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|
"""
@package nviz_mapdisp.py
@brief Nviz extension for wxGUI
This module implements 3D visualization mode of map display.
List of classes:
- GLWindow
(C) 2008-2009 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)
"""
import os
import sys
import time
import copy
import math
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
try:
import wxnviz
except (ImportError, NameError):
pass
wxUpdateProperties, EVT_UPDATE_PROP = NewEvent()
wxUpdateView, EVT_UPDATE_VIEW = NewEvent()
wxUpdateLight, EVT_UPDATE_LIGHT = NewEvent()
class NvizThread(Thread):
def __init__(self, log, progressbar, window):
Thread.__init__(self)
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 }
# list of loaded map layers (layer tree items)
self.layers = list()
# list of query points
self.qpoints = list()
#
# use display region instead of computational
#
os.environ['GRASS_REGION'] = self.Map.SetRegion()
#
# create nviz instance
#
if self.lmgr:
self.log = self.lmgr.goutput
logerr = self.lmgr.goutput.GetLog(err = True)
logmsg = self.lmgr.goutput.GetLog()
else:
self.log = logmsg = sys.stdout
logerr = sys.stderr
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.view = copy.deepcopy(UserSettings.Get(group = 'nviz', key = 'view')) # copy
self.iview = UserSettings.Get(group = 'nviz', key = 'view', internal = True)
self.nvizDefault = NvizDefault()
self.light = copy.deepcopy(UserSettings.Get(group = 'nviz', key = 'light')) # copy
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_LEFT_UP, self.OnLeftUp)
self.Bind(wx.EVT_MOUSE_EVENTS, self.OnMouseAction)
self.Bind(wx.EVT_MOTION, self.OnMotion)
self.Bind(EVT_UPDATE_PROP, self.UpdateMapObjProperties)
self.Bind(EVT_UPDATE_VIEW, self.UpdateView)
self.Bind(EVT_UPDATE_LIGHT, self.UpdateLight)
self.Bind(wx.EVT_CLOSE, self.OnClose)
def OnClose(self, event):
# cleanup when window actually closes (on quit) and not just is hidden
self.Reset()
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 OnPaint(self, event):
Debug.msg(1, "GLCanvas.OnPaint()")
dc = wx.PaintDC(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')
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 OnMouseAction(self, event):
# change perspective with mouse wheel
wheel = event.GetWheelRotation()
if wheel != 0:
current = event.GetPositionTuple()[:]
Debug.msg (5, "GLWindow.OnMouseMotion(): wheel = %d" % wheel)
prev_value = self.view['persp']['value']
if wheel > 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'] > 100:
self.view['persp']['value'] = 100
if prev_value != self.view['persp']['value']:
if hasattr(self.lmgr, "nviz"):
self.lmgr.nviz.UpdateSettings()
self._display.SetView(self.view['position']['x'], self.view['position']['y'],
self.iview['height']['value'],
self.view['persp']['value'],
self.view['twist']['value'])
# redraw map
self.OnPaint(None)
# update statusbar
### self.parent.StatusbarUpdate()
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, y)
if not sid:
return None
return (x, y)
def OnLeftUp(self, event):
self.ReleaseMouse()
if self.mouse["use"] == "nvizQuerySurface":
self.OnQuerySurface(event)
elif self.mouse["use"] == "nvizQueryVector":
self.OnQueryVector(event)
def OnQuerySurface(self, event):
"""!Query surface on given position"""
result = self._display.QueryMap(event.GetX(), 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']))
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(_("Function not implemented yet"))
self.log.WriteCmdLog('-' * 80)
def UpdateView(self, event):
"""!Change view settings"""
data = self.view
self._display.SetView(data['position']['x'], data['position']['y'],
self.iview['height']['value'],
data['persp']['value'],
data['twist']['value'])
if event and event.zExag and 'value' in data['z-exag']:
self._display.SetZExag(data['z-exag']['value'])
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()
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)
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()
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 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
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(3, "GLWindow.LoadDataLayers(): time = %f" % (stop-start))
def UnloadDataLayers(self):
"""!Unload any layers that have been deleted from layer tree"""
if not self.tree:
return
listOfItems = []
item = self.tree.GetFirstChild(self.tree.root)[0]
self._GetDataLayers(item, listOfItems)
start = time.time()
for layer in self.layers:
if layer not in listOfItems:
ltype = self.tree.GetPyData(layer)[0]['type']
try:
if ltype == 'raster':
self.UnloadRaster(layer)
elif ltype == '3d-raster':
self.UnloadRaster3d(layer)
elif ltype == 'vector':
self.UnloadVector(layer, True)
self.UnloadVector(layer, False)
self.UpdateView(None)
except gcmd.GException, e:
gcmd.GError(parent = self,
message = e.value)
self.lmgr.nviz.UpdateSettings()
stop = time.time()
Debug.msg(3, "GLWindow.UnloadDataLayers(): time = %f" % (stop-start))
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)
"""
type = self.tree.GetPyData(item)[0]['maplayer'].type
# reference to original layer properties (can be None)
data = self.tree.GetPyData(item)[0]['nviz']
if not data:
# init data structure
self.tree.GetPyData(item)[0]['nviz'] = {}
data = self.tree.GetPyData(item)[0]['nviz']
if type == 'raster':
# reset to default properties
data[nvizType] = self.nvizDefault.SetSurfaceDefaultProp()
elif type == 'vector':
# reset to default properties (lines/points)
data['vector'] = self.nvizDefault.SetVectorDefaultProp()
self.SetVectorFromCmd(item, data['vector'])
elif type == '3d-raster':
# reset to default properties
data[nvizType] = self.nvizDefault.SetVolumeDefaultProp()
else:
# complete data (use default values)
if type == 'raster':
data['surface'] = self.nvizDefault.SetSurfaceDefaultProp()
if type == '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():
for sec2 in data[sec][sec1].keys():
if sec2 != 'all':
data[sec][sec1][sec2]['update'] = None
event = wxUpdateProperties(data = data)
wx.PostEvent(self, event)
# set id
if id > 0:
if type in ('raster', '3d-raster'):
data[nvizType]['object'] = { 'id' : id,
'init' : False }
elif type == 'vector':
data['vector'][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 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") and \
layer.type == 'raster':
toolWin = self.lmgr.nviz
win = toolWin.FindWindowById( \
toolWin.win['vector']['lines']['surface'])
win.SetItems(self.GetLayerNames(layer.type))
def LoadVector(self, item, points = None):
"""!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
"""
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 = self._display.LoadVector(str(layer.GetName()), False)
else:
id = 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)
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):
"""!Unload vector map overlay
@param item layer item
@param points,lines True to unload given feature type
"""
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')
### self.layers.remove(id)
def Reset(self):
"""!Reset (unload data)"""
for item in self.layers:
type = self.tree.GetPyData(item)[0]['maplayer'].type
if type == 'raster':
self.UnloadRaster(item)
elif type == '3d-raster':
self.UnloadRaster3d(item)
elif type == 'vector':
self.UnloadVector(item)
self.init = False
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.view['z-exag']['value'], \
self.iview['height']['value'], \
self.iview['height']['min'], \
self.iview['height']['max'] = self._display.SetViewDefault()
self.view['z-exag']['min'] = 0
self.view['z-exag']['max'] = self.view['z-exag']['value'] * 10
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'))
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:
id = data['surface']['object']['id']
self.UpdateSurfaceProperties(id, data['surface'])
# -> initialized
data['surface']['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 UpdateSurfaceProperties(self, id, data):
"""!Update surface map object properties"""
# surface attributes
for attrb in ('topo', 'color', 'mask',
'transp', 'shine', 'emit'):
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)
elif attrb == 'emit':
self._display.UnsetSurfaceEmit(id)
else:
if type(value) == type('') and \
len(value) <= 0: # ignore empty values (TODO: warning)
continue
if attrb == 'topo':
self._display.SetSurfaceTopo(id, map, str(value))
elif 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))
elif attrb == 'emit':
self._display.SetSurfaceEmit(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']:
self._display.SetIsosurfaceRes(id, data['draw']['resolution']['value'])
data['draw']['resolution'].pop('update')
if 'update' in data['draw']['shading']:
if data['draw']['shading']['value'] < 0: # need to calculate
data['draw']['shading']['value'] = \
self.nvizDefault.GetDrawMode(shade = data['draw']['shading'],
string = False)
data['draw']['shading'].pop('update')
#
# isosurface attributes
#
isosurfId = 0
for isosurf in data['isosurface']:
for attrb in ('color', 'mask',
'transp', 'shine', 'emit'):
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 == 'mask':
# TODO: invert mask
# TODO: broken in NVIZ
self._display.UnsetIsosurfaceMask(id, isosurfId)
elif attrb == 'transp':
self._display.UnsetIsosurfaceTransp(id, isosurfId)
elif attrb == 'emit':
self._display.UnsetIsosurfaceEmit(id, isosurfId)
else:
if type(value) == type('') 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))
elif attrb == 'emit':
self._display.SetIsosurfaceEmit(id, isosurfId, map, str(value))
isosurf[attrb].pop('update')
isosurfId += 1
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:
data.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')
if 'update' in data['mode']:
data['mode'].pop('update')
# height
if 'update' in data['height']:
self._display.SetVectorLineHeight(id,
data['height']['value'])
data['height'].pop('update')
# surface
if 'update' in data['mode']:
sid = self.GetLayerId(type = 'raster', name = data['mode']['surface'])
if sid > -1:
self._display.SetVectorLineSurface(id, sid)
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')
# surface
if 'update' in data['mode']:
sid = self.GetLayerId(type = 'raster', name = data['mode']['surface'])
if sid > -1:
self._display.SetVectorPointSurface(id, sid)
data['mode'].pop('update')
def GetLayerNames(self, type):
"""!Return list of map layer names of given type"""
layerName = []
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):
"""!Get layer object id or -1"""
if len(name) < 1:
return -1
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 == 'vpoint':
return data['vector']['points']['object']['id']
elif type == 'vline':
return data['vector']['lines']['object']['id']
elif type == '3d-raster':
return data['volume']['object']['id']
return -1
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)
# 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)
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