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Apply a colormap renderer to a raster.
Use case
A colormap renderer transforms pixel values in a raster to display raster data based on specific colors, aiding in visual analysis of the data. For example, a forestry commission may want to quickly visualize areas above and below the tree-line line occurring at a know elevation on a raster containing elevation values. They could overlay a transparent colormap set to color those areas below the tree-line elevation green, and those above white.
How to use the samplePan and zoom to explore the effect of the colormap applied to the raster.
How it worksRaster from a raster file.RasterLayer from the raster.QList<QColor>: colors at the beginning of the list replace the darkest values in the raster and colors at the end of the list replaced the brightest values of the raster.RasterLayer::setRenderer(RasterRenderer *renderer).Read more about how to set up the sample's offline data here.
About the dataThe raster used in this sample shows an area in the south of the Shasta-Trinity National Forest, California.
colormap, data, raster, renderer, visualization
Sample CodeRasterColormapRenderer.cpp RasterColormapRenderer.cpp RasterColormapRenderer.h RasterColormapRenderer.qml
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// [WriteFile Name=RasterColormapRenderer, Category=Layers]
// [Legal]
// Copyright 2017 Esri.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// [Legal]
#ifdef PCH_BUILD
#include "pch.hpp"
#endif // PCH_BUILD
// sample headers
#include "RasterColormapRenderer.h"
// ArcGIS Maps SDK headers
#include "ColormapRenderer.h"
#include "Envelope.h"
#include "Error.h"
#include "LayerListModel.h"
#include "Map.h"
#include "MapQuickView.h"
#include "MapTypes.h"
#include "MapViewTypes.h"
#include "Raster.h"
#include "RasterLayer.h"
// Qt headers
#include <QFuture>
#include <QStandardPaths>
#include <QtCore/qglobal.h>
using namespace Esri::ArcGISRuntime;
// helper method to get cross platform data path
namespace
{
QString defaultDataPath()
{
QString dataPath;
#ifdef Q_OS_IOS
dataPath = QStandardPaths::writableLocation(QStandardPaths::DocumentsLocation);
#else
dataPath = QStandardPaths::writableLocation(QStandardPaths::HomeLocation);
#endif
return dataPath;
}
} // namespace
RasterColormapRenderer::RasterColormapRenderer(QQuickItem* parent /* = nullptr */):
QQuickItem(parent),
m_dataPath(defaultDataPath() + "/ArcGIS/Runtime/Data/raster")
{
}
RasterColormapRenderer::~RasterColormapRenderer() = default;
void RasterColormapRenderer::init()
{
// Register the map view for QML
qmlRegisterType<MapQuickView>("Esri.Samples", 1, 0, "MapView");
qmlRegisterType<RasterColormapRenderer>("Esri.Samples", 1, 0, "RasterColormapRendererSample");
}
void RasterColormapRenderer::componentComplete()
{
QQuickItem::componentComplete();
// find QML MapView component
m_mapView = findChild<MapQuickView*>("mapView");
m_mapView->setWrapAroundMode(WrapAroundMode::Disabled);
//! [RasterColormapRenderer cpp add raster basemap]
// Create the raster and raster layer
Raster* raster = new Raster(m_dataPath + "/ShastaBW.tif", this);
m_rasterLayer = new RasterLayer(raster, this);
connect(m_rasterLayer, &RasterLayer::doneLoading, this, [this](const Error& error)
{
if (!error.isEmpty())
{
qDebug() << error.message() << error.additionalMessage();
return;
}
m_mapView->setViewpointGeometryAsync(m_rasterLayer->fullExtent(), 50);
});
ColormapRenderer* colormapRenderer = createRenderer();
// set the colormap renderer on the raster layer
m_rasterLayer->setRenderer(colormapRenderer);
// Add the raster to the map as an operational layer
Map* map = new Map(BasemapStyle::ArcGISImageryStandard, this);
map->operationalLayers()->append(m_rasterLayer);
m_mapView->setMap(map);
//! [RasterColormapRenderer cpp add raster basemap]
}
ColormapRenderer *RasterColormapRenderer::createRenderer()
{
// create a color map where values 0-150 are red and 150-250 are yellow
QList<QColor> colors;
colors.reserve(250);
for (int i = 0; i < 250; ++i)
colors.append( i < 150 ? Qt::red : Qt::yellow);
// create a colormap renderer
ColormapRenderer* colormapRenderer = new ColormapRenderer(colors, this);
return colormapRenderer;
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