def testPartNum(self):
# test geometry_part_num variable
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
sym_layer = QgsGeometryGeneratorSymbolLayer.create({'geometryModifier': 'segments_to_lines($geometry)'})
sym_layer.setSymbolType(QgsSymbol.Line)
s.appendSymbolLayer(sym_layer)
marker_line = QgsMarkerLineSymbolLayer(False)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
f = QgsFontUtils.getStandardTestFont('Bold', 24)
marker = QgsFontMarkerSymbolLayer(f.family(), 'x', 24, QColor(255, 255, 0))
marker.setDataDefinedProperty(QgsSymbolLayer.PropertyCharacter, QgsProperty.fromExpression('@geometry_part_num'))
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
marker_line.setAverageAngleLength(0)
line_symbol = QgsLineSymbol()
line_symbol.changeSymbolLayer(0, marker_line)
sym_layer.setSubSymbol(line_symbol)
# rendering test
g = QgsGeometry.fromWkt('LineString(0 0, 10 0, 10 10, 0 10)')
rendered_image = self.renderGeometry(s, g, buffer=4)
assert self.imageCheck('part_num_variable', 'part_num_variable', rendered_image)
marker.setDataDefinedProperty(QgsSymbolLayer.PropertyCharacter,
QgsProperty.fromExpression('@geometry_part_count'))
# rendering test
g = QgsGeometry.fromWkt('LineString(0 0, 10 0, 10 10, 0 10)')
rendered_image = self.renderGeometry(s, g, buffer=4)
assert self.imageCheck('part_count_variable', 'part_count_variable', rendered_image)
def testPartNum(self):
# test geometry_part_num variable
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
sym_layer = QgsGeometryGeneratorSymbolLayer.create({'geometryModifier': 'segments_to_lines($geometry)'})
sym_layer.setSymbolType(QgsSymbol.Line)
s.appendSymbolLayer(sym_layer)
marker_line = QgsMarkerLineSymbolLayer(False)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
f = QgsFontUtils.getStandardTestFont('Bold', 24)
marker = QgsFontMarkerSymbolLayer(f.family(), 'x', 24, QColor(255, 255, 0))
marker.setDataDefinedProperty(QgsSymbolLayer.PropertyCharacter, QgsProperty.fromExpression('@geometry_part_num'))
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
line_symbol = QgsLineSymbol()
line_symbol.changeSymbolLayer(0, marker_line)
sym_layer.setSubSymbol(line_symbol)
# rendering test
g = QgsGeometry.fromWkt('LineString(0 0, 10 0, 10 10, 0 10)')
rendered_image = self.renderGeometry(s, g, buffer=4)
assert self.imageCheck('part_num_variable', 'part_num_variable', rendered_image)
marker.setDataDefinedProperty(QgsSymbolLayer.PropertyCharacter,
QgsProperty.fromExpression('@geometry_part_count'))
# rendering test
g = QgsGeometry.fromWkt('LineString(0 0, 10 0, 10 10, 0 10)')
rendered_image = self.renderGeometry(s, g, buffer=4)
assert self.imageCheck('part_count_variable', 'part_count_variable', rendered_image)
def testQgsMarkerLineSymbolLayer(self):
"""
Create a new style from a .sld file and match test
"""
mTestName = 'QgsMarkerLineSymbolLayer'
mFilePath = QDir.toNativeSeparators('%s/symbol_layer/%s.sld' %
(unitTestDataPath(), mTestName))
mDoc = QDomDocument(mTestName)
mFile = QFile(mFilePath)
mFile.open(QIODevice.ReadOnly)
mDoc.setContent(mFile, True)
mFile.close()
mSymbolLayer = QgsMarkerLineSymbolLayer.createFromSld(
mDoc.elementsByTagName('LineSymbolizer').item(0).toElement())
mExpectedValue = type(QgsMarkerLineSymbolLayer())
mValue = type(mSymbolLayer)
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
mExpectedValue = QgsMarkerLineSymbolLayer.CentralPoint
mValue = mSymbolLayer.placement()
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
mExpectedValue = QgsSimpleMarkerSymbolLayerBase.Circle
mValue = mSymbolLayer.subSymbol().symbolLayer(0).shape()
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
mExpectedValue = '#000000'
mValue = mSymbolLayer.subSymbol().symbolLayer(0).strokeColor().name()
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
mExpectedValue = '#ff0000'
mValue = mSymbolLayer.subSymbol().symbolLayer(0).color().name()
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
# test colors, need to make sure colors are passed/retrieved from subsymbol
mSymbolLayer.setColor(QColor(150, 50, 100))
self.assertEqual(mSymbolLayer.color(), QColor(150, 50, 100))
self.assertEqual(mSymbolLayer.subSymbol().color(),
QColor(150, 50, 100))
mSymbolLayer.subSymbol().setColor(QColor(250, 150, 200))
self.assertEqual(mSymbolLayer.subSymbol().color(),
QColor(250, 150, 200))
self.assertEqual(mSymbolLayer.color(), QColor(250, 150, 200))
def poly_marker(self, placement, qcolor, width):
"..."
marker = QgsMarkerLineSymbolLayer()
marker.setColor(qcolor)
marker.setPlacement(placement)
marker.setWidth(width)
self.layer.renderer().symbol().appendSymbolLayer(marker)
def testMarkLineUnitPixels(self):
symbol = QgsMarkerLineSymbolLayer()
symbol.setSubSymbol(
QgsMarkerSymbol.createSimple({'color': '#ffffff', 'size': '3'}))
symbol.setInterval(5)
symbol.setOffset(5)
symbol.setOutputUnit(QgsUnitTypes.RenderPixels)
dom, root = self.symbolToSld(symbol)
# print ("Mark line px: \n" + dom.toString())
# size of the mark
self.assertStaticSize(root, '3')
# gap and offset
self.assertStaticGap(root, '5')
self.assertStaticPerpendicularOffset(root, '5')
def testRingFilter(self):
# test filtering rings during rendering
s = QgsFillSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
self.assertEqual(
s.symbolLayer(0).ringFilter(), QgsLineSymbolLayer.AllRings)
s.symbolLayer(0).setRingFilter(QgsLineSymbolLayer.ExteriorRingOnly)
self.assertEqual(
s.symbolLayer(0).ringFilter(), QgsLineSymbolLayer.ExteriorRingOnly)
s2 = s.clone()
self.assertEqual(
s2.symbolLayer(0).ringFilter(),
QgsLineSymbolLayer.ExteriorRingOnly)
doc = QDomDocument()
context = QgsReadWriteContext()
element = QgsSymbolLayerUtils.saveSymbol('test', s, doc, context)
s2 = QgsSymbolLayerUtils.loadSymbol(element, context)
self.assertEqual(
s2.symbolLayer(0).ringFilter(),
QgsLineSymbolLayer.ExteriorRingOnly)
# rendering test
s3 = QgsFillSymbol()
s3.deleteSymbolLayer(0)
s3.appendSymbolLayer(QgsMarkerLineSymbolLayer())
s3.symbolLayer(0).setRingFilter(QgsLineSymbolLayer.ExteriorRingOnly)
s3.symbolLayer(0).setAverageAngleLength(0)
g = QgsGeometry.fromWkt(
'Polygon((0 0, 10 0, 10 10, 0 10, 0 0),(1 1, 1 2, 2 2, 2 1, 1 1),(8 8, 9 8, 9 9, 8 9, 8 8))'
)
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('markerline_exterioronly',
'markerline_exterioronly', rendered_image)
s3.symbolLayer(0).setRingFilter(QgsLineSymbolLayer.InteriorRingsOnly)
g = QgsGeometry.fromWkt(
'Polygon((0 0, 10 0, 10 10, 0 10, 0 0),(1 1, 1 2, 2 2, 2 1, 1 1),(8 8, 9 8, 9 9, 8 9, 8 8))'
)
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('markerline_interioronly',
'markerline_interioronly', rendered_image)
def testMarkLineUnitPixels(self):
symbol = QgsMarkerLineSymbolLayer()
symbol.setSubSymbol(QgsMarkerSymbol.createSimple({"color": "#ffffff", "size": "3"}))
symbol.setInterval(5)
symbol.setOffset(5)
symbol.setOutputUnit(QgsUnitTypes.RenderPixels)
dom, root = self.symbolToSld(symbol)
# print ("Mark line px: \n" + dom.toString())
# size of the mark
self.assertStaticSize(root, "3")
# gap and offset
self.assertStaticGap(root, "5")
self.assertStaticPerpendicularOffset(root, "5")
def testForceRHR(self):
# test forcing right hand rule during rendering
s = QgsFillSymbol()
s.deleteSymbolLayer(0)
s.appendSymbolLayer(
QgsSimpleFillSymbolLayer(color=QColor(255, 0, 0), strokeColor=QColor(0, 255, 0)))
self.assertFalse(s.forceRHR())
s.setForceRHR(True)
self.assertTrue(s.forceRHR())
s.setForceRHR(False)
self.assertFalse(s.forceRHR())
s.setForceRHR(True)
doc = QDomDocument()
context = QgsReadWriteContext()
element = QgsSymbolLayerUtils.saveSymbol('test', s, doc, context)
s2 = QgsSymbolLayerUtils.loadSymbol(element, context)
self.assertTrue(s2.forceRHR())
# rendering test
s3 = QgsFillSymbol()
s3.deleteSymbolLayer(0)
s3.appendSymbolLayer(
QgsSimpleFillSymbolLayer(color=QColor(255, 200, 200), strokeColor=QColor(0, 255, 0), strokeWidth=2))
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s3.appendSymbolLayer(marker_line)
g = QgsGeometry.fromWkt('Polygon((0 0, 10 0, 10 10, 0 10, 0 0),(1 1, 1 2, 2 2, 2 1, 1 1),(8 8, 9 8, 9 9, 8 9, 8 8))')
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('force_rhr_off', 'polygon_forcerhr_off', rendered_image)
s3.setForceRHR(True)
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('force_rhr_on', 'polygon_forcerhr_on', rendered_image)
def make_svg_link_sym_renderer(self, icon_name, svg_size=7, line_width=0.2):
symbol = QgsLineSymbol().createSimple({})
symbol.deleteSymbolLayer(0)
# Line
line_sym_lay = QgsSimpleLineSymbolLayer()
line_sym_lay.setWidth(line_width)
symbol.appendSymbolLayer(line_sym_lay)
# Symbol
self.marker_sym = QgsMarkerSymbol.createSimple({})
self.marker_sym.deleteSymbolLayer(0)
# marker_sym_lay = QgsSimpleMarkerSymbolLayerV2()
current_dir = os.path.dirname(__file__)
svg_props = dict()
svg_props['name'] = os.path.join(current_dir, icon_name)
svg_props['size'] = str(svg_size)
marker_sym_lay = QgsSvgMarkerSymbolLayer.create(svg_props)
self.marker_sym.appendSymbolLayer(marker_sym_lay)
marker_line_sym_lay = QgsMarkerLineSymbolLayer()
marker_line_sym_lay.setSubSymbol(self.marker_sym) # Causes crash !!!
marker_line_sym_lay.setPlacement(QgsMarkerLineSymbolLayer.CentralPoint)
symbol.appendSymbolLayer(marker_line_sym_lay)
renderer = QgsSingleSymbolRenderer(symbol)
return renderer
def testMarkerAverageAngleRing(self):
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsTemplatedLineSymbolLayerBase.Interval)
marker_line.setInterval(6)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
marker_line.setAverageAngleLength(60)
line_symbol = QgsLineSymbol()
line_symbol.changeSymbolLayer(0, marker_line)
s.appendSymbolLayer(marker_line.clone())
g = QgsGeometry.fromWkt('LineString(0 0, 0 10, 10 10, 10 0, 0 0)')
rendered_image = self.renderGeometry(s, g)
assert self.imageCheck('markerline_ring_average_angle', 'markerline_ring_average_angle', rendered_image)
def testNoPoint(self):
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsTemplatedLineSymbolLayerBase.Interval)
marker_line.setOffsetAlongLine(1000)
marker_line.setIntervalUnit(QgsUnitTypes.RenderMapUnits)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Circle, 4)
marker.setColor(QColor(255, 0, 0, 100))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
line_symbol = QgsLineSymbol()
line_symbol.changeSymbolLayer(0, marker_line)
s.appendSymbolLayer(marker_line.clone())
g = QgsGeometry.fromWkt('LineString(0 0, 0 10, 10 10)')
rendered_image = self.renderGeometry(s, g)
assert self.imageCheck('markerline_none', 'markerline_none', rendered_image)
def testRingNumberVariable(self):
# test test geometry_ring_num variable
s3 = QgsFillSymbol()
s3.deleteSymbolLayer(0)
s3.appendSymbolLayer(
QgsMarkerLineSymbolLayer())
s3.symbolLayer(0).subSymbol()[0].setDataDefinedProperty(QgsSymbolLayer.PropertyFillColor,
QgsProperty.fromExpression('case when @geometry_ring_num=0 then \'green\' when @geometry_ring_num=1 then \'blue\' when @geometry_ring_num=2 then \'red\' end'))
s3.symbolLayer(0).setAverageAngleLength(0)
g = QgsGeometry.fromWkt('Polygon((0 0, 10 0, 10 10, 0 10, 0 0),(1 1, 1 2, 2 2, 2 1, 1 1),(8 8, 9 8, 9 9, 8 9, 8 8))')
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('markerline_ring_num', 'markerline_ring_num', rendered_image)
def testMarkLineUnitDefault(self):
symbol = QgsMarkerLineSymbolLayer()
symbol.setSubSymbol(
QgsMarkerSymbol.createSimple({'color': '#ffffff', 'size': '3'}))
symbol.setInterval(5)
symbol.setOffset(5)
dom, root = self.symbolToSld(symbol)
# print ("Mark line mm: \n" + dom.toString())
# size of the mark
self.assertStaticSize(root, '11')
# gap and offset
self.assertStaticGap(root, '18')
self.assertStaticPerpendicularOffset(root, '18')
def testMarkerAverageAngleCenter(self):
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsTemplatedLineSymbolLayerBase.CentralPoint)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
marker_line.setAverageAngleLength(60)
line_symbol = QgsLineSymbol()
line_symbol.changeSymbolLayer(0, marker_line)
s.appendSymbolLayer(marker_line.clone())
g = QgsGeometry.fromWkt('LineString(0 0, 10 10, 10 0)')
rendered_image = self.renderGeometry(s, g)
assert self.imageCheck('markerline_center_average_angle', 'markerline_center_average_angle', rendered_image)
def testQgsMarkerLineSymbolLayer(self):
"""
Create a new style from a .sld file and match test
"""
mTestName = "QgsMarkerLineSymbolLayer"
mFilePath = QDir.toNativeSeparators("%s/symbol_layer/%s.sld" % (unitTestDataPath(), mTestName))
mDoc = QDomDocument(mTestName)
mFile = QFile(mFilePath)
mFile.open(QIODevice.ReadOnly)
mDoc.setContent(mFile, True)
mFile.close()
mSymbolLayer = QgsMarkerLineSymbolLayer.createFromSld(
mDoc.elementsByTagName("LineSymbolizer").item(0).toElement()
)
mExpectedValue = type(QgsMarkerLineSymbolLayer())
mValue = type(mSymbolLayer)
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
mExpectedValue = QgsMarkerLineSymbolLayer.CentralPoint
mValue = mSymbolLayer.placement()
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
mExpectedValue = QgsSimpleMarkerSymbolLayerBase.Circle
mValue = mSymbolLayer.subSymbol().symbolLayer(0).shape()
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
mExpectedValue = "#000000"
mValue = mSymbolLayer.subSymbol().symbolLayer(0).borderColor().name()
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
mExpectedValue = "#ff0000"
mValue = mSymbolLayer.subSymbol().symbolLayer(0).color().name()
mMessage = 'Expected "%s" got "%s"' % (mExpectedValue, mValue)
assert mExpectedValue == mValue, mMessage
# test colors, need to make sure colors are passed/retrieved from subsymbol
mSymbolLayer.setColor(QColor(150, 50, 100))
self.assertEqual(mSymbolLayer.color(), QColor(150, 50, 100))
self.assertEqual(mSymbolLayer.subSymbol().color(), QColor(150, 50, 100))
mSymbolLayer.subSymbol().setColor(QColor(250, 150, 200))
self.assertEqual(mSymbolLayer.subSymbol().color(), QColor(250, 150, 200))
self.assertEqual(mSymbolLayer.color(), QColor(250, 150, 200))
def testMarkLineUnitDefault(self):
symbol = QgsMarkerLineSymbolLayer()
symbol.setSubSymbol(QgsMarkerSymbol.createSimple({"color": "#ffffff", "size": "3"}))
symbol.setInterval(5)
symbol.setOffset(5)
dom, root = self.symbolToSld(symbol)
# print ("Mark line mm: \n" + dom.toString())
# size of the mark
self.assertStaticSize(root, "11")
# gap and offset
self.assertStaticGap(root, "18")
self.assertStaticPerpendicularOffset(root, "18")
def testInnerVerticesPolygon(self):
fill_symbol = QgsFillSymbol()
fill_symbol.deleteSymbolLayer(0)
fill_symbol.appendSymbolLayer(
QgsMarkerLineSymbolLayer())
fill_symbol[0].setPlacements(Qgis.MarkerLinePlacements(Qgis.MarkerLinePlacement.InnerVertices))
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
fill_symbol[0].setSubSymbol(marker_symbol)
g = QgsGeometry.fromWkt('Polygon((0 0, 10 0, 10 10, 0 10, 0 0))')
rendered_image = self.renderGeometry(fill_symbol, g)
assert self.imageCheck('markerline_inner_vertices_polygon', 'markerline_inner_vertices_polygon', rendered_image)
def testMultiplePlacements(self):
line_symbol = QgsLineSymbol()
line_symbol.deleteSymbolLayer(0)
line_symbol.appendSymbolLayer(
QgsMarkerLineSymbolLayer())
line_symbol[0].setPlacements(Qgis.MarkerLinePlacements(Qgis.MarkerLinePlacement.FirstVertex | Qgis.MarkerLinePlacement.LastVertex))
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
line_symbol[0].setSubSymbol(marker_symbol)
g = QgsGeometry.fromWkt('LineString(0 0, 10 0, 10 10, 0 10)')
rendered_image = self.renderGeometry(line_symbol, g)
assert self.imageCheck('markerline_multiple_placement', 'markerline_multiple_placement', rendered_image)
def testDataDefinedOpacity(self):
line_shp = os.path.join(TEST_DATA_DIR, 'lines.shp')
line_layer = QgsVectorLayer(line_shp, 'Lines', 'ogr')
self.assertTrue(line_layer.isValid())
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsTemplatedLineSymbolLayerBase.CentralPoint)
simple_marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Circle, 10)
simple_marker.setColor(QColor(0, 255, 0))
simple_marker.setStrokeColor(QColor(255, 0, 0))
simple_marker.setStrokeWidth(1)
simple_marker.setDataDefinedProperty(
QgsSymbolLayer.PropertyFillColor,
QgsProperty.fromExpression("if(Name='Arterial', 'red', 'green')"))
simple_marker.setDataDefinedProperty(
QgsSymbolLayer.PropertyStrokeColor,
QgsProperty.fromExpression(
"if(Name='Arterial', 'magenta', 'blue')"))
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, simple_marker)
marker_symbol.setOpacity(0.5)
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
s.setDataDefinedProperty(
QgsSymbol.PropertyOpacity,
QgsProperty.fromExpression("if(\"Value\" = 1, 25, 50)"))
line_layer.setRenderer(QgsSingleSymbolRenderer(s))
ms = QgsMapSettings()
ms.setOutputSize(QSize(400, 400))
ms.setOutputDpi(96)
ms.setExtent(QgsRectangle(-118.5, 19.0, -81.4, 50.4))
ms.setLayers([line_layer])
# Test rendering
renderchecker = QgsMultiRenderChecker()
renderchecker.setMapSettings(ms)
renderchecker.setControlPathPrefix('symbol_markerline')
renderchecker.setControlName('expected_markerline_ddopacity')
res = renderchecker.runTest('expected_markerline_ddopacity')
self.report += renderchecker.report()
self.assertTrue(res)
def testPartNumPolygon(self):
# test geometry_part_num variable
s = QgsFillSymbol()
marker_line = QgsMarkerLineSymbolLayer(False)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
f = QgsFontUtils.getStandardTestFont('Bold', 24)
marker = QgsFontMarkerSymbolLayer(f.family(), 'x', 24, QColor(255, 255, 0))
marker.setDataDefinedProperty(QgsSymbolLayer.PropertyCharacter, QgsProperty.fromExpression('@geometry_part_num'))
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
marker_line.setAverageAngleLength(0)
s.changeSymbolLayer(0, marker_line)
# rendering test - a polygon with a smaller part first
g = QgsGeometry.fromWkt('MultiPolygon(((0 0, 2 0, 2 2, 0 0)),((10 0, 10 10, 0 10, 10 0)))')
rendered_image = self.renderGeometry(s, g, buffer=4)
assert self.imageCheck('poly_part_num_variable', 'poly_part_num_variable', rendered_image)
def __init__(self,
source: QgsFeatureSource,
layer_type: QgsWkbTypes.GeometryType,
selection: list,
vertex_number=Optional[int],
topological_geometries: Optional[Dict[int,
QgsGeometry]] = None):
if layer_type == QgsWkbTypes.LineGeometry:
symbol = QgsLineSymbol()
else:
symbol = QgsFillSymbol()
marker_line = QgsMarkerLineSymbolLayer()
marker_line.setRotateMarker(False)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.Vertex)
vertex_marker_symbol = SettingsRegistry.vertex_symbol()
# not so nice, but required to allow us to dynamically change this color mid-way through rendering
for layer in vertex_marker_symbol:
layer.setDataDefinedProperty(QgsSymbolLayer.PropertyFillColor,
QgsProperty.fromValue(None))
font_marker_symbol = QgsMarkerSymbol()
text_format = SettingsRegistry.vertex_format()
font_marker = TextRendererMarkerSymbolLayer(text_format, vertex_number)
font_marker.setSubSymbol(vertex_marker_symbol)
font_marker_symbol.changeSymbolLayer(0, font_marker)
marker_line.setSubSymbol(font_marker_symbol)
symbol.changeSymbolLayer(0, marker_line)
symbol.setClipFeaturesToExtent(False)
super().__init__(symbol)
self.selection = sorted(selection)
self.feature_index = 0
self.vertex_number = vertex_number
self.source = source
self.topological_geometries = topological_geometries
def testFirstLastVertexRespectMultipart(self):
line_symbol = QgsLineSymbol()
line_symbol.deleteSymbolLayer(0)
line_symbol.appendSymbolLayer(
QgsMarkerLineSymbolLayer())
line_symbol[0].setPlacements(Qgis.MarkerLinePlacements(Qgis.MarkerLinePlacement.FirstVertex | Qgis.MarkerLinePlacement.LastVertex))
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
line_symbol[0].setSubSymbol(marker_symbol)
line_symbol[0].setPlaceOnEveryPart(False)
g = QgsGeometry.fromWkt('MultiLineString((0 0, 10 0, 10 10, 0 10),(3 3, 7 3, 7 7, 3 7))')
rendered_image = self.renderGeometry(line_symbol, g)
assert self.imageCheck('markerline_first_last_respect_multipart', 'markerline_first_last_respect_multipart', rendered_image)
def testForceRHR(self):
# test forcing right hand rule during rendering
s = QgsFillSymbol()
s.deleteSymbolLayer(0)
s.appendSymbolLayer(
QgsSimpleFillSymbolLayer(color=QColor(255, 0, 0),
strokeColor=QColor(0, 255, 0)))
self.assertFalse(s.forceRHR())
s.setForceRHR(True)
self.assertTrue(s.forceRHR())
s.setForceRHR(False)
self.assertFalse(s.forceRHR())
s.setForceRHR(True)
doc = QDomDocument()
context = QgsReadWriteContext()
element = QgsSymbolLayerUtils.saveSymbol('test', s, doc, context)
s2 = QgsSymbolLayerUtils.loadSymbol(element, context)
self.assertTrue(s2.forceRHR())
# rendering test
s3 = QgsFillSymbol()
s3.deleteSymbolLayer(0)
s3.appendSymbolLayer(
QgsSimpleFillSymbolLayer(color=QColor(255, 200, 200),
strokeColor=QColor(0, 255, 0),
strokeWidth=2))
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s3.appendSymbolLayer(marker_line)
g = QgsGeometry.fromWkt(
'Polygon((0 0, 10 0, 10 10, 0 10, 0 0),(1 1, 1 2, 2 2, 2 1, 1 1),(8 8, 9 8, 9 9, 8 9, 8 8))'
)
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('force_rhr_off', 'polygon_forcerhr_off',
rendered_image)
s3.setForceRHR(True)
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('force_rhr_on', 'polygon_forcerhr_on',
rendered_image)
def testCompoundCurveInnerVertices(self):
# test rendering compound curve with markers at inner vertices and curve points
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.InnerVertices)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
# rendering test
g = QgsGeometry.fromWkt('CompoundCurve (CircularString (2606642.3863534671254456 1228883.61571401031687856, 2606656.45901552261784673 1228882.30281259422190487, 2606652.60236761253327131 1228873.80998155777342618, 2606643.65822671446949244 1228875.45110832806676626, 2606642.3863534671254456 1228883.65674217976629734))')
self.assertFalse(g.isNull())
rendered_image = self.renderGeometry(s, g)
self.assertTrue(self.imageCheck('markerline_compoundcurve_inner_vertices', 'markerline_compoundcurve_inner_vertices', rendered_image))
def testRingFilter(self):
# test filtering rings during rendering
s = QgsFillSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
self.assertEqual(s.symbolLayer(0).ringFilter(), QgsLineSymbolLayer.AllRings)
s.symbolLayer(0).setRingFilter(QgsLineSymbolLayer.ExteriorRingOnly)
self.assertEqual(s.symbolLayer(0).ringFilter(), QgsLineSymbolLayer.ExteriorRingOnly)
s2 = s.clone()
self.assertEqual(s2.symbolLayer(0).ringFilter(), QgsLineSymbolLayer.ExteriorRingOnly)
doc = QDomDocument()
context = QgsReadWriteContext()
element = QgsSymbolLayerUtils.saveSymbol('test', s, doc, context)
s2 = QgsSymbolLayerUtils.loadSymbol(element, context)
self.assertEqual(s2.symbolLayer(0).ringFilter(), QgsLineSymbolLayer.ExteriorRingOnly)
# rendering test
s3 = QgsFillSymbol()
s3.deleteSymbolLayer(0)
s3.appendSymbolLayer(
QgsMarkerLineSymbolLayer())
s3.symbolLayer(0).setRingFilter(QgsLineSymbolLayer.ExteriorRingOnly)
s3.symbolLayer(0).setAverageAngleLength(0)
g = QgsGeometry.fromWkt('Polygon((0 0, 10 0, 10 10, 0 10, 0 0),(1 1, 1 2, 2 2, 2 1, 1 1),(8 8, 9 8, 9 9, 8 9, 8 8))')
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('markerline_exterioronly', 'markerline_exterioronly', rendered_image)
s3.symbolLayer(0).setRingFilter(QgsLineSymbolLayer.InteriorRingsOnly)
g = QgsGeometry.fromWkt('Polygon((0 0, 10 0, 10 10, 0 10, 0 0),(1 1, 1 2, 2 2, 2 1, 1 1),(8 8, 9 8, 9 9, 8 9, 8 8))')
rendered_image = self.renderGeometry(s3, g)
assert self.imageCheck('markerline_interioronly', 'markerline_interioronly', rendered_image)
def testSingleLines(self):
source = QgsVectorLayer(os.path.join(TEST_DATA_DIR, 'lines_touching.shp'))
self.assertTrue(source.isValid())
map_settings = QgsMapSettings()
map_settings.setExtent(source.extent().buffered(2))
map_settings.setDestinationCrs(source.crs())
map_settings.setLayers([source])
layer = QgsSimpleLineSymbolLayer()
layer.setColor(QColor(0, 0, 0))
layer.setWidth(1)
symbol = QgsLineSymbol([layer])
layer2 = QgsMarkerLineSymbolLayer()
layer2.setPlacement(QgsTemplatedLineSymbolLayerBase.FirstVertex)
marker = QgsMarkerSymbol.createSimple({'size': '4', 'color': '255,0,0', 'outline_style': 'no'})
layer2.setSubSymbol(marker)
symbol.appendSymbolLayer(layer2)
sub_renderer = QgsSingleSymbolRenderer(symbol)
source.setRenderer(QgsMergedFeatureRenderer(sub_renderer))
self.assertTrue(self.imageCheck('lines_single_subrenderer', 'lines_single_subrenderer', map_settings))
def make_flow_sym_renderer(self, layer, field_name, ranges_colors=None):
feats = layer.getFeatures()
min_val = sys.float_info.max
max_val = -min_val
# Find values range
for feat in feats:
attr = feat.attribute(field_name)
val = float(attr)
if val < min_val:
min_val = val
if val > max_val:
max_val = val
# Define colors
if ranges_colors is None:
ranges_colors = []
colors = [
QColor(0, 255, 0),
QColor(128, 255, 0),
QColor(255, 255, 0),
QColor(255, 128, 0),
QColor(255, 0, 0)]
intv_nr = len(colors)
intv = (max_val - min_val) / intv_nr
for c in range(intv_nr):
vrange = [min_val + intv * c, min_val + intv * (c + 1)]
if c == len(colors) - 1:
vrange[1] = max_val
ranges_colors.append([vrange, colors[c]])
range_list = []
for range_col in ranges_colors:
r_min = range_col[0][0]
r_max = range_col[0][1]
title = str(r_min) + ' - ' + str(r_max)
range_list.append(symbology_from_range(layer, r_min, r_max, range_col[1], title))
renderer = QgsGraduatedSymbolRenderer(field_name, range_list)
# Line
symbol = QgsLineSymbol().createSimple({})
symbol.deleteSymbolLayer(0)
line_sym_lay = QgsSimpleLineSymbolLayer()
line_sym_lay.setWidth(0.2)
symbol.appendSymbolLayer(line_sym_lay)
# Define arrows for flow and velocities
if u'Link flow' in layer.name() in layer.name():
self.marker_sym = QgsMarkerSymbol.createSimple({'name': 'triangle', 'color': 'black'})
data_def_angle = QgsProperty()
data_def_angle_exp =\
'case ' \
'when "' + field_name + '" >= 0 ' \
'then degrees(azimuth( start_point( $geometry), end_point($geometry))) ' \
'else ' \
'case ' \
'when degrees(azimuth( start_point( $geometry), end_point($geometry))) < 180 ' \
'then degrees(azimuth( start_point( $geometry), end_point($geometry))) + 180 ' \
'else ' \
'degrees(azimuth( start_point( $geometry), end_point($geometry))) - 180 ' \
'end ' \
'end'
data_def_angle.setExpressionString(data_def_angle_exp)
data_def_angle.setActive(True)
self.marker_sym.setDataDefinedAngle(data_def_angle)
# Size: 0 if attribute = 0
data_def_size = QgsProperty()
data_def_size_exp =\
'case ' \
'when "' + field_name + '" = 0 ' \
'then 0 ' \
'else ' \
'2 ' \
'end'
data_def_size.setExpressionString(data_def_size_exp)
data_def_size.setActive(True)
self.marker_sym.setDataDefinedSize(data_def_size)
marker_sym_lay = QgsMarkerLineSymbolLayer()
marker_sym_lay.setColor(QColor(0, 0, 0))
marker_sym_lay.setFillColor(QColor(0, 0, 0))
marker_sym_lay.setPlacement(QgsMarkerLineSymbolLayer.CentralPoint)
marker_sym_lay.setRotateMarker(False)
marker_sym_lay.setSubSymbol(self.marker_sym)
self.marker_sym.appendSymbolLayer(marker_sym_lay)
symbol.appendSymbolLayer(marker_sym_lay)
# renderer.setSourceSymbol(symbol)
renderer.updateSymbols(symbol)
return renderer
def testWidth(self):
ms = QgsMapSettings()
extent = QgsRectangle(100, 200, 100, 200)
ms.setExtent(extent)
ms.setOutputSize(QSize(400, 400))
context = QgsRenderContext.fromMapSettings(ms)
context.setScaleFactor(96 / 25.4) # 96 DPI
ms.setExtent(QgsRectangle(100, 150, 100, 150))
ms.setOutputDpi(ms.outputDpi() * 2)
context2 = QgsRenderContext.fromMapSettings(ms)
context2.setScaleFactor(300 / 25.4)
s = QgsFillSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Triangle, 10)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
self.assertEqual(marker_line.width(), 10)
self.assertAlmostEqual(marker_line.width(context), 37.795275590551185, 3)
self.assertAlmostEqual(marker_line.width(context2), 118.11023622047244, 3)
marker_line.subSymbol().setSizeUnit(QgsUnitTypes.RenderPixels)
self.assertAlmostEqual(marker_line.width(context), 10.0, 3)
self.assertAlmostEqual(marker_line.width(context2), 10.0, 3)
def append_decoration(
symbol, # pylint: disable=too-many-branches,too-many-statements
decoration: SimpleLineDecorationElement,
context: Context,
enabled: bool,
locked: bool):
"""
Appends decorations to the given symbol
"""
positions = decoration.marker_positions[:]
from .symbols import SymbolConverter # pylint: disable=import-outside-toplevel,cyclic-import
marker = SymbolConverter.Symbol_to_QgsSymbol(decoration.marker,
context)
if decoration.flip_all:
for layer_index in range(marker.symbolLayerCount()):
layer = marker.symbolLayer(layer_index)
layer.setAngle(layer.angle() + 180)
if 0 in positions:
# start marker
line = QgsMarkerLineSymbolLayer(not decoration.fixed_angle)
start_marker = marker.clone()
if decoration.flip_first:
for layer_index in range(marker.symbolLayerCount()):
layer = start_marker.symbolLayer(layer_index)
layer.setAngle(layer.angle() + 180)
for layer_index in range(start_marker.symbolLayerCount()):
layer = start_marker.symbolLayer(layer_index)
if layer.offset().x() or layer.offset().y():
# adjust marker offset to account for rotation of line markers
offset = ConversionUtils.adjust_offset_for_rotation(
layer.offset(), layer.angle())
if decoration.flip_first or decoration.flip_all:
offset.setY(-offset.y())
layer.setOffset(offset)
line.setSubSymbol(start_marker)
line.setEnabled(enabled)
line.setLocked(locked)
# TODO - maybe need to offset this by marker width / 4? seems a better match to ESRI
line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
symbol.appendSymbolLayer(line)
if 1 in positions:
# end marker
line = QgsMarkerLineSymbolLayer(not decoration.fixed_angle)
end_marker = marker.clone()
for layer_index in range(end_marker.symbolLayerCount()):
layer = end_marker.symbolLayer(layer_index)
if layer.offset().x() or layer.offset().y():
# adjust marker offset to account for rotation of line markers
offset = ConversionUtils.adjust_offset_for_rotation(
layer.offset(), layer.angle())
if decoration.flip_all:
offset.setY(-offset.y())
layer.setOffset(offset)
line.setSubSymbol(end_marker)
line.setPlacement(QgsMarkerLineSymbolLayer.LastVertex)
line.setEnabled(enabled)
line.setLocked(locked)
# TODO - maybe need to offset this by marker width / 4? seems a better match to ESRI
symbol.appendSymbolLayer(line)
if 0.5 in positions:
# mid marker
line = QgsMarkerLineSymbolLayer(not decoration.fixed_angle)
end_marker = marker.clone()
for layer_index in range(end_marker.symbolLayerCount()):
layer = end_marker.symbolLayer(layer_index)
if layer.offset().x() or layer.offset().y():
# adjust marker offset to account for rotation of line markers
offset = ConversionUtils.adjust_offset_for_rotation(
layer.offset(), layer.angle())
if decoration.flip_all:
offset.setY(-offset.y())
layer.setOffset(offset)
line.setSubSymbol(end_marker)
line.setPlacement(QgsMarkerLineSymbolLayer.CentralPoint)
line.setEnabled(enabled)
line.setLocked(locked)
symbol.appendSymbolLayer(line)
# TODO other positions
other_positions = [p for p in positions if p not in (0, 0.5, 1)]
if other_positions:
# Would need to use data defined marker placement distance, e.g. $length/3
# and offset first marker by $length/3 to avoid placing a marker at the start
# of the line
raise NotImplementedException(
'Non start/end decoration positions are not implemented (need {})'
.format(other_positions))
def testLinesCategorized(self):
source = QgsVectorLayer(os.path.join(TEST_DATA_DIR, 'lines_touching.shp'))
self.assertTrue(source.isValid())
map_settings = QgsMapSettings()
map_settings.setExtent(source.extent().buffered(2))
map_settings.setDestinationCrs(source.crs())
map_settings.setLayers([source])
layer = QgsSimpleLineSymbolLayer()
layer.setColor(QColor(0, 0, 0))
layer.setWidth(1)
symbol1 = QgsLineSymbol()
symbol1.changeSymbolLayer(0, layer.clone())
layer2 = QgsMarkerLineSymbolLayer()
layer2.setPlacement(QgsTemplatedLineSymbolLayerBase.FirstVertex)
marker = QgsMarkerSymbol.createSimple({'size': '4', 'color': '255,0,0', 'outline_style': 'no'})
layer2.setSubSymbol(marker)
symbol1.appendSymbolLayer(layer2)
symbol2 = QgsLineSymbol()
symbol2.changeSymbolLayer(0, layer.clone())
layer2 = QgsMarkerLineSymbolLayer()
layer2.setPlacement(QgsTemplatedLineSymbolLayerBase.FirstVertex)
marker = QgsMarkerSymbol.createSimple({'size': '4', 'color': '0,255,0', 'outline_style': 'no'})
layer2.setSubSymbol(marker)
symbol2.appendSymbolLayer(layer2)
sub_renderer = QgsCategorizedSymbolRenderer('cat', [QgsRendererCategory('cat1', symbol1, 'cat1'),
QgsRendererCategory('cat2', symbol2, 'cat2')
])
source.setRenderer(QgsMergedFeatureRenderer(sub_renderer))
self.assertTrue(self.imageCheck('lines_categorized_subrenderer', 'lines_categorized_subrenderer', map_settings))
def testDataDefinedAnglePolygon(self):
# test rendering curve polygon with markers at vertices and curve points
s = QgsFillSymbol()
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.SegmentCenter)
marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker.setAngle(90)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
g = QgsGeometry.fromWkt(
'Polygon (LineString (0 5, 5 0, 10 5, 5 10, 0 5))')
self.assertFalse(g.isNull())
# rendering test with non data-defined angle
rendered_image = self.renderGeometry(s, g)
self.assertTrue(
self.imageCheck('markerline_datadefinedanglepolygon',
'markerline_datadefinedanglepolygon',
rendered_image))
s = QgsFillSymbol()
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.SegmentCenter)
marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker.setAngle(38)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_symbol.setDataDefinedAngle(QgsProperty.fromExpression('90'))
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
# rendering test with data-defined angle
rendered_image = self.renderGeometry(s, g)
self.assertTrue(
self.imageCheck('markerline_datadefinedanglepolygon',
'markerline_datadefinedanglepolygon',
rendered_image))
def testWidth(self):
ms = QgsMapSettings()
extent = QgsRectangle(100, 200, 100, 200)
ms.setExtent(extent)
ms.setOutputSize(QSize(400, 400))
context = QgsRenderContext.fromMapSettings(ms)
context.setScaleFactor(96 / 25.4) # 96 DPI
ms.setExtent(QgsRectangle(100, 150, 100, 150))
ms.setOutputDpi(ms.outputDpi() * 2)
context2 = QgsRenderContext.fromMapSettings(ms)
context2.setScaleFactor(300 / 25.4)
s = QgsFillSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.FirstVertex)
marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Triangle, 10)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
self.assertEqual(marker_line.width(), 10)
self.assertAlmostEqual(marker_line.width(context), 37.795275590551185,
3)
self.assertAlmostEqual(marker_line.width(context2), 118.11023622047244,
3)
marker_line.subSymbol().setSizeUnit(QgsUnitTypes.RenderPixels)
self.assertAlmostEqual(marker_line.width(context), 10.0, 3)
self.assertAlmostEqual(marker_line.width(context2), 10.0, 3)
def testMultiCurve(self):
# test rendering multi curve with markers at vertices and curve points
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.Vertex)
marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
marker_line2 = QgsMarkerLineSymbolLayer(True)
marker_line2.setPlacement(QgsMarkerLineSymbolLayer.CurvePoint)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Square,
4)
marker.setColor(QColor(0, 255, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line2.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line2.clone())
# rendering test
g = QgsGeometry.fromWkt(
'MultiCurve (CompoundCurve (CircularString (2606668.74491960229352117 1228910.0701227153185755, 2606667.84593895543366671 1228899.48981202743016183, 2606678.70285907341167331 1228879.78139015776105225, 2606701.64743852475658059 1228866.43043032777495682, 2606724.96578619908541441 1228864.70617623627185822)),LineString (2606694.16802780656144023 1228913.44624055083841085, 2606716.84054400492459536 1228890.51009044284000993, 2606752.43112175865098834 1228906.59175890940241516))'
)
self.assertFalse(g.isNull())
rendered_image = self.renderGeometry(s, g)
self.assertTrue(
self.imageCheck('markerline_multicurve', 'markerline_multicurve',
rendered_image))
def testCurvePolygon(self):
# test rendering curve polygon with markers at vertices and curve points
s = QgsFillSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.Vertex)
marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
marker_line2 = QgsMarkerLineSymbolLayer(True)
marker_line2.setPlacement(QgsMarkerLineSymbolLayer.CurvePoint)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Square,
4)
marker.setColor(QColor(0, 255, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line2.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line2.clone())
# rendering test
g = QgsGeometry.fromWkt(
'CurvePolygon (CompoundCurve (CircularString (2606711.1353147104382515 1228875.77055342611856759, 2606715.00784672703593969 1228870.79158369055949152, 2606721.16240653907880187 1228873.35022091586142778),(2606721.16240653907880187 1228873.35022091586142778, 2606711.1353147104382515 1228875.77055342611856759)))'
)
self.assertFalse(g.isNull())
rendered_image = self.renderGeometry(s, g)
self.assertTrue(
self.imageCheck('markerline_curvepolygon',
'markerline_curvepolygon', rendered_image))
def setStyle(self, layer, name):
if name == "":
return
stylePath = os.path.join(os.path.dirname(os.path.dirname(__file__)),
"layerStyles")
# user style
qmlPath = os.path.join(stylePath, name + "_user.qml")
if os.path.exists(qmlPath):
layer.loadNamedStyle(qmlPath)
return
# default style
qmlPath = os.path.join(stylePath, name + ".qml.bak")
if os.path.exists(qmlPath):
layer.loadNamedStyle(qmlPath)
svgPath = os.path.join(stylePath, name + ".svg")
if os.path.exists(svgPath):
if layer.geometryType() == 0: # Point
svg_style = dict()
svg_style['name'] = svgPath
svg_style['size'] = str(7)
if name == "demands":
svg_style['fill'] = '#9a1313'
symbol_layer = QgsSvgMarkerSymbolLayer.create(svg_style)
symbol = QgsSymbol.defaultSymbol(layer.geometryType())
symbol.changeSymbolLayer(0, symbol_layer)
renderer = QgsSingleSymbolRenderer(symbol)
else: # Line
symbol = QgsLineSymbol().createSimple({})
symbol.deleteSymbolLayer(0)
# Line
lineSymbol = QgsSimpleLineSymbolLayer()
lineSymbol.setWidthUnit(2) # Pixels
lineSymbol.setWidth(1.5)
if name == "pipes":
lineSymbol.setColor(QColor("#0f1291"))
symbol.appendSymbolLayer(lineSymbol)
# Symbol
marker = QgsMarkerSymbol.createSimple({})
marker.deleteSymbolLayer(0)
svg_props = dict()
svg_props['name'] = svgPath
size = 5
if name == "pipes":
size = 0
svg_props['size'] = str(size)
svg_props['offset'] = '-0.5,-0.5'
svg_props['offset_unit'] = 'Pixel'
markerSymbol = QgsSvgMarkerSymbolLayer.create(svg_props)
marker.appendSymbolLayer(markerSymbol)
# Final Symbol
finalMarker = QgsMarkerLineSymbolLayer()
finalMarker.setSubSymbol(marker)
finalMarker.setPlacement(QgsMarkerLineSymbolLayer.CentralPoint)
symbol.appendSymbolLayer(finalMarker)
if name == "pipes":
prop = QgsProperty()
prop.setExpressionString(
"if(IniStatus is NULL, 0,if(IniStatus !='CV', 0,5))")
symbol.symbolLayer(1).setDataDefinedProperty(
9, prop) # 9 = PropertyWidth
renderer = QgsSingleSymbolRenderer(symbol)
layer.setRenderer(renderer)
def testNoPoint(self):
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsTemplatedLineSymbolLayerBase.Interval)
marker_line.setOffsetAlongLine(1000)
marker_line.setIntervalUnit(QgsUnitTypes.RenderMapUnits)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Circle,
4)
marker.setColor(QColor(255, 0, 0, 100))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
line_symbol = QgsLineSymbol()
line_symbol.changeSymbolLayer(0, marker_line)
s.appendSymbolLayer(marker_line.clone())
g = QgsGeometry.fromWkt('LineString(0 0, 0 10, 10 10)')
rendered_image = self.renderGeometry(s, g)
assert self.imageCheck('markerline_none', 'markerline_none',
rendered_image)
def testCondenseFillAndOutline(self):
"""
Test QgsSymbolLayerUtils.condenseFillAndOutline
"""
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
None, None))
# not simple fill or line
self.assertFalse(
QgsSymbolLayerUtils.condenseFillAndOutline(
QgsShapeburstFillSymbolLayer(), QgsSimpleLineSymbolLayer()))
self.assertFalse(
QgsSymbolLayerUtils.condenseFillAndOutline(
QgsSimpleFillSymbolLayer(), QgsMarkerLineSymbolLayer()))
# simple fill/line
fill = QgsSimpleFillSymbolLayer()
line = QgsSimpleLineSymbolLayer()
# set incompatible settings on outline
line.setUseCustomDashPattern(True)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setDashPatternOffset(1)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setAlignDashPattern(True)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setTweakDashPatternOnCorners(True)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setTrimDistanceStart(1)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setTrimDistanceEnd(1)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setDrawInsidePolygon(True)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setRingFilter(QgsSimpleLineSymbolLayer.ExteriorRingOnly)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setOffset(1)
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
line = QgsSimpleLineSymbolLayer()
line.setDataDefinedProperty(QgsSymbolLayer.PropertyTrimEnd,
QgsProperty.fromValue(4))
self.assertFalse(QgsSymbolLayerUtils.condenseFillAndOutline(
fill, line))
# compatible!
line = QgsSimpleLineSymbolLayer()
line.setColor(QColor(255, 0, 0))
line.setWidth(1.2)
line.setWidthUnit(QgsUnitTypes.RenderPoints)
line.setWidthMapUnitScale(QgsMapUnitScale(1, 2))
line.setPenJoinStyle(Qt.MiterJoin)
line.setPenStyle(Qt.DashDotDotLine)
self.assertTrue(QgsSymbolLayerUtils.condenseFillAndOutline(fill, line))
self.assertEqual(fill.strokeColor(), QColor(255, 0, 0))
self.assertEqual(fill.strokeWidth(), 1.2)
self.assertEqual(fill.strokeWidthUnit(), QgsUnitTypes.RenderPoints)
self.assertEqual(fill.strokeWidthMapUnitScale(), QgsMapUnitScale(1, 2))
self.assertEqual(fill.penJoinStyle(), Qt.MiterJoin)
self.assertEqual(fill.strokeStyle(), Qt.DashDotDotLine)
def testMultiSurve(self):
# test rendering multisurface with markers at vertices and curve points
s = QgsFillSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setPlacement(QgsMarkerLineSymbolLayer.Vertex)
marker = QgsSimpleMarkerSymbolLayer(
QgsSimpleMarkerSymbolLayer.Triangle, 4)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line.clone())
marker_line2 = QgsMarkerLineSymbolLayer(True)
marker_line2.setPlacement(QgsMarkerLineSymbolLayer.CurvePoint)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Square,
4)
marker.setColor(QColor(0, 255, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line2.setSubSymbol(marker_symbol)
s.appendSymbolLayer(marker_line2.clone())
# rendering test
g = QgsGeometry.fromWkt(
'MultiSurface (CurvePolygon (CompoundCurve (CircularString (2606664.83926784340292215 1228868.83649749564938247, 2606666.84044930292293429 1228872.22980518848635256, 2606668.05855975672602654 1228875.62311288132332265, 2606674.45363963954150677 1228870.05460794945247471, 2606680.58769585331901908 1228866.00874108518473804, 2606680.7182076876051724 1228865.05165429995395243, 2606679.97864062618464231 1228864.61661485210061073, 2606671.93041084241122007 1228867.87941071065142751, 2606664.83926784340292215 1228868.79299355088733137),(2606664.83926784340292215 1228868.79299355088733137, 2606664.83926784340292215 1228868.83649749564938247))),Polygon ((2606677.23432376980781555 1228875.74241803237237036, 2606674.27243852382525802 1228874.75512295053340495, 2606675.61874999897554517 1228871.97274590120650828, 2606678.84989754017442465 1228870.35717213083989918, 2606680.64497950719669461 1228873.31905737658962607, 2606677.23432376980781555 1228875.74241803237237036)))'
)
self.assertFalse(g.isNull())
rendered_image = self.renderGeometry(s, g)
self.assertTrue(
self.imageCheck('markerline_multisurface',
'markerline_multisurface', rendered_image))
def testMarkerDataDefinedAngleLine(self):
"""Test issue https://github.com/qgis/QGIS/issues/38716"""
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setRotateSymbols(True)
marker_line.setPlacement(QgsTemplatedLineSymbolLayerBase.CentralPoint)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Arrow,
10)
marker.setAngle(90)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
marker_line.setSubSymbol(marker_symbol)
line_symbol = QgsLineSymbol()
line_symbol.changeSymbolLayer(0, marker_line)
s.appendSymbolLayer(marker_line.clone())
g = QgsGeometry.fromWkt('LineString(0 0, 10 10, 20 20)')
rendered_image = self.renderGeometry(s, g)
assert self.imageCheck('markerline_center_angle_dd',
'markerline_center_angle_dd', rendered_image)
# Now with DD
s = QgsLineSymbol()
s.deleteSymbolLayer(0)
marker_line = QgsMarkerLineSymbolLayer(True)
marker_line.setRotateSymbols(True)
marker_line.setPlacement(QgsTemplatedLineSymbolLayerBase.CentralPoint)
marker = QgsSimpleMarkerSymbolLayer(QgsSimpleMarkerSymbolLayer.Arrow,
10)
# Note: set this to a different value than the reference test (90)
marker.setAngle(30)
marker.setColor(QColor(255, 0, 0))
marker.setStrokeStyle(Qt.NoPen)
marker_symbol = QgsMarkerSymbol()
marker_symbol.changeSymbolLayer(0, marker)
# This is the same value of the reference test
marker_symbol.setDataDefinedAngle(QgsProperty.fromExpression('90'))
marker_line.setSubSymbol(marker_symbol)
line_symbol = QgsLineSymbol()
line_symbol.changeSymbolLayer(0, marker_line)
s.appendSymbolLayer(marker_line.clone())
g = QgsGeometry.fromWkt('LineString(0 0, 10 10, 20 20)')
rendered_image = self.renderGeometry(s, g)
assert self.imageCheck('markerline_center_angle_dd',
'markerline_center_angle_dd', rendered_image)
