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- """!
- @package nviz_mapdisp.py
- @brief wxGUI 3D view mode (map canvas)
- This module implements 3D visualization mode for map display.
- List of classes:
- - NvizThread
- - GLWindow
- - DragShape
- (C) 2008-2011 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 <landa.martin gmail.com> (Google SoC 2008/2010)
- @author Anna Kratochvilova <kratochanna gmail.com> (Google SoC 2011)
- """
- import os
- import sys
- import time
- import copy
- import math
- import types
- from threading import Thread
- import wx
- import wx.lib.scrolledpanel as scrolled
- from wx.lib.newevent import NewEvent
- from wx import glcanvas
- import gcmd
- import globalvar
- from debug import Debug
- from mapdisp_window import MapWindow
- from goutput import wxCmdOutput
- from preferences import globalSettings as UserSettings
- from workspace import Nviz as NvizDefault
- import wxnviz
- wxUpdateProperties, EVT_UPDATE_PROP = NewEvent()
- wxUpdateView, EVT_UPDATE_VIEW = NewEvent()
- wxUpdateLight, EVT_UPDATE_LIGHT = NewEvent()
- wxUpdateCPlane, EVT_UPDATE_CPLANE = NewEvent()
- class NvizThread(Thread):
- def __init__(self, log, progressbar, window):
- Thread.__init__(self)
- Debug.msg(5, "NvizThread.__init__():")
- self.log = log
- self.progressbar = progressbar
- self.window = window
-
- self._display = None
-
- self.setDaemon(True)
- def run(self):
- self._display = wxnviz.Nviz(self.log, self.progressbar)
-
- def GetDisplay(self):
- """!Get display instance"""
- return self._display
- class GLWindow(MapWindow, glcanvas.GLCanvas):
- """!OpenGL canvas for Map Display Window"""
- def __init__(self, parent, id = wx.ID_ANY,
- Map = None, tree = None, lmgr = None):
- self.parent = parent # MapFrame
-
- glcanvas.GLCanvas.__init__(self, parent, id)
- MapWindow.__init__(self, parent, id,
- Map, tree, lmgr)
- self.Hide()
-
- self.init = False
- self.initView = False
-
- # render mode
- self.render = { 'quick' : False,
- # do not render vector lines in quick mode
- 'vlines' : False,
- 'vpoints' : False,
- 'overlays': False }
- self.mouse = {
- 'use': 'pointer'
- }
- self.cursors = {
- 'default' : wx.StockCursor(wx.CURSOR_ARROW),
- 'cross' : wx.StockCursor(wx.CURSOR_CROSS),
- }
- # list of loaded map layers (layer tree items)
- self.layers = list()
- # list of constant surfaces
- self.constants = list()
- # id of base surface (when vector is loaded and no surface exist)
- self.baseId = -1
- # list of cutting planes
- self.cplanes = list()
- # list of query points
- self.qpoints = list()
- # list of past views
- self.viewhistory = []
- self.saveHistory = False
- # overlays
- self.overlays = {}
- self.imagedict = {}
- self.overlay = wx.Overlay()
- self.pdc = wx.PseudoDC()
- self.textdict = {}
- self.dragid = None
- self.hitradius = 5
-
- if self.lmgr:
- self.log = self.lmgr.goutput
- logerr = self.lmgr.goutput.cmd_stderr
- logmsg = self.lmgr.goutput.cmd_output
- else:
- self.log = logmsg = sys.stdout
- logerr = sys.stderr
-
- # create nviz instance - use display region instead of computational
- os.environ['GRASS_REGION'] = self.Map.SetRegion(windres = True)
-
- self.nvizThread = NvizThread(logerr,
- self.parent.statusbarWin['progress'],
- logmsg)
- self.nvizThread.start()
- time.sleep(.1)
- self._display = self.nvizThread.GetDisplay()
-
- # GRASS_REGION needed only for initialization
- del os.environ['GRASS_REGION']
-
- self.img = wx.Image(self.Map.mapfile, wx.BITMAP_TYPE_ANY)
-
- # size of MapWindow, to avoid resizing if size is the same
- self.size = (0, 0)
-
- # default values
- self.nvizDefault = NvizDefault()
- self.view = copy.deepcopy(UserSettings.Get(group = 'nviz', key = 'view')) # copy
- self.iview = UserSettings.Get(group = 'nviz', key = 'view', internal = True)
- self.light = copy.deepcopy(UserSettings.Get(group = 'nviz', key = 'light')) # copy
- self.decoration = self.nvizDefault.SetDecorDefaultProp(type = 'arrow')
- self.decoration['scalebar'] = []
- self.decoration['arrow']['size'] = self._getDecorationSize()
-
- self.Bind(wx.EVT_ERASE_BACKGROUND, self.OnEraseBackground)
- self.Bind(wx.EVT_SIZE, self.OnSize)
- self.Bind(wx.EVT_PAINT, self.OnPaint)
- self.Bind(wx.EVT_IDLE, self.OnIdle)
- self._bindMouseEvents()
-
- self.Bind(EVT_UPDATE_PROP, self.UpdateMapObjProperties)
- self.Bind(EVT_UPDATE_VIEW, self.UpdateView)
- self.Bind(EVT_UPDATE_LIGHT, self.UpdateLight)
- self.Bind(EVT_UPDATE_CPLANE, self.UpdateCPlane)
-
- self.Bind(wx.EVT_CLOSE, self.OnClose)
-
- # cplanes cannot be initialized now
- wx.CallAfter(self.InitCPlanes)
- def __del__(self):
- self.UnloadDataLayers(force = True)
-
- def _bindMouseEvents(self):
- self.Bind(wx.EVT_MOUSE_EVENTS, self.OnMouseAction)
- self.Bind(wx.EVT_MOTION, self.OnMotion)
-
- def InitCPlanes(self):
- """!Initialize cutting planes list"""
- for i in range(self._display.GetCPlanesCount()):
- cplane = copy.deepcopy(UserSettings.Get(group = 'nviz', key = 'cplane'))
- cplane['on'] = False
- self.cplanes.append(cplane)
-
- 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 os.path.isfile(overlay.mapfile) and os.path.getsize(overlay.mapfile):
- img = wx.Image(overlay.mapfile, wx.BITMAP_TYPE_ANY)
- self.imagedict[img] = { 'id' : overlay.id,
- 'layer' : overlay }
- imgs.append(img)
- return imgs
-
- def OnClose(self, event):
- # cleanup when window actually closes (on quit) and not just is hidden
- self.UnloadDataLayers(force = True)
-
- def OnEraseBackground(self, event):
- pass # do nothing, to avoid flashing on MSW
-
- def OnSize(self, event):
- size = self.GetClientSize()
- if self.size != size \
- and self.GetContext():
- Debug.msg(3, "GLCanvas.OnSize(): w = %d, h = %d" % \
- (size.width, size.height))
- self.SetCurrent()
- self._display.ResizeWindow(size.width,
- size.height)
- self.size = size
- event.Skip()
-
- def OnIdle(self, event):
- if self.render['overlays']:
- self.DrawOverlays()
- self.render['overlays'] = False
-
- def OnPaint(self, event):
- Debug.msg(1, "GLCanvas.OnPaint()")
-
- self.render['overlays'] = True
- dc = wx.PaintDC(self)
- self.DoPaint()
-
- def DoPaint(self):
- self.SetCurrent()
-
- if not self.initView:
- self._display.InitView()
- self.initView = True
-
- self.LoadDataLayers()
- self.UnloadDataLayers()
-
- if not self.init:
- self.ResetView()
-
- if hasattr(self.lmgr, "nviz"):
- self.lmgr.nviz.UpdatePage('view')
- self.lmgr.nviz.UpdatePage('light')
- self.lmgr.nviz.UpdatePage('cplane')
- self.lmgr.nviz.UpdatePage('decoration')
- layer = self.GetSelectedLayer()
- if layer:
- if layer.type == 'raster':
- self.lmgr.nviz.UpdatePage('surface')
- self.lmgr.nviz.UpdatePage('fringe')
- elif layer.type == 'vector':
- self.lmgr.nviz.UpdatePage('vector')
-
- self.lmgr.nviz.UpdateSettings()
-
- # update widgets
- win = self.lmgr.nviz.FindWindowById( \
- self.lmgr.nviz.win['vector']['lines']['surface'])
- win.SetItems(self.GetLayerNames('raster'))
-
- self.init = True
-
- self.UpdateMap()
-
- def DrawOverlays(self):
- """!Draw overlays with wx.Overlay"""
- dc = wx.ClientDC(self)
- odc = wx.DCOverlay(self.overlay, dc)
- self.pdc.Clear()
- self.pdc.RemoveAll()
- for img in self.GetOverlay():
- # draw any active and defined overlays
- if self.imagedict[img]['layer'].IsActive():
- id = self.imagedict[img]['id']
- self.DrawImage(img = img, drawid = id, coords = self.overlays[id]['coords'])
-
- for textId in self.textdict.keys():
- # create a bitmap the same size as our text
- self.DrawText(drawid = textId)
-
- self.pdc.DrawToDC(dc)
- del odc
- self.overlay.Reset()
-
- def DrawImage(self, img, drawid, coords):
- """!Draw overlay image"""
- bitmap = wx.BitmapFromImage(img)
- w,h = bitmap.GetSize()
-
- self.pdc.BeginDrawing()
- self.pdc.SetBackground(wx.TRANSPARENT_BRUSH)
- self.pdc.RemoveId(drawid)
- self.pdc.SetId(drawid)
- self.pdc.DrawBitmap(bitmap, coords[0], coords[1], True)
- self.pdc.SetIdBounds(drawid, wx.Rect(coords[0],coords[1], w, h))
- self.pdc.EndDrawing()
-
- def DrawText(self, drawid):
- """!Draw overlay text"""
- self.pdc.BeginDrawing()
- self.pdc.SetBackground(wx.TRANSPARENT_BRUSH)
- self.pdc.RemoveId(drawid)
- self.pdc.SetId(drawid)
- self.pdc.SetFont(self.textdict[drawid]['font'])
- self.pdc.SetTextForeground(self.textdict[drawid]['color'])
- if self.textdict[drawid]['rotation'] == 0:
- self.pdc.DrawText(self.textdict[drawid]['text'], self.textdict[drawid]['coords'][0],
- self.textdict[drawid]['coords'][1])
- else:
- self.pdc.DrawRotatedText(self.textdict[drawid]['text'], self.textdict[drawid]['coords'][0],
- self.textdict[drawid]['coords'][1],
- self.textdict[drawid]['rotation'])
- self.pdc.SetIdBounds(drawid, self.textdict[drawid]['bbox'])
- self.pdc.EndDrawing()
-
- def UpdateOverlays(self):
- self.Map.ChangeMapSize(self.GetClientSize())
- self.Map.RenderOverlays(force = True)
- for textId in self.textdict.keys():
- coords, bbox, relCoords = self.TextBounds(self.textdict[textId])
- self.textdict[textId]['coords'] = coords
- self.textdict[textId]['bbox'] = bbox
- # rerender OnIdle
- self.render['overlays'] = True
-
- def OnMouseAction(self, event):
- """!Handle mouse events"""
- # 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.OnDClick(event)
-
- event.Skip()
- def OnMouseWheel(self, event):
- """!Change perspective"""
- wheel = event.GetWheelRotation()
- Debug.msg (5, "GLWindow.OnMouseMotion(): wheel = %d" % wheel)
- self.DoZoom(zoomtype = wheel, pos = event.GetPositionTuple())
-
- # update statusbar
- ### self.parent.StatusbarUpdate()
-
- def OnLeftDown(self, event):
- """!On left mouse down"""
- self.mouse['begin'] = event.GetPositionTuple()
- self.mouse['tmp'] = event.GetPositionTuple()
- if self.mouse['use'] == "lookHere":
- size = self.GetClientSize()
- self._display.LookHere(self.mouse['begin'][0], size[1] - self.mouse['begin'][1])
- focus = self._display.GetFocus()
- for i, coord in enumerate(('x', 'y', 'z')):
- self.iview['focus'][coord] = focus[i]
- self.saveHistory = True
- self.Refresh(False)
- toggle = self.lmgr.nviz.FindWindowByName('here')
- toggle.SetValue(False)
- self.mouse['use'] = 'pointer'
- self.SetCursor(self.cursors['default'])
-
- if self.mouse['use'] == "cplane":
- pos = event.GetPosition()
- size = self.GetClientSize()
- x, y, z = self._display.SetCPlaneInteractively(pos[0], size[1] - pos[1])
- if x is not None:
- idx = self._display.GetCPlaneCurrent()
- self.cplanes[idx]['position']['x'] = x
- self.cplanes[idx]['position']['y'] = y
- self.render['quick'] = True
-
- if self.mouse['use'] == 'arrow':
- pos = event.GetPosition()
- size = self.GetClientSize()
- self.SetDrawArrow((pos[0], size[1] - pos[1]))
-
- if self.mouse['use'] == 'scalebar':
- pos = event.GetPosition()
- size = self.GetClientSize()
- self.SetDrawScalebar((pos[0], size[1] - pos[1]))
-
- if self.mouse['use'] == 'pointer':
- # get decoration or text id
- self.dragid = None
- idlist = self.pdc.FindObjects(self.mouse['tmp'][0], self.mouse['tmp'][1],
- self.hitradius)
- if idlist != []:
- self.dragid = idlist[0] #drag whatever is on top
-
- event.Skip()
-
- def OnDragging(self, event):
- if self.mouse['use'] == "cplane":
- idx = self._display.GetCPlaneCurrent()
- pos = event.GetPosition()
- size = self.GetClientSize()
- x, y, z = self._display.SetCPlaneInteractively(pos[0], size[1] - pos[1])
- if x is not None:
- self.cplanes[idx]['position']['x'] = x
- self.cplanes[idx]['position']['y'] = y
-
- if self.mouse['use'] == 'pointer':
- self.DragItem(self.dragid, event)
-
- if self.mouse['use'] == 'rotate':
- dx, dy = event.GetX() - self.mouse['tmp'][0], event.GetY() - self.mouse['tmp'][1]
- self.mouse['tmp'] = event.GetPositionTuple()
- angle, x, y, z = self._display.GetRotationParameters(dx, dy)
- self._display.Rotate(angle, x, y, z)
-
- self.render['quick'] = True
- self.Refresh(False)
- event.Skip()
-
- def Pixel2Cell(self, (x, y)):
- """!Convert image coordinates to real word coordinates
- @param x, y image coordinates
-
- @return easting, northing
- @return None on error
- """
- size = self.GetClientSize()
- # UL -> LL
- sid, x, y, z = self._display.GetPointOnSurface(x, size[1] - y)
-
- if not sid:
- return None
-
- return (x, y)
-
- def DoZoom(self, zoomtype, pos):
- """!Change perspective and focus"""
-
- prev_value = self.view['persp']['value']
- if zoomtype > 0:
- value = -1 * self.view['persp']['step']
- else:
- value = self.view['persp']['step']
- self.view['persp']['value'] += value
- if self.view['persp']['value'] < 1:
- self.view['persp']['value'] = 1
- elif self.view['persp']['value'] > 180:
- self.view['persp']['value'] = 180
-
- if prev_value != self.view['persp']['value']:
- if hasattr(self.lmgr, "nviz"):
- self.lmgr.nviz.UpdateSettings()
- x, y = pos[0], self.GetClientSize()[1] - pos[1]
- result = self._display.GetPointOnSurface(x, y)
- if result[0]:
- self._display.LookHere(x, y)
- focus = self._display.GetFocus()
- for i, coord in enumerate(('x', 'y', 'z')):
- self.iview['focus'][coord] = focus[i]
- self._display.SetView(self.view['position']['x'], self.view['position']['y'],
- self.iview['height']['value'],
- self.view['persp']['value'],
- self.view['twist']['value'])
- self.saveHistory = True
- # redraw map
- self.DoPaint()
-
- def OnLeftUp(self, event):
- self.mouse['end'] = event.GetPositionTuple()
- if self.mouse["use"] == "query":
- layers = self.GetSelectedLayer(multi = True)
-
- for l in layers:
- if l.GetType() == 'raster':
- self.OnQuerySurface(event)
- if l.GetType() == 'vector':
- self.OnQueryVector(event)
-
- elif self.mouse["use"] == 'cplane':
- self.lmgr.nviz.OnCPlaneChangeDone(None)
- idx = self._display.GetCPlaneCurrent()
- self.lmgr.nviz.UpdateCPlanePage(idx)
- self.lmgr.nviz.FindWindowByName('cplaneHere').SetValue(False)
- self.mouse['use'] = 'pointer'
- self.SetCursor(self.cursors['default'])
- elif self.mouse["use"] in ('arrow', 'scalebar'):
- self.lmgr.nviz.FindWindowById(
- self.lmgr.nviz.win['decoration'][self.mouse["use"]]['place']).SetValue(False)
- self.mouse['use'] = 'pointer'
- self.SetCursor(self.cursors['default'])
- elif self.mouse['use'] == 'pointer':
- 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)
- if self.dragid:
- self.dragid = None
- self.Refresh(False)
-
- elif self.mouse['use'] == 'rotate':
- self._display.UnsetRotation()
- self.iview['rotation'] = self._display.GetRotationMatrix()
- self.saveHistory = True
- self.render['quick'] = False
- self.Refresh(False)
-
- elif self.mouse['use'] == 'zoom':
- self.DoZoom(zoomtype = self.zoomtype, pos = self.mouse['end'])
- event.Skip()
-
- def OnDClick(self, event):
- """!On mouse double click"""
- if self.mouse['use'] != 'pointer': return
- pos = event.GetPositionTuple()
- idlist = self.pdc.FindObjects(pos[0], pos[1], self.hitradius)
- if idlist == []:
- return
- self.dragid = idlist[0]
-
- if self.dragid == 1:
- self.parent.OnAddLegend(None)
- elif self.dragid > 100:
- self.parent.OnAddText(None)
-
- def DragItem(self, id, event):
- """!Drag an overlay decoration item
- """
- if not id: return
- Debug.msg (5, "GLWindow.DragItem(): id=%d" % id)
-
- x, y = self.mouse['tmp']
- dx = event.GetX() - x
- dy = event.GetY() - y
- self.pdc.SetBackground(wx.TRANSPARENT_BRUSH)
- 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
- else:
- self.overlays[id]['coords'] = r2
-
- dc = wx.ClientDC(self)
- odc = wx.DCOverlay(self.overlay, dc)
- odc.Clear()
- self.pdc.DrawToDC(dc)
- del odc
- self.mouse['tmp'] = (event.GetX(), event.GetY())
-
- def ZoomBack(self):
- """!Set previous view in history list
- """
- view = {}
- if len(self.viewhistory) > 1:
- self.viewhistory.pop()
- view = copy.deepcopy(self.viewhistory[-1])
-
- # disable tool if stack is empty
- if len(self.viewhistory) < 2: # disable tool
- toolbar = self.parent.toolbars['map']
- toolbar.Enable('zoomback', enable = False)
-
- # set view and update nviz view page
- self.lmgr.nviz.UpdateState(view = view[0], iview = view[1])
- self.lmgr.nviz.UpdatePage('view')
- # update map
- self.Refresh(False)
- def ViewHistory(self, view, iview):
- """!Manages a list of last 10 views
-
- @param view view dictionary
- @param iview view dictionary (internal)
-
- @return removed history item if exists (or None)
- """
- removed = None
- hview = copy.deepcopy(view)
- hiview = copy.deepcopy(iview)
-
- if not (self.viewhistory and self.viewhistory[-1] == (hview, hiview)):
- self.viewhistory.append((hview, hiview))
-
- if len(self.viewhistory) > 10:
- removed = self.viewhistory.pop(0)
-
- if removed:
- Debug.msg(4, "GLWindow.ViewHistory(): hist=%s, removed=%s" %
- (self.viewhistory, removed))
- else:
- Debug.msg(4, "GLWindow.ViewHistory(): hist=%s" %
- (self.viewhistory))
-
- # update toolbar
- if len(self.viewhistory) > 1:
- enable = True
- else:
- enable = False
-
- toolbar = self.parent.toolbars['map']
- toolbar.Enable('zoomback', enable)
-
- return removed
-
- def ResetViewHistory(self):
- """!Reset view history"""
- self.viewhistory = list()
-
- def OnQuerySurface(self, event):
- """!Query surface on given position"""
- size = self.GetClientSizeTuple()
- result = self._display.QueryMap(event.GetX(), size[1] - event.GetY())
- if result:
- self.qpoints.append((result['x'], result['y'], result['z']))
- self.log.WriteLog("%-30s: %.3f" % (_("Easting"), result['x']))
- self.log.WriteLog("%-30s: %.3f" % (_("Northing"), result['y']))
- self.log.WriteLog("%-30s: %.3f" % (_("Elevation"), result['z']))
- name = ''
- for item in self.layers:
- self.tree.GetPyData(item)[0]['nviz']
- if self.tree.GetPyData(item)[0]['maplayer'].type == 'raster' and\
- self.tree.GetPyData(item)[0]['nviz']['surface']['object']['id'] == result['id']:
- name = self.tree.GetPyData(item)[0]['maplayer'].name
- self.log.WriteLog("%-30s: %s" % (_("Surface map name"), name))
- self.log.WriteLog("%-30s: %s" % (_("Surface map elevation"), result['elevation']))
- self.log.WriteLog("%-30s: %s" % (_("Surface map color"), result['color']))
- if len(self.qpoints) > 1:
- prev = self.qpoints[-2]
- curr = self.qpoints[-1]
- dxy = math.sqrt(pow(prev[0]-curr[0], 2) +
- pow(prev[1]-curr[1], 2))
- dxyz = math.sqrt(pow(prev[0]-curr[0], 2) +
- pow(prev[1]-curr[1], 2) +
- pow(prev[2]-curr[2], 2))
- self.log.WriteLog("%-30s: %.3f" % (_("XY distance from previous"), dxy))
- self.log.WriteLog("%-30s: %.3f" % (_("XYZ distance from previous"), dxyz))
- self.log.WriteLog("%-30s: %.3f" % (_("Distance along surface"),
- self._display.GetDistanceAlongSurface(result['id'],
- (curr[0], curr[1]),
- (prev[0], prev[1]),
- useExag = False)))
- self.log.WriteLog("%-30s: %.3f" % (_("Distance along exag. surface"),
- self._display.GetDistanceAlongSurface(result['id'],
- (curr[0], curr[1]),
- (prev[0], prev[1]),
- useExag = True)))
- self.log.WriteCmdLog('-' * 80)
- else:
- self.log.WriteLog(_("No point on surface"))
- self.log.WriteCmdLog('-' * 80)
-
- def OnQueryVector(self, event):
- """!Query vector on given position"""
- self.log.WriteWarning(_("Vector querying is not implemented yet"))
- self.log.WriteCmdLog('-' * 80)
-
- def UpdateView(self, event):
- """!Change view settings"""
- data = self.view
-
- ## multiple z-exag value from slider by original value computed in ogsf so it scales
- ## correctly with maps of different height ranges
- if event and event.zExag and 'value' in data['z-exag']:
- self._display.SetZExag(self.iview['z-exag']['original'] * data['z-exag']['value'])
-
- self._display.SetView(data['position']['x'], data['position']['y'],
- self.iview['height']['value'],
- data['persp']['value'],
- data['twist']['value'])
-
- if self.iview['focus']['x'] != -1:
- self._display.SetFocus(self.iview['focus']['x'], self.iview['focus']['y'],
- self.iview['focus']['z'])
- if 'rotation' in self.iview:
- if self.iview['rotation']:
- self._display.SetRotationMatrix(self.iview['rotation'])
- else:
- self._display.ResetRotation()
-
- self.saveHistory = True
- if event:
- event.Skip()
- def UpdateLight(self, event):
- """!Change light settings"""
- data = self.light
- self._display.SetLight(x = data['position']['x'], y = data['position']['y'],
- z = data['position']['z'] / 100., color = data['color'],
- bright = data['bright'] / 100.,
- ambient = data['ambient'] / 100.)
- self._display.DrawLightingModel()
- if event.refresh:
- self.Refresh(False)
-
- def UpdateMap(self, render = 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
- """
- start = time.clock()
-
- self.resize = False
-
- if self.render['quick'] is False:
- self.parent.statusbarWin['progress'].Show()
- self.parent.statusbarWin['progress'].SetRange(2)
- self.parent.statusbarWin['progress'].SetValue(0)
-
- if self.render['quick'] is False:
- self.parent.statusbarWin['progress'].SetValue(1)
- self._display.Draw(False, -1)
- if self.saveHistory:
- self.ViewHistory(view = self.view, iview = self.iview)
- self.saveHistory = False
- elif self.render['quick'] is True:
- # quick
- mode = wxnviz.DRAW_QUICK_SURFACE | wxnviz.DRAW_QUICK_VOLUME
- if self.render['vlines']:
- mode |= wxnviz.DRAW_QUICK_VLINES
- if self.render['vpoints']:
- mode |= wxnviz.DRAW_QUICK_VPOINTS
- self._display.Draw(True, mode)
- else: # None -> reuse last rendered image
- pass # TODO
-
- self.SwapBuffers()
- # draw fringe after SwapBuffers, otherwise it don't have to be visible
- # on some computers
- if self.render['quick'] is False:
- self._display.DrawFringe()
- if self.decoration['arrow']['show']:
- self._display.DrawArrow()
- if self.decoration['scalebar']:
- self._display.DrawScalebar()
-
- stop = time.clock()
-
- if self.render['quick'] is False:
- self.parent.statusbarWin['progress'].SetValue(2)
- # hide process bar
- self.parent.statusbarWin['progress'].Hide()
-
- Debug.msg(3, "GLWindow.UpdateMap(): quick = %d, -> time = %g" % \
- (self.render['quick'], (stop-start)))
-
- def EraseMap(self):
- """!Erase the canvas
- """
- self._display.EraseMap()
- self.SwapBuffers()
-
- def _getDecorationSize(self):
- """!Get initial size of north arrow/scalebar"""
- size = self._display.GetLongDim() / 8.
- coef = 0.01
- if size < 1:
- coef = 100.
- return int(size * coef)/coef
-
- def SetDrawArrow(self, pos):
-
- if self._display.SetArrow(pos[0], pos[1],
- self.decoration['arrow']['size'],
- self.decoration['arrow']['color']):
- self._display.DrawArrow()
- # update
- self.decoration['arrow']['show'] = True
- self.decoration['arrow']['position']['x'] = pos[0]
- self.decoration['arrow']['position']['y'] = pos[1]
- self.Refresh(False)
-
- def SetDrawScalebar(self, pos):
- """!Add scale bar, sets properties and draw"""
- if len(self.decoration['scalebar']) == 0:
- self.decoration['scalebar'].append(
- self.nvizDefault.SetDecorDefaultProp(type = 'scalebar')['scalebar'])
- self.decoration['scalebar'][0]['size'] = self._getDecorationSize()
- else:
- self.decoration['scalebar'].append(copy.deepcopy(self.decoration['scalebar'][-1]))
- self.decoration['scalebar'][-1]['id'] += 1
-
- ret = self._display.SetScalebar(self.decoration['scalebar'][-1]['id'], pos[0], pos[1],
- self.decoration['scalebar'][-1]['size'],
- self.decoration['scalebar'][-1]['color'])
- if ret:
- self._display.DrawScalebar()
- # update
- self.decoration['scalebar'][-1]['position']['x'] = pos[0]
- self.decoration['scalebar'][-1]['position']['y'] = pos[1]
- self.Refresh(False)
-
- def IsLoaded(self, item):
- """!Check if layer (item) is already loaded
-
- @param item layer item
- """
- layer = self.tree.GetPyData(item)[0]['maplayer']
- data = self.tree.GetPyData(item)[0]['nviz']
-
- if not data:
- return 0
-
- if layer.type == 'raster':
- if 'object' not in data['surface']:
- return 0
- elif layer.type == 'vector':
- if 'object' not in data['vlines'] and \
- 'object' not in data['points']:
- return 0
-
- return 1
- def _GetDataLayers(self, item, litems):
- """!Return get list of enabled map layers"""
- # load raster & vector maps
- while item and item.IsOk():
- type = self.tree.GetPyData(item)[0]['type']
- if type == 'group':
- subItem = self.tree.GetFirstChild(item)[0]
- self._GetDataLayers(subItem, litems)
- item = self.tree.GetNextSibling(item)
-
- if not item.IsChecked() or \
- type not in ('raster', 'vector', '3d-raster'):
- item = self.tree.GetNextSibling(item)
- continue
-
- litems.append(item)
-
- item = self.tree.GetNextSibling(item)
-
- def LoadDataLayers(self):
- """!Load raster/vector from current layer tree
-
- @todo volumes
- """
- if not self.tree:
- return
-
- listOfItems = []
- item = self.tree.GetFirstChild(self.tree.root)[0]
- self._GetDataLayers(item, listOfItems)
-
- start = time.time()
-
- while(len(listOfItems) > 0):
- item = listOfItems.pop()
- type = self.tree.GetPyData(item)[0]['type']
- if item in self.layers:
- continue
- # "raster (double click to set properties)" - tries to load this
- # layer - no idea how to fix it
- if ' ' in self.tree.GetPyData(item)[0]['maplayer'].name:
- return
- try:
- if type == 'raster':
- self.LoadRaster(item)
- elif type == '3d-raster':
- self.LoadRaster3d(item)
- elif type == 'vector':
- # data = self.tree.GetPyData(item)[0]['nviz']
- # vecType = []
- # if data and 'vector' in data:
- # for v in ('lines', 'points'):
- # if data['vector'][v]:
- # vecType.append(v)
- layer = self.tree.GetPyData(item)[0]['maplayer']
- npoints, nlines, nfeatures, mapIs3D = self.lmgr.nviz.VectorInfo(layer)
- if npoints > 0:
- self.LoadVector(item, points = True)
- if nlines > 0:
- self.LoadVector(item, points = False)
- except gcmd.GException, e:
- GError(parent = self,
- message = e.value)
- self.init = False
-
- stop = time.time()
-
- Debug.msg(1, "GLWindow.LoadDataLayers(): time = %f" % (stop-start))
-
- def UnloadDataLayers(self, force = False):
- """!Unload any layers that have been deleted from layer tree
- @param force True to unload all data layers
- """
- if not self.tree:
- return
-
- listOfItems = []
- if not force:
- item = self.tree.GetFirstChild(self.tree.root)[0]
- self._GetDataLayers(item, listOfItems)
-
- start = time.time()
-
- update = False
- layersTmp = self.layers[:]
- for layer in layersTmp:
- if layer in listOfItems:
- continue
- ltype = self.tree.GetPyData(layer)[0]['type']
- try:
- if ltype == 'raster':
- self.UnloadRaster(layer)
- elif ltype == '3d-raster':
- self.UnloadRaster3d(layer)
- elif ltype == 'vector':
- maplayer = self.tree.GetPyData(layer)[0]['maplayer']
- npoints, nlines, nfeatures, mapIs3D = self.lmgr.nviz.VectorInfo(maplayer)
- if npoints > 0:
- self.UnloadVector(layer, points = True)
- if nlines > 0:
- self.UnloadVector(layer, points = False)
-
- except gcmd.GException, e:
- gcmd.GError(parent = self,
- message = e.value)
-
- if force and self.baseId > 0: # unload base surface when quitting
- ret = self._display.UnloadSurface(self.baseId)
- self.baseId = -1
- if update:
- self.lmgr.nviz.UpdateSettings()
- self.UpdateView(None)
-
- stop = time.time()
-
- Debug.msg(1, "GLWindow.UnloadDataLayers(): time = %f" % (stop-start))
-
- def SetVectorSurface(self, data):
- """!Set reference surfaces of vector"""
- data['mode']['surface'] = {}
- data['mode']['surface']['value'] = list()
- data['mode']['surface']['show'] = list()
- for name in self.GetLayerNames('raster'):
- data['mode']['surface']['value'].append(name)
- data['mode']['surface']['show'].append(True)
-
- def SetVectorFromCmd(self, item, data):
- """!Set 3D view properties from cmd (d.vect)
- @param item Layer Tree item
- @param nviz data
- """
- cmd = self.tree.GetPyData(item)[0]['cmd']
- if cmd[0] != 'd.vect':
- return
- for opt in cmd[1:]:
- try:
- key, value = opt.split('=')
- except ValueError:
- continue
- if key == 'color':
- data['lines']['color']['value'] = value
- data['points']['color']['value'] = value
- def SetMapObjProperties(self, item, id, nvizType):
- """!Set map object properties
-
- Properties must be afterwards updated by
- UpdateMapObjProperties().
-
- @param item layer item
- @param id nviz layer id (or -1)
- @param nvizType nviz data type (surface, points, vector)
- """
- if nvizType != 'constant':
- mapType = self.tree.GetPyData(item)[0]['maplayer'].type
- # reference to original layer properties (can be None)
- data = self.tree.GetPyData(item)[0]['nviz']
- else:
- mapType = nvizType
- data = self.constants[item]
-
- if not data:
- # init data structure
- if nvizType != 'constant':
- self.tree.GetPyData(item)[0]['nviz'] = {}
- data = self.tree.GetPyData(item)[0]['nviz']
-
- if mapType == 'raster':
- # reset to default properties
- data[nvizType] = self.nvizDefault.SetSurfaceDefaultProp()
-
- elif mapType == 'vector':
- # reset to default properties (lines/points)
- data['vector'] = self.nvizDefault.SetVectorDefaultProp()
- self.SetVectorFromCmd(item, data['vector'])
- self.SetVectorSurface(data['vector']['points'])
- self.SetVectorSurface(data['vector']['lines'])
-
- elif mapType == '3d-raster':
- # reset to default properties
- data[nvizType] = self.nvizDefault.SetVolumeDefaultProp()
-
- elif mapType == 'constant':
- data['constant'] = self.nvizDefault.SetConstantDefaultProp()
-
- else:
- # complete data (use default values), not sure if this is necessary
- if mapType == 'raster':
- if not data['surface']:
- data['surface'] = self.nvizDefault.SetSurfaceDefaultProp()
- if mapType == 'vector':
- if not data['vector']['lines']:
- self.nvizDefault.SetVectorLinesDefaultProp(data['vector']['lines'])
- if not data['vector']['points']:
- self.nvizDefault.SetVectorPointsDefaultProp(data['vector']['points'])
- # set updates
- for sec in data.keys():
- for sec1 in data[sec].keys():
- if sec1 == 'position':
- data[sec][sec1]['update'] = None
- continue
- if type(data[sec][sec1]) == types.DictType:
- for sec2 in data[sec][sec1].keys():
- if sec2 not in ('all', 'init', 'id'):
- data[sec][sec1][sec2]['update'] = None
- elif type(data[sec][sec1]) == types.ListType:
- for i in range(len(data[sec][sec1])):
- for sec2 in data[sec][sec1][i].keys():
- data[sec][sec1][i][sec2]['update'] = None
- event = wxUpdateProperties(data = data)
- wx.PostEvent(self, event)
-
- # set id
- if id > 0:
- if mapType in ('raster', '3d-raster'):
- data[nvizType]['object'] = { 'id' : id,
- 'init' : False }
- elif mapType == 'vector':
- data['vector'][nvizType]['object'] = { 'id' : id,
- 'init' : False }
- elif mapType == 'constant':
- data[nvizType]['object'] = { 'id' : id,
- 'init' : False }
-
- return data
- def LoadRaster(self, item):
- """!Load 2d raster map and set surface attributes
-
- @param layer item
- """
- return self._loadRaster(item)
-
- def LoadRaster3d(self, item):
- """!Load 3d raster map and set surface attributes
-
- @param layer item
- """
- return self._loadRaster(item)
-
- def _loadRaster(self, item):
- """!Load 2d/3d raster map and set its attributes
-
- @param layer item
- """
- layer = self.tree.GetPyData(item)[0]['maplayer']
-
- if layer.type not in ('raster', '3d-raster'):
- return
-
- if layer.type == 'raster':
- id = self._display.LoadSurface(str(layer.name), None, None)
- nvizType = 'surface'
- errorMsg = _("Loading raster map")
- elif layer.type == '3d-raster':
- id = self._display.LoadVolume(str(layer.name), None, None)
- nvizType = 'volume'
- errorMsg = _("Loading 3d raster map")
- else:
- id = -1
-
- if id < 0:
- if layer.type in ('raster', '3d-raster'):
- self.log.WriteError("%s <%s> %s" % (errorMsg, layer.name, _("failed")))
- else:
- self.log.WriteError(_("Unsupported layer type '%s'") % layer.type)
-
- self.layers.append(item)
-
- # set default/workspace layer properties
- data = self.SetMapObjProperties(item, id, nvizType)
-
- # update properties
- event = wxUpdateProperties(data = data)
- wx.PostEvent(self, event)
-
- # update tools window
- if hasattr(self.lmgr, "nviz") and \
- item == self.GetSelectedLayer(type = 'item'):
- toolWin = self.lmgr.nviz
- if layer.type == 'raster':
- win = toolWin.FindWindowById( \
- toolWin.win['vector']['lines']['surface'])
- win.SetItems(self.GetLayerNames(layer.type))
-
- #toolWin.UpdatePage(nvizType)
- #toolWin.SetPage(nvizType)
-
- return id
-
- def NewConstant(self):
- """!Create new constant"""
- index = len(self.constants)
- try:
- name = self.constants[-1]['constant']['object']['name'] + 1
- except IndexError:
- name = 1
- data = dict()
- self.constants.append(data)
- data = self.SetMapObjProperties(item = index, id = -1, nvizType = 'constant')
- self.AddConstant(data, name)
- return name
-
- def AddConstant(self, data, name):
- """!Add new constant"""
- id = self._display.AddConstant(value = data['constant']['value'], color = data['constant']['color'])
- self._display.SetSurfaceRes(id, data['constant']['resolution'], data['constant']['resolution'])
- data['constant']['object'] = { 'id' : id,
- 'name': name,
- 'init' : False }
-
- def DeleteConstant(self, index):
- """!Delete constant layer"""
- id = self.constants[index]['constant']['object']['id']
- self._display.UnloadSurface(id)
- del self.constants[index]
-
- def SelectCPlane(self, index):
- """!Select cutting plane"""
- for plane in range (self._display.GetCPlanesCount()):
- if plane == index:
- self._display.SelectCPlane(plane)
- self.cplanes[plane]['on'] = True
- else:
- self._display.UnselectCPlane(plane)
- try:
- self.cplanes[plane]['on'] = False
- except IndexError:
- pass
-
- def UpdateCPlane(self, event):
- """!Change cutting plane settings"""
- current = event.current
- for each in event.update:
- if each == 'rotation':
- self._display.SetCPlaneRotation(0, self.cplanes[current]['rotation']['tilt'],
- self.cplanes[current]['rotation']['rot'])
- if each == 'position':
- self._display.SetCPlaneTranslation(self.cplanes[current]['position']['x'],
- self.cplanes[current]['position']['y'],
- self.cplanes[current]['position']['z'])
- if each == 'shading':
- self._display.SetFenceColor(self.cplanes[current]['shading'])
-
- def UnloadRaster(self, item):
- """!Unload 2d raster map
-
- @param layer item
- """
- return self._unloadRaster(item)
-
- def UnloadRaster3d(self, item):
- """!Unload 3d raster map
-
- @param layer item
- """
- return self._unloadRaster(item)
-
- def _unloadRaster(self, item):
- """!Unload 2d/3d raster map
-
- @param item layer item
- """
- layer = self.tree.GetPyData(item)[0]['maplayer']
-
- if layer.type not in ('raster', '3d-raster'):
- return
-
- data = self.tree.GetPyData(item)[0]['nviz']
-
- if layer.type == 'raster':
- nvizType = 'surface'
- unloadFn = self._display.UnloadSurface
- errorMsg = _("Unable to unload raster map")
- successMsg = _("Raster map")
- else:
- nvizType = 'volume'
- unloadFn = self._display.UnloadVolume
- errorMsg = _("Unable to unload 3d raster map")
- successMsg = _("3d raster map")
-
- id = data[nvizType]['object']['id']
-
- if unloadFn(id) == 0:
- self.log.WriteError("%s <%s>" % (errorMsg, layer.name))
- else:
- self.log.WriteLog("%s <%s> %s" % (successMsg, layer.name, _("unloaded successfully")))
-
- data[nvizType].pop('object')
-
- self.layers.remove(item)
-
- # update tools window
- if hasattr(self.lmgr, "nviz"):
- toolWin = self.lmgr.nviz
- if layer.type == 'raster':
- win = toolWin.FindWindowById(toolWin.win['vector']['lines']['surface'])
- win.SetItems(self.GetLayerNames(layer.type))
- win = toolWin.FindWindowById(toolWin.win['surface']['map'])
- win.SetValue('')
- if layer.type == '3d-raster':
- win = toolWin.FindWindowById(toolWin.win['volume']['map'])
- win.SetValue('')
- if layer.type == 'vector':
- win = toolWin.FindWindowById(toolWin.win['vector']['map'])
- win.SetValue('')
-
- def LoadVector(self, item, points = None, append = True):
- """!Load 2D or 3D vector map overlay
-
- @param item layer item
- @param points True to load points, False to load lines, None
- to load both
- @param append append vector to layer list
- """
- layer = self.tree.GetPyData(item)[0]['maplayer']
- if layer.type != 'vector':
- return
-
- # set default properties
- if points is None:
- self.SetMapObjProperties(item, -1, 'lines')
- self.SetMapObjProperties(item, -1, 'points')
- vecTypes = ('points', 'lines')
- elif points:
- self.SetMapObjProperties(item, -1, 'points')
- vecTypes = ('points', )
- else:
- self.SetMapObjProperties(item, -1, 'lines')
- vecTypes = ('lines', )
-
- id = -1
- for vecType in vecTypes:
- if vecType == 'lines':
- id, baseId = self._display.LoadVector(str(layer.GetName()), False)
- else:
- id, baseId = self._display.LoadVector(str(layer.GetName()), True)
- if id < 0:
- self.log.WriteError(_("Loading vector map <%(name)s> (%(type)s) failed") % \
- { 'name' : layer.name, 'type' : vecType })
- # update layer properties
- self.SetMapObjProperties(item, id, vecType)
- if baseId > 0:
- self.baseId = baseId # id of base surface (when no surface is loaded)
- if append:
- self.layers.append(item)
-
- # update properties
- data = self.tree.GetPyData(item)[0]['nviz']
- event = wxUpdateProperties(data = data)
- wx.PostEvent(self, event)
-
- # update tools window
- if hasattr(self.lmgr, "nviz") and \
- item == self.GetSelectedLayer(type = 'item'):
- toolWin = self.lmgr.nviz
-
- toolWin.UpdatePage('vector')
- ### toolWin.SetPage('vector')
-
- return id
- def UnloadVector(self, item, points = None, remove = True):
- """!Unload vector map overlay
-
- @param item layer item
- @param points,lines True to unload given feature type
- @param remove remove layer from list
- """
- layer = self.tree.GetPyData(item)[0]['maplayer']
- data = self.tree.GetPyData(item)[0]['nviz']['vector']
-
- # if vecType is None:
- # vecType = []
- # for v in ('lines', 'points'):
- # if UserSettings.Get(group = 'nviz', key = 'vector',
- # subkey = [v, 'show']):
- # vecType.append(v)
-
- if points is None:
- vecTypes = ('points', 'lines')
- elif points:
- vecTypes = ('points', )
- else:
- vecTypes = ('lines', )
-
- for vecType in vecTypes:
- if 'object' not in data[vecType]:
- continue
-
- id = data[vecType]['object']['id']
-
- if vecType == 'lines':
- ret = self._display.UnloadVector(id, False)
- else:
- ret = self._display.UnloadVector(id, True)
- if ret == 0:
- self.log.WriteError(_("Unable to unload vector map <%(name)s> (%(type)s)") % \
- { 'name': layer.name, 'type' : vecType })
- else:
- self.log.WriteLog(_("Vector map <%(name)s> (%(type)s) unloaded successfully") % \
- { 'name' : layer.name, 'type' : vecType })
-
- data[vecType].pop('object')
-
- if remove:
- self.layers.remove(item)
-
- def OnZoomToMap(self, event):
- """!Set display extents to match selected raster or vector
- map or volume.
-
- @todo vector, volume
- """
- layer = self.GetSelectedLayer()
-
- if layer is None:
- return
-
- Debug.msg (3, "GLWindow.OnZoomToMap(): layer = %s, type = %s" % \
- (layer.name, layer.type))
-
- self._display.SetViewportDefault()
- def ResetView(self):
- """!Reset to default view"""
- self.iview['z-exag']['original'], \
- self.iview['height']['value'], \
- self.iview['height']['min'], \
- self.iview['height']['max'] = self._display.SetViewDefault()
-
- ## set initial z-exag value at 1X
- self.view['z-exag']['value'] = 1.0
-
- self.view['z-exag']['min'] = UserSettings.Get(group = 'nviz', key = 'view',
- subkey = ('z-exag', 'min'))
- zexagMax = UserSettings.Get(group = 'nviz', key = 'view',
- subkey = ('z-exag', 'max'))
-
- self.view['position']['x'] = UserSettings.Get(group = 'nviz', key = 'view',
- subkey = ('position', 'x'))
- self.view['position']['y'] = UserSettings.Get(group = 'nviz', key = 'view',
- subkey = ('position', 'y'))
- self.view['persp']['value'] = UserSettings.Get(group = 'nviz', key = 'view',
- subkey = ('persp', 'value'))
-
- self.view['twist']['value'] = UserSettings.Get(group = 'nviz', key = 'view',
- subkey = ('twist', 'value'))
- self._display.ResetRotation()
- self.iview['rotation'] = None
- self._display.LookAtCenter()
- focus = self.iview['focus']
- focus['x'], focus['y'], focus['z'] = self._display.GetFocus()
-
- event = wxUpdateView(zExag = False)
- wx.PostEvent(self, event)
-
- def UpdateMapObjProperties(self, event):
- """!Generic method to update data layer properties"""
- data = event.data
-
- if 'surface' in data:
- try:
- id = data['surface']['object']['id']
- except KeyError:
- return
- self.UpdateSurfaceProperties(id, data['surface'])
- # -> initialized
- data['surface']['object']['init'] = True
-
- elif 'constant' in data:
- id = data['constant']['object']['id']
- self.UpdateConstantProperties(id, data['constant'])
- # -> initialized
- data['constant']['object']['init'] = True
-
- elif 'volume' in data:
- id = data['volume']['object']['id']
- self.UpdateVolumeProperties(id, data['volume'])
- # -> initialized
- data['volume']['object']['init'] = True
-
- elif 'vector' in data:
- for type in ('lines', 'points'):
- if 'object' in data['vector'][type]:
- id = data['vector'][type]['object']['id']
- self.UpdateVectorProperties(id, data['vector'], type)
- # -> initialized
- data['vector'][type]['object']['init'] = True
-
- def UpdateConstantProperties(self, id, data):
- """!Update surface map object properties"""
- self._display.SetSurfaceColor(id = id, map = False, value = data['color'])
- self._display.SetSurfaceTopo(id = id, map = False, value = data['value'])
- self._display.SetSurfaceRes(id, data['resolution'], data['resolution'])
- if data['transp'] == 0:
- self._display.UnsetSurfaceTransp(id)
- else:
- self._display.SetSurfaceTransp(id, map = False, value = data['transp'])
-
- def UpdateSurfaceProperties(self, id, data):
- """!Update surface map object properties"""
- # surface attributes
- for attrb in ('color', 'mask',
- 'transp', 'shine'):
- if attrb not in data['attribute'] or \
- 'update' not in data['attribute'][attrb]:
- continue
-
- map = data['attribute'][attrb]['map']
- value = data['attribute'][attrb]['value']
-
- if map is None: # unset
- # only optional attributes
- if attrb == 'mask':
- # TODO: invert mask
- # TODO: broken in NVIZ
- self._display.UnsetSurfaceMask(id)
- elif attrb == 'transp':
- self._display.UnsetSurfaceTransp(id)
- else:
- if type(value) == types.StringType and \
- len(value) <= 0: # ignore empty values (TODO: warning)
- continue
- if attrb == 'color':
- self._display.SetSurfaceColor(id, map, str(value))
- elif attrb == 'mask':
- # TODO: invert mask
- # TODO: broken in NVIZ
- self._display.SetSurfaceMask(id, False, str(value))
- elif attrb == 'transp':
- self._display.SetSurfaceTransp(id, map, str(value))
- elif attrb == 'shine':
- self._display.SetSurfaceShine(id, map, str(value))
- data['attribute'][attrb].pop('update')
-
- # draw res
- if 'update' in data['draw']['resolution']:
- coarse = data['draw']['resolution']['coarse']
- fine = data['draw']['resolution']['fine']
-
- if data['draw']['all']:
- self._display.SetSurfaceRes(-1, fine, coarse)
- else:
- self._display.SetSurfaceRes(id, fine, coarse)
- data['draw']['resolution'].pop('update')
-
- # draw style
- if 'update' in data['draw']['mode']:
- if data['draw']['mode']['value'] < 0: # need to calculate
- data['draw']['mode']['value'] = \
- self.nvizDefault.GetDrawMode(mode = data['draw']['mode']['desc']['mode'],
- style = data['draw']['mode']['desc']['style'],
- shade = data['draw']['mode']['desc']['shading'],
- string = True)
- style = data['draw']['mode']['value']
- if data['draw']['all']:
- self._display.SetSurfaceStyle(-1, style)
- else:
- self._display.SetSurfaceStyle(id, style)
- data['draw']['mode'].pop('update')
-
- # wire color
- if 'update' in data['draw']['wire-color']:
- color = data['draw']['wire-color']['value']
- if data['draw']['all']:
- self._display.SetWireColor(-1, str(color))
- else:
- self._display.SetWireColor(id, str(color))
- data['draw']['wire-color'].pop('update')
-
- # position
- if 'update' in data['position']:
- x = data['position']['x']
- y = data['position']['y']
- z = data['position']['z']
- self._display.SetSurfacePosition(id, x, y, z)
- data['position'].pop('update')
- data['draw']['all'] = False
-
- def UpdateVolumeProperties(self, id, data, isosurfId = None):
- """!Update volume (isosurface/slice) map object properties"""
- if 'update' in data['draw']['resolution']:
- if data['draw']['mode']['value'] == 0:
- self._display.SetIsosurfaceRes(id, data['draw']['resolution']['isosurface']['value'])
- else:
- self._display.SetSliceRes(id, data['draw']['resolution']['slice']['value'])
- data['draw']['resolution'].pop('update')
-
- if 'update' in data['draw']['shading']:
- if data['draw']['mode']['value'] == 0:
- if data['draw']['shading']['isosurface']['value'] < 0: # need to calculate
- mode = data['draw']['shading']['isosurface']['value'] = \
- self.nvizDefault.GetDrawMode(shade = data['draw']['shading']['isosurface'],
- string = False)
- self._display.SetIsosurfaceMode(id, mode)
- else:
- if data['draw']['shading']['slice']['value'] < 0: # need to calculate
- mode = data['draw']['shading']['slice']['value'] = \
- self.nvizDefault.GetDrawMode(shade = data['draw']['shading']['slice'],
- string = False)
- self._display.SetSliceMode(id, mode)
- data['draw']['shading'].pop('update')
-
- #
- # isosurface attributes
- #
- isosurfId = 0
- for isosurf in data['isosurface']:
- self._display.AddIsosurface(id, 0, isosurf_id = isosurfId)
- for attrb in ('topo', 'color', 'mask',
- 'transp', 'shine'):
- if attrb not in isosurf or \
- 'update' not in isosurf[attrb]:
- continue
- map = isosurf[attrb]['map']
- value = isosurf[attrb]['value']
-
- if map is None: # unset
- # only optional attributes
- if attrb == 'topo' :
- self._display.SetIsosurfaceTopo(id, isosurfId, map, str(value))
- elif attrb == 'mask':
- # TODO: invert mask
- # TODO: broken in NVIZ
- self._display.UnsetIsosurfaceMask(id, isosurfId)
- elif attrb == 'transp':
- self._display.UnsetIsosurfaceTransp(id, isosurfId)
- else:
- if type(value) == types.StringType and \
- len(value) <= 0: # ignore empty values (TODO: warning)
- continue
- elif attrb == 'color':
- self._display.SetIsosurfaceColor(id, isosurfId, map, str(value))
- elif attrb == 'mask':
- # TODO: invert mask
- # TODO: broken in NVIZ
- self._display.SetIsosurfaceMask(id, isosurfId, False, str(value))
- elif attrb == 'transp':
- self._display.SetIsosurfaceTransp(id, isosurfId, map, str(value))
- elif attrb == 'shine':
- self._display.SetIsosurfaceShine(id, isosurfId, map, str(value))
- isosurf[attrb].pop('update')
- isosurfId += 1
- #
- # slice attributes
- #
- sliceId = 0
- for slice in data['slice']:
- ret = self._display.AddSlice(id, slice_id = sliceId)
- if 'update' in slice['position']:
- pos = slice['position']
- ret = self._display.SetSlicePosition(id, sliceId, pos['x1'], pos['x2'],
- pos['y1'], pos['y2'], pos['z1'], pos['z2'], pos['axis'])
-
- slice['position'].pop('update')
- if 'update' in slice['transp']:
- tr = slice['transp']['value']
- self._display.SetSliceTransp(id, sliceId, tr)
- sliceId += 1
-
- # position
- if 'update' in data['position']:
- x = data['position']['x']
- y = data['position']['y']
- z = data['position']['z']
- self._display.SetVolumePosition(id, x, y, z)
- data['position'].pop('update')
-
- def UpdateVectorProperties(self, id, data, type):
- """!Update vector layer properties
-
- @param id layer id
- @param data properties
- @param type lines/points
- """
- if type == 'points':
- self.UpdateVectorPointsProperties(id, data[type])
- else:
- self.UpdateVectorLinesProperties(id, data[type])
-
- def UpdateVectorLinesProperties(self, id, data):
- """!Update vector line map object properties"""
- # mode
- if 'update' in data['color'] or \
- 'update' in data['width'] or \
- 'update' in data['mode']:
- width = data['width']['value']
- color = data['color']['value']
- if data['mode']['type'] == 'flat':
- flat = True
- if 'surface' in data['mode']:
- data['mode'].pop('surface')
- else:
- flat = False
-
- self._display.SetVectorLineMode(id, color,
- width, flat)
-
- if 'update' in data['color']:
- data['color'].pop('update')
- if 'update' in data['width']:
- data['width'].pop('update')
-
- # height
- if 'update' in data['height']:
- self._display.SetVectorLineHeight(id,
- data['height']['value'])
- data['height'].pop('update')
-
- # thematic
- if 'update' in data['thematic']:
- color = width = None
- colorTable = False
- if data['thematic']['usecolor'] or data['thematic']['usewidth']:
- if data['thematic']['usecolor']:
- color = data['thematic']['rgbcolumn']
- colorTable = True
- if data['thematic']['usewidth']:
- width = data['thematic']['sizecolumn']
- self._display.SetLinesStyleThematic(id = id, layer = data['thematic']['layer'],
- color = color,
- colorTable = colorTable,
- width = width)
- else:
- self._display.UnsetLinesStyleThematic(id = id)
- data['thematic'].pop('update')
- # surface
- if 'surface' in data['mode'] and 'update' in data['mode']:
- for item in range(len(data['mode']['surface']['value'])):
- for type in ('raster', 'constant'):
- sid = self.GetLayerId(type = type,
- name = data['mode']['surface']['value'][item])
- if sid > -1:
- if data['mode']['surface']['show'][item]:
- self._display.SetVectorLineSurface(id, sid)
- else:
- self._display.UnsetVectorLineSurface(id, sid)
- break
-
- if 'update' in data['mode']:
- data['mode'].pop('update')
-
- def UpdateVectorPointsProperties(self, id, data):
- """!Update vector point map object properties"""
- if 'update' in data['size'] or \
- 'update' in data['width'] or \
- 'update' in data['marker'] or \
- 'update' in data['color']:
-
- ret = self._display.SetVectorPointMode(id, data['color']['value'],
- data['width']['value'], float(data['size']['value']),
- data['marker']['value'] + 1)
-
- error = None
- if ret == -1:
- error = _("Vector point layer not found (id = %d)") % id
- elif ret == -2:
- error = _("Unable to set data layer properties (id = %d)") % id
- if error:
- raise gcmd.GException(_("Setting data layer properties failed.\n\n%s") % error)
-
- for prop in ('size', 'width', 'marker', 'color'):
- if 'update' in data[prop]:
- data[prop].pop('update')
-
- # height
- if 'update' in data['height']:
- self._display.SetVectorPointHeight(id,
- data['height']['value'])
- data['height'].pop('update')
-
- # thematic
- if 'update' in data['thematic']:
- color = size = None
- colorTable = False
- if data['thematic']['usecolor'] or data['thematic']['usesize']:
- if data['thematic']['usecolor']:
- color = data['thematic']['rgbcolumn']
- colorTable = True
- if data['thematic']['usesize']:
- size = data['thematic']['sizecolumn']
- self._display.SetPointsStyleThematic(id = id, layer = data['thematic']['layer'],
- color = color,
- colorTable = colorTable,
- size = size)
- else:
- self._display.UnsetPointsStyleThematic(id = id)
- data['thematic'].pop('update')
-
- # surface
- if 'update' in data['mode'] and 'surface' in data['mode']:
- for item in range(len(data['mode']['surface']['value'])):
- for type in ('raster', 'constant'):
- sid = self.GetLayerId(type = type,
- name = data['mode']['surface']['value'][item])
- if sid > -1:
- if data['mode']['surface']['show'][item]:
- self._display.SetVectorPointSurface(id, sid)
- else:
- self._display.UnsetVectorPointSurface(id, sid)
- break
- data['mode'].pop('update')
-
- def GetLayerNames(self, type):
- """!Return list of map layer names of given type"""
- layerName = []
-
- if type == 'constant':
- for item in self.constants:
- layerName.append(_("constant#") + str(item['constant']['object']['name']))
- else:
- for item in self.layers:
- mapLayer = self.tree.GetPyData(item)[0]['maplayer']
- if type != mapLayer.GetType():
- continue
-
- layerName.append(mapLayer.GetName())
-
- return layerName
-
- def GetLayerId(self, type, name, vsubtyp = None):
- """!Get layer object id or -1"""
- if len(name) < 1:
- return -1
-
- if type == 'constant':
- for item in self.constants:
- if _("constant#") + str(item['constant']['object']['name']) == name:
- return item['constant']['object']['id']
-
-
- for item in self.layers:
- mapLayer = self.tree.GetPyData(item)[0]['maplayer']
- if type != mapLayer.GetType() or \
- name != mapLayer.GetName():
- continue
-
- data = self.tree.GetPyData(item)[0]['nviz']
-
- if type == 'raster':
- return data['surface']['object']['id']
- elif type == 'vector':
- if vsubtyp == 'vpoint':
- return data['vector']['points']['object']['id']
- elif vsubtyp == 'vline':
- return data['vector']['lines']['object']['id']
- elif type == '3d-raster':
- return data['volume']['object']['id']
- return -1
-
- def ReloadLayersData(self):
- """!Delete nviz data of all loaded layers and reload them from current settings"""
- for item in self.layers:
- type = self.tree.GetPyData(item)[0]['type']
- layer = self.tree.GetPyData(item)[0]['maplayer']
- data = self.tree.GetPyData(item)[0]['nviz']
-
- if type == 'raster':
- self.nvizDefault.SetSurfaceDefaultProp(data['surface'])
- if type == 'vector':
- npoints, nlines, nfeatures, mapIs3D = self.lmgr.nviz.VectorInfo(layer)
- if npoints > 0:
- self.nvizDefault.SetVectorPointsDefaultProp(data['vector']['points'])
- if nlines > 0:
- self.nvizDefault.SetVectorLinesDefaultProp(data['vector']['lines'])
-
- def NvizCmdCommand(self):
- """!Generate command for nviz_cmd according to current state"""
- cmd = 'nviz_cmd '
-
- rasters = []
- vectors = []
- volumes = []
- for item in self.layers:
- if self.tree.GetPyData(item)[0]['type'] == 'raster':
- rasters.append(item)
- elif self.tree.GetPyData(item)[0]['type'] == '3d-raster':
- volumes.append(item)
- elif self.tree.GetPyData(item)[0]['type'] == 'vector':
- vectors.append(item)
- if not rasters and not self.constants:
- return _("At least one raster map required")
- # elevation_map/elevation_value
- if self.constants:
- subcmd = "elevation_value="
- for constant in self.constants:
- subcmd += "%d," % constant['constant']['value']
- subcmd = subcmd.strip(', ') + ' '
- cmd += subcmd
- if rasters:
- subcmd = "elevation_map="
- for item in rasters:
- subcmd += "%s," % self.tree.GetPyData(item)[0]['maplayer'].GetName()
- subcmd = subcmd.strip(', ') + ' '
- cmd += subcmd
- #
- # draw mode
- #
- cmdMode = "mode="
- cmdFine = "resolution_fine="
- cmdCoarse = "resolution_coarse="
- cmdShading = "shading="
- cmdStyle = "style="
- cmdWire = "wire_color="
- # test -a flag
- flag_a = "-a "
- nvizDataFirst = self.tree.GetPyData(rasters[0])[0]['nviz']['surface']['draw']
- for item in rasters:
- nvizData = self.tree.GetPyData(item)[0]['nviz']['surface']['draw']
- if nvizDataFirst != nvizData:
- flag_a = ""
- cmd += flag_a
- for item in rasters:
- nvizData = self.tree.GetPyData(item)[0]['nviz']['surface']['draw']
-
- cmdMode += "%s," % nvizData['mode']['desc']['mode']
- cmdFine += "%s," % nvizData['resolution']['fine']
- cmdCoarse += "%s," % nvizData['resolution']['coarse']
- cmdShading += "%s," % nvizData['mode']['desc']['shading']
- cmdStyle += "%s," % nvizData['mode']['desc']['style']
- cmdWire += "%s," % nvizData['wire-color']['value']
- for item in self.constants:
- cmdMode += "fine,"
- cmdFine += "%s," % item['constant']['resolution']
- cmdCoarse += "%s," % item['constant']['resolution']
- cmdShading += "gouraud,"
- cmdStyle += "surface,"
- cmdWire += "0:0:0,"
- mode = []
- for subcmd in (cmdMode, cmdFine, cmdCoarse, cmdShading, cmdStyle, cmdWire):
- if flag_a:
- mode.append(subcmd.split(',')[0] + ' ')
- else:
- subcmd = subcmd.strip(', ') + ' '
- cmd += subcmd
- if flag_a:# write only meaningful possibilities
- cmd += mode[0]
- if 'fine' in mode[0]:
- cmd += mode[1]
- elif 'coarse' in mode[0]:
- cmd += mode[2]
- elif 'both' in mode[0]:
- cmd += mode[2]
- cmd += mode[1]
- if 'flat' in mode[3]:
- cmd += mode[3]
- if 'wire' in mode[4]:
- cmd += mode[4]
- if 'coarse' in mode[0] or 'both' in mode[0] and 'wire' in mode[3]:
- cmd += mode[5]
- #
- # attributes
- #
- cmdColorMap = "color_map="
- cmdColorVal = "color="
- for item in rasters:
- nvizData = self.tree.GetPyData(item)[0]['nviz']['surface']['attribute']
- if 'color' not in nvizData:
- cmdColorMap += "%s," % self.tree.GetPyData(item)[0]['maplayer'].GetName()
- else:
- if nvizData['color']['map']:
- cmdColorMap += "%s," % nvizData['color']['value']
- else:
- cmdColorVal += "%s," % nvizData['color']['value']
- #TODO
- # transparency, shine, mask
- for item in self.constants:
- cmdColorVal += "%s," % item['constant']['color']
- if cmdColorMap.split("=")[1]:
- cmd += cmdColorMap.strip(', ') + ' '
- if cmdColorVal.split("=")[1]:
- cmd += cmdColorVal.strip(', ') + ' '
- cmd += "\\\n"
- #
- # vlines
- #
- if vectors:
- cmdLines = cmdLWidth = cmdLHeight = cmdLColor = cmdLMode = cmdLPos = \
- cmdPoints = cmdPWidth = cmdPSize = cmdPColor = cmdPMarker = cmdPPos = cmdPLayer = ""
- markers = ['x', 'box', 'sphere', 'cube', 'diamond',
- 'dec_tree', 'con_tree', 'aster', 'gyro', 'histogram']
- for vector in vectors:
- npoints, nlines, nfeatures, mapIs3D = self.lmgr.nviz.VectorInfo(
- self.tree.GetPyData(vector)[0]['maplayer'])
- nvizData = self.tree.GetPyData(vector)[0]['nviz']['vector']
- if nlines > 0:
- cmdLines += "%s," % self.tree.GetPyData(vector)[0]['maplayer'].GetName()
- cmdLWidth += "%d," % nvizData['lines']['width']['value']
- cmdLHeight += "%d," % nvizData['lines']['height']['value']
- cmdLColor += "%s," % nvizData['lines']['color']['value']
- cmdLMode += "%s," % nvizData['lines']['mode']['type']
- cmdLPos += "0,0,%d," % nvizData['lines']['height']['value']
- if npoints > 0:
- cmdPoints += "%s," % self.tree.GetPyData(vector)[0]['maplayer'].GetName()
- cmdPWidth += "%d," % nvizData['points']['width']['value']
- cmdPSize += "%d," % nvizData['points']['size']['value']
- cmdPColor += "%s," % nvizData['points']['color']['value']
- cmdPMarker += "%s," % markers[nvizData['points']['marker']['value']]
- cmdPPos += "0,0,%d," % nvizData['points']['height']['value']
- cmdPLayer += "1,1,"
- if cmdLines:
- cmd += "vline=" + cmdLines.strip(',') + ' '
- cmd += "vline_width=" + cmdLWidth.strip(',') + ' '
- cmd += "vline_color=" + cmdLColor.strip(',') + ' '
- cmd += "vline_height=" + cmdLHeight.strip(',') + ' '
- cmd += "vline_mode=" + cmdLMode.strip(',') + ' '
- cmd += "vline_position=" + cmdLPos.strip(',') + ' '
- if cmdPoints:
- cmd += "vpoint=" + cmdPoints.strip(',') + ' '
- cmd += "vpoint_width=" + cmdPWidth.strip(',') + ' '
- cmd += "vpoint_color=" + cmdPColor.strip(',') + ' '
- cmd += "vpoint_size=" + cmdPSize.strip(',') + ' '
- cmd += "vpoint_marker=" + cmdPMarker.strip(',') + ' '
- cmd += "vpoint_position=" + cmdPPos.strip(',') + ' '
- cmd += "vpoint_layer=" + cmdPLayer.strip(',') + ' '
- cmd += "\\\n"
-
- #
- # volumes
- #
- if volumes:
- cmdName = cmdShade = cmdRes = cmdPos = cmdIso = ""
- cmdIsoColorMap = cmdIsoColorVal = cmdIsoTrMap = cmdIsoTrVal = ""
- cmdSlice = cmdSliceTransp = cmdSlicePos = ""
- for i, volume in enumerate(volumes):
- nvizData = self.tree.GetPyData(volume)[0]['nviz']['volume']
- cmdName += "%s," % self.tree.GetPyData(volume)[0]['maplayer'].GetName()
- cmdShade += "%s," % nvizData['draw']['shading']['isosurface']['desc']
- cmdRes += "%d," % nvizData['draw']['resolution']['isosurface']['value']
- if nvizData['position']:
- cmdPos += "%d,%d,%d," % (nvizData['position']['x'], nvizData['position']['y'],
- nvizData['position']['z'])
- for iso in nvizData['isosurface']:
- level = iso['topo']['value']
- cmdIso += "%d:%s," % (i + 1, level)
- if iso['color']['map']:
- cmdIsoColorMap += "%s," % iso['color']['value']
- else:
- cmdIsoColorVal += "%s," % iso['color']['value']
- if 'transp' in iso:
- if iso['transp']['map']:
- cmdIsoTrMap += "%s," % iso['transp']['value']
- else:
- cmdIsoTrVal += "%s," % iso['transp']['value']
-
- for slice in nvizData['slice']:
- axis = ('x','y','z')[slice['position']['axis']]
- cmdSlice += "%d:%s," % (i + 1, axis)
- for coord in ('x1', 'x2', 'y1', 'y2', 'z1', 'z2'):
- cmdSlicePos += "%f," % slice['position'][coord]
- cmdSliceTransp += "%s," % slice['transp']['value']
-
- cmd += "volume=" + cmdName.strip(',') + ' '
- cmd += "volume_shading=" + cmdShade.strip(',') + ' '
- cmd += "volume_resolution=" + cmdRes.strip(',') + ' '
- if nvizData['position']:
- cmd += "volume_position=" + cmdPos.strip(',') + ' '
- if cmdIso:
- cmd += "isosurf_level=" + cmdIso.strip(',') + ' '
- if cmdIsoColorMap:
- cmd += "isosurf_color_map=" + cmdIsoColorMap.strip(',') + ' '
- if cmdIsoColorVal:
- cmd += "isosurf_color_value=" + cmdIsoColorVal.strip(',') + ' '
- if cmdIsoTrMap:
- cmd += "isosurf_transp_map=" + cmdIsoTrMap.strip(',') + ' '
- if cmdIsoTrVal:
- cmd += "isosurf_transp_value=" + cmdIsoTrVal.strip(',') + ' '
- if cmdSlice:
- cmd += "slice=" + cmdSlice.strip(',') + ' '
- cmd += "slice_position=" + cmdSlicePos.strip(',') + ' '
- cmd += "slice_transparency=" + cmdSliceTransp.strip(',') + ' '
-
- #
- # cutting planes
- #
- cplane = self.lmgr.nviz.FindWindowById(self.lmgr.nviz.win['cplane']['planes']).GetStringSelection()
- try:
- planeIndex = int(cplane.split()[1])
- except IndexError:
- planeIndex = None
- if planeIndex is not None:
- shading = ['clear', 'top', 'bottom', 'blend', 'shaded']
- cmd += "cplane=%d " % planeIndex
- cmd += "cplane_rotation=%d " % self.cplanes[planeIndex]['rotation']['rot']
- cmd += "cplane_tilt=%d " % self.cplanes[planeIndex]['rotation']['tilt']
- cmd += "cplane_position=%d,%d,%d " % (self.cplanes[planeIndex]['position']['x'],
- self.cplanes[planeIndex]['position']['y'],
- self.cplanes[planeIndex]['position']['z'])
- cmd += "cplane_shading=%s " % shading[self.cplanes[planeIndex]['shading']]
- cmd += "\\\n"
- #
- # viewpoint
- #
- subcmd = "position=%.2f,%.2f " % (self.view['position']['x'], self.view['position']['y'])
- subcmd += "height=%d " % (self.iview['height']['value'])
- subcmd += "perspective=%d " % (self.view['persp']['value'])
- subcmd += "twist=%d " % (self.view['twist']['value'])
- subcmd += "zexag=%d " % (self.view['z-exag']['value'] * self.iview['z-exag']['original'])
- subcmd += "focus=%d,%d,%d " % (self.iview['focus']['x'],self.iview['focus']['y'],self.iview['focus']['z'])
- cmd += subcmd
-
- # background
- subcmd = "bgcolor=%d:%d:%d " % (self.view['background']['color'][:3])
- if self.view['background']['color'] != (255, 255, 255):
- cmd += subcmd
- cmd += "\\\n"
- # light
- subcmd = "light_position=%.2f,%.2f,%.2f " % (self.light['position']['x'],
- self.light['position']['y'],
- self.light['position']['z']/100.)
- subcmd += "light_brightness=%d " % (self.light['bright'])
- subcmd += "light_ambient=%d " % (self.light['ambient'])
- subcmd += "light_color=%d:%d:%d " % (self.light['color'][:3])
- cmd += subcmd
- cmd += "\\\n"
- # fringe
- toolWindow = self.lmgr.nviz
- direction = ''
- for dir in ('nw', 'ne', 'sw', 'se'):
- if toolWindow.FindWindowById(toolWindow.win['fringe'][dir]).IsChecked():
- direction += "%s," % dir
- if direction:
- subcmd = "fringe=%s " % (direction.strip(','))
- color = toolWindow.FindWindowById(toolWindow.win['fringe']['color']).GetValue()
- subcmd += "fringe_color=%d:%d:%d " % (color[0], color[1], color[2])
- subcmd += "fringe_elevation=%d " % (toolWindow.FindWindowById(toolWindow.win['fringe']['elev']).GetValue())
- cmd += subcmd
- cmd += "\\\n"
- # north arrow
- if self.decoration['arrow']['show']:
- subcmd = "arrow_position=%d,%d " % (self.decoration['arrow']['position']['x'],
- self.decoration['arrow']['position']['y'])
- subcmd += "arrow_color=%s " % self.decoration['arrow']['color']
- subcmd += "arrow_size=%d " % self.decoration['arrow']['size']
- cmd += subcmd
-
- # output
- subcmd = 'output=nviz_output '
- subcmd += 'format=ppm '
- subcmd += 'size=%d,%d ' % self.GetClientSizeTuple()
- cmd += subcmd
-
- return cmd
-
- def OnNvizCmd(self):
- """!Generate and write command to command output"""
- self.log.WriteLog(self.NvizCmdCommand(), switchPage = True)
-
- def SaveToFile(self, FileName, FileType, width, height):
- """!This draws the DC to a buffer that can be saved to a file.
-
- @todo fix BufferedPaintDC
-
- @param FileName file name
- @param FileType type of bitmap
- @param width image width
- @param height image height
- """
- self._display.SaveToFile(FileName, width, height, FileType)
-
- # pbuffer = wx.EmptyBitmap(max(1, self.Map.width), max(1, self.Map.height))
- # dc = wx.BufferedPaintDC(self, pbuffer)
- # dc.Clear()
- # self.SetCurrent()
- # self._display.Draw(False, -1)
- # pbuffer.SaveFile(FileName, FileType)
- # self.SwapBuffers()
-
- def GetDisplay(self):
- """!Get display instance"""
- return self._display
-
- def ZoomToMap(self):
- """!Reset view
- """
- self.lmgr.nviz.OnResetView(None)
-
- def TextBounds(self, textinfo):
- """!Return text boundary data
-
- @param textinfo text metadata (text, font, color, rotation)
- """
- return self.parent.MapWindow2D.TextBounds(textinfo, relcoords = True)
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