'])) # draw region extent self.DrawLines(pdc = self.pdcDec, polycoords = self.regionCoords) def IsInRegion(self, region, refRegion): """! Test if 'region' is inside of 'refRegion' @param region input region @param refRegion reference region (e.g. computational region) @return True if region is inside of refRegion @return False """ if region['s'] >= refRegion['s'] and \ region['n'] <= refRegion['n'] and \ region['w'] >= refRegion['w'] and \ region['e'] <= refRegion['e']: return True return False def EraseMap(self): """!Erase map canvas """ self.Draw(self.pdc, pdctype = 'clear') if hasattr(self, "digit"): self.Draw(self.pdcVector, pdctype = 'clear') self.Draw(self.pdcDec, pdctype = 'clear') self.Draw(self.pdcTmp, pdctype = 'clear') def DragMap(self, moveto): """!Drag the entire map image for panning. @param moveto dx,dy """ dc = wx.BufferedDC(wx.ClientDC(self)) dc.SetBackground(wx.Brush("White")) dc.Clear() self.dragimg = wx.DragImage(self._buffer) self.dragimg.BeginDrag((0, 0), self) self.dragimg.GetImageRect(moveto) self.dragimg.Move(moveto) self.dragimg.DoDrawImage(dc, moveto) self.dragimg.EndDrag() def DragItem(self, id, event): """!Drag an overlay decoration item """ if id == 99 or id == '' or id == None: return Debug.msg (5, "BufferedWindow.DragItem(): id=%d" % id) x, y = self.lastpos dx = event.GetX() - x dy = event.GetY() - y self.pdc.SetBackground(wx.Brush(self.GetBackgroundColour())) r = self.pdc.GetIdBounds(id) if type(r) is list: r = wx.Rect(r[0], r[1], r[2], r[3]) if id > 100: # text dragging rtop = (r[0],r[1]-r[3],r[2],r[3]) r = r.Union(rtop) rleft = (r[0]-r[2],r[1],r[2],r[3]) r = r.Union(rleft) self.pdc.TranslateId(id, dx, dy) r2 = self.pdc.GetIdBounds(id) if type(r2) is list: r2 = wx.Rect(r[0], r[1], r[2], r[3]) if id > 100: # text self.textdict[id]['bbox'] = r2 self.textdict[id]['coords'][0] += dx self.textdict[id]['coords'][1] += dy r = r.Union(r2) r.Inflate(4,4) self.RefreshRect(r, False) self.lastpos = (event.GetX(), event.GetY()) def MouseDraw(self, pdc = None, begin = None, end = None): """!Mouse box or line from 'begin' to 'end' If not given from self.mouse['begin'] to self.mouse['end']. """ if not pdc: return if begin is None: begin = self.mouse['begin'] if end is None: end = self.mouse['end'] Debug.msg (5, "BufferedWindow.MouseDraw(): use=%s, box=%s, begin=%f,%f, end=%f,%f" % \ (self.mouse['use'], self.mouse['box'], begin[0], begin[1], end[0], end[1])) if self.mouse['box'] == "box": boxid = wx.ID_NEW mousecoords = [begin[0], begin[1], end[0], end[1]] r = pdc.GetIdBounds(boxid) if type(r) is list: r = wx.Rect(r[0], r[1], r[2], r[3]) r.Inflate(4, 4) try: pdc.ClearId(boxid) except: pass self.RefreshRect(r, False) pdc.SetId(boxid) self.Draw(pdc, drawid = boxid, pdctype = 'box', coords = mousecoords) elif self.mouse['box'] == "line": self.lineid = wx.ID_NEW mousecoords = [begin[0], begin[1], \ end[0], end[1]] x1 = min(begin[0],end[0]) x2 = max(begin[0],end[0]) y1 = min(begin[1],end[1]) y2 = max(begin[1],end[1]) r = wx.Rect(x1,y1,x2-x1,y2-y1) r.Inflate(4,4) try: pdc.ClearId(self.lineid) except: pass self.RefreshRect(r, False) pdc.SetId(self.lineid) self.Draw(pdc, drawid = self.lineid, pdctype = 'line', coords = mousecoords) def DrawLines(self, pdc = None, polycoords = None): """!Draw polyline in PseudoDC Set self.pline to wx.NEW_ID + 1 polycoords - list of polyline vertices, geographical coordinates (if not given, self.polycoords is used) """ if not pdc: pdc = self.pdcTmp if not polycoords: polycoords = self.polycoords if len(polycoords) > 0: self.plineid = wx.ID_NEW + 1 # convert from EN to XY coords = [] for p in polycoords: coords.append(self.Cell2Pixel(p)) self.Draw(pdc, drawid = self.plineid, pdctype = 'polyline', coords = coords) Debug.msg (4, "BufferedWindow.DrawLines(): coords=%s, id=%s" % \ (coords, self.plineid)) return self.plineid return -1 def DrawCross(self, pdc, coords, size, rotation = 0, text = None, textAlign = 'lr', textOffset = (5, 5)): """!Draw cross in PseudoDC @todo implement rotation @param pdc PseudoDC @param coords center coordinates @param rotation rotate symbol @param text draw also text (text, font, color, rotation) @param textAlign alignment (default 'lower-right') @param textOffset offset for text (from center point) """ Debug.msg(4, "BufferedWindow.DrawCross(): pdc=%s, coords=%s, size=%d" % \ (pdc, coords, size)) coordsCross = ((coords[0] - size, coords[1], coords[0] + size, coords[1]), (coords[0], coords[1] - size, coords[0], coords[1] + size)) self.lineid = wx.NewId() for lineCoords in coordsCross: self.Draw(pdc, drawid = self.lineid, pdctype = 'line', coords = lineCoords) if not text: return self.lineid if textAlign == 'ul': coord = [coords[0] - textOffset[0], coords[1] - textOffset[1], 0, 0] elif textAlign == 'ur': coord = [coords[0] + textOffset[0], coords[1] - textOffset[1], 0, 0] elif textAlign == 'lr': coord = [coords[0] + textOffset[0], coords[1] + textOffset[1], 0, 0] else: coord = [coords[0] - textOffset[0], coords[1] + textOffset[1], 0, 0] self.Draw(pdc, img = text, pdctype = 'text', coords = coord) return self.lineid def MouseActions(self, event): """!Mouse motion and button click notifier """ if not self.processMouse: return # zoom with mouse wheel if event.GetWheelRotation() != 0: self.OnMouseWheel(event) # left mouse button pressed elif event.LeftDown(): self.OnLeftDown(event) # left mouse button released elif event.LeftUp(): self.OnLeftUp(event) # dragging elif event.Dragging(): self.OnDragging(event) # double click elif event.ButtonDClick(): self.OnButtonDClick(event) # middle mouse button pressed elif event.MiddleDown(): self.OnMiddleDown(event) # middle mouse button relesed elif event.MiddleUp(): self.OnMiddleUp(event) # right mouse button pressed elif event.RightDown(): self.OnRightDown(event) # right mouse button released elif event.RightUp(): self.OnRightUp(event) elif event.Entering(): self.OnMouseEnter(event) elif event.Moving(): self.OnMouseMoving(event) def OnMouseWheel(self, event): """!Mouse wheel moved """ zoomBehaviour = UserSettings.Get(group = 'display', key = 'mouseWheelZoom', subkey = 'selection') if zoomBehaviour == 2: event.Skip() return self.processMouse = False current = event.GetPositionTuple()[:] wheel = event.GetWheelRotation() Debug.msg (5, "BufferedWindow.MouseAction(): wheel=%d" % wheel) if wheel > 0: zoomtype = 1 else: zoomtype = -1 if UserSettings.Get(group = 'display', key = 'scrollDirection', subkey = 'selection'): zoomtype *= -1 # zoom 1/2 of the screen (TODO: settings) if zoomBehaviour == 0: # zoom and recenter if zoomtype > 0: begin = (current[0] - self.Map.width / 4, current[1] - self.Map.height / 4) end = (current[0] + self.Map.width / 4, current[1] + self.Map.height / 4) else: begin = ((self.Map.width - current[0]) / 2, (self.Map.height - current[1]) / 2) end = (begin[0] + self.Map.width / 2, begin[1] + self.Map.height / 2) elif zoomBehaviour == 1: # zoom to current cursor position begin = (current[0]/2, current[1]/2) end = ((self.Map.width - current[0])/2 + current[0], (self.Map.height - current[1])/2 + current[1]) # zoom self.Zoom(begin, end, zoomtype) # redraw map self.UpdateMap() # update statusbar self.parent.StatusbarUpdate() self.Refresh() self.processMouse = True def OnDragging(self, event): """!Mouse dragging """ Debug.msg (5, "BufferedWindow.MouseAction(): Dragging") current = event.GetPositionTuple()[:] previous = self.mouse['begin'] move = (current[0] - previous[0], current[1] - previous[1]) if hasattr(self, "digit"): digitToolbar = self.toolbar else: digitToolbar = None # dragging or drawing box with left button if self.mouse['use'] == 'pan' or \ event.MiddleIsDown(): self.DragMap(move) # dragging decoration overlay item elif (self.mouse['use'] == 'pointer' and not digitToolbar and self.dragid != None): self.DragItem(self.dragid, event) # dragging anything else - rubber band box or line else: if (self.mouse['use'] == 'pointer' and not digitToolbar): return self.mouse['end'] = event.GetPositionTuple()[:] if (event.LeftIsDown() and not (digitToolbar and digitToolbar.GetAction() in ("moveLine",) and self.digit.GetDisplay().GetSelected() > 0)): self.MouseDraw(pdc = self.pdcTmp) def OnLeftDown(self, event): """!Left mouse button pressed """ Debug.msg (5, "BufferedWindow.OnLeftDown(): use=%s" % \ self.mouse["use"]) self.mouse['begin'] = event.GetPositionTuple()[:] if self.mouse["use"] in ["measure", "profile"]: # measure or profile if len(self.polycoords) == 0: self.mouse['end'] = self.mouse['begin'] self.polycoords.append(self.Pixel2Cell(self.mouse['begin'])) self.ClearLines(pdc=self.pdcTmp) else: self.mouse['begin'] = self.mouse['end'] elif self.mouse['use'] in ('zoom', 'legend'): pass # vector digizer elif self.mouse["use"] == "pointer" and \ hasattr(self, "digit"): if event.ControlDown(): self.OnLeftDownUndo(event) else: self._onLeftDown(event) elif self.mouse['use'] == 'pointer': # get decoration or text id self.idlist = [] self.dragid = '' self.lastpos = self.mouse['begin'] idlist = self.pdc.FindObjects(self.lastpos[0], self.lastpos[1], self.hitradius) if 99 in idlist: idlist.remove(99) if idlist != []: self.dragid = idlist[0] #drag whatever is on top else: pass event.Skip() def OnLeftUp(self, event): """!Left mouse button released """ Debug.msg (5, "BufferedWindow.OnLeftUp(): use=%s" % \ self.mouse["use"]) self.mouse['end'] = event.GetPositionTuple()[:] if self.mouse['use'] in ["zoom", "pan"]: # set region in zoom or pan begin = self.mouse['begin'] end = self.mouse['end'] if self.mouse['use'] == 'zoom': # set region for click (zero-width box) if begin[0] - end[0] == 0 or \ begin[1] - end[1] == 0: # zoom 1/2 of the screen (TODO: settings) begin = (end[0] - self.Map.width / 4, end[1] - self.Map.height / 4) end = (end[0] + self.Map.width / 4, end[1] + self.Map.height / 4) self.Zoom(begin, end, self.zoomtype) # redraw map self.UpdateMap(render = True) # update statusbar self.parent.StatusbarUpdate() elif self.mouse["use"] == "query": # querying layers = self.GetSelectedLayer(multi = True) isRaster = False nVectors = 0 for l in layers: if l.GetType() == 'raster': isRaster = True break if l.GetType() == 'vector': nVectors += 1 if isRaster or nVectors > 1: self.parent.QueryMap(self.mouse['begin'][0],self.mouse['begin'][1]) else: self.parent.QueryVector(self.mouse['begin'][0], self.mouse['begin'][1]) # clear temp canvas self.UpdateMap(render = False, renderVector = False) elif self.mouse["use"] == "queryVector": # editable mode for vector map layers self.parent.QueryVector(self.mouse['begin'][0], self.mouse['begin'][1]) # clear temp canvas self.UpdateMap(render = False, renderVector = False) elif self.mouse["use"] in ["measure", "profile"]: # measure or profile if self.mouse["use"] == "measure": self.parent.MeasureDist(self.mouse['begin'], self.mouse['end']) self.polycoords.append(self.Pixel2Cell(self.mouse['end'])) self.ClearLines(pdc = self.pdcTmp) self.DrawLines(pdc = self.pdcTmp) elif self.mouse["use"] == "pointer" and \ not self.parent.IsStandalone() and \ self.parent.GetLayerManager().gcpmanagement: # -> GCP manager if self.parent.GetToolbar('gcpdisp'): coord = self.Pixel2Cell(self.mouse['end']) if self.parent.MapWindow == self.parent.SrcMapWindow: coordtype = 'source' else: coordtype = 'target' self.parent.GetLayerManager().gcpmanagement.SetGCPData(coordtype, coord, self, confirm = True) self.UpdateMap(render = False, renderVector = False) elif self.mouse["use"] == "pointer" and \ hasattr(self, "digit"): self._onLeftUp(event) elif (self.mouse['use'] == 'pointer' and self.dragid >= 0): # end drag of overlay decoration if self.dragid < 99 and self.dragid in self.overlays: self.overlays[self.dragid]['coords'] = self.pdc.GetIdBounds(self.dragid) elif self.dragid > 100 and self.dragid in self.textdict: self.textdict[self.dragid]['bbox'] = self.pdc.GetIdBounds(self.dragid) else: pass self.dragid = None self.currtxtid = None elif self.mouse['use'] == 'legend': self.ResizeLegend(self.mouse["begin"], self.mouse["end"]) self.parent.dialogs['legend'].FindWindowByName("resize").SetValue(False) self.Map.GetOverlay(1).SetActive(True) self.parent.MapWindow.SetCursor(self.parent.cursors["default"]) self.parent.MapWindow.mouse['use'] = 'pointer' self.UpdateMap() def OnButtonDClick(self, event): """!Mouse button double click """ Debug.msg (5, "BufferedWindow.OnButtonDClick(): use=%s" % \ self.mouse["use"]) if self.mouse["use"] == "measure": # measure self.ClearLines(pdc=self.pdcTmp) self.polycoords = [] self.mouse['use'] = 'pointer' self.mouse['box'] = 'point' self.mouse['end'] = [0, 0] self.Refresh() self.SetCursor(self.parent.cursors["default"]) elif self.mouse["use"] != "profile" or \ (self.mouse['use'] != 'pointer' and \ hasattr(self, "digit")): # select overlay decoration options dialog clickposition = event.GetPositionTuple()[:] idlist = self.pdc.FindObjects(clickposition[0], clickposition[1], self.hitradius) if idlist == []: return self.dragid = idlist[0] # self.ovlcoords[self.dragid] = self.pdc.GetIdBounds(self.dragid) if self.dragid > 100: self.currtxtid = self.dragid self.parent.OnAddText(None) elif self.dragid == 0: self.parent.OnAddBarscale(None) elif self.dragid == 1: self.parent.OnAddLegend(None) def OnRightDown(self, event): """!Right mouse button pressed """ Debug.msg (5, "BufferedWindow.OnRightDown(): use=%s" % \ self.mouse["use"]) if hasattr(self, "digit"): self._onRightDown(event) event.Skip() def OnRightUp(self, event): """!Right mouse button released """ Debug.msg (5, "BufferedWindow.OnRightUp(): use=%s" % \ self.mouse["use"]) if hasattr(self, "digit"): self._onRightUp(event) self.redrawAll = True self.Refresh() event.Skip() def OnMiddleDown(self, event): """!Middle mouse button pressed """ if not event: return self.mouse['begin'] = event.GetPositionTuple()[:] def OnMiddleUp(self, event): """!Middle mouse button released """ self.mouse['end'] = event.GetPositionTuple()[:] # set region in zoom or pan begin = self.mouse['begin'] end = self.mouse['end'] self.Zoom(begin, end, 0) # no zoom # redraw map self.UpdateMap(render = True) # update statusbar self.parent.StatusbarUpdate() def OnMouseEnter(self, event): """!Mouse entered window and no mouse buttons were pressed """ if not self.parent.IsStandalone() and \ self.parent.GetLayerManager().gcpmanagement: if self.parent.GetToolbar('gcpdisp'): if not self.parent.MapWindow == self: self.parent.MapWindow = self self.parent.Map = self.Map self.parent.UpdateActive(self) # needed for wingrass self.SetFocus() else: event.Skip() def OnMouseMoving(self, event): """!Motion event and no mouse buttons were pressed """ if self.mouse["use"] == "pointer" and \ hasattr(self, "digit"): self._onMouseMoving(event) event.Skip() def OnCopyCoordinates(self, event): """!Copy coordinates to cliboard""" e, n = self.GetLastEN() if wx.TheClipboard.Open(): do = wx.TextDataObject() # TODO: put delimiter in settings and apply also for Go to in statusbar delim = ';' do.SetText(str(e) + delim + str(n)) wx.TheClipboard.SetData(do) wx.TheClipboard.Close() def ClearLines(self, pdc = None): """!Clears temporary drawn lines from PseudoDC """ if not pdc: pdc = self.pdcTmp try: pdc.ClearId(self.lineid) pdc.RemoveId(self.lineid) except: pass try: pdc.ClearId(self.plineid) pdc.RemoveId(self.plineid) except: pass Debug.msg(4, "BufferedWindow.ClearLines(): lineid=%s, plineid=%s" % (self.lineid, self.plineid)) return True def Pixel2Cell(self, (x, y)): """!Convert image coordinates to real word coordinates @param x, y image coordinates @return easting, northing @return None on error """ try: x = int(x) y = int(y) except: return None if self.Map.region["ewres"] > self.Map.region["nsres"]: res = self.Map.region["ewres"] else: res = self.Map.region["nsres"] w = self.Map.region["center_easting"] - (self.Map.width / 2) * res n = self.Map.region["center_northing"] + (self.Map.height / 2) * res east = w + x * res north = n - y * res return (east, north) def Cell2Pixel(self, (east, north)): """!Convert real word coordinates to image coordinates """ try: east = float(east) north = float(north) except: return None if self.Map.region["ewres"] > self.Map.region["nsres"]: res = self.Map.region["ewres"] else: res = self.Map.region["nsres"] w = self.Map.region["center_easting"] - (self.Map.width / 2) * res n = self.Map.region["center_northing"] + (self.Map.height / 2) * res x = (east - w) / res y = (n - north) / res return (x, y) def ResizeLegend(self, begin, end): w = abs(begin[0] - end[0]) h = abs(begin[1] - end[1]) if begin[0] < end[0]: x = begin[0] else: x = end[0] if begin[1] < end[1]: y = begin[1] else: y = end[1] screenRect = wx.Rect(x, y, w, h) screenSize = self.GetClientSizeTuple() at = [(screenSize[1] - (y + h)) / float(screenSize[1]) * 100, (screenSize[1] - y) / float(screenSize[1]) * 100, x / float(screenSize[0]) * 100, (x + w) / float(screenSize[0]) * 100] for i, subcmd in enumerate(self.overlays[1]['cmd']): if subcmd.startswith('at='): self.overlays[1]['cmd'][i] = "at=%d,%d,%d,%d" % (at[0], at[1], at[2], at[3]) self.Map.ChangeOverlay(1, True, command = self.overlays[1]['cmd']) self.overlays[1]['coords'] = (0,0) def Zoom(self, begin, end, zoomtype): """!Calculates new region while (un)zoom/pan-ing """ x1, y1 = begin x2, y2 = end newreg = {} # threshold - too small squares do not make sense # can only zoom to windows of > 5x5 screen pixels if abs(x2-x1) > 5 and abs(y2-y1) > 5 and zoomtype != 0: if x1 > x2: x1, x2 = x2, x1 if y1 > y2: y1, y2 = y2, y1 # zoom in if zoomtype > 0: newreg['w'], newreg['n'] = self.Pixel2Cell((x1, y1)) newreg['e'], newreg['s'] = self.Pixel2Cell((x2, y2)) # zoom out elif zoomtype < 0: newreg['w'], newreg['n'] = self.Pixel2Cell((-x1 * 2, -y1 * 2)) newreg['e'], newreg['s'] = self.Pixel2Cell((self.Map.width + 2 * \ (self.Map.width - x2), self.Map.height + 2 * \ (self.Map.height - y2))) # pan elif zoomtype == 0: dx = x1 - x2 dy = y1 - y2 if dx == 0 and dy == 0: dx = x1 - self.Map.width / 2 dy = y1 - self.Map.height / 2 newreg['w'], newreg['n'] = self.Pixel2Cell((dx, dy)) newreg['e'], newreg['s'] = self.Pixel2Cell((self.Map.width + dx, self.Map.height + dy)) # if new region has been calculated, set the values if newreg != {}: # LL locations if self.Map.projinfo['proj'] == 'll': self.Map.region['n'] = min(self.Map.region['n'], 90.0) self.Map.region['s'] = max(self.Map.region['s'], -90.0) ce = newreg['w'] + (newreg['e'] - newreg['w']) / 2 cn = newreg['s'] + (newreg['n'] - newreg['s']) / 2 # calculate new center point and display resolution self.Map.region['center_easting'] = ce self.Map.region['center_northing'] = cn self.Map.region['ewres'] = (newreg['e'] - newreg['w']) / self.Map.width self.Map.region['nsres'] = (newreg['n'] - newreg['s']) / self.Map.height if not self.parent.HasProperty('alignExtent') or \ self.parent.GetProperty('alignExtent'): self.Map.AlignExtentFromDisplay() else: for k in ('n', 's', 'e', 'w'): self.Map.region[k] = newreg[k] if hasattr(self, "digit") and \ hasattr(self, "moveInfo"): self._zoom(None) self.ZoomHistory(self.Map.region['n'], self.Map.region['s'], self.Map.region['e'], self.Map.region['w']) if self.redrawAll is False: self.redrawAll = True def ZoomBack(self): """!Zoom to previous extents in zoomhistory list """ zoom = list() if len(self.zoomhistory) > 1: self.zoomhistory.pop() zoom = self.zoomhistory[-1] # disable tool if stack is empty if len(self.zoomhistory) < 2: # disable tool toolbar = self.parent.GetMapToolbar() toolbar.Enable('zoomBack', enable = False) # zoom to selected region self.Map.GetRegion(n = zoom[0], s = zoom[1], e = zoom[2], w = zoom[3], update = True) # update map self.UpdateMap() # update statusbar self.parent.StatusbarUpdate() def ZoomHistory(self, n, s, e, w): """!Manages a list of last 10 zoom extents @param n,s,e,w north, south, east, west @return removed history item if exists (or None) """ removed = None self.zoomhistory.append((n,s,e,w)) if len(self.zoomhistory) > 10: removed = self.zoomhistory.pop(0) if removed: Debug.msg(4, "BufferedWindow.ZoomHistory(): hist=%s, removed=%s" % (self.zoomhistory, removed)) else: Debug.msg(4, "BufferedWindow.ZoomHistory(): hist=%s" % (self.zoomhistory)) # update toolbar if len(self.zoomhistory) > 1: enable = True else: enable = False toolbar = self.parent.GetMapToolbar() toolbar.Enable('zoomBack', enable) return removed def ResetZoomHistory(self): """!Reset zoom history""" self.zoomhistory = list() def ZoomToMap(self, layers = None, ignoreNulls = False, render = True): """!Set display extents to match selected raster or vector map(s). @param layers list of layers to be zoom to @param ignoreNulls True to ignore null-values (valid only for rasters) @param render True to re-render display """ zoomreg = {} if not layers: layers = self.GetSelectedLayer(multi = True) if not layers: return rast = [] vect = [] updated = False for l in layers: # only raster/vector layers are currently supported if l.type == 'raster': rast.append(l.GetName()) elif l.type == 'vector': if hasattr(self, "digit") and \ self.toolbar.GetLayer() == l: w, s, b, e, n, t = self.digit.GetDisplay().GetMapBoundingBox() self.Map.GetRegion(n = n, s = s, w = w, e = e, update = True) updated = True else: vect.append(l.name) elif l.type == 'rgb': for rname in l.GetName().splitlines(): rast.append(rname) if not updated: self.Map.GetRegion(rast = rast, vect = vect, update = True) self.ZoomHistory(self.Map.region['n'], self.Map.region['s'], self.Map.region['e'], self.Map.region['w']) if render: self.UpdateMap() self.parent.StatusbarUpdate() def ZoomToWind(self): """!Set display geometry to match computational region settings (set with g.region) """ self.Map.region = self.Map.GetRegion() self.ZoomHistory(self.Map.region['n'], self.Map.region['s'], self.Map.region['e'], self.Map.region['w']) self.UpdateMap() self.parent.StatusbarUpdate() def ZoomToDefault(self): """!Set display geometry to match default region settings """ self.Map.region = self.Map.GetRegion(default = True) self.Map.AdjustRegion() # aling region extent to the display self.ZoomHistory(self.Map.region['n'], self.Map.region['s'], self.Map.region['e'], self.Map.region['w']) self.UpdateMap() self.parent.StatusbarUpdate() def GoTo(self, e, n): region = self.Map.GetCurrentRegion() region['center_easting'], region['center_northing'] = e, n dn = (region['nsres'] * region['rows']) / 2. region['n'] = region['center_northing'] + dn region['s'] = region['center_northing'] - dn de = (region['ewres'] * region['cols']) / 2. region['e'] = region['center_easting'] + de region['w'] = region['center_easting'] - de self.Map.AdjustRegion() # add to zoom history self.ZoomHistory(region['n'], region['s'], region['e'], region['w']) self.UpdateMap() def DisplayToWind(self): """!Set computational region (WIND file) to match display extents """ tmpreg = os.getenv("GRASS_REGION") if tmpreg: del os.environ["GRASS_REGION"] # We ONLY want to set extents here. Don't mess with resolution. Leave that # for user to set explicitly with g.region new = self.Map.AlignResolution() RunCommand('g.region', parent = self, overwrite = True, n = new['n'], s = new['s'], e = new['e'], w = new['w'], rows = int(new['rows']), cols = int(new['cols'])) if tmpreg: os.environ["GRASS_REGION"] = tmpreg def ZoomToSaved(self): """!Set display geometry to match extents in saved region file """ dlg = SavedRegion(parent = self, title = _("Zoom to saved region extents"), loadsave='load') if dlg.ShowModal() == wx.ID_CANCEL or not dlg.wind: dlg.Destroy() return if not grass.find_file(name = dlg.wind, element = 'windows')['name']: wx.MessageBox(parent = self, message = _("Region <%s> not found. Operation canceled.") % dlg.wind, caption = _("Error"), style = wx.ICON_ERROR | wx.OK | wx.CENTRE) dlg.Destroy() return self.Map.GetRegion(regionName = dlg.wind, update = True) dlg.Destroy() self.ZoomHistory(self.Map.region['n'], self.Map.region['s'], self.Map.region['e'], self.Map.region['w']) self.UpdateMap() def SaveDisplayRegion(self): """!Save display extents to named region file. """ dlg = SavedRegion(parent = self, title = _("Save display extents to region file"), loadsave='save') if dlg.ShowModal() == wx.ID_CANCEL or not dlg.wind: dlg.Destroy() return # test to see if it already exists and ask permission to overwrite if grass.find_file(name = dlg.wind, element = 'windows')['name']: overwrite = wx.MessageBox(parent = self, message = _("Region file <%s> already exists. " "Do you want to overwrite it?") % (dlg.wind), caption = _("Warning"), style = wx.YES_NO | wx.CENTRE) if (overwrite == wx.YES): self.SaveRegion(dlg.wind) else: self.SaveRegion(dlg.wind) dlg.Destroy() def SaveRegion(self, wind): """!Save region settings @param wind region name """ new = self.Map.GetCurrentRegion() tmpreg = os.getenv("GRASS_REGION") if tmpreg: del os.environ["GRASS_REGION"] RunCommand('g.region', overwrite = True, parent = self, flags = 'u', n = new['n'], s = new['s'], e = new['e'], w = new['w'], rows = int(new['rows']), cols = int(new['cols']), save = wind) if tmpreg: os.environ["GRASS_REGION"] = tmpreg def Distance(self, beginpt, endpt, screen = True): """!Calculates distance Ctypes required for LL-locations @param beginpt first point @param endpt second point @param screen True for screen coordinates otherwise EN """ if screen: e1, n1 = self.Pixel2Cell(beginpt) e2, n2 = self.Pixel2Cell(endpt) else: e1, n1 = beginpt e2, n2 = endpt dEast = (e2 - e1) dNorth = (n2 - n1) if self.parent.Map.projinfo['proj'] == 'll' and haveCtypes: dist = gislib.G_distance(e1, n1, e2, n2) else: dist = math.sqrt(math.pow((dEast), 2) + math.pow((dNorth), 2)) return (dist, (dEast, dNorth)) def GetMap(self): """!Get render.Map() instance""" return self.Map def RegisterMouseEventHandler(self, event, handler, cursor = None): """!Calls UpdateTools to manage connected toolbars""" self.parent.UpdateTools(None) MapWindow.RegisterMouseEventHandler(self, event, handler, cursor) def UnregisterMouseEventHandler(self, event, handler): """!Sets pointer and toggles it after unregistration""" MapWindow.UnregisterMouseEventHandler(self, event, handler) # sets pointer mode toolbar = self.parent.toolbars['map'] toolbar.action['id'] = vars(toolbar)["pointer"] toolbar.OnTool(None) self.parent.OnPointer(event = None) def RegisterGraphicsToDraw(self, graphicsType, setStatusFunc = None, drawFunc = None): """! Method allows to register graphics to draw. @param type (string) - graphics type: "point" or "line" @param setStatusFunc (function reference) - function called before drawing each item Status function should be in this form: setStatusFunc(item, itemOrderNum) item - passes instance of GraphicsSetItem which will be drawn itemOrderNum - number of item in drawing order (from O) Hidden items are also counted in drawing order. @param drawFunc (function reference) - allows to define own function for drawing If function is not defined DrawCross method is used for type "point" or DrawLines method for type "line". @return reference to GraphicsSet, which was added. """ item = GraphicsSet(parentMapWin = self, graphicsType = graphicsType, setStatusFunc = setStatusFunc, drawFunc = drawFunc) self.graphicsSetList.append(item) return item def UnregisterGraphicsToDraw(self, item): """!Unregisteres GraphicsSet instance @param item (GraphicsSetItem) - item to unregister @return True - if item was unregistered @return False - if item was not found """ if item in self.graphicsSetList: self.graphicsSetList.remove(item) return True return False class GraphicsSet: def __init__(self, parentMapWin, graphicsType, setStatusFunc = None, drawFunc = None): """!Class, which contains instances of GraphicsSetItem and draws them For description of parameters look at method RegisterGraphicsToDraw in BufferedWindow class. """ self.pens = { "default" : wx.Pen(colour = wx.BLACK, width = 2, style = wx.SOLID), "selected" : wx.Pen(colour = wx.GREEN, width = 2, style = wx.SOLID), "unused" : wx.Pen(colour = wx.LIGHT_GREY, width = 2, style = wx.SOLID), "highest" : wx.Pen(colour = wx.RED, width = 2, style = wx.SOLID) } # list contains instances of GraphicsSetItem self.itemsList = [] self.properties = {} self.graphicsType = graphicsType self.parentMapWin = parentMapWin self.setStatusFunc = setStatusFunc if drawFunc: self.drawFunc = drawFunc elif self.graphicsType == "point": self.properties["size"] = 5 self.properties["text"] = {} self.properties["text"]['font'] = wx.Font(pointSize = self.properties["size"], family = wx.FONTFAMILY_DEFAULT, style = wx.FONTSTYLE_NORMAL, weight = wx.FONTWEIGHT_NORMAL) self.properties["text"]['active'] = True self.drawFunc = self.parentMapWin.DrawCross elif self.graphicsType == "line": self.drawFunc = self.parentMapWin.DrawLines def Draw(self, pdc): """!Draws all containing items. @param pdc - device context, where items are drawn """ itemOrderNum = 0 for item in self.itemsList: if self.setStatusFunc is not None: self.setStatusFunc(item, itemOrderNum) if item.GetPropertyVal("hide") == True: itemOrderNum += 1 continue if self.graphicsType == "point": if item.GetPropertyVal("penName"): self.parentMapWin.pen = self.pens[item.GetPropertyVal("penName")] else: self.parentMapWin.pen = self.pens["default"] coords = self.parentMapWin.Cell2Pixel(item.GetCoords()) size = self.properties["size"] self.properties["text"]['coords'] = [coords[0] + size, coords[1] + size, size, size] self.properties["text"]['color'] = self.parentMapWin.pen.GetColour() self.properties["text"]['text'] = item.GetPropertyVal("label") self.drawFunc(pdc = pdc, coords = coords, text = self.properties["text"], size = self.properties["size"]) elif self.graphicsType == "line": if item.GetPropertyVal("pen"): self.parentMapWin.polypen = self.pens[item.GetPropertyVal("pen")] else: self.parentMapWin.polypen = self.pens["default"] self.drawFunc(pdc = pdc, polycoords = coords) itemOrderNum += 1 def AddItem(self, coords, penName = None, label = None, hide = False): """!Append item to the list. Added item is put to the last place in drawing order. Could be 'point' or 'line' according to graphicsType. @param coords - list of east, north coordinates (double) of item Example: point: [1023, 122] line: [[10, 12],[20,40],[23, 2334]] @param penName (string) - the 'default' pen is used if is not defined @param label (string) - label, which will be drawn with point. It is relavant just for 'point' type. @param hide (bool) - If it is True, the item is not drawn, when self.Draw is called. Hidden items are also counted in drawing order. @return (GraphicsSetItem) - added item reference """ item = GraphicsSetItem(coords = coords, penName = None, label = None, hide = False) self.itemsList.append(item) return item def DeleteItem(self, item): """!Deletes item @param item (GraphicsSetItem) - item to remove @return True if item was removed @return False if item was not found """ try: self.itemsList.remove(item) except: return False return True def GetAllItems(self): """!Returns list of all containing instances of GraphicsSetItem, in order as they are drawn. If you want to change order of drawing use: SetItemDrawOrder method. """ # user can edit objects but not order in list, that is reason, # why is returned shallow copy of data list it should be used # SetItemDrawOrder for changing order return copy(self.itemsList) def GetItem(self, drawNum): """!Get given item from the list. @param drawNum (int) - drawing order (index) number of item @return instance of GraphicsSetItem which is drawn in drawNum order @return False if drawNum was out of range """ if drawNum < len(self.itemsList) and drawNum >= 0: return self.itemsList[drawNum] else: return False def SetPropertyVal(self, propName, propVal): """!Set property value @param propName (string) - property name: "size", "text" - both properties are relevant for "point" type @param propVal - property value to be set @return True - if value was set @return False - if propName is not "size" or "text" or type is "line" """ if self.properties.has_key(propName): self.properties[propName] = propVal return True return False def GetPropertyVal(self, propName): """!Get property value Raises KeyError if propName is not "size" or "text" or type is "line" @param propName (string) - property name: "size", "text" - both properties are relevant for "point" type @return value of property """ if self.properties.has_key(propName): return self.properties[propName] raise KeyError(_("Property does not exist: %s") % (propName)) def AddPen(self, penName, pen): """!Add pen @param penName (string) - name of added pen @param pen (wx.Pen) - added pen @return True - if pen was added @return False - if pen already exists """ if self.pens.has_key(penName): return False self.pens[penName] = pen return True def GetPen(self, penName): """!Get existing pen @param penName (string) - name of pen @return wx.Pen reference if is found @return None if penName was not found """ if self.pens.has_key(penName): return self.pens[penName] return None def SetItemDrawOrder(self, item, drawNum): """!Set draw order for item @param item (GraphicsSetItem) @param drawNum (int) - drawing order of item to be set @return True - if order was changed @return False - if drawNum is out of range or item was not found """ if drawNum < len(self.itemsList) and drawNum >= 0 and \ item in self.itemsList: self.itemsList.insert(drawNum, self.itemsList.pop(self.itemsList.index(item))) return True return False def GetItemDrawOrder(self, item): """!Get draw order for given item @param item (GraphicsSetItem) @return (int) - drawing order of item @return None - if item was not found """ try: return self.itemsList.index(item) except: return None class GraphicsSetItem: def __init__(self, coords, penName = None, label = None, hide = False): """!Could be point or line according to graphicsType in GraphicsSet class @param coords - list of coordinates (double) of item Example: point: [1023, 122] line: [[10, 12],[20,40],[23, 2334]] @param penName (string) - if it is not defined 'default' pen is used @param label (string) - label, which will be drawn with point. It is relevant just for 'point' type @param hide (bool) - if it is True, item is not drawn Hidden items are also counted in drawing order in GraphicsSet class. """ self.coords = coords self.properties = { "penName" : penName, "hide" : hide, "label" : label } def SetPropertyVal(self, propName, propVal): """!Set property value @param propName (string) - property name: "penName", "hide" or "label" - property "label" is relevant just for 'point' type @param propVal - property value to be set @return True - if value was set @return False - if propName is not "penName", "hide" or "label" """ if self.properties.has_key(propName): self.properties[propName] = propVal return True return False def GetPropertyVal(self, propName): """!Get property value Raises KeyError if propName is not "penName", "hide" or "label". @param propName (string) - property name: "penName", "hide" or "label" - property "label" is relevant just for 'point' type @return value of property """ if self.properties.has_key(propName): return self.properties[propName] raise KeyError(_("Property does not exist: %s") % (propName)) def SetCoords(self, coords): """!Set coordinates of item @param coords - list of east, north coordinates (double) of item Example: point: [1023, 122] line: [[10, 12],[20,40],[23, 2334]] """ self.coords = coords def GetCoords(self): """!Get item coordinates @returns coordinates """ return self.coords