コード例 #1
0
    def __init__(self, methodName):
        """Run once on class initialisation."""
        unittest.TestCase.__init__(self, methodName)
        myPath = os.path.join(TEST_DATA_DIR, 'landsat.tif')
        rasterFileInfo = QFileInfo(myPath)
        mRasterLayer = QgsRasterLayer(rasterFileInfo.filePath(),
                                      rasterFileInfo.completeBaseName())
        rasterRenderer = QgsMultiBandColorRenderer(
            mRasterLayer.dataProvider(), 2, 3, 4)
        mRasterLayer.setRenderer(rasterRenderer)
        #pipe = mRasterLayer.pipe()
        #assert pipe.set(rasterRenderer), 'Cannot set pipe renderer'
        QgsMapLayerRegistry.instance().addMapLayers([mRasterLayer])

        # create composition with composer map
        self.mMapRenderer = QgsMapRenderer()
        layerStringList = QStringList()
        layerStringList.append(mRasterLayer.id())
        self.mMapRenderer.setLayerSet(layerStringList)
        self.mMapRenderer.setProjectionsEnabled(False)
        self.mComposition = QgsComposition(self.mMapRenderer)
        self.mComposition.setPaperSize(297, 210)
        self.mComposerMap = QgsComposerMap(self.mComposition, 20, 20, 200, 100)
        self.mComposerMap.setFrameEnabled(True)
        self.mComposition.addComposerMap(self.mComposerMap)
コード例 #2
0
def createDefaultProject(available_maps, visible_maps, project_template, authcfg=None):
    """Create a default project from a template and return it as a string"""
    layers = []
    for m in available_maps:
        connstring = u'type=xyz&url={url}'
        if authcfg is not None:
            connstring = u'authcfg={authcfg}&' + connstring
        layer = QgsRasterLayer(connstring.format(url=urllib2.quote("{}?version={}".format(m['endpoint'], pluginSetting("apiVersion"))),
                                                 authcfg=authcfg), m['name'], "wms")
        # I've no idea why the following is required even if the crs is specified
        # in the layer definition
        layer.setCrs(QgsCoordinateReferenceSystem('EPSG:3857'))
        layers.append(layer)
    if len(layers):
        xml = QgsMapLayer.asLayerDefinition(layers)
        maplayers = "\n".join(xml.toString().split("\n")[3:-3])
        layer_tree_layer = ""
        custom_order = ""
        legend_layer = ""
        layer_coordinate_transform = ""
        for layer in layers:
            is_visible = layer.name() in visible_maps
            values = {'name': layer.name(), 'id': layer.id(), 'visible': ('1' if is_visible else '0'), 'checked': ('Qt::Checked' if is_visible else 'Qt::Unchecked')}
            custom_order += "<item>%s</item>" % layer.id()
            layer_tree_layer += """
            <layer-tree-layer expanded="1" checked="%(checked)s" id="%(id)s" name="%(name)s">
                <customproperties/>
            </layer-tree-layer>""" % values
            legend_layer += """
            <legendlayer drawingOrder="-1" open="true" checked="%(checked)s" name="%(name)s" showFeatureCount="0">
              <filegroup open="true" hidden="false">
                <legendlayerfile isInOverview="0" layerid="%(id)s" visible="%(visible)s"/>
              </filegroup>
            </legendlayer>""" % values
            layer_coordinate_transform += '<layer_coordinate_transform destAuthId="EPSG:3857" srcAuthId="EPSG:3857" srcDatumTransform="-1" destDatumTransform="-1" layerid="%s"/>' % layer.id()
        tpl = ""
        with open(project_template, 'rb') as f:
            tpl = f.read()
        for tag in ['custom_order', 'layer_tree_layer', 'legend_layer', 'layer_coordinate_transform', 'maplayers']:
            tpl = tpl.replace("#%s#" % tag.upper(), locals()[tag])
        return tpl
    else:
        return None
コード例 #3
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    def testPrintMapFromTemplate(self):
        """Test that we can get a map to render in the template."""
        myPath = os.path.join(TEST_DATA_DIR, 'landsat.tif')
        myFileInfo = QFileInfo(myPath)
        myRasterLayer = QgsRasterLayer(myFileInfo.filePath(),
                                       myFileInfo.completeBaseName())
        myRenderer = QgsMultiBandColorRenderer(
            myRasterLayer.dataProvider(), 2, 3, 4
        )
        #mRasterLayer.setRenderer( rasterRenderer )
        myPipe = myRasterLayer.pipe()
        assert myPipe.set(myRenderer), "Cannot set pipe renderer"

        QgsMapLayerRegistry.instance().addMapLayers([myRasterLayer])

        myMapRenderer = QgsMapRenderer()
        myLayerStringList = []
        myLayerStringList.append(myRasterLayer.id())
        myMapRenderer.setLayerSet(myLayerStringList)
        myMapRenderer.setProjectionsEnabled(False)

        myComposition = QgsComposition(myMapRenderer)
        myFile = os.path.join(TEST_DATA_DIR, 'template-for-substitution.qpt')
        myTemplateFile = file(myFile, 'rt')
        myTemplateContent = myTemplateFile.read()
        myTemplateFile.close()
        myDocument = QDomDocument()
        myDocument.setContent(myTemplateContent)
        myComposition.loadFromTemplate(myDocument)

        # now render the map, first zooming to the raster extents
        myMap = myComposition.getComposerMapById(0)
        myMessage = ('Map 0 could not be found in template %s', myFile)
        assert myMap is not None, myMessage

        myExtent = myRasterLayer.extent()
        myMap.setNewExtent(myExtent)

        myImagePath = os.path.join(str(QDir.tempPath()),
                                   'template_map_render_python.png')

        myPageNumber = 0
        myImage = myComposition.printPageAsRaster(myPageNumber)
        myImage.save(myImagePath)
        assert os.path.exists(myImagePath), 'Map render was not created.'

        # Not sure if this is a predictable way to test but its quicker than
        # rendering.
        myFileSize = QFileInfo(myImagePath).size()
        myExpectedFileSize = 100000
        myMessage = ('Expected file size to be greater than %s, got %s'
                     ' for %s' %
                     (myExpectedFileSize, myFileSize, myImagePath))
        assert myFileSize > myExpectedFileSize, myMessage
コード例 #4
0
    def __init__(self, methodName):
        """Run once on class initialization."""
        unittest.TestCase.__init__(self, methodName)
        myPath = os.path.join(TEST_DATA_DIR, "rgb256x256.png")
        rasterFileInfo = QFileInfo(myPath)
        mRasterLayer = QgsRasterLayer(rasterFileInfo.filePath(), rasterFileInfo.completeBaseName())
        rasterRenderer = QgsMultiBandColorRenderer(mRasterLayer.dataProvider(), 1, 2, 3)
        mRasterLayer.setRenderer(rasterRenderer)
        # pipe = mRasterLayer.pipe()
        # assert pipe.set(rasterRenderer), 'Cannot set pipe renderer'
        QgsMapLayerRegistry.instance().addMapLayers([mRasterLayer])

        # create composition with composer map
        self.mMapSettings = QgsMapSettings()
        self.mMapSettings.setLayers([mRasterLayer.id()])
        self.mMapSettings.setCrsTransformEnabled(False)
        self.mComposition = QgsComposition(self.mMapSettings)
        self.mComposition.setPaperSize(297, 210)
        self.mComposerMap = QgsComposerMap(self.mComposition, 20, 20, 200, 100)
        self.mComposerMap.setFrameEnabled(True)
        self.mComposition.addComposerMap(self.mComposerMap)
コード例 #5
0
ファイル: qosmtilelayer.py プロジェクト: paleolimbot/qosm
 def refreshtiles_apply(self, tilestoclean, tilestoload, tilefiles, extent):
     #clean
     layerstoclean = [self.loadedlayers[tile] for tile in tilestoclean]
     for tile in tilestoclean:
         del self.loadedlayers[tile]
     QgsMapLayerRegistry.instance().removeMapLayers(layerstoclean)
     
     log("defining self.actualzoom")
     if len(tilestoload) > 0:
         self.actualzoom = tilestoload[0][2]
     else:
         self.actualzoom = None
     
     #load
     log("loading tiles")
     for i in range(len(tilestoload)):
         #check file exists
         if os.path.exists(tilefiles[i]):
             auxfile = tm.auxfilename(tilefiles[i])
             if not os.path.exists(auxfile):
                 osm.writeauxfile(*tilestoload[i], filename=auxfile, imagesize=tm.tilesize(self.tiletype))
             #create layer, add to self.loadedlayers
             layername = "qosm_%s_x%s_y%s_z%s" % ((self.tiletype,) + tilestoload[i])
             layer = QgsRasterLayer(tilefiles[i], layername)
             if layer.isValid():
                 layer = QgsMapLayerRegistry.instance().addMapLayer(layer, False)
                 layer.resampleFilter().setZoomedOutResampler(QgsBilinearRasterResampler())
                 layer.resampleFilter().setZoomedInResampler(QgsBilinearRasterResampler())
                 
                 self.loadedlayers[tilestoload[i]] = layer.id()
             else:
                 log("ERROR invalid layer produced:" + layername)
             
         else:
             #report error?
             log("tile filename does not exist: " + tilefiles[i])
     
     log("setting extent: " + extent.toString())
     self.setExtent(extent)
コード例 #6
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ファイル: test_qgsrasterlayer.py プロジェクト: notnotse/QGIS
    def testClone(self):
        myPath = os.path.join(unitTestDataPath('raster'),
                              'band1_float32_noct_epsg4326.tif')
        myFileInfo = QFileInfo(myPath)
        myBaseName = myFileInfo.baseName()
        layer = QgsRasterLayer(myPath, myBaseName)

        renderer = layer.renderer().clone()
        renderer.setOpacity(33.3)
        layer.setRenderer(renderer)

        # clone layer
        clone = layer.clone()

        # generate xml from layer
        layer_doc = QDomDocument("doc")
        layer_elem = layer_doc.createElement("maplayer")
        layer.writeLayerXml(layer_elem, layer_doc, QgsReadWriteContext())

        # generate xml from clone
        clone_doc = QDomDocument("doc")
        clone_elem = clone_doc.createElement("maplayer")
        clone.writeLayerXml(clone_elem, clone_doc, QgsReadWriteContext())

        # replace id within xml of clone
        clone_id_elem = clone_elem.firstChildElement("id")
        clone_id_elem_patch = clone_doc.createElement("id")
        clone_id_elem_patch_value = clone_doc.createTextNode(layer.id())
        clone_id_elem_patch.appendChild(clone_id_elem_patch_value)
        clone_elem.replaceChild(clone_id_elem_patch, clone_id_elem)

        # update doc
        clone_doc.appendChild(clone_elem)
        layer_doc.appendChild(layer_elem)

        # compare xml documents
        self.assertEqual(layer_doc.toString(), clone_doc.toString())
コード例 #7
0
ファイル: test_qgsrasterlayer.py プロジェクト: m-kuhn/QGIS
    def testClone(self):
        myPath = os.path.join(unitTestDataPath('raster'),
                              'band1_float32_noct_epsg4326.tif')
        myFileInfo = QFileInfo(myPath)
        myBaseName = myFileInfo.baseName()
        layer = QgsRasterLayer(myPath, myBaseName)

        renderer = layer.renderer().clone()
        renderer.setOpacity(33.3)
        layer.setRenderer(renderer)

        # clone layer
        clone = layer.clone()

        # generate xml from layer
        layer_doc = QDomDocument("doc")
        layer_elem = layer_doc.createElement("maplayer")
        layer.writeLayerXml(layer_elem, layer_doc, QgsReadWriteContext())

        # generate xml from clone
        clone_doc = QDomDocument("doc")
        clone_elem = clone_doc.createElement("maplayer")
        clone.writeLayerXml(clone_elem, clone_doc, QgsReadWriteContext())

        # replace id within xml of clone
        clone_id_elem = clone_elem.firstChildElement("id")
        clone_id_elem_patch = clone_doc.createElement("id")
        clone_id_elem_patch_value = clone_doc.createTextNode(layer.id())
        clone_id_elem_patch.appendChild(clone_id_elem_patch_value)
        clone_elem.replaceChild(clone_id_elem_patch, clone_id_elem)

        # update doc
        clone_doc.appendChild(clone_elem)
        layer_doc.appendChild(layer_elem)

        # compare xml documents
        self.assertEqual(layer_doc.toString(), clone_doc.toString())
コード例 #8
0
ファイル: changedetector.py プロジェクト: pblottiere/littodyn
    def processAlgorithm(self, parameters, context, feedback):
        # extract input parameters
        alg = self.parameterAsEnum(parameters, self.INPUT_ALG_NAME, context)

        extent = self.parameterAsVectorLayer(parameters, self.INPUT_EXTENT, context)

        raster_1_id = self.parameterAsString(parameters, self.INPUT_RASTER_1, context)
        raster_1 = QgsProject.instance().mapLayer(raster_1_id)

        raster_2_id = self.parameterAsString(parameters, self.INPUT_RASTER_2, context)
        raster_2 = QgsProject.instance().mapLayer(raster_2_id)

        (sink, self.dest_id) = self.parameterAsSink(
            parameters,
            self.OUTPUT_BUFFER,
            context,
            QgsFields(),
            extent.wkbType(),
            extent.sourceCrs(),
        )

        outputFile = self.parameterAsRasterLayer(
            parameters, self.OUTPUT_CHANGES, context
        )

        # create a temporary vector layer
        tmp = tempfile.mkdtemp()
        path_roi = os.path.join(tmp, "roi.shp")
        writer = QgsVectorFileWriter(
            path_roi,
            "UTF-8",
            QgsFields(),
            QgsWkbTypes.Polygon,
            extent.sourceCrs(),
            "ESRI Shapefile",
        )

        # create buffered extent and update temporary shp for detector
        for feature in extent.getFeatures():
            geom = feature.geometry()
            buffer = geom.buffer(
                10, 100, QgsGeometry.CapFlat, QgsGeometry.JoinStyleMiter, 100
            )
            feature.setGeometry(buffer)
            feature.setFields(QgsFields())
            sink.addFeature(feature)
            writer.addFeature(feature)
        del writer

        # run change detector
        path1 = raster_1.source()
        path2 = raster_2.source()
        detector = LittoDynChangeDetectorPca(path1, path2, path_roi)
        if alg == 1:
            detector = LittoDynChangeDetectorEvi(path1, path2, path_roi)
        elif alg == 2:
            detector = LittoDynChangeDetectorNdvi(path1, path2, path_roi)
        elif alg == 3:
            detector = LittoDynChangeDetectorNgrdi(path1, path2, path_roi)
        elif alg == 4:
            detector = LittoDynChangeDetectorNormEuclid(path1, path2, path_roi)
        elif alg == 5:
            detector = LittoDynChangeDetectorNormCorr(path1, path2, path_roi)
        elif alg == 6:
            detector = LittoDynChangeDetectorNormCos(path1, path2, path_roi)
        detector.detect()

        # store output layers in group
        alg_name = self.options[alg].lower().replace(" ", "_")
        if Qgis.QGIS_VERSION_INT >= 31500:
            name = "{}_{}_{}".format(raster_1.name(), raster_2.name(), alg_name)
            ProcessingConfig.setSettingValue(ProcessingConfig.RESULTS_GROUP_NAME, name)

        # save result in temporary file
        tmp = tempfile.mkdtemp()
        path_changes = os.path.join(tmp, "{}_changes.tif".format(alg_name))
        detector.save(path_changes)

        rl = QgsRasterLayer(path_changes, "{}_changes".format(alg_name), "gdal")
        context.temporaryLayerStore().addMapLayer(rl)
        context.addLayerToLoadOnCompletion(
            rl.id(),
            QgsProcessingContext.LayerDetails(
                "{}_changes".format(alg_name), context.project(), self.OUTPUT_CHANGES
            ),
        )

        return {
            self.OUTPUT_CHANGES: rl.id(),
            self.OUTPUT_BUFFER: self.dest_id,
            self.OUTPUT_CHANGES: rl.id(),
        }
コード例 #9
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class TestQgsBlendModes(TestCase):

    def __init__(self, methodName):
        """Run once on class initialisation."""
        unittest.TestCase.__init__(self, methodName)

        # initialize class MapRegistry, Canvas, MapRenderer, Map and PAL
        self.mMapRegistry = QgsMapLayerRegistry.instance()

        # create point layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'points.shp')
        self.mPointLayer = QgsVectorLayer(myShpFile, 'Points', 'ogr')
        self.mMapRegistry.addMapLayer(self.mPointLayer)

        # create polygon layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'polys.shp')
        self.mPolygonLayer = QgsVectorLayer(myShpFile, 'Polygons', 'ogr')
        self.mMapRegistry.addMapLayer(self.mPolygonLayer)

        # create two raster layers
        myRasterFile = os.path.join(TEST_DATA_DIR, 'landsat.tif')
        self.mRasterLayer1 = QgsRasterLayer(myRasterFile, "raster1")
        self.mRasterLayer2 = QgsRasterLayer(myRasterFile, "raster2")
        myMultiBandRenderer1 = QgsMultiBandColorRenderer(self.mRasterLayer1.dataProvider(), 2, 3, 4)
        self.mRasterLayer1.setRenderer(myMultiBandRenderer1)
        self.mMapRegistry.addMapLayer(self.mRasterLayer1)
        myMultiBandRenderer2 = QgsMultiBandColorRenderer(self.mRasterLayer2.dataProvider(), 2, 3, 4)
        self.mRasterLayer2.setRenderer(myMultiBandRenderer2)
        self.mMapRegistry.addMapLayer(self.mRasterLayer2)

        # to match blend modes test comparisons background
        self.mCanvas = CANVAS
        self.mCanvas.setCanvasColor(QColor(152, 219, 249))
        self.mMap = self.mCanvas.map()
        self.mMap.resize(QSize(400, 400))
        self.mMapRenderer = self.mCanvas.mapRenderer()
        self.mMapRenderer.setOutputSize(QSize(400, 400), 72)

    def testVectorBlending(self):
        """Test that blend modes work for vector layers."""

        #Add vector layers to map
        myLayers = QStringList()
        myLayers.append(self.mPointLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mMapRenderer.setLayerSet(myLayers)
        self.mMapRenderer.setExtent(self.mPointLayer.extent())

        #Set blending modes for both layers
        self.mPointLayer.setBlendMode(QPainter.CompositionMode_Overlay)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_Multiply)

        checker = QgsRenderChecker()
        checker.setControlName("expected_vector_blendmodes")
        checker.setMapRenderer(self.mMapRenderer)

        myResult = checker.runTest("vector_blendmodes");
        myMessage = ('vector blending failed')
        assert myResult, myMessage

    def testRasterBlending(self):
        """Test that blend modes work for raster layers."""
        #Add raster layers to map
        myLayers = QStringList()
        myLayers.append(self.mRasterLayer1.id())
        myLayers.append(self.mRasterLayer2.id())
        self.mMapRenderer.setLayerSet(myLayers)
        self.mMapRenderer.setExtent(self.mRasterLayer1.extent())

        #Set blending mode for top layer
        self.mRasterLayer1.setBlendMode(QPainter.CompositionMode_Plus)
        checker = QgsRenderChecker()
        checker.setControlName("expected_raster_blendmodes")
        checker.setMapRenderer(self.mMapRenderer)

        myResult = checker.runTest("raster_blendmodes");
        myMessage = ('raster blending failed')
        assert myResult, myMessage
コード例 #10
0
 def processAlgorithm(self, parameters, context, feedback):
     """
     Here is where the processing itself takes place.
     """
     inputLyr = self.parameterAsVectorLayer(parameters, self.INPUT, context)
     if inputLyr is None:
         raise QgsProcessingException(
             self.invalidSourceError(parameters, self.INPUT))
     onlySelected = self.parameterAsBool(parameters, self.SELECTED, context)
     attributeName = self.parameterAsFields(parameters,
                                            self.IMAGE_ATTRIBUTE,
                                            context)[0]
     groupExpression = self.parameterAsExpression(parameters,
                                                  self.GROUP_EXPRESSION,
                                                  context)
     imageTag = self.parameterAsString(parameters, self.NAME_TAG, context)
     boundingBoxGeometry = self.parameterAsExtentGeometry(
         parameters, self.EXTENT, context)
     loadToCanvas = self.parameterAsBoolean(parameters, self.ADD_TO_CANVAS,
                                            context)
     uniqueLoad = self.parameterAsBoolean(parameters, self.UNIQUE_LOAD,
                                          context)
     loadedLayers = {
         i.dataProvider().dataSourceUri() : i.id()
             for i in iface.mapCanvas().layers()\
                 if isinstance(i, QgsRasterLayer)
      } if uniqueLoad else {}
     outputLayers = {}
     request = QgsFeatureRequest()
     if boundingBoxGeometry is not None:
         request.setFilterRect(boundingBoxGeometry.boundingBox())
     request.setFlags(QgsFeatureRequest.NoGeometry)
     request.addOrderBy(attributeName, ascending=True)
     features = inputLyr.getFeatures(request) if not onlySelected \
         else inputLyr.getSelectedFeatures(request)
     #calculate size
     featList = [i for i in features]
     listSize = len(featList)
     progressStep = 100 / listSize if listSize else 0
     #remaining parameters
     if loadToCanvas:
         rootNode = QgsProject.instance().layerTreeRoot()
         datasetImageNode = self.createGroup(self.tr('Dataset Images'),
                                             rootNode)
         iface.mapCanvas().freeze(True)
     else:
         datasetImageNode = None
     for current, feat in enumerate(featList):
         if feedback.isCanceled():
             break
         image_path = feat[attributeName]
         if image_path in loadedLayers:
             outputLayers[image_path] = loadedLayers[image_path]
             feedback.setProgress(current * progressStep)
             continue
         newImage = QgsRasterLayer(
             image_path,
             '_'.join(
                 [imageTag, os.path.basename(image_path)] if imageTag != ''\
                 else [os.path.basename(image_path)]
             )
         )
         QgsProject.instance().addMapLayer(newImage, False)
         if datasetImageNode is not None:
             currentNode = datasetImageNode if groupExpression is None\
                 else self.getLayerCategoryNode(
                     newImage,
                     datasetImageNode,
                     groupExpression
                 )
             currentNode.addLayer(newImage)
         outputLayers[image_path] = newImage.id()
         feedback.setProgress(current * progressStep)
     if loadToCanvas:
         iface.mapCanvas().freeze(False)
         iface.mapCanvas().refresh()
     return {self.OUTPUT: list(outputLayers.values())}
コード例 #11
0
ファイル: test_qgsblendmodes.py プロジェクト: NyakudyaA/QGIS
class TestQgsBlendModes(unittest.TestCase):

    def __init__(self, methodName):
        """Run once on class initialization."""
        unittest.TestCase.__init__(self, methodName)

        self.iface = get_iface()

        # initialize class MapRegistry, Canvas, MapRenderer, Map and PAL
        self.mMapRegistry = QgsMapLayerRegistry.instance()

        # create point layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'points.shp')
        self.mPointLayer = QgsVectorLayer(myShpFile, 'Points', 'ogr')
        self.mMapRegistry.addMapLayer(self.mPointLayer)

        self.mSimplifyMethod = QgsVectorSimplifyMethod()
        self.mSimplifyMethod.setSimplifyHints(QgsVectorSimplifyMethod.NoSimplification)

        # create polygon layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'polys.shp')
        self.mPolygonLayer = QgsVectorLayer(myShpFile, 'Polygons', 'ogr')
        self.mPolygonLayer.setSimplifyMethod(self.mSimplifyMethod)
        self.mMapRegistry.addMapLayer(self.mPolygonLayer)

        # create line layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'lines.shp')
        self.mLineLayer = QgsVectorLayer(myShpFile, 'Lines', 'ogr')
        self.mLineLayer.setSimplifyMethod(self.mSimplifyMethod)
        self.mMapRegistry.addMapLayer(self.mLineLayer)

        # create two raster layers
        myRasterFile = os.path.join(TEST_DATA_DIR, 'rgb256x256.png')
        self.mRasterLayer1 = QgsRasterLayer(myRasterFile, "raster1")
        self.mRasterLayer2 = QgsRasterLayer(myRasterFile, "raster2")
        myMultiBandRenderer1 = QgsMultiBandColorRenderer(self.mRasterLayer1.dataProvider(), 1, 2, 3)
        self.mRasterLayer1.setRenderer(myMultiBandRenderer1)
        self.mMapRegistry.addMapLayer(self.mRasterLayer1)
        myMultiBandRenderer2 = QgsMultiBandColorRenderer(self.mRasterLayer2.dataProvider(), 1, 2, 3)
        self.mRasterLayer2.setRenderer(myMultiBandRenderer2)
        self.mMapRegistry.addMapLayer(self.mRasterLayer2)

        # to match blend modes test comparisons background
        self.mapSettings = QgsMapSettings()
        self.mapSettings.setLayers([self.mRasterLayer1.id(), self.mRasterLayer2.id()])
        self.mapSettings.setBackgroundColor(QColor(152, 219, 249))
        self.mapSettings.setOutputSize(QSize(400, 400))
        self.mapSettings.setOutputDpi(96)

        self.extent = QgsRectangle(-118.8888888888887720, 22.8002070393376783, -83.3333333333331581, 46.8719806763287536)

    def testVectorBlending(self):
        """Test that blend modes work for vector layers."""

        # Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.extent)

        # Set blending modes for both layers
        self.mLineLayer.setBlendMode(QPainter.CompositionMode_Difference)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_Difference)

        checker = QgsMultiRenderChecker()
        checker.setControlName("expected_vector_blendmodes")
        checker.setMapSettings(self.mapSettings)
        checker.setColorTolerance(1)

        myResult = checker.runTest("vector_blendmodes", 20)
        myMessage = ('vector blending failed')
        assert myResult, myMessage

        # Reset layers
        self.mLineLayer.setBlendMode(QPainter.CompositionMode_SourceOver)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_SourceOver)

    def testVectorFeatureBlending(self):
        """Test that feature blend modes work for vector layers."""

        # Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.extent)

        # Set feature blending for line layer
        self.mLineLayer.setFeatureBlendMode(QPainter.CompositionMode_Plus)

        checker = QgsMultiRenderChecker()
        checker.setControlName("expected_vector_featureblendmodes")
        checker.setMapSettings(self.mapSettings)
        checker.setColorTolerance(1)

        myResult = checker.runTest("vector_featureblendmodes", 20)
        myMessage = ('vector feature blending failed')
        assert myResult, myMessage

        # Reset layers
        self.mLineLayer.setFeatureBlendMode(QPainter.CompositionMode_SourceOver)

    def testVectorLayerTransparency(self):
        """Test that layer transparency works for vector layers."""

        # Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.extent)

        # Set feature blending for line layer
        self.mLineLayer.setLayerTransparency(50)

        checker = QgsMultiRenderChecker()
        checker.setControlName("expected_vector_layertransparency")
        checker.setMapSettings(self.mapSettings)
        checker.setColorTolerance(1)

        myResult = checker.runTest("vector_layertransparency", 20)
        myMessage = ('vector layer transparency failed')
        assert myResult, myMessage

    def testRasterBlending(self):
        """Test that blend modes work for raster layers."""
        # Add raster layers to map
        myLayers = []
        myLayers.append(self.mRasterLayer1.id())
        myLayers.append(self.mRasterLayer2.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.mRasterLayer1.extent())

        # Set blending mode for top layer
        self.mRasterLayer1.setBlendMode(QPainter.CompositionMode_Difference)
        checker = QgsMultiRenderChecker()
        checker.setControlName("expected_raster_blendmodes")
        checker.setMapSettings(self.mapSettings)
        checker.setColorTolerance(1)
        checker.setColorTolerance(1)

        myResult = checker.runTest("raster_blendmodes", 20)
        myMessage = ('raster blending failed')
        assert myResult, myMessage
コード例 #12
0
def add_ee_image_layer(imageid, name, date, bands, scale, b_min=None, b_max=None, palette=None, qml=None, extent=None,
                       shown=False, destination=None):
    nbands = len(bands)
    # if nbands > 3:
    #     rgb = ee.Image(imageid).select(bands[0:3])
    #     pan = ee.Image(imageid).select(bands[3])
    #     huesat = rgb.rgbToHsv().select('hue', 'saturation')
    #     image = ee.Image.cat(huesat, pan).hsvToRgb().select([0, 1, 2], bands[0:3])
    #     nbands = 3
    # else:
    image = ee.Image(imageid)
    if not any([b_min, b_max, palette, qml]):
        image_stats = image.select(bands[0:nbands]).reduceRegion(ee.Reducer.minMax(), None, scale, None, None, False, 1.0E13).getInfo()
        b_min = [image_stats[bands[n] + '_min'] for n in range(nbands)]
        b_max = [image_stats[bands[n] + '_max'] for n in range(nbands)]
        # b_min = [image_stats[bands[0] + '_min'], image_stats[bands[1] + '_min'], image_stats[bands[2] + '_min']]
        # b_max = [image_stats[bands[0] + '_max'], image_stats[bands[1] + '_max'], image_stats[bands[2] + '_max']]
    rgb = image.visualize(bands=bands[0:nbands], min=b_min, max=b_max, palette=palette)
    tms = get_ee_image_tms(rgb)
    if extent is None:
        image_geojson = get_ee_image_bb(rgb)
        extent = geojson_to_wkt(image_geojson)
    bb = QgsRectangle.fromWkt(extent)
    url = tms_to_gdalurl(tms)
    xml = get_gdal_xml(url, nbands=nbands+1)
    # vfn = write_vsimem_xml(xml) # changed to named temporary file
    tmp, fn = write_xmlfile(xml, name, dest=destination)
    layer = QgsRasterLayer(fn, name)
    if layer.isValid():
        if qml is not None:
            if isfile(qml + '_' + QSettings().value('locale/userLocale') + '.qml'):
                layer.loadNamedStyle(qml + '_' + QSettings().value('locale/userLocale') + '.qml')
            else:
                layer.loadNamedStyle(qml + '.qml')
        layer.setExtent(bb)
        if tmp:
            layer.setCustomProperty('ee-image', 'MEM')
        else:
            layer.setCustomProperty('ee-image', 'XML')
        layer.setCustomProperty('ee-image-id', imageid)
        layer.setCustomProperty('ee-image-date', date)
        layer.setCustomProperty('ee-image-bands', bands)
        layer.setCustomProperty('ee-image-scale', scale)
        layer.setCustomProperty('ee-image-b_min', b_min)
        layer.setCustomProperty('ee-image-b_max', b_max)
        layer.setCustomProperty('ee-image-palette', palette)
        layer.setCustomProperty('ee-image-qml', qml)
        layer.setCustomProperty('ee-image-wkt', extent)
        # else:
        #     layer.setAbstract(f"ee.Image('{imageid}')")
        # if len(bands) < 4:
        #     try:
        #         layer.setCustomProperty('ee-image-stats', image_stats)
        #     except NameError:
        #         pass
        if date is not None:
            layer.setAbstract(f"ee.Image('{imageid}') \n\nDate: {date}")
        else:
            layer.setAbstract(f"ee.Image('{imageid}')")
        QgsProject.instance().addMapLayer(layer)
        if not shown:
            QgsProject.instance().layerTreeRoot().findLayer(layer.id()).setItemVisibilityChecked(shown)
コード例 #13
0
class TestQgsBlendModes(unittest.TestCase):
    def __init__(self, methodName):
        """Run once on class initialization."""
        unittest.TestCase.__init__(self, methodName)

        self.iface = get_iface()

        # initialize class MapRegistry, Canvas, MapRenderer, Map and PAL
        self.mMapRegistry = QgsMapLayerRegistry.instance()

        # create point layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'points.shp')
        self.mPointLayer = QgsVectorLayer(myShpFile, 'Points', 'ogr')
        self.mMapRegistry.addMapLayer(self.mPointLayer)

        self.mSimplifyMethod = QgsVectorSimplifyMethod()
        self.mSimplifyMethod.setSimplifyHints(
            QgsVectorSimplifyMethod.NoSimplification)

        # create polygon layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'polys.shp')
        self.mPolygonLayer = QgsVectorLayer(myShpFile, 'Polygons', 'ogr')
        self.mPolygonLayer.setSimplifyMethod(self.mSimplifyMethod)
        self.mMapRegistry.addMapLayer(self.mPolygonLayer)

        # create line layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'lines.shp')
        self.mLineLayer = QgsVectorLayer(myShpFile, 'Lines', 'ogr')
        self.mLineLayer.setSimplifyMethod(self.mSimplifyMethod)
        self.mMapRegistry.addMapLayer(self.mLineLayer)

        # create two raster layers
        myRasterFile = os.path.join(TEST_DATA_DIR, 'rgb256x256.png')
        self.mRasterLayer1 = QgsRasterLayer(myRasterFile, "raster1")
        self.mRasterLayer2 = QgsRasterLayer(myRasterFile, "raster2")
        myMultiBandRenderer1 = QgsMultiBandColorRenderer(
            self.mRasterLayer1.dataProvider(), 1, 2, 3)
        self.mRasterLayer1.setRenderer(myMultiBandRenderer1)
        self.mMapRegistry.addMapLayer(self.mRasterLayer1)
        myMultiBandRenderer2 = QgsMultiBandColorRenderer(
            self.mRasterLayer2.dataProvider(), 1, 2, 3)
        self.mRasterLayer2.setRenderer(myMultiBandRenderer2)
        self.mMapRegistry.addMapLayer(self.mRasterLayer2)

        # to match blend modes test comparisons background
        self.mCanvas = self.iface.mapCanvas()
        self.mCanvas.setCanvasColor(QColor(152, 219, 249))
        self.mMap = self.mCanvas.map()
        self.mMap.resize(QSize(400, 400))
        self.mapSettings = self.mCanvas.mapSettings()
        self.mapSettings.setOutputSize(QSize(400, 400))
        self.mapSettings.setOutputDpi(96)

        self.extent = QgsRectangle(-118.8888888888887720, 22.8002070393376783,
                                   -83.3333333333331581, 46.8719806763287536)

    def testVectorBlending(self):
        """Test that blend modes work for vector layers."""

        # Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.extent)

        # Set blending modes for both layers
        self.mLineLayer.setBlendMode(QPainter.CompositionMode_Difference)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_Difference)

        checker = QgsMultiRenderChecker()
        checker.setControlName("expected_vector_blendmodes")
        checker.setMapSettings(self.mapSettings)
        checker.setColorTolerance(1)

        myResult = checker.runTest("vector_blendmodes", 20)
        myMessage = ('vector blending failed')
        assert myResult, myMessage

        # Reset layers
        self.mLineLayer.setBlendMode(QPainter.CompositionMode_SourceOver)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_SourceOver)

    def testVectorFeatureBlending(self):
        """Test that feature blend modes work for vector layers."""

        # Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.extent)

        # Set feature blending for line layer
        self.mLineLayer.setFeatureBlendMode(QPainter.CompositionMode_Plus)

        checker = QgsMultiRenderChecker()
        checker.setControlName("expected_vector_featureblendmodes")
        checker.setMapSettings(self.mapSettings)
        checker.setColorTolerance(1)

        myResult = checker.runTest("vector_featureblendmodes", 20)
        myMessage = ('vector feature blending failed')
        assert myResult, myMessage

        # Reset layers
        self.mLineLayer.setFeatureBlendMode(
            QPainter.CompositionMode_SourceOver)

    def testVectorLayerTransparency(self):
        """Test that layer transparency works for vector layers."""

        # Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.extent)

        # Set feature blending for line layer
        self.mLineLayer.setLayerTransparency(50)

        checker = QgsMultiRenderChecker()
        checker.setControlName("expected_vector_layertransparency")
        checker.setMapSettings(self.mapSettings)
        checker.setColorTolerance(1)

        myResult = checker.runTest("vector_layertransparency", 20)
        myMessage = ('vector layer transparency failed')
        assert myResult, myMessage

    def testRasterBlending(self):
        """Test that blend modes work for raster layers."""
        # Add raster layers to map
        myLayers = []
        myLayers.append(self.mRasterLayer1.id())
        myLayers.append(self.mRasterLayer2.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.mRasterLayer1.extent())

        # Set blending mode for top layer
        self.mRasterLayer1.setBlendMode(QPainter.CompositionMode_Difference)
        checker = QgsMultiRenderChecker()
        checker.setControlName("expected_raster_blendmodes")
        checker.setMapSettings(self.mapSettings)
        checker.setColorTolerance(1)
        checker.setColorTolerance(1)

        myResult = checker.runTest("raster_blendmodes", 20)
        myMessage = ('raster blending failed')
        assert myResult, myMessage
コード例 #14
0
    def processAlgorithm(self, parameters, context, feedback):
        self.PreRun(parameters, context, feedback)
        commands = self.getConsoleCommands(parameters, context, feedback)
        ChloeUtils.runChloe(commands, feedback)

        print('parameters : {}'.format(str(parameters)))

        # Auto generate outputs: dict {'name parameter' : 'value', ...}
        for output in self.destinationParameterDefinitions():
            print(str(output) + " " + str(output.metadata()))
        results = {}
        for o in self.outputDefinitions():

            if o.name() in parameters:
                results[o.name()] = parameters[o.name()]
        for k, v in self.output_values.items():
            results[k] = v

        # Load OUTPUT_ASC on temp layer on context id checked box checked
        #    (it will be load after in the project)
        #

        #print('context : {}'.format(context))
        #print('parameterDefinitions : {}'.format(self.parameterDefinitions()))
        if ('OUTPUT_ASC' in parameters
            ) and 'openLayer' in parameters['OUTPUT_ASC'] and parameters[
                'OUTPUT_ASC']['openLayer'] == True:
            # Load OUTPUT_ASC on temp layer on context
            #    (it will be load after in the project)
            output_asc = parameters['OUTPUT_ASC']["data"]
            rlayer = QgsRasterLayer(output_asc, "hillshade")
            if not rlayer.isValid():
                raise QgsProcessingException(
                    self.tr("""Cannot load the output in the application"""))

            rLayerName = ChloeUtils.deduceLayerName(rlayer, self.name())
            ChloeUtils.setLayerSymbology(rlayer, 'continuous.qml')
            context.temporaryLayerStore().addMapLayer(rlayer)
            layerDetails = QgsProcessingContext.LayerDetails(
                rLayerName, context.project(), self.OUTPUT_ASC)

            #postProcess = ChloeOutputLayerPostProcessor()t
            #layerDetails.setPostProcessor(postProcess)
            context.addLayerToLoadOnCompletion(rlayer.id(), layerDetails)
            results[self.OUTPUT_ASC] = rlayer.id()

        if ('OUTPUT_CSV' in parameters
            ) and parameters['OUTPUT_CSV']['openLayer'] == True:
            uri = "file:///" + str(
                results['OUTPUT_CSV']
            ) + "?type=csv&delimiter=;&detectTypes=yes&geomType=none&subsetIndex=no&watchFile=no"
            output_csv = parameters['OUTPUT_CSV']["data"]
            if 'OUTPUT_ASC' in parameters:
                output_csv = ChloeUtils.adjustExtension(
                    output_csv, parameters['OUTPUT_ASC']["data"])

            print("output_csv " + str(uri) + "  " + str(output_csv))
            tLayerName = ChloeUtils.deduceLayerName(output_csv, self.name())
            tLayer = QgsVectorLayer(uri, tLayerName, 'delimitedtext')
            if not tLayer.isValid():
                raise QgsProcessingException(
                    self.tr("""Cannot load the outpout in the application"""))

            context.temporaryLayerStore().addMapLayer(tLayer)
            layerDetails = QgsProcessingContext.LayerDetails(
                tLayerName, context.project(), self.OUTPUT_CSV)
            context.addLayerToLoadOnCompletion(tLayer.id(), layerDetails)
            results[self.OUTPUT_CSV] = tLayer.id()

        if ('OUTPUT_DIR'
                in parameters) and self.outputFilenames and parameters[
                    'OUTPUT_DIR']['openLayer'] == True:
            # === import all asc for multi algorithm
            outputDir = self.parameterAsString(parameters, self.OUTPUT_DIR,
                                               context)
            if outputDir != None:
                self.prepareMultiProjectionFiles()
                for file in self.outputFilenames:
                    print(file + " " +
                          os.path.splitext(os.path.basename(file))[0])
                    rlayer = QgsRasterLayer(
                        file,
                        os.path.splitext(os.path.basename(file))[0])
                    #rlayer = QgsRasterLayer(load_it, "hillshade")
                    if not rlayer.isValid():
                        raise QgsProcessingException(
                            self.
                            tr("""Cannot load the outpout in the application"""
                               ))

                    rLayerName = ChloeUtils.deduceLayerName(
                        rlayer, self.name())
                    ChloeUtils.setLayerSymbology(rlayer, 'continuous.qml')
                    context.temporaryLayerStore().addMapLayer(rlayer)
                    layerDetails = QgsProcessingContext.LayerDetails(
                        rLayerName, context.project(), self.OUTPUT_DIR)

                    context.addLayerToLoadOnCompletion(rlayer.id(),
                                                       layerDetails)

        return results
コード例 #15
0
    def testTransparency(self):
        myPath = os.path.join(unitTestDataPath('raster'),
                              'band1_float32_noct_epsg4326.tif')
        myFileInfo = QFileInfo(myPath)
        myBaseName = myFileInfo.baseName()
        myRasterLayer = QgsRasterLayer(myPath, myBaseName)
        myMessage = 'Raster not loaded: %s' % myPath
        assert myRasterLayer.isValid(), myMessage

        renderer = QgsSingleBandGrayRenderer(myRasterLayer.dataProvider(), 1)
        myRasterLayer.setRenderer(renderer)
        myRasterLayer.setContrastEnhancement(
            QgsContrastEnhancement.StretchToMinimumMaximum,
            QgsRaster.ContrastEnhancementMinMax)

        myContrastEnhancement = myRasterLayer.renderer().contrastEnhancement()
        # print ("myContrastEnhancement.minimumValue = %.17g" %
        #       myContrastEnhancement.minimumValue())
        # print ("myContrastEnhancement.maximumValue = %.17g" %
        #        myContrastEnhancement.maximumValue())

        # Unfortunately the minimum/maximum values calculated in C++ and Python
        # are slightly different (e.g. 3.3999999521443642e+38 x
        # 3.3999999521444001e+38)
        # It is not clear where the precision is lost.
        # We set the same values as C++.
        myContrastEnhancement.setMinimumValue(-3.3319999287625854e+38)
        myContrastEnhancement.setMaximumValue(3.3999999521443642e+38)
        #myType = myRasterLayer.dataProvider().dataType(1);
        #myEnhancement = QgsContrastEnhancement(myType);

        myTransparentSingleValuePixelList = []
        rasterTransparency = QgsRasterTransparency()

        myTransparentPixel1 = \
            QgsRasterTransparency.TransparentSingleValuePixel()
        myTransparentPixel1.min = -2.5840000772112106e+38
        myTransparentPixel1.max = -1.0879999684602689e+38
        myTransparentPixel1.percentTransparent = 50
        myTransparentSingleValuePixelList.append(myTransparentPixel1)

        myTransparentPixel2 = \
            QgsRasterTransparency.TransparentSingleValuePixel()
        myTransparentPixel2.min = 1.359999960575336e+37
        myTransparentPixel2.max = 9.520000231087593e+37
        myTransparentPixel2.percentTransparent = 70
        myTransparentSingleValuePixelList.append(myTransparentPixel2)

        rasterTransparency.setTransparentSingleValuePixelList(
            myTransparentSingleValuePixelList)

        rasterRenderer = myRasterLayer.renderer()
        assert rasterRenderer

        rasterRenderer.setRasterTransparency(rasterTransparency)

        QgsMapLayerRegistry.instance().addMapLayers([
            myRasterLayer,
        ])

        myMapSettings = QgsMapSettings()
        myMapSettings.setLayers([myRasterLayer.id()])
        myMapSettings.setExtent(myRasterLayer.extent())

        myChecker = QgsRenderChecker()
        myChecker.setControlName("expected_raster_transparency")
        myChecker.setMapSettings(myMapSettings)

        myResultFlag = myChecker.runTest("raster_transparency_python")
        assert myResultFlag, "Raster transparency rendering test failed"
コード例 #16
0
def addRasterLayers(project, server, schema):
    """
    add postgis raster layers to qgis project
    """

    groups = []

    # get postgis raster table
    records = server.getTableNames(schema, match='^rast_[0-9]{8}_.*')
    print('processing {count} tables in schema {schema}'.format(
        count=len(records), schema=schema))
    for record in records:

        # get gdal postgis raster connection string
        table = record[0]

        uri_config = {
            # database parameters
            'dbname':
            server.getDatabase(),  # The PostgreSQL database to connect to.
            'host': server.getHost(),  # The host IP address or localhost.
            'port': server.getPort(),  # The port to connect on.
            'sslmode': QgsDataSourceUri.
            SslDisable,  # SslAllow, SslPrefer, SslRequire, SslVerifyCa, SslVerifyFull

            # user and password are not needed if stored in the authcfg or service
            'authcfg':
            None,  # The QGIS athentication database ID holding connection details.
            'service':
            None,  # The PostgreSQL service to be used for connection to the database.
            'username': '******',  # The PostgreSQL user name.
            'password': '******',  # The PostgreSQL password for the user.

            # table and raster column details
            'schema':
            schema,  # The database schema that the table is located in.
            'table': table,  # The database table to be loaded.
            'geometrycolumn': 'rast',  # raster column in PostGIS table
            'sql':
            None,  # An SQL WHERE clause. It should be placed at the end of the string.
            'key': None,  # A key column from the table.
            'srid':
            '27700',  # A string designating the SRID of the coordinate reference system.
            'estimatedmetadata':
            'False',  # A boolean value telling if the metadata is estimated.
            'type': None,  # A WKT string designating the WKB Type.
            'selectatid':
            None,  # Set to True to disable selection by feature ID.
            'options':
            None,  # other PostgreSQL connection options not in this list.
            'enableTime': None,
            'temporalDefaultTime': None,
            'temporalFieldIndex': None,
            'mode':
            '2',  # GDAL 'mode' parameter, 2 unions raster tiles, 1 adds tiles separately (may require user input)
        }
        # remove any NULL parameters
        uri_config = {
            key: val
            for key, val in uri_config.items() if val is not None
        }

        # get metadata for raster provider and configure uri
        md = QgsProviderRegistry.instance().providerMetadata('postgresraster')
        uri = QgsDataSourceUri(md.encodeUri(uri_config))

        # create layer
        layer = QgsRasterLayer(uri.uri(False), table, "postgresraster")
        if layer.isValid():

            try:

                # add to project
                layer.setContrastEnhancement(
                    QgsContrastEnhancement.StretchToMinimumMaximum,
                    QgsRasterMinMaxOrigin.CumulativeCut)
                QgsProject.instance().addMapLayer(layer)

                # extract date from table name
                dt = datetime.strptime(
                    re.search('[0-9]{8}', table)[0], '%Y%m%d')

                sub_group = next(
                    (item for item in groups if str(dt.year) == item['year']),
                    None)
                if sub_group is None:
                    groups.append({'year': str(dt.year), 'layers': []})

                # add layer id to schema / year indexed lists
                sub_group = next(
                    (item for item in groups if str(dt.year) == item['year']),
                    None)
                sub_group['layers'].append({
                    'id': layer.id(),
                    'dt': dt,
                    'name': table
                })

            except Exception as e:
                print('ERROR: {conn} {msg}'.format(conn=uri.uri(False), msg=e))

    # return layers in yearly slices in descending order
    return sorted(groups, key=lambda k: k['year'], reverse=True)
コード例 #17
0
        def _test(is_dbf):

            QgsProject.instance().removeAllMapLayers()

            tmp_dir = QTemporaryDir()
            shutil.copy(
                os.path.join(os.path.dirname(__file__), 'data',
                             'raster-palette.tif'), tmp_dir.path())

            rat_path = os.path.join(
                tmp_dir.path(),
                'raster-palette.tif' + ('.vat.dbf' if is_dbf else '.aux.xml'))
            self.assertFalse(os.path.exists(rat_path))

            raster_layer = QgsRasterLayer(
                os.path.join(tmp_dir.path(), 'raster-palette.tif'), 'rat_test',
                'gdal')
            QgsProject.instance().addMapLayer(raster_layer)

            self.assertTrue(raster_layer.isValid())
            self.assertFalse(can_create_rat(raster_layer))
            self.assertFalse(has_rat(raster_layer))

            band = 1

            # Set renderer
            ramp = QgsRandomColorRamp()
            renderer = QgsPalettedRasterRenderer(
                raster_layer.dataProvider(), 1,
                QgsPalettedRasterRenderer.classDataFromRaster(
                    raster_layer.dataProvider(), band, ramp))
            raster_layer.setRenderer(renderer)
            self.assertTrue(can_create_rat(raster_layer))

            rat = create_rat_from_raster(raster_layer, is_dbf, rat_path)
            self.assertTrue(rat.isValid())

            self.assertEqual(rat.data['Count'], [78, 176, 52])
            self.assertEqual(
                rat.data['Value'],
                [2.257495271713565, 7.037407804695962, 270.4551067154352])
            self.assertEqual(rat.data['A'], [255, 255, 255])
            self.assertNotEqual(rat.data['R'], [0, 0, 0])

            self.assertTrue(rat.save(band))
            self.assertTrue(os.path.exists(rat_path))

            QgsProject.instance().removeMapLayers([raster_layer.id()])
            del (raster_layer)

            self.assertTrue(os.path.exists(rat_path))
            QgsApplication.processEvents()

            # Reload and check
            raster_layer = QgsRasterLayer(
                os.path.join(tmp_dir.path(), 'raster-palette.tif'), 'rat_test',
                'gdal')
            self.assertTrue(raster_layer.isValid())
            self.assertFalse(can_create_rat(raster_layer))
            self.assertTrue(has_rat(raster_layer), rat_path)

            os.unlink(rat_path)
コード例 #18
0
class ElevationDockWidget(QtWidgets.QDockWidget, FORM_CLASS):

    closingPlugin = pyqtSignal()
    dataChange = pyqtSignal(QRiSProject, str)

    def __init__(self, raster, qris_project, parent=None):
        """Constructor."""
        super(ElevationDockWidget, self).__init__(parent)
        # Set up the user interface from Designer.
        # After setupUI you can access any designer object by doing
        # self.<objectname>, and you can use autoconnect slots - see
        # http://doc.qt.io/qt-5/designer-using-a-ui-file.html
        # #widgets-and-dialogs-with-auto-connect
        self.setupUi(self)
        self.qris_project = qris_project
        self.raster = raster
        self.elevation_value = 1.0

        self.txtRasterName.setText(self.raster.name)

        self.raster_path = os.path.join(self.qris_project.project_path, raster.path)
        self.group_layer = None
        self.raster_layer = QgsRasterLayer(self.raster_path, 'Elevation Explorer')
        self.base_raster_layer = QgsRasterLayer(self.raster_path, self.raster.name)
        self.base_raster_layer.loadNamedStyle(os.path.join(os.path.dirname(__file__), "..", 'resources', 'symbology', 'hand.qml'))

        self.updateElevationLayer(self.elevation_value)

        QgsProject.instance().addMapLayer(self.base_raster_layer)
        QgsProject.instance().addMapLayer(self.raster_layer)

        # TODO Get min max of raster and apply to slider tools

        self.elevationSlider.valueChanged.connect(self.sliderElevationChange)
        self.numElevation.valueChanged.connect(self.spinBoxElevationChange)
        self.btnExport.clicked.connect(self.exportPolygonDlg)
        # self.closingPlugin.connect(self.closeWidget)

    def closeEvent(self, event):
        QgsProject.instance().removeMapLayer(self.base_raster_layer.id())
        QgsProject.instance().removeMapLayer(self.raster_layer.id())
        iface.mapCanvas().refresh()
        self.close()
        self.destroy()

    def updateElevationLayer(self, value=1.0):
        fcn = QgsColorRampShader()
        fcn.setColorRampType(QgsColorRampShader.Discrete)
        fcn.setColorRampItemList([QgsColorRampShader.ColorRampItem(value, QColor(255, 20, 225), f'Elevation {value}')])
        shader = QgsRasterShader()
        shader.setRasterShaderFunction(fcn)
        renderer = QgsSingleBandPseudoColorRenderer(self.raster_layer.dataProvider(), 1, shader)
        self.raster_layer.setRenderer(renderer)
        self.raster_layer.triggerRepaint()

    def sliderElevationChange(self, value):
        self.elevation_value = value / 10
        self.updateElevationLayer(value / 10)
        self.numElevation.setValue(value / 10)

    def spinBoxElevationChange(self, value):
        self.elevation_value = value
        self.updateElevationLayer(value)
        self.elevationSlider.setValue(int(value * 10))

    def exportPolygonDlg(self):
        self.export_dlg = ExportElevationSurfaceDlg(self.raster, self.elevation_value, self.qris_project)
        self.export_dlg.dataChange.connect(self.exportPolgyon)
        self.export_dlg.show()

    def exportPolgyon(self, updated_project, surface_name):
        self.qris_project = updated_project
        self.dataChange.emit(self.qris_project, surface_name)
        self.closeWidget()
        return

    def closeWidget(self):
        QgsProject.instance().removeMapLayer(self.base_raster_layer.id())
        QgsProject.instance().removeMapLayer(self.raster_layer.id())
        self.close()
        self.destroy()
        return
コード例 #19
0
    def renderer(self):
        if 'QGIS_AUTH_DB_DIR_PATH' not in os.environ:
            os.environ['QGIS_AUTH_DB_DIR_PATH'] = '/tmp'

        qgis = None
        while True:
            options, result = self.queue.get()

            # Don't start QGIS until first request
            if qgis is None:
                qgis = QgsApplication([], False)
                qgis.setPrefixPath(self.settings.get('path'), True)
                qgis.setDefaultSvgPaths(qgis.svgPaths() +
                                        self.settings.get('svgpaths'))
                qgis.setMaxThreads(1)
                qgis.initQgis()

            try:
                if isinstance(options, LegendOptions):
                    style, = options

                    layer = self._qgs_memory_layer(style)
                    layer.setName(style.parent.display_name)

                    QgsMapLayerRegistry.instance().addMapLayer(layer)

                    root = QgsLayerTreeGroup()
                    root.addLayer(layer)

                    # 'Cannot create a QPixmap when no GUI is being used'
                    #  warning occurs here
                    model = QgsLayerTreeModel(root)

                    settings = QgsLegendSettings()
                    settings.setTitle('')
                    settings.setBoxSpace(1)
                    settings.setSymbolSize(QSizeF(5, 3))
                    settings.setDpi(96)

                    renderer = QgsLegendRenderer(model, settings)

                    # Dots per mm
                    dpmm = settings.dpi() / 25.4

                    min_size = renderer.minimumSize()
                    size = QSize(dpmm * min_size.width(),
                                 dpmm * min_size.height())
                    img = QImage(size, QImage.Format_ARGB32)
                    img.fill(QColor(0, 0, 0, 0))

                    painter = QPainter()
                    painter.begin(img)
                    painter.scale(dpmm, dpmm)
                    renderer.drawLegend(painter)
                    painter.end()

                    QgsMapLayerRegistry.instance().removeAllMapLayers()

                    ba = QByteArray()
                    bf = QBuffer(ba)
                    bf.open(QIODevice.WriteOnly)
                    img.save(bf, 'PNG')
                    bf.close()

                    buf = StringIO()
                    buf.write(bf.data())
                    buf.seek(0)
                    result.put(buf)

                else:
                    path = features = None
                    if isinstance(options, VectorRenderOptions):
                        style, features, render_size, \
                            extended, target_box = options
                        layer = self._qgs_memory_layer(style,
                                                       features=features)
                    elif isinstance(options, RasterRenderOptions):
                        style, path, render_size, \
                            extended, target_box = options
                        layer = QgsRasterLayer(path)
                        layer.loadNamedStyle(
                            self.env.file_storage.filename(style.qml_fileobj))

                    settings = QgsMapSettings()
                    settings.setLayers([layer.id()])
                    settings.setFlag(QgsMapSettings.DrawLabeling)
                    settings.setFlag(QgsMapSettings.Antialiasing)

                    settings.setCrsTransformEnabled(True)
                    settings.setDestinationCrs(layer.crs())
                    settings.setMapUnits(layer.crs().mapUnits())
                    settings.setOutputSize(QSize(*render_size))
                    settings.setExtent(QgsRectangle(*extended))

                    settings.setOutputImageFormat(QImage.Format_ARGB32)
                    bgcolor = QColor.fromRgba(qRgba(255, 255, 255, 0))
                    settings.setBackgroundColor(bgcolor)
                    settings.setOutputDpi(96)

                    QgsMapLayerRegistry.instance().addMapLayer(layer)
                    settings.setLayers([layer.id()])

                    # Create QImage by hand to be able to use
                    # QgsMapRendererCustomPainterJob. Others will not
                    # allow to workaround a bug with overlay rendering.
                    img = QImage(settings.outputSize(), QImage.Format_ARGB32)

                    # These cludges are needed for rendering
                    # on transparent background, otherwise it's a mess.
                    img.fill(QColor.fromRgba(qRgba(255, 255, 255, 255)))
                    img.fill(QColor.fromRgba(qRgba(255, 255, 255, 0)))

                    # DPI should be equal to settings, otherwise an error.
                    # In QImage the resolution is set in dots per meter
                    # for each axis.
                    dpm = settings.outputDpi() / 25.4 * 1000
                    img.setDotsPerMeterX(dpm)
                    img.setDotsPerMeterY(dpm)

                    painter = QPainter(img)
                    job = QgsMapRendererCustomPainterJob(settings, painter)
                    job.renderSynchronously()
                    painter.end()

                    QgsMapLayerRegistry.instance().removeAllMapLayers()

                    img = self._qimage_to_pil(img)

                    # Clip needed part
                    result.put(img.crop(target_box))

                    # Cleanup
                    if path is not None:
                        gdal.Unlink(path)

            except Exception as exc:
                self.logger.error(exc.message)
                result.put(exc)

        qgis.exitQgis()
コード例 #20
0
    def testTransparency(self):
        myPath = os.path.join(unitTestDataPath('raster'),
                              'band1_float32_noct_epsg4326.tif')
        myFileInfo = QFileInfo(myPath)
        myBaseName = myFileInfo.baseName()
        myRasterLayer = QgsRasterLayer(myPath, myBaseName)
        myMessage = 'Raster not loaded: %s' % myPath
        assert myRasterLayer.isValid(), myMessage

        renderer = QgsSingleBandGrayRenderer(myRasterLayer.dataProvider(), 1)
        myRasterLayer.setRenderer(renderer)
        myRasterLayer.setContrastEnhancementAlgorithm(
            QgsContrastEnhancement.StretchToMinimumMaximum,
            QgsRasterLayer.ContrastEnhancementMinMax)

        myContrastEnhancement = myRasterLayer.renderer().contrastEnhancement()
        #print ("myContrastEnhancement.minimumValue = %.17g" %
        #       myContrastEnhancement.minimumValue())
        #print ("myContrastEnhancement.maximumValue = %.17g" %
        #        myContrastEnhancement.maximumValue())

        # Unfortunately the minimum/maximum values calculated in C++ and Python
        # are slightly different (e.g. 3.3999999521443642e+38 x
        # 3.3999999521444001e+38)
        # It is not clear where the precision is lost.
        # We set the same values as C++.
        myContrastEnhancement.setMinimumValue(-3.3319999287625854e+38)
        myContrastEnhancement.setMaximumValue(3.3999999521443642e+38)
        #myType = myRasterLayer.dataProvider().dataType(1);
        #myEnhancement = QgsContrastEnhancement(myType);



        myTransparentSingleValuePixelList = []
        rasterTransparency = QgsRasterTransparency()

        myTransparentPixel1 = \
            QgsRasterTransparency.TransparentSingleValuePixel()
        myTransparentPixel1.min = -2.5840000772112106e+38
        myTransparentPixel1.max = -1.0879999684602689e+38
        myTransparentPixel1.percentTransparent = 50
        myTransparentSingleValuePixelList.append(myTransparentPixel1)

        myTransparentPixel2 = \
            QgsRasterTransparency.TransparentSingleValuePixel()
        myTransparentPixel2.min = 1.359999960575336e+37
        myTransparentPixel2.max = 9.520000231087593e+37
        myTransparentPixel2.percentTransparent = 70
        myTransparentSingleValuePixelList.append(myTransparentPixel2)

        rasterTransparency.setTransparentSingleValuePixelList(
            myTransparentSingleValuePixelList)

        rasterRenderer = myRasterLayer.renderer()
        assert rasterRenderer

        rasterRenderer.setRasterTransparency(rasterTransparency)

        QgsMapLayerRegistry.instance().addMapLayers([ myRasterLayer, ])

        myMapRenderer = QgsMapRenderer()

        myLayers = QStringList()
        myLayers.append(myRasterLayer.id())
        myMapRenderer.setLayerSet(myLayers)
        myMapRenderer.setExtent(myRasterLayer.extent())

        myChecker = QgsRenderChecker()
        myChecker.setControlName("expected_raster_transparency")
        myChecker.setMapRenderer(myMapRenderer)

        myResultFlag = myChecker.runTest("raster_transparency_python");
        assert myResultFlag, "Raster transparency rendering test failed"
コード例 #21
0
class TestQgsBlendModes(TestCase):
    def __init__(self, methodName):
        """Run once on class initialisation."""
        unittest.TestCase.__init__(self, methodName)

        # initialize class MapRegistry, Canvas, MapRenderer, Map and PAL
        self.mMapRegistry = QgsMapLayerRegistry.instance()

        # create point layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'points.shp')
        self.mPointLayer = QgsVectorLayer(myShpFile, 'Points', 'ogr')
        self.mMapRegistry.addMapLayer(self.mPointLayer)

        # create polygon layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'polys.shp')
        self.mPolygonLayer = QgsVectorLayer(myShpFile, 'Polygons', 'ogr')
        self.mMapRegistry.addMapLayer(self.mPolygonLayer)

        # create line layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'lines.shp')
        self.mLineLayer = QgsVectorLayer(myShpFile, 'Lines', 'ogr')
        self.mMapRegistry.addMapLayer(self.mLineLayer)

        # create two raster layers
        myRasterFile = os.path.join(TEST_DATA_DIR, 'landsat.tif')
        self.mRasterLayer1 = QgsRasterLayer(myRasterFile, "raster1")
        self.mRasterLayer2 = QgsRasterLayer(myRasterFile, "raster2")
        myMultiBandRenderer1 = QgsMultiBandColorRenderer(
            self.mRasterLayer1.dataProvider(), 2, 3, 4)
        self.mRasterLayer1.setRenderer(myMultiBandRenderer1)
        self.mMapRegistry.addMapLayer(self.mRasterLayer1)
        myMultiBandRenderer2 = QgsMultiBandColorRenderer(
            self.mRasterLayer2.dataProvider(), 2, 3, 4)
        self.mRasterLayer2.setRenderer(myMultiBandRenderer2)
        self.mMapRegistry.addMapLayer(self.mRasterLayer2)

        # to match blend modes test comparisons background
        self.mCanvas = CANVAS
        self.mCanvas.setCanvasColor(QColor(152, 219, 249))
        self.mMap = self.mCanvas.map()
        self.mMap.resize(QSize(400, 400))
        self.mMapRenderer = self.mCanvas.mapRenderer()
        self.mMapRenderer.setOutputSize(QSize(400, 400), 72)

    def testVectorBlending(self):
        """Test that blend modes work for vector layers."""

        #Add vector layers to map
        myLayers = QStringList()
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mMapRenderer.setLayerSet(myLayers)
        self.mMapRenderer.setExtent(self.mPointLayer.extent())

        #Set blending modes for both layers
        self.mLineLayer.setBlendMode(QPainter.CompositionMode_Difference)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_Difference)

        checker = QgsRenderChecker()
        checker.setControlName("expected_vector_blendmodes")
        checker.setMapRenderer(self.mMapRenderer)

        myResult = checker.runTest("vector_blendmodes")
        myMessage = ('vector blending failed')
        assert myResult, myMessage

        #Reset layers
        self.mLineLayer.setBlendMode(QPainter.CompositionMode_SourceOver)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_SourceOver)

    def testVectorFeatureBlending(self):
        """Test that feature blend modes work for vector layers."""

        #Add vector layers to map
        myLayers = QStringList()
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mMapRenderer.setLayerSet(myLayers)
        self.mMapRenderer.setExtent(self.mPointLayer.extent())

        #Set feature blending for line layer
        self.mLineLayer.setFeatureBlendMode(QPainter.CompositionMode_Plus)

        checker = QgsRenderChecker()
        checker.setControlName("expected_vector_featureblendmodes")
        checker.setMapRenderer(self.mMapRenderer)

        myResult = checker.runTest("vector_featureblendmodes")
        myMessage = ('vector feature blending failed')
        assert myResult, myMessage

        #Reset layers
        self.mLineLayer.setFeatureBlendMode(
            QPainter.CompositionMode_SourceOver)

    def testVectorLayerTransparency(self):
        """Test that layer transparency works for vector layers."""

        #Add vector layers to map
        myLayers = QStringList()
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mMapRenderer.setLayerSet(myLayers)
        self.mMapRenderer.setExtent(self.mPointLayer.extent())

        #Set feature blending for line layer
        self.mLineLayer.setLayerTransparency(50)

        checker = QgsRenderChecker()
        checker.setControlName("expected_vector_layertransparency")
        checker.setMapRenderer(self.mMapRenderer)

        myResult = checker.runTest("vector_layertransparency")
        myMessage = ('vector layer transparency failed')
        assert myResult, myMessage

    def testRasterBlending(self):
        """Test that blend modes work for raster layers."""
        #Add raster layers to map
        myLayers = QStringList()
        myLayers.append(self.mRasterLayer1.id())
        myLayers.append(self.mRasterLayer2.id())
        self.mMapRenderer.setLayerSet(myLayers)
        self.mMapRenderer.setExtent(self.mRasterLayer1.extent())

        #Set blending mode for top layer
        self.mRasterLayer1.setBlendMode(QPainter.CompositionMode_Plus)
        checker = QgsRenderChecker()
        checker.setControlName("expected_raster_blendmodes")
        checker.setMapRenderer(self.mMapRenderer)

        myResult = checker.runTest("raster_blendmodes")
        myMessage = ('raster blending failed')
        assert myResult, myMessage
コード例 #22
0
    def processAlgorithm(self, parameters, context, feedback):
        """
        Here is where the processing itself takes place.
        """

        source = self.parameterAsVectorLayer(parameters, self.INPUT, context)
        field_insee = self.parameterAsString(parameters, self.INSEE_CODE,
                                             context)
        field_commune = self.parameterAsString(parameters, self.COMMUNE_NAME,
                                               context)
        value_epsg = self.parameterAsString(parameters, self.EPSG_CODE,
                                            context)

        if value_epsg == '2154' or value_epsg == '3942' or value_epsg == '3943' or value_epsg == '3944' or value_epsg == '3945' or value_epsg == '3946' or value_epsg == '3947' or value_epsg == '3948' or value_epsg == '3949' or value_epsg == '3950' or value_epsg == '32630' or value_epsg == ' 32631' or value_epsg == '32632' or value_epsg == '3857' or value_epsg == '4326' or value_epsg == '4258' or value_epsg == '32620' or value_epsg == '2970' or value_epsg == '2972' or value_epsg == '2973' or value_epsg == '2975' or value_epsg == '32622' or value_epsg == '32740' or value_epsg == '32738' or value_epsg == '4471' or value_epsg == '32621':

            feedback.pushInfo('EPSG code' + value_epsg)
            tab = []

            for f in source.getFeatures():

                col_select = f[field_insee], (''.join(
                    (c for c in unicodedata.normalize('NFD', f[field_commune])
                     if unicodedata.category(c) != 'Mn')))

                # Insere chaque ligne du CSV dans le tableau
                tab.append(col_select)

                #Permet la suppression des doublons et le tri
                Lt = sorted(set(tab))

                print(Lt)

            for c_insee, n_couche in Lt:

                urlWithParams = "url=http://inspire.cadastre.gouv.fr/scpc/" + c_insee + ".wms?contextualWMSLegend=0&crs=EPSG:" + value_epsg + "&dpiMode=7&featureCount=10&format=image/png&layers=VOIE_COMMUNICATION&styles=&maxHeight=1024&maxWidth=1280"
                rlayer = QgsRasterLayer(
                    urlWithParams, 'Petites_voies_de_communication_' +
                    n_couche + '_' + c_insee, 'wms')
                feedback.pushInfo('Category :' + n_couche + ' - ' + c_insee)
                feedback.pushInfo('Validity of WMS : %s' % rlayer.isValid())
                if not rlayer.isValid():
                    print('Petites_voies_de_communication_' + n_couche + '_' +
                          c_insee + ' failed to load!')
                    feedback.pushInfo('WMS INVALID : Cadastre_' + n_couche +
                                      '_' + c_insee)
                else:
                    #Source : https://gis.stackexchange.com/questions/342802/loading-openstreetmap-in-pyqgis
                    output_layers = []
                    output_layers.append(rlayer)
                    context.temporaryLayerStore().addMapLayer(rlayer)
                    context.addLayerToLoadOnCompletion(
                        rlayer.id(),
                        QgsProcessingContext.LayerDetails(
                            'Petites_voies_de_communication_' + n_couche +
                            '_' + c_insee, context.project(),
                            self.OUTPUT_LAYERS))
        else:
            feedback.pushInfo('Error EPSG code')

        # Return the results of the algorithm. In this case our only result is
        # the feature sink which contains the processed features, but some
        # algorithms may return multiple feature sinks, calculated numeric
        # statistics, etc. These should all be included in the returned
        # dictionary, with keys matching the feature corresponding parameter
        # or output names.
        # At the end of the processAlgorithmn
        # Add the layer to the project
        return {}
コード例 #23
0
def addToDefaultProject(maps, visibleMaps, authcfg=None):
    """Add basemaps to the existing default project"""
    layers = []
    for m in maps:
        connstring = u'type=xyz&url={url}'
        if authcfg is not None:
            connstring = u'authcfg={authcfg}&' + connstring
        layer = QgsRasterLayer(connstring.format(url=urllib2.quote("{}?version={}".format(m['endpoint'], pluginSetting("apiVersion"))),
                                                 authcfg=authcfg), m['name'], 'wms')
        # I've no idea why the following is required even if the crs is specified
        # in the layer definition
        layer.setCrs(QgsCoordinateReferenceSystem('EPSG:3857'))
        layers.append(layer)

    if os.path.isfile(defaultProjectPath()):
        backup = defaultProjectPath().replace(
            '.qgs', '-%s.qgs' % datetime.now().strftime('%Y-%m-%d-%H_%M_%S'))
        shutil.copy2(defaultProjectPath(), backup)

   # open default project
    with open(defaultProjectPath()) as f:
        content = f.read()

    doc = QDomDocument()
    setOk, errorString, errorLine, errorColumn = doc.setContent(content)
    if not setOk:
        return False

    root = doc.documentElement()

    for layer in layers:
        is_visible = layer.name() in visibleMaps
        xml = QgsMapLayer.asLayerDefinition([layer])
        r = xml.documentElement()
        mapLayerElement = r.firstChildElement("maplayers").firstChildElement("maplayer")

        layerTreeLayerElement = doc.createElement("layer-tree-layer")
        layerTreeLayerElement.setAttribute("expanded", "1")
        layerTreeLayerElement.setAttribute("checked", "Qt::Checked" if is_visible else "Qt::Unchecked")
        layerTreeLayerElement.setAttribute("id", layer.id())
        layerTreeLayerElement.setAttribute("name", layer.name())

        customPropertiesElement = doc.createElement("customproperties")
        layerTreeLayerElement.appendChild(customPropertiesElement)

        legendLayerElement = doc.createElement("legendlayer")
        legendLayerElement.setAttribute("drawingOrder", "-1")
        legendLayerElement.setAttribute("open", "true")
        legendLayerElement.setAttribute("checked", "Qt::Checked" if is_visible else "Qt::Unchecked")
        legendLayerElement.setAttribute("name", layer.name())
        legendLayerElement.setAttribute("showFeatureCount", "0")

        filegroupElement = doc.createElement("filegroup")
        filegroupElement.setAttribute("open", "true")
        filegroupElement.setAttribute("hidden", "false")

        legendlayerfileElement = doc.createElement("legendlayerfile")
        legendlayerfileElement.setAttribute("isInOverview", "0")
        legendlayerfileElement.setAttribute("layerid", layer.id())
        legendlayerfileElement.setAttribute("visible", "1" if is_visible else "0")

        filegroupElement.appendChild(legendlayerfileElement)
        legendLayerElement.appendChild(filegroupElement)

        crsElement = doc.createElement("layer_coordinate_transform")
        crsElement.setAttribute("destAuthId", "EPSG:3857")
        crsElement.setAttribute("srcAuthId", "EPSG:3857")
        crsElement.setAttribute("srcDatumTransform", "-1")
        crsElement.setAttribute("destDatumTransform", "-1")
        crsElement.setAttribute("layerid", layer.id())

        itemElement = doc.createElement("item")
        text = doc.createTextNode(layer.id())
        itemElement.appendChild(text)

        e = root.firstChildElement("layer-tree-group")
        e.appendChild(layerTreeLayerElement)

        e = root.firstChildElement("mapcanvas").firstChildElement("layer_coordinate_transform_info")
        e.appendChild(crsElement)

        e = root.firstChildElement("layer-tree-canvas").firstChildElement("custom-order")
        e.appendChild(itemElement)

        e = root.firstChildElement("legend")
        e.appendChild(legendLayerElement)

        e = root.firstChildElement("projectlayers")
        e.appendChild(mapLayerElement)

    with open(defaultProjectPath(), "wb+") as f:
        f.write(doc.toString(2))

    settings = QSettings()
    settings.setValue('/qgis/newProjectDefault', True)
    return True
コード例 #24
0
ファイル: test_qgsblendmodes.py プロジェクト: CSRedRat/QGIS
class TestQgsBlendModes(TestCase):

    def __init__(self, methodName):
        """Run once on class initialisation."""
        unittest.TestCase.__init__(self, methodName)

        # initialize class MapRegistry, Canvas, MapRenderer, Map and PAL
        self.mMapRegistry = QgsMapLayerRegistry.instance()

        # create point layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'points.shp')
        self.mPointLayer = QgsVectorLayer(myShpFile, 'Points', 'ogr')
        self.mMapRegistry.addMapLayer(self.mPointLayer)

        self.mSimplifyMethod = QgsVectorSimplifyMethod() ;
        self.mSimplifyMethod.setSimplifyHints(QgsVectorSimplifyMethod.NoSimplification);

        # create polygon layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'polys.shp')
        self.mPolygonLayer = QgsVectorLayer(myShpFile, 'Polygons', 'ogr')
        self.mPolygonLayer.setSimplifyMethod(self.mSimplifyMethod)
        self.mMapRegistry.addMapLayer(self.mPolygonLayer)

        # create line layer
        myShpFile = os.path.join(TEST_DATA_DIR, 'lines.shp')
        self.mLineLayer = QgsVectorLayer(myShpFile, 'Lines', 'ogr')
        self.mLineLayer.setSimplifyMethod(self.mSimplifyMethod)
        self.mMapRegistry.addMapLayer(self.mLineLayer)

        # create two raster layers
        myRasterFile = os.path.join(TEST_DATA_DIR, 'landsat.tif')
        self.mRasterLayer1 = QgsRasterLayer(myRasterFile, "raster1")
        self.mRasterLayer2 = QgsRasterLayer(myRasterFile, "raster2")
        myMultiBandRenderer1 = QgsMultiBandColorRenderer(self.mRasterLayer1.dataProvider(), 2, 3, 4)
        self.mRasterLayer1.setRenderer(myMultiBandRenderer1)
        self.mMapRegistry.addMapLayer(self.mRasterLayer1)
        myMultiBandRenderer2 = QgsMultiBandColorRenderer(self.mRasterLayer2.dataProvider(), 2, 3, 4)
        self.mRasterLayer2.setRenderer(myMultiBandRenderer2)
        self.mMapRegistry.addMapLayer(self.mRasterLayer2)

        # to match blend modes test comparisons background
        self.mCanvas = CANVAS
        self.mCanvas.setCanvasColor(QColor(152, 219, 249))
        self.mMap = self.mCanvas.map()
        self.mMap.resize(QSize(400, 400))
        self.mapSettings = self.mCanvas.mapSettings()
        self.mapSettings.setOutputSize(QSize(400, 400))

    def testVectorBlending(self):
        """Test that blend modes work for vector layers."""

        #Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.mPointLayer.extent())

        #Set blending modes for both layers
        self.mLineLayer.setBlendMode(QPainter.CompositionMode_Difference)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_Difference)

        checker = QgsRenderChecker()
        checker.setControlName("expected_vector_blendmodes")
        checker.setMapSettings(self.mapSettings)

        myResult = checker.runTest("vector_blendmodes");
        myMessage = ('vector blending failed')
        assert myResult, myMessage

        #Reset layers
        self.mLineLayer.setBlendMode(QPainter.CompositionMode_SourceOver)
        self.mPolygonLayer.setBlendMode(QPainter.CompositionMode_SourceOver)

    def testVectorFeatureBlending(self):
        """Test that feature blend modes work for vector layers."""

        #Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.mPointLayer.extent())

        #Set feature blending for line layer
        self.mLineLayer.setFeatureBlendMode(QPainter.CompositionMode_Plus)

        checker = QgsRenderChecker()
        checker.setControlName("expected_vector_featureblendmodes")
        checker.setMapSettings(self.mapSettings)

        myResult = checker.runTest("vector_featureblendmodes");
        myMessage = ('vector feature blending failed')
        assert myResult, myMessage

        #Reset layers
        self.mLineLayer.setFeatureBlendMode(QPainter.CompositionMode_SourceOver)

    def testVectorLayerTransparency(self):
        """Test that layer transparency works for vector layers."""

        #Add vector layers to map
        myLayers = []
        myLayers.append(self.mLineLayer.id())
        myLayers.append(self.mPolygonLayer.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.mPointLayer.extent())

        #Set feature blending for line layer
        self.mLineLayer.setLayerTransparency( 50 )

        checker = QgsRenderChecker()
        checker.setControlName("expected_vector_layertransparency")
        checker.setMapSettings(self.mapSettings)

        myResult = checker.runTest("vector_layertransparency");
        myMessage = ('vector layer transparency failed')
        assert myResult, myMessage

    def testRasterBlending(self):
        """Test that blend modes work for raster layers."""
        #Add raster layers to map
        myLayers = []
        myLayers.append(self.mRasterLayer1.id())
        myLayers.append(self.mRasterLayer2.id())
        self.mapSettings.setLayers(myLayers)
        self.mapSettings.setExtent(self.mRasterLayer1.extent())

        #Set blending mode for top layer
        self.mRasterLayer1.setBlendMode(QPainter.CompositionMode_Plus)
        checker = QgsRenderChecker()
        checker.setControlName("expected_raster_blendmodes")
        checker.setMapSettings(self.mapSettings)

        myResult = checker.runTest("raster_blendmodes");
        myMessage = ('raster blending failed')
        assert myResult, myMessage
コード例 #25
0
 def __add_images(images,
                  description,
                  outdir,
                  msgbar,
                  check,
                  vrt=True,
                  shown=True):
     if check.isChecked() and vrt:
         pan = images.pop('pan', None)  # take out pan
         if len(images) > 1:
             # stack images in a VRT file if there are more than one image left
             vrtfile = os.path.join(outdir, description + '.vrt')
             # to sort in r/g/b/nir order here sort(images.keys, key=lambda k: rgbn[k])
             _RGBN = {'red': 1, 'green': 2, 'blue': 3, 'nir': 4}
             images_keys_ordered = sorted(images.keys(),
                                          key=lambda k: _RGBN.get(k, 5))
             filenames = [images[k] for k in images_keys_ordered
                          ]  # filenames list in RGBN order
             ds = gdal.BuildVRT(
                 vrtfile,
                 filenames,
                 options=gdal.BuildVRTOptions(separate=True,
                                              resolution='highest'))
             for i, bn in enumerate(images_keys_ordered):
                 b = ds.GetRasterBand(i + 1)
                 b.SetDescription(bn)
             ds.FlushCache()
             ds = None
             if pan is None:
                 # nothing to do anymore, add VRT file
                 __add_images({'vrt': vrtfile},
                              description,
                              outdir,
                              msgbar,
                              check,
                              vrt=False)
             else:
                 # VERY SLOW TO DO HERE (perhaps as ProcessingProvider?)
                 # nbands = len(images)
                 # if nbands > 2: # may be a setting here for pansharpening choice
                 #     pan_ds = gdal.Open(pan)
                 #     pansharpened_ds = gdal.CreatePansharpenedVRT(__pszXML(nbands), pan_ds.GetRasterBand(1),
                 #     [ds.GetRasterBand(i + 1) for i in range(nbands)])
                 #     pansharpened_filename = os.path.join(outdir, description + '_pansharpened.vrt')
                 #     driver = gdal.GetDriverByName('VRT')
                 #     driver.CreateCopy(pansharpened_filename, pansharpened_ds, 0)
                 #     # add ALL
                 #     __add_images({'pansharpened': pansharpened_filename,
                 #                 'pan': pan, 'vrt': vrtfile}, description, outdir, msgbar, check, vrt=False, shown=False)
                 # else:
                 #     # just add pan and vrt files
                 __add_images({
                     'pan': pan,
                     'vrt': vrtfile
                 },
                              description,
                              outdir,
                              msgbar,
                              check,
                              vrt=False)
         else:
             # do not stack since there are not enough images
             assert pan is not None  # 'pan' should be not 'None' here
             images.update({'pan': pan})  # restore pan
             __add_images(images,
                          description,
                          outdir,
                          msgbar,
                          check,
                          vrt=False)
     else:
         for k in images.keys():
             fn = images[k]
             name = os.path.basename(fn).split('.')[0]
             layer = QgsRasterLayer(fn, name)
             if layer.isValid():
                 QgsProject.instance().addMapLayer(layer)
                 if not shown:
                     QgsProject.instance().layerTreeRoot().findLayer(
                         layer.id()).setItemVisibilityChecked(shown)
         msgbar.dismiss()