Esempio n. 1
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    def __init__(self, map_theme, layer, extent, tile_size, mupp, output,
                 make_trans, map_settings, project):
        """
        :param map_theme:
        :param extent:
        :param layer:
        :param tile_size:
        :param mupp:
        :param output:
        :param map_settings: Map canvas map settings used for some fallback
        values and CRS
        """

        self.extent = extent
        self.mupp = mupp
        self.tile_size = tile_size

        driver = self.getDriverForFile(output)

        if not driver:
            raise QgsProcessingException(
                u'Could not load GDAL driver for file {}'.format(output))

        crs = map_settings.destinationCrs()

        self.x_tile_count = math.ceil(extent.width() / mupp / tile_size)
        self.y_tile_count = math.ceil(extent.height() / mupp / tile_size)

        xsize = self.x_tile_count * tile_size
        ysize = self.y_tile_count * tile_size

        if make_trans:
            no_bands = 4
        else:
            no_bands = 3

        self.dataset = driver.Create(output, xsize, ysize, no_bands)
        self.dataset.SetProjection(str(crs.toWkt()))
        self.dataset.SetGeoTransform(
            [extent.xMinimum(), mupp, 0,
             extent.yMaximum(), 0, -mupp])

        self.image = QImage(QSize(tile_size, tile_size), QImage.Format_ARGB32)

        self.settings = QgsMapSettings()
        self.settings.setOutputDpi(self.image.logicalDpiX())
        self.settings.setOutputImageFormat(QImage.Format_ARGB32)
        self.settings.setDestinationCrs(crs)
        self.settings.setOutputSize(self.image.size())
        self.settings.setFlag(QgsMapSettings.Antialiasing, True)
        self.settings.setFlag(QgsMapSettings.RenderMapTile, True)
        self.settings.setFlag(QgsMapSettings.UseAdvancedEffects, True)

        r = project.readNumEntry('Gui', '/CanvasColorRedPart', 255)[0]
        g = project.readNumEntry('Gui', '/CanvasColorGreenPart', 255)[0]
        b = project.readNumEntry('Gui', '/CanvasColorBluePart', 255)[0]
        if make_trans:
            self.bgColor = QColor(r, g, b, 0)
        else:
            self.bgColor = QColor(r, g, b)
        self.settings.setBackgroundColor(self.bgColor)

        if QgsProject.instance().mapThemeCollection().hasMapTheme(map_theme):
            self.settings.setLayers(QgsProject.instance().mapThemeCollection().
                                    mapThemeVisibleLayers(map_theme))
            self.settings.setLayerStyleOverrides(QgsProject.instance(
            ).mapThemeCollection().mapThemeStyleOverrides(map_theme))
        elif layer:
            self.settings.setLayers([layer])
        else:
            self.settings.setLayers(map_settings.layers())
Esempio n. 2
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 def __init__(self, text):
     QPushButton.__init__(self)
     self.setText(text)
     buttons_size_policy = QSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)
     self.setSizePolicy(buttons_size_policy)
     self.setMaximumSize(QSize(30, 30))
Esempio n. 3
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    def testRemoteImageMissing(self):
        """Test fetching remote image with bad url"""
        url = 'http://localhost:{}/qgis_local_server/xxx.png'.format(str(TestQgsImageCache.port))  # oooo naughty
        image, in_cache = QgsApplication.imageCache().pathAsImage(url, QSize(100, 100), 1.0, True)

        self.assertTrue(self.imageCheck('Remote image missing', 'waiting_image', image))
Esempio n. 4
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    def testConvertToMapUnits(self):
        ms = QgsMapSettings()
        ms.setExtent(QgsRectangle(0, 0, 100, 100))
        ms.setOutputSize(QSize(100, 50))
        ms.setOutputDpi(300)
        r = QgsRenderContext.fromMapSettings(ms)

        # renderer scale should be about 1:291937841

        # start with no min/max scale
        c = QgsMapUnitScale()

        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMapUnits, c)
        self.assertEqual(size, 2.0)
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMillimeters, c)
        self.assertAlmostEqual(size, 47.244094, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderPoints, c)
        self.assertAlmostEqual(size, 47.2440833, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderInches, c)
        self.assertAlmostEqual(size, 3401.574, places=5)
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderPixels, c)
        self.assertAlmostEqual(size, 4.0, places=5)

        # minimum size greater than the calculated size, so size should be limited to minSizeMM
        c.minSizeMM = 5
        c.minSizeMMEnabled = True
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMapUnits, c)
        self.assertAlmostEqual(size, 118.1102362, places=5)
        # only conversion from mapunits should be affected
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMillimeters, c)
        self.assertAlmostEqual(size, 47.244094, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderPoints, c)
        self.assertAlmostEqual(size, 47.2440833, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderInches, c)
        self.assertAlmostEqual(size, 3401.574, places=5)
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderPixels, c)
        self.assertAlmostEqual(size, 4.0, places=5)
        c.minSizeMMEnabled = False

        # maximum size less than the calculated size, so size should be limited to maxSizeMM
        c.maxSizeMM = 0.05
        c.maxSizeMMEnabled = True
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMapUnits, c)
        self.assertAlmostEqual(size, 1.1811023622047245, places=5)
        # only conversion from mapunits should be affected
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMillimeters, c)
        self.assertAlmostEqual(size, 47.244094, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderPoints, c)
        self.assertAlmostEqual(size, 47.2440833, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderInches, c)
        self.assertAlmostEqual(size, 3401.574, places=5)
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderPixels, c)
        self.assertAlmostEqual(size, 4.0, places=5)
        c.maxSizeMMEnabled = False

        # test with minimum scale set
        c.minScale = 150000000.0
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMapUnits, c)
        self.assertAlmostEqual(size, 15.57001821, places=5)
        # only conversion from mapunits should be affected
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMillimeters, c)
        self.assertAlmostEqual(size, 47.244094, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderPoints, c)
        self.assertAlmostEqual(size, 47.2440833, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderInches, c)
        self.assertAlmostEqual(size, 3401.574, places=5)
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderPixels, c)
        self.assertAlmostEqual(size, 4.0, places=5)
        c.minScale = 0

        # test with maximum scale set
        c.maxScale = 1550000000.0
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMapUnits, c)
        self.assertAlmostEqual(size, 1.50677595625, places=5)
        # only conversion from mapunits should be affected
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderMillimeters, c)
        self.assertAlmostEqual(size, 47.244094, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderPoints, c)
        self.assertAlmostEqual(size, 47.2440833, places=5)
        size = r.convertToMapUnits(5.66929, QgsUnitTypes.RenderInches, c)
        self.assertAlmostEqual(size, 3401.574, places=5)
        size = r.convertToMapUnits(2, QgsUnitTypes.RenderPixels, c)
        self.assertAlmostEqual(size, 4.0, places=5)
        c.maxScale = 0
Esempio n. 5
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    def testIconSize(self):
        """
        Test that model has responsive icon sizes for decorations
        """
        style = QgsStyle()
        style.createMemoryDatabase()

        symbol_a = createMarkerSymbol()
        symbol_a.setColor(QColor(255, 10, 10))
        self.assertTrue(style.addSymbol('a', symbol_a, True))
        ramp_a = QgsLimitedRandomColorRamp(5)
        self.assertTrue(style.addColorRamp('ramp a', ramp_a, True))

        for i in range(2):
            model = QgsStyleModel(style)
            self.assertEqual(model.rowCount(), 2)
            icon = model.data(model.index(i, 0), Qt.DecorationRole)
            # by default, only 24x24 icon
            self.assertEqual(icon.availableSizes(), [QSize(24, 24)])
            self.assertEqual(icon.actualSize(QSize(10, 10)), QSize(10, 10))
            self.assertEqual(icon.actualSize(QSize(24, 24)), QSize(24, 24))
            self.assertEqual(icon.actualSize(QSize(90, 90)), QSize(24, 24))

            model.addDesiredIconSize(QSize(24, 24))
            model.addDesiredIconSize(QSize(100, 90))
            icon = model.data(model.index(i, 0), Qt.DecorationRole)
            self.assertEqual(icon.availableSizes(), [QSize(24, 24), QSize(100, 90)])
            self.assertEqual(icon.actualSize(QSize(10, 10)), QSize(10, 10))
            self.assertEqual(icon.actualSize(QSize(24, 24)), QSize(24, 24))
            self.assertEqual(icon.actualSize(QSize(25, 25)), QSize(25, 22))
            self.assertEqual(icon.actualSize(QSize(90, 90)), QSize(90, 81))
            self.assertEqual(icon.actualSize(QSize(125, 125)), QSize(100, 90))

            model = QgsStyleModel(style)
            model.addDesiredIconSize(QSize(100, 90))
            model.addDesiredIconSize(QSize(200, 180))
            icon = model.data(model.index(i, 0), Qt.DecorationRole)
            self.assertEqual(icon.availableSizes(), [QSize(100, 90), QSize(200, 180)])
            self.assertEqual(icon.actualSize(QSize(24, 24)), QSize(24, 21))
            self.assertEqual(icon.actualSize(QSize(25, 25)), QSize(25, 22))
            self.assertEqual(icon.actualSize(QSize(90, 90)), QSize(90, 81))
            self.assertEqual(icon.actualSize(QSize(125, 125)), QSize(125, 112))
            self.assertEqual(icon.actualSize(QSize(225, 225)), QSize(200, 180))
Esempio n. 6
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    def testRenderWithTransform(self):
        layer = QgsAnnotationLayer(
            'test',
            QgsAnnotationLayer.LayerOptions(
                QgsProject.instance().transformContext()))
        self.assertTrue(layer.isValid())

        item = QgsAnnotationPolygonItem(
            QgsPolygon(
                QgsLineString([
                    QgsPoint(11.5, 13),
                    QgsPoint(12, 13),
                    QgsPoint(12, 13.5),
                    QgsPoint(11.5, 13)
                ])))
        item.setSymbol(
            QgsFillSymbol.createSimple({
                'color': '200,100,100',
                'outline_color': 'black',
                'outline_width': '2'
            }))
        item.setZIndex(1)
        i1_id = layer.addItem(item)

        item = QgsAnnotationLineItem(
            QgsLineString(
                [QgsPoint(11, 13),
                 QgsPoint(12, 13),
                 QgsPoint(12, 15)]))
        item.setSymbol(
            QgsLineSymbol.createSimple({
                'color': '#ffff00',
                'line_width': '3'
            }))
        item.setZIndex(2)
        i2_id = layer.addItem(item)

        item = QgsAnnotationMarkerItem(QgsPoint(12, 13))
        item.setSymbol(
            QgsMarkerSymbol.createSimple({
                'color': '100,200,200',
                'size': '6',
                'outline_color': 'black'
            }))
        item.setZIndex(3)
        i3_id = layer.addItem(item)

        layer.setCrs(QgsCoordinateReferenceSystem('EPSG:4326'))

        settings = QgsMapSettings()
        settings.setDestinationCrs(QgsCoordinateReferenceSystem('EPSG:3857'))
        settings.setExtent(QgsRectangle(1250958, 1386945, 1420709, 1532518))
        settings.setOutputSize(QSize(300, 300))

        settings.setFlag(QgsMapSettings.Antialiasing, False)

        rc = QgsRenderContext.fromMapSettings(settings)
        rc.setCoordinateTransform(
            QgsCoordinateTransform(layer.crs(), settings.destinationCrs(),
                                   QgsProject.instance()))
        rc.setExtent(rc.coordinateTransform().transformBoundingBox(
            settings.extent(), QgsCoordinateTransform.ReverseTransform))
        image = QImage(200, 200, QImage.Format_ARGB32)
        image.setDotsPerMeterX(int(96 / 25.4 * 1000))
        image.setDotsPerMeterY(int(96 / 25.4 * 1000))
        image.fill(QColor(255, 255, 255))
        painter = QPainter(image)
        rc.setPainter(painter)

        try:
            renderer = layer.createMapRenderer(rc)
            renderer.render()
        finally:
            painter.end()

        self.assertTrue(
            self.imageCheck('layer_render_transform', 'layer_render_transform',
                            image))

        # also check details of rendered items
        item_details = renderer.takeRenderedItemDetails()
        self.assertEqual([i.layerId() for i in item_details], [layer.id()] * 3)
        self.assertCountEqual([i.itemId() for i in item_details],
                              [i1_id, i2_id, i3_id])
        self.assertEqual(
            [i.boundingBox() for i in item_details if i.itemId() == i1_id][0],
            QgsRectangle(11.5, 13, 12, 13.5))
        self.assertEqual(
            [i.boundingBox() for i in item_details if i.itemId() == i2_id][0],
            QgsRectangle(11, 13, 12, 15))
        self.assertEqual([
            i.boundingBox().toString(2) for i in item_details
            if i.itemId() == i3_id
        ][0], '11.94,12.94 : 12.06,13.06')
Esempio n. 7
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    def test_signalConnection(self):
        # remove all layers
        QgsProject.instance().removeAllMapLayers()
        # set dependencies and add back layers
        self.pointsLayer = QgsVectorLayer(
            "dbname='%s' table=\"node\" (geom) sql=" % self.fn, "points",
            "spatialite")
        assert (self.pointsLayer.isValid())
        self.linesLayer = QgsVectorLayer(
            "dbname='%s' table=\"section\" (geom) sql=" % self.fn, "lines",
            "spatialite")
        assert (self.linesLayer.isValid())
        self.pointsLayer2 = QgsVectorLayer(
            "dbname='%s' table=\"node2\" (geom) sql=" % self.fn, "_points2",
            "spatialite")
        assert (self.pointsLayer2.isValid())
        self.pointsLayer.setDependencies(
            [QgsMapLayerDependency(self.linesLayer.id())])
        self.pointsLayer2.setDependencies(
            [QgsMapLayerDependency(self.pointsLayer.id())])
        # this should update connections between layers
        QgsProject.instance().addMapLayers([self.pointsLayer])
        QgsProject.instance().addMapLayers([self.linesLayer])
        QgsProject.instance().addMapLayers([self.pointsLayer2])

        ms = QgsMapSettings()
        ms.setOutputSize(QSize(100, 100))
        ms.setExtent(QgsRectangle(0, 0, 1, 1))
        self.assertTrue(ms.hasValidSettings())

        u = QgsSnappingUtils()
        u.setMapSettings(ms)
        cfg = u.config()
        cfg.setEnabled(True)
        cfg.setMode(QgsSnappingConfig.AdvancedConfiguration)
        cfg.setIndividualLayerSettings(
            self.pointsLayer,
            QgsSnappingConfig.IndividualLayerSettings(True,
                                                      QgsSnappingConfig.Vertex,
                                                      20, QgsTolerance.Pixels))
        cfg.setIndividualLayerSettings(
            self.pointsLayer2,
            QgsSnappingConfig.IndividualLayerSettings(True,
                                                      QgsSnappingConfig.Vertex,
                                                      20, QgsTolerance.Pixels))
        u.setConfig(cfg)
        # add another line
        f = QgsFeature(self.linesLayer.fields())
        f.setId(4)
        geom = QgsGeometry.fromWkt("LINESTRING(0.5 0.2,0.6 0)")
        f.setGeometry(geom)
        self.linesLayer.startEditing()
        self.linesLayer.addFeatures([f])
        self.linesLayer.commitChanges()
        # check the second snapped point is OK
        m = u.snapToMap(QPoint(75, 100 - 0))
        self.assertTrue(m.isValid())
        self.assertTrue(m.hasVertex())
        self.assertEqual(m.point(), QgsPointXY(0.8, 0.0))

        self.pointsLayer.setDependencies([])
        self.pointsLayer2.setDependencies([])
Esempio n. 8
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    def testConvertToPainterUnits(self):
        # test QgsSymbolLayerUtils::convertToPainterUnits() using QgsMapUnitScale

        ms = QgsMapSettings()
        ms.setExtent(QgsRectangle(0, 0, 100, 100))
        ms.setOutputSize(QSize(100, 50))
        ms.setOutputDpi(300)
        r = QgsRenderContext.fromMapSettings(ms)

        # renderer scale should be about 1:291937841

        # start with no min/max scale
        c = QgsMapUnitScale()

        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderMapUnits, c)
        self.assertAlmostEqual(size, 1.0, places=5)
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderMillimeters, c)
        self.assertAlmostEqual(size, 23.622047, places=5)
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderPoints, c)
        self.assertAlmostEqual(size, 66.9601332, places=5)
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderPixels, c)
        self.assertAlmostEqual(size, 2.0, places=5)

        # minimum size greater than the calculated size, so size should be limited to minSizeMM
        c.minSizeMM = 5
        c.minSizeMMEnabled = True
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderMapUnits, c)
        self.assertAlmostEqual(size, 59.0551181, places=5)
        # only conversion from mapunits should be affected
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderMillimeters, c)
        self.assertAlmostEqual(size, 23.622047, places=5)
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderPoints, c)
        self.assertAlmostEqual(size, 66.9601332, places=5)
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderPixels, c)
        self.assertAlmostEqual(size, 2.0, places=5)
        c.minSizeMMEnabled = False

        # maximum size less than the calculated size, so size should be limited to maxSizeMM
        c.maxSizeMM = 0.1
        c.maxSizeMMEnabled = True
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderMapUnits, c)
        self.assertAlmostEqual(size, 1.0, places=5)
        # only conversion from mapunits should be affected
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderMillimeters, c)
        self.assertAlmostEqual(size, 23.622047, places=5)
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderPoints, c)
        self.assertAlmostEqual(size, 66.9601332, places=5)
        size = QgsSymbolLayerUtils.convertToPainterUnits(
            r, 2, QgsUnitTypes.RenderPixels, c)
        self.assertAlmostEqual(size, 2.0, places=5)
Esempio n. 9
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    def __init__(self, alg=None):
        super(ModelerDialog, self).__init__(None)
        self.setupUi(self)

        self.bar = QgsMessageBar()
        self.bar.setSizePolicy(QSizePolicy.Minimum, QSizePolicy.Fixed)
        self.centralWidget().layout().insertWidget(0, self.bar)

        try:
            self.setDockOptions(self.dockOptions()
                                | QMainWindow.GroupedDragging)
        except:
            pass

        self.addDockWidget(Qt.LeftDockWidgetArea, self.propertiesDock)
        self.addDockWidget(Qt.LeftDockWidgetArea, self.inputsDock)
        self.addDockWidget(Qt.LeftDockWidgetArea, self.algorithmsDock)
        self.tabifyDockWidget(self.inputsDock, self.algorithmsDock)
        self.inputsDock.raise_()

        self.zoom = 1

        self.setWindowFlags(Qt.WindowMinimizeButtonHint
                            | Qt.WindowMaximizeButtonHint
                            | Qt.WindowCloseButtonHint)

        settings = QgsSettings()
        self.restoreState(
            settings.value("/Processing/stateModeler", QByteArray()))
        self.restoreGeometry(
            settings.value("/Processing/geometryModeler", QByteArray()))

        self.scene = ModelerScene(self)
        self.scene.setSceneRect(
            QRectF(0, 0, self.CANVAS_SIZE, self.CANVAS_SIZE))

        self.view.setScene(self.scene)
        self.view.setAcceptDrops(True)
        self.view.ensureVisible(0, 0, 10, 10)

        def _dragEnterEvent(event):
            if event.mimeData().hasText():
                event.acceptProposedAction()
            else:
                event.ignore()

        def _dropEvent(event):
            if event.mimeData().hasText():
                text = event.mimeData().text()
                if text in ModelerParameterDefinitionDialog.paramTypes:
                    self.addInputOfType(text, event.pos())
                else:
                    alg = QgsApplication.processingRegistry().algorithmById(
                        text)
                    if alg is not None:
                        self._addAlgorithm(alg.getCopy(), event.pos())
                event.accept()
            else:
                event.ignore()

        def _dragMoveEvent(event):
            if event.mimeData().hasText():
                event.accept()
            else:
                event.ignore()

        def _wheelEvent(event):
            self.view.setTransformationAnchor(QGraphicsView.AnchorUnderMouse)

            settings = QgsSettings()
            factor = settings.value('/qgis/zoom_favor', 2.0)
            if (event.modifiers() == Qt.ControlModifier):
                factor = 1.0 + (factor - 1.0) / 20.0

            if event.angleDelta().y() < 0:
                factor = 1 / factor

            self.view.scale(factor, factor)
            self.repaintModel()

        def _enterEvent(e):
            QGraphicsView.enterEvent(self.view, e)
            self.view.viewport().setCursor(Qt.ArrowCursor)

        def _mouseReleaseEvent(e):
            QGraphicsView.mouseReleaseEvent(self.view, e)
            self.view.viewport().setCursor(Qt.ArrowCursor)

        def _mousePressEvent(e):
            if e.button() == Qt.MidButton:
                self.previousMousePos = e.pos()
            else:
                QGraphicsView.mousePressEvent(self.view, e)

        def _mouseMoveEvent(e):
            if e.buttons() == Qt.MidButton:
                offset = self.previousMousePos - e.pos()
                self.previousMousePos = e.pos()

                self.view.verticalScrollBar().setValue(
                    self.view.verticalScrollBar().value() + offset.y())
                self.view.horizontalScrollBar().setValue(
                    self.view.horizontalScrollBar().value() + offset.x())
            else:
                QGraphicsView.mouseMoveEvent(self.view, e)

        self.view.setDragMode(QGraphicsView.ScrollHandDrag)
        self.view.dragEnterEvent = _dragEnterEvent
        self.view.dropEvent = _dropEvent
        self.view.dragMoveEvent = _dragMoveEvent
        self.view.wheelEvent = _wheelEvent
        self.view.enterEvent = _enterEvent
        self.view.mousePressEvent = _mousePressEvent
        self.view.mouseMoveEvent = _mouseMoveEvent

        def _mimeDataInput(items):
            mimeData = QMimeData()
            text = items[0].text(0)
            mimeData.setText(text)
            return mimeData

        self.inputsTree.mimeData = _mimeDataInput

        self.inputsTree.setDragDropMode(QTreeWidget.DragOnly)
        self.inputsTree.setDropIndicatorShown(True)

        def _mimeDataAlgorithm(items):
            item = items[0]
            if isinstance(item, TreeAlgorithmItem):
                mimeData = QMimeData()
                mimeData.setText(item.alg.id())
            return mimeData

        self.algorithmTree.mimeData = _mimeDataAlgorithm

        self.algorithmTree.setDragDropMode(QTreeWidget.DragOnly)
        self.algorithmTree.setDropIndicatorShown(True)

        if hasattr(self.searchBox, 'setPlaceholderText'):
            self.searchBox.setPlaceholderText(self.tr('Search...'))
        if hasattr(self.textName, 'setPlaceholderText'):
            self.textName.setPlaceholderText(self.tr('Enter model name here'))
        if hasattr(self.textGroup, 'setPlaceholderText'):
            self.textGroup.setPlaceholderText(self.tr('Enter group name here'))

        # Connect signals and slots
        self.inputsTree.doubleClicked.connect(self.addInput)
        self.searchBox.textChanged.connect(self.fillAlgorithmTree)
        self.algorithmTree.doubleClicked.connect(self.addAlgorithm)

        # Ctrl+= should also trigger a zoom in action
        ctrlEquals = QShortcut(QKeySequence("Ctrl+="), self)
        ctrlEquals.activated.connect(self.zoomIn)

        try:
            iconSize = int(settings.value("iconsize", 24))
        except:
            iconSize = 24
        self.mToolbar.setIconSize(QSize(iconSize, iconSize))
        self.mActionOpen.triggered.connect(self.openModel)
        self.mActionSave.triggered.connect(self.save)
        self.mActionSaveAs.triggered.connect(self.saveAs)
        self.mActionZoomIn.triggered.connect(self.zoomIn)
        self.mActionZoomOut.triggered.connect(self.zoomOut)
        self.mActionZoomActual.triggered.connect(self.zoomActual)
        self.mActionZoomToItems.triggered.connect(self.zoomToItems)
        self.mActionExportImage.triggered.connect(self.exportAsImage)
        self.mActionExportPdf.triggered.connect(self.exportAsPdf)
        self.mActionExportSvg.triggered.connect(self.exportAsSvg)
        self.mActionExportPython.triggered.connect(self.exportAsPython)
        self.mActionEditHelp.triggered.connect(self.editHelp)
        self.mActionRun.triggered.connect(self.runModel)

        if alg is not None:
            self.alg = alg
            self.textGroup.setText(alg._group)
            self.textName.setText(alg.displayName())
            self.repaintModel()

        else:
            self.alg = ModelerAlgorithm()
            self.alg.modelerdialog = self

        self.fillInputsTree()
        self.fillAlgorithmTree()

        self.view.centerOn(0, 0)
        self.alg.setModelerView(self)
        self.help = None

        self.hasChanged = False
Esempio n. 10
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    def testExportToImage(self):
        md = QgsProject.instance().metadata()
        md.setTitle('proj title')
        md.setAuthor('proj author')
        md.setCreationDateTime(QDateTime(QDate(2011, 5, 3), QTime(9, 4, 5), QTimeZone(36000)))
        md.setIdentifier('proj identifier')
        md.setAbstract('proj abstract')
        md.setKeywords({'kw': ['kw1', 'kw2'], 'KWx': ['kw3', 'kw4']})
        QgsProject.instance().setMetadata(md)
        l = QgsLayout(QgsProject.instance())
        l.initializeDefaults()

        # add a second page
        page2 = QgsLayoutItemPage(l)
        page2.setPageSize('A5')
        l.pageCollection().addPage(page2)

        # add some items
        item1 = QgsLayoutItemShape(l)
        item1.attemptSetSceneRect(QRectF(10, 20, 100, 150))
        fill = QgsSimpleFillSymbolLayer()
        fill_symbol = QgsFillSymbol()
        fill_symbol.changeSymbolLayer(0, fill)
        fill.setColor(Qt.green)
        fill.setStrokeStyle(Qt.NoPen)
        item1.setSymbol(fill_symbol)
        l.addItem(item1)

        item2 = QgsLayoutItemShape(l)
        item2.attemptSetSceneRect(QRectF(10, 20, 100, 150))
        item2.attemptMove(QgsLayoutPoint(10, 20), page=1)
        fill = QgsSimpleFillSymbolLayer()
        fill_symbol = QgsFillSymbol()
        fill_symbol.changeSymbolLayer(0, fill)
        fill.setColor(Qt.cyan)
        fill.setStrokeStyle(Qt.NoPen)
        item2.setSymbol(fill_symbol)
        l.addItem(item2)

        exporter = QgsLayoutExporter(l)
        # setup settings
        settings = QgsLayoutExporter.ImageExportSettings()
        settings.dpi = 80

        rendered_file_path = os.path.join(self.basetestpath, 'test_exporttoimagedpi.png')
        self.assertEqual(exporter.exportToImage(rendered_file_path, settings), QgsLayoutExporter.Success)

        self.assertTrue(self.checkImage('exporttoimagedpi_page1', 'exporttoimagedpi_page1', rendered_file_path))
        page2_path = os.path.join(self.basetestpath, 'test_exporttoimagedpi_2.png')
        self.assertTrue(self.checkImage('exporttoimagedpi_page2', 'exporttoimagedpi_page2', page2_path))

        for f in (rendered_file_path, page2_path):
            d = gdal.Open(f)
            metadata = d.GetMetadata()
            self.assertEqual(metadata['Author'], 'proj author')
            self.assertEqual(metadata['Created'], '2011-05-03T09:04:05+10:00')
            self.assertEqual(metadata['Keywords'], 'KWx: kw3,kw4;kw: kw1,kw2')
            self.assertEqual(metadata['Subject'], 'proj abstract')
            self.assertEqual(metadata['Title'], 'proj title')

        # crop to contents
        settings.cropToContents = True
        settings.cropMargins = QgsMargins(10, 20, 30, 40)

        rendered_file_path = os.path.join(self.basetestpath, 'test_exporttoimagecropped.png')
        self.assertEqual(exporter.exportToImage(rendered_file_path, settings), QgsLayoutExporter.Success)

        self.assertTrue(self.checkImage('exporttoimagecropped_page1', 'exporttoimagecropped_page1', rendered_file_path))
        page2_path = os.path.join(self.basetestpath, 'test_exporttoimagecropped_2.png')
        self.assertTrue(self.checkImage('exporttoimagecropped_page2', 'exporttoimagecropped_page2', page2_path))

        # specific pages
        settings.cropToContents = False
        settings.pages = [1]

        rendered_file_path = os.path.join(self.basetestpath, 'test_exporttoimagepages.png')
        self.assertEqual(exporter.exportToImage(rendered_file_path, settings), QgsLayoutExporter.Success)

        self.assertFalse(os.path.exists(rendered_file_path))
        page2_path = os.path.join(self.basetestpath, 'test_exporttoimagepages_2.png')
        self.assertTrue(self.checkImage('exporttoimagedpi_page2', 'exporttoimagedpi_page2', page2_path))

        # image size
        settings.imageSize = QSize(600, 851)
        rendered_file_path = os.path.join(self.basetestpath, 'test_exporttoimagesize.png')
        self.assertEqual(exporter.exportToImage(rendered_file_path, settings), QgsLayoutExporter.Success)
        self.assertFalse(os.path.exists(rendered_file_path))
        page2_path = os.path.join(self.basetestpath, 'test_exporttoimagesize_2.png')
        self.assertTrue(self.checkImage('exporttoimagesize_page2', 'exporttoimagesize_page2', page2_path))

        # image size with incorrect aspect ratio
        # this can happen as a result of data defined page sizes
        settings.imageSize = QSize(851, 600)
        rendered_file_path = os.path.join(self.basetestpath, 'test_exporttoimagesizebadaspect.png')
        self.assertEqual(exporter.exportToImage(rendered_file_path, settings), QgsLayoutExporter.Success)

        page2_path = os.path.join(self.basetestpath, 'test_exporttoimagesizebadaspect_2.png')
        im = QImage(page2_path)
        self.assertTrue(self.checkImage('exporttoimagesize_badaspect', 'exporttoimagedpi_page2', page2_path), '{}x{}'.format(im.width(), im.height()))
Esempio n. 11
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    def _img_diff_error(self,
                        response,
                        headers,
                        image,
                        max_diff=100,
                        max_size_diff=QSize(),
                        unittest_data_path='control_images',
                        outputFormat='PNG'):
        """
        :param outputFormat: PNG, JPG or WEBP
        """

        if outputFormat == 'PNG':
            extFile = 'png'
            contentType = 'image/png'
        elif outputFormat == 'JPG':
            extFile = 'jpg'
            contentType = 'image/jpeg'
        elif outputFormat == 'WEBP':
            extFile = 'webp'
            contentType = 'image/webp'
        else:
            raise RuntimeError('Yeah, new format implemented')

        reference_path = unitTestDataPath(
            unittest_data_path
        ) + '/qgis_server/' + image + '/' + image + '.' + extFile
        self.store_reference(reference_path, response)

        self.assertEqual(
            headers.get("Content-Type"), contentType,
            "Content type is wrong: %s instead of %s\n%s" %
            (headers.get("Content-Type"), contentType, response))

        test, report = self._img_diff(response, image, max_diff, max_size_diff,
                                      outputFormat)

        with open(
                os.path.join(tempfile.gettempdir(),
                             image + "_result." + extFile),
                "rb") as rendered_file:
            encoded_rendered_file = base64.b64encode(rendered_file.read())
            if not os.environ.get('ENCODED_OUTPUT'):
                message = "Image is wrong: rendered file %s/%s_result.%s" % (
                    tempfile.gettempdir(), image, extFile)
            else:
                message = "Image is wrong\n%s\nImage:\necho '%s' | base64 -d >%s/%s_result.%s" % (
                    report, encoded_rendered_file.strip().decode('utf8'),
                    tempfile.gettempdir(), image, extFile)

        # If the failure is in image sizes the diff file will not exists.
        if os.path.exists(
                os.path.join(tempfile.gettempdir(),
                             image + "_result_diff." + extFile)):
            with open(
                    os.path.join(tempfile.gettempdir(),
                                 image + "_result_diff." + extFile),
                    "rb") as diff_file:
                if not os.environ.get('ENCODED_OUTPUT'):
                    message = "Image is wrong: diff file %s/%s_result_diff.%s" % (
                        tempfile.gettempdir(), image, extFile)
                else:
                    encoded_diff_file = base64.b64encode(diff_file.read())
                    message += "\nDiff:\necho '%s' | base64 -d > %s/%s_result_diff.%s" % (
                        encoded_diff_file.strip().decode('utf8'),
                        tempfile.gettempdir(), image, extFile)

        self.assertTrue(test, message)
Esempio n. 12
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    def test_render_via_job_with_transform(self):
        """
        Test rendering an annotation layer via a map render job
        """
        layer = QgsAnnotationLayer(
            'test',
            QgsAnnotationLayer.LayerOptions(
                QgsProject.instance().transformContext()))
        self.assertTrue(layer.isValid())

        item = QgsAnnotationPolygonItem(
            QgsPolygon(
                QgsLineString([
                    QgsPoint(11.5, 13),
                    QgsPoint(12, 13),
                    QgsPoint(12, 13.5),
                    QgsPoint(11.5, 13)
                ])))
        item.setSymbol(
            QgsFillSymbol.createSimple({
                'color': '200,100,100',
                'outline_color': 'black',
                'outline_width': '2'
            }))
        item.setZIndex(1)
        i1_id = layer.addItem(item)

        item = QgsAnnotationLineItem(
            QgsLineString(
                [QgsPoint(11, 13),
                 QgsPoint(12, 13),
                 QgsPoint(12, 15)]))
        item.setSymbol(
            QgsLineSymbol.createSimple({
                'color': '#ffff00',
                'line_width': '3'
            }))
        item.setZIndex(2)
        i2_id = layer.addItem(item)

        item = QgsAnnotationMarkerItem(QgsPoint(12, 13))
        item.setSymbol(
            QgsMarkerSymbol.createSimple({
                'color': '100,200,200',
                'size': '6',
                'outline_color': 'black'
            }))
        item.setZIndex(3)
        i3_id = layer.addItem(item)

        layer.setCrs(QgsCoordinateReferenceSystem('EPSG:4326'))

        settings = QgsMapSettings()
        settings.setDestinationCrs(QgsCoordinateReferenceSystem('EPSG:3857'))
        settings.setExtent(QgsRectangle(1250958, 1386945, 1420709, 1532518))
        settings.setOutputSize(QSize(200, 200))
        settings.setLayers([layer])

        job = QgsMapRendererSequentialJob(settings)
        job.start()
        job.waitForFinished()

        # check rendered item results
        item_results = job.takeRenderedItemResults()
        item_details = item_results.renderedItems()
        self.assertEqual(len(item_details), 3)
        self.assertEqual([i.layerId() for i in item_details], [layer.id()] * 3)
        self.assertCountEqual([i.itemId() for i in item_details],
                              [i1_id, i2_id, i3_id])
        # bounds should be in map crs
        self.assertEqual(
            [
                QgsGeometry.fromRect(i.boundingBox()).asWkt(0)
                for i in item_details if i.itemId() == i1_id
            ][0],
            'Polygon ((1280174 1459732, 1335834 1459732, 1335834 1516914, 1280174 1516914, 1280174 1459732))'
        )
        self.assertEqual(
            [
                QgsGeometry.fromRect(i.boundingBox()).asWkt(0)
                for i in item_details if i.itemId() == i2_id
            ][0],
            'Polygon ((1224514 1459732, 1335834 1459732, 1335834 1689200, 1224514 1689200, 1224514 1459732))'
        )
        expected = 'Polygon ((1325786 1449684, 1345882 1449684, 1345882 1469780, 1325786 1469780, 1325786 1449684))'
        result = [
            QgsGeometry.fromRect(i.boundingBox()).asWkt(0)
            for i in item_details if i.itemId() == i3_id
        ][0]
        self.assertTrue(
            compareWkt(result, expected, tol=1000),
            "mismatch Expected:\n{}\nGot:\n{}\n".format(expected, result))
Esempio n. 13
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    def test_render_via_job(self):
        """
        Test rendering an annotation layer via a map render job
        """
        layer = QgsAnnotationLayer(
            'test',
            QgsAnnotationLayer.LayerOptions(
                QgsProject.instance().transformContext()))
        self.assertTrue(layer.isValid())

        item = QgsAnnotationPolygonItem(
            QgsPolygon(
                QgsLineString([
                    QgsPoint(11.5, 13),
                    QgsPoint(12, 13),
                    QgsPoint(12, 13.5),
                    QgsPoint(11.5, 13)
                ])))
        item.setSymbol(
            QgsFillSymbol.createSimple({
                'color': '200,100,100',
                'outline_color': 'black',
                'outline_width': '2'
            }))
        item.setZIndex(1)
        i1_id = layer.addItem(item)

        item = QgsAnnotationLineItem(
            QgsLineString(
                [QgsPoint(11, 13),
                 QgsPoint(12, 13),
                 QgsPoint(12, 15)]))
        item.setSymbol(
            QgsLineSymbol.createSimple({
                'color': '#ffff00',
                'line_width': '3'
            }))
        item.setZIndex(2)
        i2_id = layer.addItem(item)

        item = QgsAnnotationMarkerItem(QgsPoint(12, 13))
        item.setSymbol(
            QgsMarkerSymbol.createSimple({
                'color': '100,200,200',
                'size': '6',
                'outline_color': 'black'
            }))
        item.setZIndex(3)
        i3_id = layer.addItem(item)

        layer.setCrs(QgsCoordinateReferenceSystem('EPSG:4326'))

        settings = QgsMapSettings()
        settings.setDestinationCrs(QgsCoordinateReferenceSystem('EPSG:4326'))
        settings.setExtent(QgsRectangle(10, 10, 18, 18))
        settings.setOutputSize(QSize(200, 200))
        settings.setLayers([layer])

        job = QgsMapRendererParallelJob(settings)
        job.start()
        job.waitForFinished()

        # check rendered item results
        item_results = job.takeRenderedItemResults()
        item_details = item_results.renderedItems()
        self.assertEqual(len(item_details), 3)
        self.assertEqual([i.layerId() for i in item_details], [layer.id()] * 3)
        self.assertCountEqual([i.itemId() for i in item_details],
                              [i1_id, i2_id, i3_id])
        self.assertCountEqual([
            i.itemId() for i in item_results.renderedAnnotationItemsInBounds(
                QgsRectangle(0, 0, 1, 1))
        ], [])
        self.assertCountEqual([
            i.itemId() for i in item_results.renderedAnnotationItemsInBounds(
                QgsRectangle(10, 10, 11, 18))
        ], [i2_id])
        self.assertCountEqual([
            i.itemId() for i in item_results.renderedAnnotationItemsInBounds(
                QgsRectangle(10, 10, 12, 18))
        ], [i1_id, i2_id, i3_id])

        # bounds should be in map crs
        self.assertEqual(
            [i.boundingBox() for i in item_details if i.itemId() == i1_id][0],
            QgsRectangle(11.5, 13, 12, 13.5))
        self.assertEqual(
            [i.boundingBox() for i in item_details if i.itemId() == i2_id][0],
            QgsRectangle(11, 13, 12, 15))
        self.assertEqual([
            i.boundingBox().toString(1) for i in item_details
            if i.itemId() == i3_id
        ][0], '11.5,12.5 : 12.5,13.5')
Esempio n. 14
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    def testRenderLayerWithReferenceScale(self):
        layer = QgsAnnotationLayer(
            'test',
            QgsAnnotationLayer.LayerOptions(
                QgsProject.instance().transformContext()))
        layer.setCrs(QgsCoordinateReferenceSystem('EPSG:4326'))
        self.assertTrue(layer.isValid())

        item = QgsAnnotationPolygonItem(
            QgsPolygon(
                QgsLineString([
                    QgsPoint(12, 13),
                    QgsPoint(14, 13),
                    QgsPoint(14, 15),
                    QgsPoint(12, 13)
                ])))
        item.setSymbol(
            QgsFillSymbol.createSimple({
                'color': '200,100,100',
                'outline_color': 'black',
                'outline_width': '2'
            }))
        item.setZIndex(3)
        i1_id = layer.addItem(item)

        item = QgsAnnotationLineItem(
            QgsLineString(
                [QgsPoint(11, 13),
                 QgsPoint(12, 13),
                 QgsPoint(12, 15)]))
        item.setSymbol(
            QgsLineSymbol.createSimple({
                'color': '#ffff00',
                'line_width': '3'
            }))
        item.setZIndex(2)
        i2_id = layer.addItem(item)

        item = QgsAnnotationMarkerItem(QgsPoint(12, 13))
        item.setSymbol(
            QgsMarkerSymbol.createSimple({
                'color': '100,200,200',
                'size': '6',
                'outline_color': 'black'
            }))
        item.setZIndex(1)
        i3_id = layer.addItem(item)

        settings = QgsMapSettings()
        settings.setDestinationCrs(QgsCoordinateReferenceSystem('EPSG:4326'))
        settings.setExtent(QgsRectangle(10, 10, 18, 18))
        settings.setOutputSize(QSize(300, 300))

        settings.setFlag(QgsMapSettings.Antialiasing, False)

        rc = QgsRenderContext.fromMapSettings(settings)

        layer.item(i1_id).setUseSymbologyReferenceScale(True)
        layer.item(i1_id).setSymbologyReferenceScale(rc.rendererScale() * 2)
        # note item 3 has use symbology reference scale set to false, so should be ignored
        layer.item(i2_id).setUseSymbologyReferenceScale(False)
        layer.item(i2_id).setSymbologyReferenceScale(rc.rendererScale() * 2)
        layer.item(i3_id).setUseSymbologyReferenceScale(True)
        layer.item(i3_id).setSymbologyReferenceScale(rc.rendererScale() * 2)

        image = QImage(200, 200, QImage.Format_ARGB32)
        image.setDotsPerMeterX(int(96 / 25.4 * 1000))
        image.setDotsPerMeterY(int(96 / 25.4 * 1000))
        image.fill(QColor(255, 255, 255))
        painter = QPainter(image)
        rc.setPainter(painter)

        try:
            renderer = layer.createMapRenderer(rc)
            renderer.render()
        finally:
            painter.end()

        self.assertTrue(
            self.imageCheck('layer_render_reference_scale',
                            'layer_render_reference_scale', image))

        # also check details of rendered items
        item_details = renderer.takeRenderedItemDetails()
        self.assertEqual([i.layerId() for i in item_details], [layer.id()] * 3)
        self.assertCountEqual([i.itemId() for i in item_details],
                              [i1_id, i2_id, i3_id])
        self.assertEqual(
            [i.boundingBox() for i in item_details if i.itemId() == i1_id][0],
            QgsRectangle(12, 13, 14, 15))
        self.assertEqual(
            [i.boundingBox() for i in item_details if i.itemId() == i2_id][0],
            QgsRectangle(11, 13, 12, 15))
        self.assertEqual([
            i.boundingBox().toString(1) for i in item_details
            if i.itemId() == i3_id
        ][0], '11.4,12.4 : 12.6,13.6')
Esempio n. 15
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    def generate(self, writer, parameters, context, feedback):
        feedback.setProgress(1)

        extent = self.parameterAsExtent(parameters, self.EXTENT, context)
        self.min_zoom = self.parameterAsInt(parameters, self.ZOOM_MIN, context)
        self.max_zoom = self.parameterAsInt(parameters, self.ZOOM_MAX, context)
        dpi = self.parameterAsInt(parameters, self.DPI, context)
        self.tile_format = self.formats[self.parameterAsEnum(parameters, self.TILE_FORMAT, context)]
        tile_width = 256
        tile_height = 256

        wgs_crs = QgsCoordinateReferenceSystem('EPSG:4326')
        dest_crs = QgsCoordinateReferenceSystem('EPSG:3857')

        project = context.project()
        src_to_wgs = QgsCoordinateTransform(project.crs(), wgs_crs, context.transformContext())
        wgs_to_dest = QgsCoordinateTransform(wgs_crs, dest_crs, context.transformContext())

        settings = QgsMapSettings()
        settings.setOutputImageFormat(QImage.Format_ARGB32_Premultiplied)
        settings.setDestinationCrs(dest_crs)
        settings.setLayers(self.layers)
        settings.setOutputDpi(dpi)
        if self.tile_format == 'PNG':
            settings.setBackgroundColor(QColor(Qt.transparent))

        self.wgs_extent = src_to_wgs.transformBoundingBox(extent)
        self.wgs_extent = [self.wgs_extent.xMinimum(), self.wgs_extent.yMinimum(), self.wgs_extent.xMaximum(),
                           self.wgs_extent.yMaximum()]

        metatiles_by_zoom = {}
        metatiles_count = 0
        for zoom in range(self.min_zoom, self.max_zoom + 1):
            metatiles = get_metatiles(self.wgs_extent, zoom, 4)
            metatiles_by_zoom[zoom] = metatiles
            metatiles_count += len(metatiles)

        lab_buffer_px = 100
        progress = 0

        tile_params = {
            'format': self.tile_format,
            'quality': 75,
            'width': tile_width,
            'height': tile_height,
            'min_zoom': self.min_zoom,
            'max_zoom': self.max_zoom,
            'extent': self.wgs_extent,
        }
        writer.set_parameters(tile_params)

        for zoom in range(self.min_zoom, self.max_zoom + 1):
            feedback.pushConsoleInfo('Generating tiles for zoom level: %s' % zoom)

            for i, metatile in enumerate(metatiles_by_zoom[zoom]):
                if feedback.isCanceled():
                    break

                size = QSize(tile_width * metatile.rows(), tile_height * metatile.columns())
                extent = QgsRectangle(*metatile.extent())
                settings.setExtent(wgs_to_dest.transformBoundingBox(extent))
                settings.setOutputSize(size)

                if hasattr(settings, 'setLabelBoundaryGeometry'):
                    label_area = QgsRectangle(settings.extent())
                    lab_buffer = label_area.width() * (lab_buffer_px / size.width())
                    label_area.set(
                        label_area.xMinimum() + lab_buffer,
                        label_area.yMinimum() + lab_buffer,
                        label_area.xMaximum() - lab_buffer,
                        label_area.yMaximum() - lab_buffer
                    )
                    settings.setLabelBoundaryGeometry(QgsGeometry.fromRect(label_area))

                image = QImage(size, QImage.Format_ARGB32_Premultiplied)
                image.fill(Qt.transparent)
                dpm = settings.outputDpi() / 25.4 * 1000
                image.setDotsPerMeterX(dpm)
                image.setDotsPerMeterY(dpm)
                painter = QPainter(image)
                job = QgsMapRendererCustomPainterJob(settings, painter)
                job.renderSynchronously()
                painter.end()

                # For analysing metatiles (labels, etc.)
                # metatile_dir = os.path.join(output_dir, str(zoom))
                # os.makedirs(metatile_dir, exist_ok=True)
                # image.save(os.path.join(metatile_dir, 'metatile_%s.png' % i))

                for r, c, tile in metatile.tiles:
                    tile_img = image.copy(tile_width * r, tile_height * c, tile_width, tile_height)
                    writer.write_tile(tile, tile_img)

                progress += 1
                feedback.setProgress(100 * (progress / metatiles_count))

        writer.close()
Esempio n. 16
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    def test_resetSnappingIndex(self):
        self.pointsLayer.setDependencies([])
        self.linesLayer.setDependencies([])
        self.pointsLayer2.setDependencies([])

        ms = QgsMapSettings()
        ms.setOutputSize(QSize(100, 100))
        ms.setExtent(QgsRectangle(0, 0, 1, 1))
        self.assertTrue(ms.hasValidSettings())

        u = QgsSnappingUtils()
        u.setMapSettings(ms)
        cfg = u.config()
        cfg.setEnabled(True)
        cfg.setMode(QgsSnappingConfig.AdvancedConfiguration)
        cfg.setIndividualLayerSettings(
            self.pointsLayer,
            QgsSnappingConfig.IndividualLayerSettings(True,
                                                      QgsSnappingConfig.Vertex,
                                                      20, QgsTolerance.Pixels))
        u.setConfig(cfg)

        m = u.snapToMap(QPoint(95, 100))
        self.assertTrue(m.isValid())
        self.assertTrue(m.hasVertex())
        self.assertEqual(m.point(), QgsPointXY(1, 0))

        f = QgsFeature(self.linesLayer.fields())
        f.setId(1)
        geom = QgsGeometry.fromWkt("LINESTRING(0 0,1 1)")
        f.setGeometry(geom)
        self.linesLayer.startEditing()
        self.linesLayer.addFeatures([f])
        self.linesLayer.commitChanges()

        l1 = len([f for f in self.pointsLayer.getFeatures()])
        self.assertEqual(l1, 4)
        m = u.snapToMap(QPoint(95, 0))
        # snapping not updated
        self.pointsLayer.setDependencies([])
        self.assertEqual(m.isValid(), False)

        # set layer dependencies
        self.pointsLayer.setDependencies(
            [QgsMapLayerDependency(self.linesLayer.id())])
        # add another line
        f = QgsFeature(self.linesLayer.fields())
        f.setId(2)
        geom = QgsGeometry.fromWkt("LINESTRING(0 0,0.5 0.5)")
        f.setGeometry(geom)
        self.linesLayer.startEditing()
        self.linesLayer.addFeatures([f])
        self.linesLayer.commitChanges()
        # check the snapped point is OK
        m = u.snapToMap(QPoint(45, 50))
        self.assertTrue(m.isValid())
        self.assertTrue(m.hasVertex())
        self.assertEqual(m.point(), QgsPointXY(0.5, 0.5))
        self.pointsLayer.setDependencies([])

        # test chained layer dependencies A -> B -> C
        cfg.setIndividualLayerSettings(
            self.pointsLayer2,
            QgsSnappingConfig.IndividualLayerSettings(True,
                                                      QgsSnappingConfig.Vertex,
                                                      20, QgsTolerance.Pixels))
        u.setConfig(cfg)
        self.pointsLayer.setDependencies(
            [QgsMapLayerDependency(self.linesLayer.id())])
        self.pointsLayer2.setDependencies(
            [QgsMapLayerDependency(self.pointsLayer.id())])
        # add another line
        f = QgsFeature(self.linesLayer.fields())
        f.setId(3)
        geom = QgsGeometry.fromWkt("LINESTRING(0 0.2,0.5 0.8)")
        f.setGeometry(geom)
        self.linesLayer.startEditing()
        self.linesLayer.addFeatures([f])
        self.linesLayer.commitChanges()
        # check the second snapped point is OK
        m = u.snapToMap(QPoint(75, 100 - 80))
        self.assertTrue(m.isValid())
        self.assertTrue(m.hasVertex())
        self.assertEqual(m.point(), QgsPointXY(0.7, 0.8))
        self.pointsLayer.setDependencies([])
        self.pointsLayer2.setDependencies([])
Esempio n. 17
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    def processAlgorithm(self, parameters, context, feedback):
        feedback.setProgress(1)

        extent = self.parameterAsExtent(parameters, self.EXTENT, context)
        min_zoom = self.parameterAsInt(parameters, self.ZOOM_MIN, context)
        max_zoom = self.parameterAsInt(parameters, self.ZOOM_MAX, context)
        dpi = self.parameterAsInt(parameters, self.DPI, context)
        tile_format = self.formats[self.parameterAsEnum(parameters, self.TILE_FORMAT, context)]
        output_format = self.outputs[self.parameterAsEnum(parameters, self.OUTPUT_FORMAT, context)]
        if output_format == 'Directory':
            output_dir = self.parameterAsString(parameters, self.OUTPUT_DIRECTORY, context)
            if not output_dir:
                raise QgsProcessingException(self.tr('You need to specify output directory.'))
        else:  # MBTiles
            output_file = self.parameterAsString(parameters, self.OUTPUT_FILE, context)
            if not output_file:
                raise QgsProcessingException(self.tr('You need to specify output filename.'))
        tile_width = 256
        tile_height = 256

        wgs_crs = QgsCoordinateReferenceSystem('EPSG:4326')
        dest_crs = QgsCoordinateReferenceSystem('EPSG:3857')

        project = context.project()
        src_to_wgs = QgsCoordinateTransform(project.crs(), wgs_crs, context.transformContext())
        wgs_to_dest = QgsCoordinateTransform(wgs_crs, dest_crs, context.transformContext())

        settings = QgsMapSettings()
        settings.setOutputImageFormat(QImage.Format_ARGB32_Premultiplied)
        settings.setDestinationCrs(dest_crs)
        settings.setLayers(self.layers)
        settings.setOutputDpi(dpi)

        wgs_extent = src_to_wgs.transformBoundingBox(extent)
        wgs_extent = [wgs_extent.xMinimum(), wgs_extent.yMinimum(), wgs_extent.xMaximum(), wgs_extent.yMaximum()]

        metatiles_by_zoom = {}
        metatiles_count = 0
        for zoom in range(min_zoom, max_zoom + 1):
            metatiles = get_metatiles(wgs_extent, zoom, 4)
            metatiles_by_zoom[zoom] = metatiles
            metatiles_count += len(metatiles)

        lab_buffer_px = 100
        progress = 0

        tile_params = {
            'format': tile_format,
            'quality': 75,
            'width': tile_width,
            'height': tile_height
        }
        if output_format == 'Directory':
            writer = DirectoryWriter(output_dir, tile_params)
        else:
            writer = MBTilesWriter(output_file, tile_params, wgs_extent, min_zoom, max_zoom)

        for zoom in range(min_zoom, max_zoom + 1):
            feedback.pushConsoleInfo('Generating tiles for zoom level: %s' % zoom)

            for i, metatile in enumerate(metatiles_by_zoom[zoom]):
                size = QSize(tile_width * metatile.rows(), tile_height * metatile.columns())
                extent = QgsRectangle(*metatile.extent())
                settings.setExtent(wgs_to_dest.transformBoundingBox(extent))
                settings.setOutputSize(size)

                label_area = QgsRectangle(settings.extent())
                lab_buffer = label_area.width() * (lab_buffer_px / size.width())
                label_area.set(
                    label_area.xMinimum() + lab_buffer,
                    label_area.yMinimum() + lab_buffer,
                    label_area.xMaximum() - lab_buffer,
                    label_area.yMaximum() - lab_buffer
                )
                settings.setLabelBoundaryGeometry(QgsGeometry.fromRect(label_area))

                image = QImage(size, QImage.Format_ARGB32_Premultiplied)
                image.fill(Qt.transparent)
                dpm = settings.outputDpi() / 25.4 * 1000
                image.setDotsPerMeterX(dpm)
                image.setDotsPerMeterY(dpm)
                painter = QPainter(image)
                job = QgsMapRendererCustomPainterJob(settings, painter)
                job.renderSynchronously()
                painter.end()

                # For analysing metatiles (labels, etc.)
                # metatile_dir = os.path.join(output_dir, str(zoom))
                # os.makedirs(metatile_dir, exist_ok=True)
                # image.save(os.path.join(metatile_dir, 'metatile_%s.png' % i))

                for r, c, tile in metatile.tiles:
                    tile_img = image.copy(tile_width * r, tile_height * c, tile_width, tile_height)
                    writer.writeTile(tile, tile_img)

                progress += 1
                feedback.setProgress(100 * (progress / metatiles_count))

        writer.close()

        results = {}
        if output_format == 'Directory':
            results['OUTPUT_DIRECTORY'] = output_dir
        else:  # MBTiles
            results['OUTPUT_FILE'] = output_file
        return results
Esempio n. 18
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    def setUp(self):
        self.iface = get_iface()

        self.iface.mapCanvas().viewport().resize(400, 400)
        # For some reason the resizeEvent is not delivered, fake it
        self.iface.mapCanvas().resizeEvent(QResizeEvent(QSize(400, 400), self.iface.mapCanvas().size()))