def testPaletted(self): """ test paletted raster renderer with raster with color table""" path = os.path.join(unitTestDataPath('raster'), 'with_color_table.tif') info = QFileInfo(path) base_name = info.baseName() layer = QgsRasterLayer(path, base_name) self.assertTrue(layer.isValid(), 'Raster not loaded: {}'.format(path)) renderer = QgsPalettedRasterRenderer(layer.dataProvider(), 1, [QgsPalettedRasterRenderer.Class(1, QColor(0, 255, 0), 'class 2'), QgsPalettedRasterRenderer.Class(3, QColor(255, 0, 0), 'class 1')]) self.assertEqual(renderer.nColors(), 2) self.assertEqual(renderer.usesBands(), [1]) # test labels self.assertEqual(renderer.label(1), 'class 2') self.assertEqual(renderer.label(3), 'class 1') self.assertFalse(renderer.label(101)) # test legend symbology - should be sorted by value legend = renderer.legendSymbologyItems() self.assertEqual(legend[0][0], 'class 2') self.assertEqual(legend[1][0], 'class 1') self.assertEqual(legend[0][1].name(), '#00ff00') self.assertEqual(legend[1][1].name(), '#ff0000') # test retrieving classes classes = renderer.classes() self.assertEqual(classes[0].value, 1) self.assertEqual(classes[1].value, 3) self.assertEqual(classes[0].label, 'class 2') self.assertEqual(classes[1].label, 'class 1') self.assertEqual(classes[0].color.name(), '#00ff00') self.assertEqual(classes[1].color.name(), '#ff0000') # test set label # bad index renderer.setLabel(1212, 'bad') renderer.setLabel(3, 'new class') self.assertEqual(renderer.label(3), 'new class') # color ramp r = QgsLimitedRandomColorRamp(5) renderer.setSourceColorRamp(r) self.assertEqual(renderer.sourceColorRamp().type(), 'random') self.assertEqual(renderer.sourceColorRamp().count(), 5) # clone new_renderer = renderer.clone() classes = new_renderer.classes() self.assertEqual(classes[0].value, 1) self.assertEqual(classes[1].value, 3) self.assertEqual(classes[0].label, 'class 2') self.assertEqual(classes[1].label, 'new class') self.assertEqual(classes[0].color.name(), '#00ff00') self.assertEqual(classes[1].color.name(), '#ff0000') self.assertEqual(new_renderer.sourceColorRamp().type(), 'random') self.assertEqual(new_renderer.sourceColorRamp().count(), 5) # write to xml and read doc = QDomDocument('testdoc') elem = doc.createElement('qgis') renderer.writeXml(doc, elem) restored = QgsPalettedRasterRenderer.create(elem.firstChild().toElement(), layer.dataProvider()) self.assertTrue(restored) self.assertEqual(restored.usesBands(), [1]) classes = restored.classes() self.assertTrue(classes) self.assertEqual(classes[0].value, 1) self.assertEqual(classes[1].value, 3) self.assertEqual(classes[0].label, 'class 2') self.assertEqual(classes[1].label, 'new class') self.assertEqual(classes[0].color.name(), '#00ff00') self.assertEqual(classes[1].color.name(), '#ff0000') self.assertEqual(restored.sourceColorRamp().type(), 'random') self.assertEqual(restored.sourceColorRamp().count(), 5) # render test layer.setRenderer(renderer) ms = QgsMapSettings() ms.setLayers([layer]) ms.setExtent(layer.extent()) checker = QgsRenderChecker() checker.setControlName("expected_paletted_renderer") checker.setMapSettings(ms) self.assertTrue(checker.runTest("expected_paletted_renderer"), "Paletted rendering test failed")
def testPaletted(self): """ test paletted raster renderer with raster with color table""" path = os.path.join(unitTestDataPath('raster'), 'with_color_table.tif') info = QFileInfo(path) base_name = info.baseName() layer = QgsRasterLayer(path, base_name) self.assertTrue(layer.isValid(), 'Raster not loaded: {}'.format(path)) renderer = QgsPalettedRasterRenderer(layer.dataProvider(), 1, [QgsPalettedRasterRenderer.Class(1, QColor(0, 255, 0), 'class 2'), QgsPalettedRasterRenderer.Class(3, QColor(255, 0, 0), 'class 1')]) self.assertEqual(renderer.nColors(), 2) self.assertEqual(renderer.usesBands(), [1]) # test labels self.assertEqual(renderer.label(1), 'class 2') self.assertEqual(renderer.label(3), 'class 1') self.assertFalse(renderer.label(101)) # test legend symbology - should be sorted by value legend = renderer.legendSymbologyItems() self.assertEqual(legend[0][0], 'class 2') self.assertEqual(legend[1][0], 'class 1') self.assertEqual(legend[0][1].name(), '#00ff00') self.assertEqual(legend[1][1].name(), '#ff0000') # test retrieving classes classes = renderer.classes() self.assertEqual(classes[0].value, 1) self.assertEqual(classes[1].value, 3) self.assertEqual(classes[0].label, 'class 2') self.assertEqual(classes[1].label, 'class 1') self.assertEqual(classes[0].color.name(), '#00ff00') self.assertEqual(classes[1].color.name(), '#ff0000') # test set label # bad index renderer.setLabel(1212, 'bad') renderer.setLabel(3, 'new class') self.assertEqual(renderer.label(3), 'new class') # color ramp r = QgsLimitedRandomColorRamp(5) renderer.setSourceColorRamp(r) self.assertEqual(renderer.sourceColorRamp().type(), 'random') self.assertEqual(renderer.sourceColorRamp().count(), 5) # clone new_renderer = renderer.clone() classes = new_renderer.classes() self.assertEqual(classes[0].value, 1) self.assertEqual(classes[1].value, 3) self.assertEqual(classes[0].label, 'class 2') self.assertEqual(classes[1].label, 'new class') self.assertEqual(classes[0].color.name(), '#00ff00') self.assertEqual(classes[1].color.name(), '#ff0000') self.assertEqual(new_renderer.sourceColorRamp().type(), 'random') self.assertEqual(new_renderer.sourceColorRamp().count(), 5) # write to xml and read doc = QDomDocument('testdoc') elem = doc.createElement('qgis') renderer.writeXml(doc, elem) restored = QgsPalettedRasterRenderer.create(elem.firstChild().toElement(), layer.dataProvider()) self.assertTrue(restored) self.assertEqual(restored.usesBands(), [1]) classes = restored.classes() self.assertTrue(classes) self.assertEqual(classes[0].value, 1) self.assertEqual(classes[1].value, 3) self.assertEqual(classes[0].label, 'class 2') self.assertEqual(classes[1].label, 'new class') self.assertEqual(classes[0].color.name(), '#00ff00') self.assertEqual(classes[1].color.name(), '#ff0000') self.assertEqual(restored.sourceColorRamp().type(), 'random') self.assertEqual(restored.sourceColorRamp().count(), 5) # render test layer.setRenderer(renderer) ms = QgsMapSettings() ms.setLayers([layer]) ms.setExtent(layer.extent()) checker = QgsRenderChecker() checker.setControlName("expected_paletted_renderer") checker.setMapSettings(ms) self.assertTrue(checker.runTest("expected_paletted_renderer"), "Paletted rendering test failed")
pcolor = [] pcolor.append(QgsColorRampShader.ColorRampItem(1, QColor("#d2ca97"))) pcolor.append(QgsColorRampShader.ColorRampItem(2, QColor("#f7f7f7"))) pcolor.append(QgsColorRampShader.ColorRampItem(3, QColor("#a1d99b"))) pcolor.append(QgsColorRampShader.ColorRampItem(4, QColor("#41ab5d"))) pcolor.append(QgsColorRampShader.ColorRampItem(5, QColor("#006d2c"))) pcolor.append(QgsColorRampShader.ColorRampItem(6, QColor("#00441b"))) renderer = QgsPalettedRasterRenderer(layer.dataProvider(), 1, QgsPalettedRasterRenderer.colorTableToClassData(pcolor)) layer.setRenderer(renderer) extent = layer.extent() width, height = layer.width(), layer.height() renderer = layer.renderer() provider = layer.dataProvider() crs = layer.crs().toWkt() pipe = QgsRasterPipe() pipe.set(provider.clone()) pipe.set(renderer.clone()) file_writer = QgsRasterFileWriter("C:/temp/naip/classified_res.tif") file_writer.writeRaster(pipe, width, height, extent, layer.crs()) print("Done!")