Пример #1
0
 def testTransientReduceSetData(self):
     moduleCount = theNet().moduleCount()
     gip_core = self._TransientGroup()
     gip = ImportGroupReduceSet(gip_core)
     gip.setReductionFactor(2)
     value = 'Pressure'
     c = Colors()
     theNet().add(c)
     connect(gip.dataConnectionPoint(value), ConnectionPoint(c, 'Data'))
     coll = Collect()
     theNet().add(coll)
     connect(gip.geoConnectionPoint(), ConnectionPoint(coll, 'grid'))
     theNet().connect(c, 'texture', coll, 'textures')
     theNet().connect(coll, 'geometry',
                      globalRenderer()._module, 'RenderData')
     gip.executeGeo()
     gip.executeData(value)
     (a, b) = gip.getDataMinMax(value)
     self.assertEqual((a, b), (-0.018360999999999999, 2.0))
     # delete
     theNet().remove(c)
     theNet().remove(coll)
     gip.delete()
     gip_core.delete()
     self._RemoveImportGroupModules()
     self.assertEqual(theNet().moduleCount(), moduleCount)
Пример #2
0
    def _update(self, negMsgHandler):
        ''' _update is called from the run method to update the module parameter before execution
            + do init the module if necessary
            update module parameters should be realized in the parent class'''
        self._init(negMsgHandler)

        if not hasattr(self, 'importModule'):
            return

        # update input
        # vec variable
        # vec variable is not changable from the Gui at the moment

        #scalar variable
        if not self._lastScalarConnection == None:
            for scalarInput in self._scalarInputNames:
                disconnect(self._lastScalarConnection,
                           ConnectionPoint(self._module, scalarInput))
        if hasattr(self.params, 'secondVariable') and len(
                self._scalarInputNames
        ) > 0 and not self.params.secondVariable == None:
            self.importModule.executeData(self.params.secondVariable)
            scalarInConnect = self.importModule.dataConnectionPoint(
                self.params.secondVariable)
            if scalarInConnect:
                for scalarInput in self._scalarInputNames:
                    connect(scalarInConnect,
                            ConnectionPoint(self._module, scalarInput))
                self._lastScalarConnection = scalarInConnect

        # starting points from 2d part
        if not self._last2DPartConnection == None:
            part2D = globalKeyHandler().getObject(self.params.use2DPartKey)
            if not part2D or not self._last2DPartConnection == part2D.importModule.geoConnectionPoint(
            ):
                for partInput in self._2DPartInputNames:
                    disconnect(self._last2DPartConnection,
                               ConnectionPoint(self._module, partInput))
                self._last2DPartConnection = None
        if len(
                self._2DPartInputNames
        ) > 0 and self.params.use2DPartKey != None and self.params.use2DPartKey >= 0 and self._last2DPartConnection == None:
            # sampling removed at the moment
            part2D = globalKeyHandler().getObject(self.params.use2DPartKey)
            part2D.importModule.executeGeo()
            for partInput in self._2DPartInputNames:
                connect(part2D.importModule.geoConnectionPoint(),
                        ConnectionPoint(self._module, partInput))
                if self._firstGeoForVars:
                    self._firstGeoForVars = False
                    #setTransform to module
                    negMsgHandler.run(self.params.use2DPartKey)
            self._last2DPartConnection = part2D.importModule.geoConnectionPoint(
            )

        self._module.setTitle(self.params.name)
Пример #3
0
 def __init(self):
     """ start COVISE Module and connect output to COVER """
     if self.__addAttribute == None:
         self.__addAttribute = AddAttribute()
         theNet().add(self.__addAttribute)
         self.__addAttribute.set_attrName("COLOR")
         addAttributeIn = ConnectionPoint(self.__addAttribute, 'inObject')
         self.__addAttributeOut = ConnectionPoint(self.__addAttribute,
                                                  'outObject')
         connect(self.importModule.geoConnectionPoint(), addAttributeIn)
         VisItem.connectToCover(self, self)
Пример #4
0
    def __init(self):
        """ start COVISE modules and connect output to COVER """
        if self.__colors == None and self.__collect == None:
            self.__colors = Colors()
            theNet().add(self.__colors)
            self.__colorsIn = ConnectionPoint(self.__colors, 'GridIn0')

            self.__collect = Collect()
            theNet().add(self.__collect)
            self.__collectOut = ConnectionPoint(self.__collect, 'GeometryOut0')
            connect(self.importModule.geoConnectionPoint(),
                    ConnectionPoint(self.__collect, 'GridIn0'))

            VisItem.connectToCover(self, self)
Пример #5
0
def testGroupData(gip):
    value = 'Temperature'
    c = Colors()
    theNet().add(c)
    connect( gip.dataConnectionPoint(value), ConnectionPoint( c, 'Data' ) )
    gip.executeData(value)

    coll = Collect()
    theNet().add(coll)
    connect( gip.geoConnectionPoint(value), ConnectionPoint( coll, 'grid' ) )
    theNet().connect( c, 'texture', coll, 'textures' )
    r = Renderer()
    theNet().add(r)
    theNet().connect( coll, 'geometry', r, 'RenderData')
    c.execute()
Пример #6
0
 def connectionPoint(self):
     """ return the object to be displayed
         called by the class VisItem """
     _infoer.function = str(self.connectionPoint)
     _infoer.write("")
     if self.coverDocument:
         return ConnectionPoint(self.coverDocument, 'Document')
Пример #7
0
 def getBox(self, forceExecute = False):
     """ return the bounding box """
     if self._bb==None:
         self._bb = BoundingBox()
         theNet().add( self._bb)
         connect( self.geoConnectionPoint(), ConnectionPoint( self._bb, 'GridIn0' ) )
         # Clear info queue so we dont read a previous BB output.
         # (If something goes wrong with the queue, this could be the reason.)
         coviseStartup.globalReceiverThread.infoQueue.clear()
         if not self.executeGeo():
             saveExecute(self._bb)
         boxParser = BoundingBoxParser()
         boxParser.parseQueue(coviseStartup.globalReceiverThread.infoQueue)
         self._boundingBox = boxParser.getBox()
     elif forceExecute:
         # Clear info queue so we dont read a previous BB output.
         # (If something goes wrong with the queue, this could be the reason.)
         coviseStartup.globalReceiverThread.infoQueue.clear()
         if not self.executeGeo():
             saveExecute(self._bb)
         boxParser = BoundingBoxParser()
         boxParser.parseQueue(coviseStartup.globalReceiverThread.infoQueue)
         try:
             oldbb = self._boundingBox
             self._boundingBox = boxParser.getBox()
         except (ValueError):
             self._boundingBox = oldbb
     return self._boundingBox
Пример #8
0
    def __init(self):
        """ start COVISE ReadCAD Module """
        if self.__readCad == None:
            self.__readCad = ReadCAD()
            theNet().add(self.__readCad)
            self.__readCadPolyOut = ConnectionPoint(self.__readCad, 'mesh')
            self.__readCadNormalsOut = ConnectionPoint(self.__readCad,
                                                       'Normals')
            self.__readCadColorsOut = ConnectionPoint(self.__readCad,
                                                      'colorOut')
            self.__readCad.set_catia_server('obie')
            self.__readCad.set_catia_server_port('7000')
            self.__readCad.set_partIndex(self.__index)
            self.__readCad.set_file_path(self.__filename)

            self.__collect = Collect()
            theNet().add(self.__collect)
            connect(self.__readCadPolyOut,
                    ConnectionPoint(self.__collect, 'GridIn0'))
            connect(self.__readCadNormalsOut,
                    ConnectionPoint(self.__collect, 'DataIn1'))
            connect(self.__readCadColorsOut,
                    ConnectionPoint(self.__collect, 'DataIn0'))
            self.__connectGeoOut = ConnectionPoint(self.__collect,
                                                   'GeometryOut0')
Пример #9
0
 def _init(self, negMsgHandler, module, colorMapPortName = 'ColormapIn0'):
     '''_init is called from _update
        connect color map
     '''
     # check if ColorCreator already exists
     if len(self.objects)==0:
         self._initColor(negMsgHandler)
     if len(self.objects)>0 and self.__colorMap:
         self._visualizerColorCP = ConnectionPoint(module, colorMapPortName)
         connect( (self.objects[0]).colorMapConnectionPoint(), self._visualizerColorCP )
Пример #10
0
    def _initSample(self, varname=None, outside=USER_DEFINED):
        if self._sample==None:
            self._sample = Sample()
            theNet().add(self._sample)
#            connect( Import2DModule.geoConnectionPoint(self), ConnectionPoint(self._sample, 'GridIn') )
            connect( ParentClass2D.geoConnectionPoint(self), ConnectionPoint(self._sample, 'GridIn') )

            self._showgrid = ShowGrid()
            theNet().add(self._showgrid)
            connect( ConnectionPoint(self._sample, 'GridOut'), ConnectionPoint(self._showgrid, 'meshIn') )

            sample = self._sample
            if not ParentClass2D.executeOct(self) and not ParentClass2D.executeData(self, varname):
                saveExecute(sample)


        # reconnect Sample
#        print "RECONNECTING 2D SAMPLE"
        theNet().disconnectAllFromModulePort(self._sample, 'GridIn')
        connect( ParentClass2D.geoConnectionPoint(self), ConnectionPoint(self._sample, 'GridIn') )
Пример #11
0
 def testGroupData(self):
     moduleCount = theNet().moduleCount()
     gip = self._LargeSimpleGroup()
     value = 'Temperature'
     c = Colors()
     theNet().add(c)
     connect(gip.dataConnectionPoint(value), ConnectionPoint(c, 'Data'))
     coll = Collect()
     theNet().add(coll)
     connect(gip.geoConnectionPoint(), ConnectionPoint(coll, 'grid'))
     theNet().connect(c, 'texture', coll, 'textures')
     theNet().connect(coll, 'geometry',
                      globalRenderer()._module, 'RenderData')
     gip.executeGeo()
     gip.executeData(value)
     # delete
     theNet().remove(c)
     theNet().remove(coll)
     gip.delete()
     self._RemoveImportGroupModules()
     self.assertEqual(theNet().moduleCount(), moduleCount)
Пример #12
0
    def _initSample( self, varname, outside ):
        if not (varname,outside) in self._sample:
            self._sample[(varname,outside)] = Sample()
            theNet().add(self._sample[(varname,outside)])
            self._bbox[(varname,USER_DEFINED)] = Box()
            self._bbox[(varname,MAX_FLT)] = Box()

#            connect( Import3DModule.geoConnectionPoint(self), ConnectionPoint(self._sample[(varname,outside)], 'GridIn') )
#            connect( Import3DModule.dataConnectionPoint(self, varname), ConnectionPoint(self._sample[(varname,outside)], 'DataIn') )
            connect( ParentClass3D.geoConnectionPoint(self), ConnectionPoint(self._sample[(varname,outside)], 'GridIn') )
            connect( ParentClass3D.dataConnectionPoint(self, varname), ConnectionPoint(self._sample[(varname,outside)], 'DataIn') )

            sample = self._sample[(varname,outside)]
            sample.set_outside(outside)
            if not ParentClass3D.executeOct(self) and not ParentClass3D.executeData(self, varname):
                saveExecute(sample)

        # reconnect Sample
#        print "RECONNECTING 3D SAMPLE"
        theNet().disconnectAllFromModulePort(self._sample[(varname,outside)], 'GridIn')
        theNet().disconnectAllFromModulePort(self._sample[(varname,outside)], 'DataIn')
        connect( ParentClass3D.geoConnectionPoint(self), ConnectionPoint(self._sample[(varname,outside)], 'GridIn') )
        connect( ParentClass3D.dataConnectionPoint(self, varname), ConnectionPoint(self._sample[(varname,outside)], 'DataIn') )
Пример #13
0
    def __update(self, negMsgHandler):
        """ __update is called from the run method to update the module parameter before execution
            + do init
            + update module parameters """
        self.__init(negMsgHandler)

        PartModuleVis._update(self, negMsgHandler)
        if self.params.color==VARIABLE:
            PartColoredVis._update(self, negMsgHandler)
        self._setTransform()

        if not hasattr(self, 'importModule'):
            return

        #set color for variable
        if not self.__lastColorConnection==None:
            disconnect(self.__lastColorConnection, ConnectionPoint(self._module, 'DataIn0'))
            self.__lastColorConnection=None
        if self.__lastColorConnection==None and self.params.variable!=None \
            and self.params.variable!='Select a variable' and self.params.color == VARIABLE and len(self.objects)>0:
            _infoer.function = str(self.__update)
            _infoer.write("connection color for variable %s " % self.params.variable)
            self.__lastColorConnection =  (self.objects[0]).colorContConnectionPoint()
            connect(self.__lastColorConnection, ConnectionPoint(self._module, 'DataIn0'))
Пример #14
0
    def getDataMinMax(self, variable):
        """ return min and max value of variable """
        if variable==None:
            return

        if self._minMax==None:
            self._minMax = Colors()
            theNet().add(self._minMax)
        theNet().disconnectAllFromModulePort( self._minMax, 'DataIn0' )
        connect(self.dataConnectionPoint(variable), ConnectionPoint(self._minMax, 'DataIn0'))

        self.executeData( variable )
        saveExecute(self._minMax)

        return ( float(self._minMax.getParamValue('MinMax')[0]),\
                 float(self._minMax.getParamValue('MinMax')[1]) )
Пример #15
0
    def getBoxFromGeoRWCovise(self):
        """ return the bounding box from the originally unfiltered geometry """

        if self.__boundingBoxFromGeoRWCovise == None:
            self.__bbFromGeoRWCovise = BoundingBox()
            theNet().add(self.__bbFromGeoRWCovise)
            connect(self._geo.connectionPoint(),
                    ConnectionPoint(self.__bbFromGeoRWCovise, 'GridIn0'))

            # Clear info queue so we dont read a previous BB output.
            # (If something goes wrong with the queue, this could be the reason.)
            coviseStartup.globalReceiverThread.infoQueue_.clear()
            saveExecute(self.__bbFromGeoRWCovise)
            boxParser = BoundingBoxParser()
            boxParser.parseQueue(coviseStartup.globalReceiverThread.infoQueue_)
            self.__boundingBoxFromGeoRWCovise = boxParser.getBox()

        return self.__boundingBoxFromGeoRWCovise
Пример #16
0
    def _initOct(self):
        self._initGeo()
        if self._oct == None:
            # create or use disk-cached octtrees
            if enableCachedOctTrees == True and self._dim == 3:
                basename, extension = os.path.splitext(self._part.filename)
                self._octTreeFileName = basename + ".octtree" + extension
                print("self._octTreeFileName = ", self._octTreeFileName)
                if os.path.isfile(self._octTreeFileName) == False:
                    # create disk-cached octtree
                    self._octTreeFileExists = False
                    self._oct = MakeOctTree()
                    theNet().add(self._oct)
                    self._octIn = ConnectionPoint(self._oct, 'inGrid')
                    self._octOut = ConnectionPoint(self._oct, 'outOctTree')
                    connect(self.geoConnectionPoint(), self._octIn)

                    # connect RWCovise to MakeOctTree
                    self._octTreeWriter = RWCovise()  # writable
                    theNet().add(self._octTreeWriter)
                    self._octTreeWriter.set_grid_path(self._octTreeFileName)
                    connect(self._octOut,
                            ConnectionPoint(self._octTreeWriter, 'mesh_in'))
                else:
                    # use disk-cached octtree
                    self._octTreeFileExists = True
                    self._oct = RWCovise()
                    theNet().add(self._oct)
                    self._oct.set_grid_path(self._octTreeFileName)
                    # cached octtrees must never get an input connection (RWCovise!)
                    self._octIn = None  # ConnectionPoint(self._oct, 'mesh_in')
                    self._octOut = ConnectionPoint(self._oct, 'mesh')
            else:
                self._oct = MakeOctTree()
                theNet().add(self._oct)
                self._octIn = ConnectionPoint(self._oct, 'inGrid')
                self._octOut = ConnectionPoint(self._oct, 'outOctTree')
                connect(self.geoConnectionPoint(), self._octIn)
        else:
            if enableCachedOctTrees == True and self._octTreeFileExists == True:
                # no reconnect necessary, if using disk-cached octtree
                pass
            else:
                # reconnect OctTree
                theNet().disconnectAllFromModulePort(self._oct, 'inGrid')
                connect(self.geoConnectionPoint(), self._octIn)
Пример #17
0
 def connectionPoint(self):
     """ return the object to be displayed
         called by the class VisItem """
     if self.performerScene:
         return ConnectionPoint(self.performerScene, 'model')
Пример #18
0
 def connectionPoint(self):
     """ return the object to be displayed
         called by the class VisItem """
     if self.performerScene:
         return ConnectionPoint(self.addAttribute, 'outObject')
Пример #19
0
 def octConnectionPoint(self):
     self._initOct()
     self._octOut = ConnectionPoint(self._oct, 'outOctTree')
     connect(self.geoConnectionPoint(),
             ConnectionPoint(self._oct, 'inGrid'))
     return self._octOut
Пример #20
0
 def boundingBoxConnectionPoint(self):
     self.getBox()
     return ConnectionPoint(self._bb, 'GridOut0')
Пример #21
0
    def _init(self, negMsgHandler, sampleType=None):
        '''called from _update
            if module exists connect output of it to COVER
        '''
        if not sampleType == None:
            self._sampleType = sampleType
        if self._module == None and hasattr(
                self, 'importModule') and self.__firstTime:
            self.__firstTime = False
            self._module = self._moduleName()
            theNet().add(self._module)
            # need to execute blockcollect for geo
            if type(self.importModule
                    ) == ImportGroupManager.ImportGroup3DModule:
                self.importModule.executeGeo()

            for geoInput in self._geoInputNames:
                connect(self.importModule.geoConnectionPoint(),
                        ConnectionPoint(self._module, geoInput))

            if self.__createOcttree:
                if len(self._octtreeInputNames) > 0:
                    for octtree in self._octtreeInputNames:
                        connect(self.importModule.octTreeConnectionPoint(),
                                ConnectionPoint(self._module, octtree))
                    self.importModule.executeOct()

            if (len(self._dataInputNames) > 0):
                if hasattr(
                        self.params, 'variable'
                ) and self.params.variable and self.params.variable != 'Select a variable' and self.params.variable != 'unset':
                    for dataInput in self._dataInputNames:
                        connect(
                            self.importModule.dataConnectionPoint(
                                self.params.variable),
                            ConnectionPoint(self._module, dataInput))

            if len(self._geoSampleNames
                   ) > 0 and not self.importModule.getIsTransient():
                if hasattr(
                        self.params, 'variable'
                ) and self.params.variable and self.params.variable != 'Select a variable' and self.params.variable != 'unset':
                    assert self.params.variable != 'Select a variable'
                    self.importModule.executeSampleData(
                        self.params.variable, None, self._sampleType)
                    for geoSample in self._geoSampleNames:
                        connect(
                            self.importModule.geoSampleConnectionPoint(
                                self.params.variable, self._sampleType),
                            ConnectionPoint(self._module, geoSample))

            if len(self._dataSampleNames
                   ) > 0 and not self.importModule.getIsTransient():
                if hasattr(
                        self.params, 'variable'
                ) and self.params.variable and self.params.variable != 'Select a variable' and self.params.variable != 'unset':
                    assert self.params.variable != 'Select a variable'
                    for dataSample in self._dataSampleNames:
                        connect(
                            self.importModule.dataSampleConnectionPoint(
                                self.params.variable, self._sampleType),
                            ConnectionPoint(self._module, dataSample))
            self.reloadBBox()

            # optionally connect to COVER
            if not covise.coConfigIsOn("vr-prepare.InvisibleConnectToRenderer",
                                       True):
                # only connect to COVER if this visualizer really is visible
                if self.params.isVisible and not self.__connectedToCOVER:
                    VisItem.connectToCover(self, self)
                    self.__connectedToCOVER = True
            else:
                VisItem.connectToCover(self, self)
                self.__connectedToCOVER = True

        # refresh all connections as they might have changed
        if self._module != None and hasattr(self, 'importModule'):

            for geoInput in self._geoInputNames:
                theNet().disconnectAllFromModulePort(
                    self._module,
                    geoInput)  # remove all connections at the inport
                connect(self.importModule.geoConnectionPoint(),
                        ConnectionPoint(self._module, geoInput))

            if self.__createOcttree:
                for octtree in self._octtreeInputNames:
                    theNet().disconnectAllFromModulePort(
                        self._module,
                        octtree)  # remove all connections at the inport
                    connect(self.importModule.octTreeConnectionPoint(),
                            ConnectionPoint(self._module, octtree))

            if (len(self._dataInputNames) > 0):
                if hasattr(
                        self.params, 'variable'
                ) and self.params.variable and self.params.variable != 'Select a variable' and self.params.variable != 'unset':
                    for dataInput in self._dataInputNames:
                        theNet().disconnectAllFromModulePort(
                            self._module, dataInput)
                        connect(
                            self.importModule.dataConnectionPoint(
                                self.params.variable),
                            ConnectionPoint(self._module, dataInput))

            if hasattr(
                    self.params, 'variable'
            ) and self.params.variable and self.params.variable != 'Select a variable' and self.params.variable != 'unset':
                if self.params.variable != 'Select a variable' and not self.importModule.getIsTransient(
                ):
                    for geoSample in self._geoSampleNames:
                        theNet().disconnectAllFromModulePort(
                            self._module, geoSample)
                        connect(
                            self.importModule.geoSampleConnectionPoint(
                                self.params.variable, self._sampleType),
                            ConnectionPoint(self._module, geoSample))

            if hasattr(
                    self.params, 'variable'
            ) and self.params.variable and self.params.variable != 'Select a variable' and self.params.variable != 'unset':
                if self.params.variable != 'Select a variable' and not self.importModule.getIsTransient(
                ):
                    for dataSample in self._dataSampleNames:
                        theNet().disconnectAllFromModulePort(
                            self._module, dataSample)
                        connect(
                            self.importModule.dataSampleConnectionPoint(
                                self.params.variable, self._sampleType),
                            ConnectionPoint(self._module, dataSample))

            self.reloadBBox()

            # connect to COVER if visible and wasnt done initially
            if self.params.isVisible and not self.__connectedToCOVER:
                VisItem.connectToCover(self, self)
                self.__connectedToCOVER = True
Пример #22
0
 def connectionPoint(self, outputName='GeometryOut0'):
     ''' return the object to be displayed
         the parent class is called by the class VisItem 
             parentClass connectionPoint should call this funtion'''
     if self._module:
         return ConnectionPoint(self._module, outputName)
Пример #23
0
    def geoSampleConnectionPoint(self, varname=None, outside=USER_DEFINED):
        if not covise.coConfigIsOn("vr-prepare.UseSamplingModules", False):
            return

        self._initSample(varname, outside)
        return ConnectionPoint(self._showgrid, 'points')
Пример #24
0
    def dataSampleConnectionPoint(self, varname=None, outside=USER_DEFINED):
        if not covise.coConfigIsOn("vr-prepare.UseSamplingModules", False):
            return

        self._initSample( varname, outside)
        return ConnectionPoint(self._sample[(varname,outside)], 'DataOut')
Пример #25
0
    def setParams( self, params, negMsgHandler=None, sendToCover=True):
        """ set parameters from outside
            + init tracer module if necessary
            + mainly receive parameter changes from Gui
            + send status messages to COVER if state has changed
        """
        _infoer.function = str(self.setParams)
        _infoer.write(" ")
        # save the old variable to delete from colorTable
        oldVariable = self.currentVariable()
        oldTable = None
        if oldVariable!=None and oldVariable!= 'Select a variable':
            if hasattr(self.params.colorTableKey, oldVariable):
                oldTable = globalKeyHandler().getObject(self.params.colorTableKey[oldVariable])

        realChange = ParamsDiff( self.params, params )

        PartModuleVis.setParams(self, params, negMsgHandler, sendToCover, realChange)
        if self.params.color == VARIABLE:
            PartColoredVis.setParams(self, params, negMsgHandler, sendToCover, realChange)
        PartTransform.setParams(self, params, negMsgHandler, sendToCover, realChange)

        needsTransparency = False
        needsShader = False

        if hasattr (params, 'color') and (params.color == NO_COLOR) \
                and ('color' in realChange):
            # disconnect colors module and run the collect module
            # (we dont want to call run since we dont need the children to be executed)
            if not self.__lastColorConnection==None:
                disconnect(self.__lastColorConnection, ConnectionPoint(self._module, 'DataIn0'))
                self.__lastColorConnection=None
            PartModuleVis.run(self, RUN_ALL, negMsgHandler)
            needsTransparency = True
        elif hasattr (params, 'color') and (params.color==RGB_COLOR) \
                and (('color' in realChange) or ('r' in realChange) or ('g' in realChange) or ('b' in realChange)):
            self.__sendColor()
            needsTransparency = True
        elif hasattr (params, 'color') and (params.color==MATERIAL) \
                and (('color' in realChange) or ('r' in realChange) or ('g' in realChange) or ('b' in realChange) \
                  or ('ambient' in realChange) or ('specular' in realChange) or ('shininess' in realChange)):
            self.__sendMaterial()
            needsTransparency = True
        elif hasattr(params, 'transparency') and ('transparency' in realChange):
            needsTransparency = True

        if 'variable' in realChange:
            # if variable changed append key to colorTable dependant keys
            # make sure this part is updated if colormap changes
            if params.variable!=None and params.variable!= 'Select a variable' and params.color == VARIABLE:
                # delete key from old colorTable
                if not  oldTable == None and self.key in oldTable.params.dependantKeys:
                    oldTable.params.dependantKeys.remove(self.key)
                # add key to new colorTable
                cTableObject = globalKeyHandler().getObject(params.colorTableKey[params.variable])
                params.baseObjectName = params.name
                if self.key not in cTableObject.params.dependantKeys:
                    cTableObject.params.dependantKeys.append(self.key)
                    if negMsgHandler:
                        negMsgHandler.internalRecvParams( cTableObject.key, cTableObject.params  )
                        negMsgHandler.sendParams( cTableObject.key, cTableObject.params )

        if ('shaderFilename' in realChange):
            needsTransparency = True
            needsShader = True

        # always send transparency before shader:
        # sendTransparency will ignore any shader transparency but sendShader respects the regular transparency if possible
        if needsTransparency and (params.shaderFilename != ""):
            needsShader = True
        if needsTransparency:
            self.__sendTransparency()
        if needsShader:
            self.__sendShader()
Пример #26
0
 def connectionPoint(self):
     """ return the connection (module/outport) to be connected to COVER
         called by the class VisItem """
     return ConnectionPoint(self.__myCollect, 'GeometryOut0')
Пример #27
0
 def connectionPoint(self):
     """ return the object to be displayed
         called by the class VisItem """
     if self.rwCovise:
         return ConnectionPoint(self.rwCovise, 'mesh')