QGIS API Documentation 3.41.0-Master (45a0abf3bec)
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qgsrasterlayerrenderer.cpp
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1/***************************************************************************
2 qgsrasterlayerrenderer.cpp
3 --------------------------------------
4 Date : December 2013
5 Copyright : (C) 2013 by Martin Dobias
6 Email : wonder dot sk at gmail dot com
7 ***************************************************************************
8 * *
9 * This program is free software; you can redistribute it and/or modify *
10 * it under the terms of the GNU General Public License as published by *
11 * the Free Software Foundation; either version 2 of the License, or *
12 * (at your option) any later version. *
13 * *
14 ***************************************************************************/
15
17#include "moc_qgsrasterlayerrenderer.cpp"
18
19#include "qgsmessagelog.h"
21#include "qgsrasterdrawer.h"
22#include "qgsrasteriterator.h"
23#include "qgsrasterlayer.h"
24#include "qgsrasterprojector.h"
25#include "qgsrendercontext.h"
26#include "qgsrasterrenderer.h"
27#include "qgsexception.h"
29#include "qgsmapclippingutils.h"
30#include "qgsrasterpipe.h"
31#include "qgselevationmap.h"
32#include "qgsgdalutils.h"
35#include "qgsruntimeprofiler.h"
36#include "qgsapplication.h"
38#include "qgsrasterlayerutils.h"
39#include "qgsinterval.h"
40#include "qgsunittypes.h"
41#include "qgsrasternuller.h"
42
43#include <QElapsedTimer>
44#include <QPointer>
45#include <QThread>
46
48
49QgsRasterLayerRendererFeedback::QgsRasterLayerRendererFeedback( QgsRasterLayerRenderer *r )
50 : mR( r )
51 , mMinimalPreviewInterval( 250 )
52{
54}
55
56void QgsRasterLayerRendererFeedback::onNewData()
57{
58 if ( !renderPartialOutput() )
59 return; // we were not asked for partial renders and we may not have a temporary image for overwriting...
60
61 // update only once upon a time
62 // (preview itself takes some time)
63 if ( mLastPreview.isValid() && mLastPreview.msecsTo( QTime::currentTime() ) < mMinimalPreviewInterval )
64 return;
65
66 // TODO: update only the area that got new data
67
68 QgsDebugMsgLevel( QStringLiteral( "new raster preview! %1" ).arg( mLastPreview.msecsTo( QTime::currentTime() ) ), 3 );
69 QElapsedTimer t;
70 t.start();
72 feedback.setPreviewOnly( true );
73 feedback.setRenderPartialOutput( true );
74 QgsRasterIterator iterator( mR->mPipe->last() );
75 QgsRasterDrawer drawer( &iterator );
76 drawer.draw( *( mR->renderContext() ), mR->mRasterViewPort, &feedback );
77 mR->mReadyToCompose = true;
78 QgsDebugMsgLevel( QStringLiteral( "total raster preview time: %1 ms" ).arg( t.elapsed() ), 3 );
79 mLastPreview = QTime::currentTime();
80}
81
85 : QgsMapLayerRenderer( layer->id(), &rendererContext )
86 , mLayerName( layer->name() )
87 , mLayerOpacity( layer->opacity() )
88 , mProviderCapabilities( layer->dataProvider()->providerCapabilities() )
89 , mInterfaceCapabilities( layer->dataProvider()->capabilities() )
90 , mFeedback( new QgsRasterLayerRendererFeedback( this ) )
91 , mEnableProfile( rendererContext.flags() & Qgis::RenderContextFlag::RecordProfile )
92{
93 mReadyToCompose = false;
94
95 QElapsedTimer timer;
96 timer.start();
97
98 QgsMapToPixel mapToPixel = rendererContext.mapToPixel();
99 if ( rendererContext.mapToPixel().mapRotation() )
100 {
101 // unset rotation for the sake of local computations.
102 // Rotation will be handled by QPainter later
103 // TODO: provide a method of QgsMapToPixel to fetch map center
104 // in geographical units
105 const QgsPointXY center = mapToPixel.toMapCoordinates(
106 static_cast<int>( mapToPixel.mapWidth() / 2.0 ),
107 static_cast<int>( mapToPixel.mapHeight() / 2.0 )
108 );
109 mapToPixel.setMapRotation( 0, center.x(), center.y() );
110 }
111
112 QgsRectangle myProjectedViewExtent;
113 QgsRectangle myProjectedLayerExtent;
114
115 if ( rendererContext.coordinateTransform().isValid() )
116 {
117 QgsDebugMsgLevel( QStringLiteral( "coordinateTransform set -> project extents." ), 4 );
118 if ( rendererContext.extent().xMinimum() == std::numeric_limits<double>::lowest() &&
119 rendererContext.extent().yMinimum() == std::numeric_limits<double>::lowest() &&
120 rendererContext.extent().xMaximum() == std::numeric_limits<double>::max() &&
121 rendererContext.extent().yMaximum() == std::numeric_limits<double>::max() )
122 {
123 // We get in this situation if the view CRS is geographical and the
124 // extent goes beyond -180,-90,180,90. To avoid reprojection issues to the
125 // layer CRS, then this dummy extent is returned by QgsMapRendererJob::reprojectToLayerExtent()
126 // Don't try to reproject it now to view extent as this would return
127 // a null rectangle.
128 myProjectedViewExtent = rendererContext.extent();
129 }
130 else
131 {
132 try
133 {
134 QgsCoordinateTransform ct = rendererContext.coordinateTransform();
136 myProjectedViewExtent = ct.transformBoundingBox( rendererContext.extent() );
137 }
138 catch ( QgsCsException &cs )
139 {
140 QgsMessageLog::logMessage( QObject::tr( "Could not reproject view extent: %1" ).arg( cs.what() ), QObject::tr( "Raster" ) );
141 myProjectedViewExtent.setNull();
142 }
143 }
144
145 try
146 {
147 QgsCoordinateTransform ct = rendererContext.coordinateTransform();
149 myProjectedLayerExtent = ct.transformBoundingBox( layer->extent() );
150 }
151 catch ( QgsCsException &cs )
152 {
153 QgsMessageLog::logMessage( QObject::tr( "Could not reproject layer extent: %1" ).arg( cs.what() ), QObject::tr( "Raster" ) );
154 myProjectedLayerExtent.setNull();
155 }
156 }
157 else
158 {
159 QgsDebugMsgLevel( QStringLiteral( "coordinateTransform not set" ), 4 );
160 myProjectedViewExtent = rendererContext.extent();
161 myProjectedLayerExtent = layer->extent();
162 }
163
164 // clip raster extent to view extent
165 QgsRectangle myRasterExtent = layer->ignoreExtents() ? myProjectedViewExtent : myProjectedViewExtent.intersect( myProjectedLayerExtent );
166 if ( myRasterExtent.isEmpty() )
167 {
168 QgsDebugMsgLevel( QStringLiteral( "draw request outside view extent." ), 2 );
169 // nothing to do
170 return;
171 }
172
173 QgsDebugMsgLevel( "theViewExtent is " + rendererContext.extent().toString(), 4 );
174 QgsDebugMsgLevel( "myProjectedViewExtent is " + myProjectedViewExtent.toString(), 4 );
175 QgsDebugMsgLevel( "myProjectedLayerExtent is " + myProjectedLayerExtent.toString(), 4 );
176 QgsDebugMsgLevel( "myRasterExtent is " + myRasterExtent.toString(), 4 );
177
178 //
179 // The first thing we do is set up the QgsRasterViewPort. This struct stores all the settings
180 // relating to the size (in pixels and coordinate system units) of the raster part that is
181 // in view in the map window. It also stores the origin.
182 //
183 //this is not a class level member because every time the user pans or zooms
184 //the contents of the rasterViewPort will change
185 mRasterViewPort = new QgsRasterViewPort();
186
187 mRasterViewPort->mDrawnExtent = myRasterExtent;
188 if ( rendererContext.coordinateTransform().isValid() )
189 {
190 mRasterViewPort->mSrcCRS = layer->crs();
191 mRasterViewPort->mDestCRS = rendererContext.coordinateTransform().destinationCrs();
192 mRasterViewPort->mTransformContext = rendererContext.transformContext();
193 }
194 else
195 {
196 mRasterViewPort->mSrcCRS = QgsCoordinateReferenceSystem(); // will be invalid
197 mRasterViewPort->mDestCRS = QgsCoordinateReferenceSystem(); // will be invalid
198 }
199
200 // get dimensions of clipped raster image in device coordinate space (this is the size of the viewport)
201 mRasterViewPort->mTopLeftPoint = mapToPixel.transform( myRasterExtent.xMinimum(), myRasterExtent.yMaximum() );
202 mRasterViewPort->mBottomRightPoint = mapToPixel.transform( myRasterExtent.xMaximum(), myRasterExtent.yMinimum() );
203
204 // align to output device grid, i.e. std::floor/ceil to integers
205 // TODO: this should only be done if paint device is raster - screen, image
206 // for other devices (pdf) it can have floating point origin
207 // we could use floating point for raster devices as well, but respecting the
208 // output device grid should make it more effective as the resampling is done in
209 // the provider anyway
210 mRasterViewPort->mTopLeftPoint.setX( std::floor( mRasterViewPort->mTopLeftPoint.x() ) );
211 mRasterViewPort->mTopLeftPoint.setY( std::floor( mRasterViewPort->mTopLeftPoint.y() ) );
212 mRasterViewPort->mBottomRightPoint.setX( std::ceil( mRasterViewPort->mBottomRightPoint.x() ) );
213 mRasterViewPort->mBottomRightPoint.setY( std::ceil( mRasterViewPort->mBottomRightPoint.y() ) );
214 // recalc myRasterExtent to aligned values
215 myRasterExtent.set(
216 mapToPixel.toMapCoordinates( mRasterViewPort->mTopLeftPoint.x(),
217 mRasterViewPort->mBottomRightPoint.y() ),
218 mapToPixel.toMapCoordinates( mRasterViewPort->mBottomRightPoint.x(),
219 mRasterViewPort->mTopLeftPoint.y() )
220 );
221
222 //raster viewport top left / bottom right are already rounded to int
223 mRasterViewPort->mWidth = static_cast<qgssize>( std::abs( mRasterViewPort->mBottomRightPoint.x() - mRasterViewPort->mTopLeftPoint.x() ) );
224 mRasterViewPort->mHeight = static_cast<qgssize>( std::abs( mRasterViewPort->mBottomRightPoint.y() - mRasterViewPort->mTopLeftPoint.y() ) );
225
226 double dpi = 25.4 * rendererContext.scaleFactor();
227 if ( mProviderCapabilities & Qgis::RasterProviderCapability::DpiDependentData
228 && rendererContext.dpiTarget() >= 0.0 )
229 {
230 const double dpiScaleFactor = rendererContext.dpiTarget() / dpi;
231 mRasterViewPort->mWidth *= dpiScaleFactor;
232 mRasterViewPort->mHeight *= dpiScaleFactor;
233 dpi = rendererContext.dpiTarget();
234 }
235 else
236 {
237 rendererContext.setDpiTarget( -1.0 );
238 }
239
240 //the drawable area can start to get very very large when you get down displaying 2x2 or smaller, this is because
241 //mapToPixel.mapUnitsPerPixel() is less then 1,
242 //so we will just get the pixel data and then render these special cases differently in paintImageToCanvas()
243
244 QgsDebugMsgLevel( QStringLiteral( "mapUnitsPerPixel = %1" ).arg( mapToPixel.mapUnitsPerPixel() ), 3 );
245 QgsDebugMsgLevel( QStringLiteral( "mWidth = %1" ).arg( layer->width() ), 3 );
246 QgsDebugMsgLevel( QStringLiteral( "mHeight = %1" ).arg( layer->height() ), 3 );
247 QgsDebugMsgLevel( QStringLiteral( "myRasterExtent.xMinimum() = %1" ).arg( myRasterExtent.xMinimum() ), 3 );
248 QgsDebugMsgLevel( QStringLiteral( "myRasterExtent.xMaximum() = %1" ).arg( myRasterExtent.xMaximum() ), 3 );
249 QgsDebugMsgLevel( QStringLiteral( "myRasterExtent.yMinimum() = %1" ).arg( myRasterExtent.yMinimum() ), 3 );
250 QgsDebugMsgLevel( QStringLiteral( "myRasterExtent.yMaximum() = %1" ).arg( myRasterExtent.yMaximum() ), 3 );
251
252 QgsDebugMsgLevel( QStringLiteral( "mTopLeftPoint.x() = %1" ).arg( mRasterViewPort->mTopLeftPoint.x() ), 3 );
253 QgsDebugMsgLevel( QStringLiteral( "mBottomRightPoint.x() = %1" ).arg( mRasterViewPort->mBottomRightPoint.x() ), 3 );
254 QgsDebugMsgLevel( QStringLiteral( "mTopLeftPoint.y() = %1" ).arg( mRasterViewPort->mTopLeftPoint.y() ), 3 );
255 QgsDebugMsgLevel( QStringLiteral( "mBottomRightPoint.y() = %1" ).arg( mRasterViewPort->mBottomRightPoint.y() ), 3 );
256
257 QgsDebugMsgLevel( QStringLiteral( "mWidth = %1" ).arg( mRasterViewPort->mWidth ), 3 );
258 QgsDebugMsgLevel( QStringLiteral( "mHeight = %1" ).arg( mRasterViewPort->mHeight ), 3 );
259
260 // /\/\/\ - added to handle zoomed-in rasters
261
262 // TODO R->mLastViewPort = *mRasterViewPort;
263
264 // TODO: is it necessary? Probably WMS only?
265 layer->dataProvider()->setDpi( std::floor( dpi * rendererContext.devicePixelRatio() ) );
266
267 // copy the whole raster pipe!
268 mPipe.reset( new QgsRasterPipe( *layer->pipe() ) );
269
270 QObject::connect( mPipe->provider(), &QgsRasterDataProvider::statusChanged, layer, &QgsRasterLayer::statusChanged );
271 QgsRasterRenderer *rasterRenderer = mPipe->renderer();
272 if ( rasterRenderer
273 && !( rendererContext.flags() & Qgis::RenderContextFlag::RenderPreviewJob )
274 && !( rendererContext.flags() & Qgis::RenderContextFlag::Render3DMap ) )
275 {
276 layer->refreshRendererIfNeeded( rasterRenderer, rendererContext.extent() );
277 }
278
279 mPipe->evaluateDataDefinedProperties( rendererContext.expressionContext() );
280
281 const QgsRasterLayerTemporalProperties *temporalProperties = qobject_cast< const QgsRasterLayerTemporalProperties * >( layer->temporalProperties() );
282 const QgsRasterLayerElevationProperties *elevationProperties = qobject_cast<QgsRasterLayerElevationProperties *>( layer->elevationProperties() );
283
284 if ( ( temporalProperties->isActive() && renderContext()->isTemporal() )
285 || ( elevationProperties->hasElevation() && !renderContext()->zRange().isInfinite() ) )
286 {
287 // temporal and/or elevation band filtering may be applicable
288 bool matched = false;
290 layer,
291 rendererContext.temporalRange(),
292 rendererContext.zRange(),
293 matched
294 );
295 if ( matched && matchedBand > 0 )
296 {
297 mPipe->renderer()->setInputBand( matchedBand );
298 }
299 }
300
301 if ( temporalProperties->isActive() && renderContext()->isTemporal() )
302 {
303 switch ( temporalProperties->mode() )
304 {
308 break;
309
311 if ( mPipe->renderer()->usesBands().contains( temporalProperties->bandNumber() ) )
312 {
313 // if layer has elevation settings and we are only rendering a temporal range => we need to filter pixels by temporal values
314 std::unique_ptr< QgsRasterTransparency > transparency;
315 if ( const QgsRasterTransparency *rendererTransparency = mPipe->renderer()->rasterTransparency() )
316 transparency = std::make_unique< QgsRasterTransparency >( *rendererTransparency );
317 else
318 transparency = std::make_unique< QgsRasterTransparency >();
319
320 QVector<QgsRasterTransparency::TransparentSingleValuePixel> transparentPixels = transparency->transparentSingleValuePixelList();
321
322 const QDateTime &offset = temporalProperties->temporalRepresentationOffset();
323 const QgsInterval &scale = temporalProperties->temporalRepresentationScale();
324 const double adjustedLower = static_cast< double >( offset.msecsTo( rendererContext.temporalRange().begin() ) ) * QgsUnitTypes::fromUnitToUnitFactor( Qgis::TemporalUnit::Milliseconds, scale.originalUnit() ) / scale.originalDuration();
325 const double adjustedUpper = static_cast< double >( offset.msecsTo( rendererContext.temporalRange().end() ) ) * QgsUnitTypes::fromUnitToUnitFactor( Qgis::TemporalUnit::Milliseconds, scale.originalUnit() ) / scale.originalDuration();
326 transparentPixels.append( QgsRasterTransparency::TransparentSingleValuePixel( std::numeric_limits<double>::lowest(), adjustedLower, 0, true, !rendererContext.zRange().includeLower() ) );
327 transparentPixels.append( QgsRasterTransparency::TransparentSingleValuePixel( adjustedUpper, std::numeric_limits<double>::max(), 0, !rendererContext.zRange().includeUpper(), true ) );
328
329 transparency->setTransparentSingleValuePixelList( transparentPixels );
330 mPipe->renderer()->setRasterTransparency( transparency.release() );
331 }
332 break;
333
335 // in this mode we need to pass on the desired render temporal range to the data provider
336 if ( QgsRasterDataProviderTemporalCapabilities *temporalCapabilities = mPipe->provider()->temporalCapabilities() )
337 {
338 temporalCapabilities->setRequestedTemporalRange( rendererContext.temporalRange() );
339 temporalCapabilities->setIntervalHandlingMethod( temporalProperties->intervalHandlingMethod() );
340 }
341 break;
342 }
343 }
344 else if ( QgsRasterDataProviderTemporalCapabilities *temporalCapabilities = mPipe->provider()->temporalCapabilities() )
345 {
346 temporalCapabilities->setRequestedTemporalRange( QgsDateTimeRange() );
347 temporalCapabilities->setIntervalHandlingMethod( temporalProperties->intervalHandlingMethod() );
348 }
349
351
352 if ( elevationProperties && elevationProperties->hasElevation() )
353 {
354 mDrawElevationMap = true;
355 mElevationScale = elevationProperties->zScale();
356 mElevationOffset = elevationProperties->zOffset();
357 mElevationBand = elevationProperties->bandNumber();
358
359 if ( !rendererContext.zRange().isInfinite() )
360 {
361 // NOLINTBEGIN(bugprone-branch-clone)
362 switch ( elevationProperties->mode() )
363 {
365 // don't need to handle anything here -- the layer renderer will never be created if the
366 // render context range doesn't match the layer's fixed elevation range
367 break;
368
371 // temporal/elevation band based filtering was already handled earlier in this method
372 break;
373
375 {
376 if ( mPipe->renderer()->usesBands().contains( mElevationBand ) )
377 {
378 // if layer has elevation settings and we are only rendering a slice of z values => we need to filter pixels by elevation
379 if ( mPipe->renderer()->flags() & Qgis::RasterRendererFlag::UseNoDataForOutOfRangePixels )
380 {
381 std::unique_ptr< QgsRasterNuller> nuller;
382 if ( const QgsRasterNuller *existingNuller = mPipe->nuller() )
383 nuller.reset( existingNuller->clone() );
384 else
385 nuller = std::make_unique< QgsRasterNuller >();
386
387 // account for z offset/zscale by reversing these calculations, so that we get the z range in
388 // raw pixel values
389 QgsRasterRangeList nullRanges;
390 const double adjustedLower = ( rendererContext.zRange().lower() - mElevationOffset ) / mElevationScale;
391 const double adjustedUpper = ( rendererContext.zRange().upper() - mElevationOffset ) / mElevationScale;
392 nullRanges.append( QgsRasterRange( std::numeric_limits<double>::lowest(), adjustedLower, rendererContext.zRange().includeLower() ? QgsRasterRange::BoundsType::IncludeMin : QgsRasterRange::BoundsType::IncludeMinAndMax ) );
393 nullRanges.append( QgsRasterRange( adjustedUpper, std::numeric_limits<double>::max(), rendererContext.zRange().includeUpper() ? QgsRasterRange::BoundsType::IncludeMax : QgsRasterRange::BoundsType::IncludeMinAndMax ) );
394 nuller->setOutputNoDataValue( mElevationBand, static_cast< int >( adjustedLower - 1 ) );
395 nuller->setNoData( mElevationBand, nullRanges );
396
397 if ( !mPipe->insert( 1, nuller.release() ) )
398 {
399 QgsDebugError( QStringLiteral( "Cannot set pipe nuller" ) );
400 }
401 }
402 else
403 {
404 std::unique_ptr< QgsRasterTransparency > transparency;
405 if ( const QgsRasterTransparency *rendererTransparency = mPipe->renderer()->rasterTransparency() )
406 transparency = std::make_unique< QgsRasterTransparency >( *rendererTransparency );
407 else
408 transparency = std::make_unique< QgsRasterTransparency >();
409
410 QVector<QgsRasterTransparency::TransparentSingleValuePixel> transparentPixels = transparency->transparentSingleValuePixelList();
411
412 // account for z offset/zscale by reversing these calculations, so that we get the z range in
413 // raw pixel values
414 const double adjustedLower = ( rendererContext.zRange().lower() - mElevationOffset ) / mElevationScale;
415 const double adjustedUpper = ( rendererContext.zRange().upper() - mElevationOffset ) / mElevationScale;
416 transparentPixels.append( QgsRasterTransparency::TransparentSingleValuePixel( std::numeric_limits<double>::lowest(), adjustedLower, 0, true, !rendererContext.zRange().includeLower() ) );
417 transparentPixels.append( QgsRasterTransparency::TransparentSingleValuePixel( adjustedUpper, std::numeric_limits<double>::max(), 0, !rendererContext.zRange().includeUpper(), true ) );
418
419 transparency->setTransparentSingleValuePixelList( transparentPixels );
420 mPipe->renderer()->setRasterTransparency( transparency.release() );
421 }
422 }
423 break;
424 }
425 }
426 // NOLINTEND(bugprone-branch-clone)
427 }
428 }
429
430 mFeedback->setRenderContext( rendererContext );
431
432 mPipe->moveToThread( nullptr );
433
434 mPreparationTime = timer.elapsed();
435}
436
438{
439 delete mFeedback;
440
441 delete mRasterViewPort;
442}
443
445{
446 std::unique_ptr< QgsScopedRuntimeProfile > profile;
447 if ( mEnableProfile )
448 {
449 profile = std::make_unique< QgsScopedRuntimeProfile >( mLayerName, QStringLiteral( "rendering" ), layerId() );
450 if ( mPreparationTime > 0 )
451 QgsApplication::profiler()->record( QObject::tr( "Create renderer" ), mPreparationTime / 1000.0, QStringLiteral( "rendering" ) );
452 }
453
454 // Skip rendering of out of view tiles (xyz)
455 if ( !mRasterViewPort || ( renderContext()->testFlag( Qgis::RenderContextFlag::RenderPreviewJob ) &&
456 !( mInterfaceCapabilities &
458 return true;
459
460 mPipe->moveToThread( QThread::currentThread() );
461
462 QElapsedTimer time;
463 time.start();
464
465 std::unique_ptr< QgsScopedRuntimeProfile > preparingProfile;
466 if ( mEnableProfile )
467 {
468 preparingProfile = std::make_unique< QgsScopedRuntimeProfile >( QObject::tr( "Preparing render" ), QStringLiteral( "rendering" ) );
469 }
470
471 //
472 //
473 // The goal here is to make as many decisions as possible early on (outside of the rendering loop)
474 // so that we can maximise performance of the rendering process. So now we check which drawing
475 // procedure to use :
476 //
477
478 const QgsScopedQPainterState painterSate( renderContext()->painter() );
479 if ( !mClippingRegions.empty() )
480 {
481 bool needsPainterClipPath = false;
482 const QPainterPath path = QgsMapClippingUtils::calculatePainterClipRegion( mClippingRegions, *renderContext(), Qgis::LayerType::Raster, needsPainterClipPath );
483 if ( needsPainterClipPath )
484 renderContext()->painter()->setClipPath( path, Qt::IntersectClip );
485 }
486
487 QgsRasterProjector *projector = mPipe->projector();
488 bool restoreOldResamplingStage = false;
489 const Qgis::RasterResamplingStage oldResamplingState = mPipe->resamplingStage();
490
491 // TODO add a method to interface to get provider and get provider
492 // params in QgsRasterProjector
493 if ( projector )
494 {
495 // Force provider resampling if reprojection is needed
496 if ( ( mPipe->provider()->providerCapabilities() & Qgis::RasterProviderCapability::ProviderHintCanPerformProviderResampling ) &&
497 mRasterViewPort->mSrcCRS != mRasterViewPort->mDestCRS &&
498 oldResamplingState != Qgis::RasterResamplingStage::Provider )
499 {
500 restoreOldResamplingStage = true;
501 mPipe->setResamplingStage( Qgis::RasterResamplingStage::Provider );
502 }
503 projector->setCrs( mRasterViewPort->mSrcCRS, mRasterViewPort->mDestCRS, mRasterViewPort->mTransformContext );
504 }
505
506 // important -- disable SmoothPixmapTransform for raster layer renders. We want individual pixels to be clearly defined!
507 renderContext()->painter()->setRenderHint( QPainter::SmoothPixmapTransform, false );
508
509 preparingProfile.reset();
510 std::unique_ptr< QgsScopedRuntimeProfile > renderingProfile;
511 if ( mEnableProfile )
512 {
513 renderingProfile = std::make_unique< QgsScopedRuntimeProfile >( QObject::tr( "Rendering" ), QStringLiteral( "rendering" ) );
514 }
515
516 // Drawer to pipe?
517 QgsRasterIterator iterator( mPipe->last() );
518
519 // Get the maximum tile size from the provider and set it as the maximum tile size for the iterator
520 if ( QgsRasterDataProvider *provider = mPipe->provider() )
521 {
522 const QSize maxTileSize {provider->maximumTileSize()};
523 iterator.setMaximumTileWidth( maxTileSize.width() );
524 iterator.setMaximumTileHeight( maxTileSize.height() );
525 }
526
527 QgsRasterDrawer drawer( &iterator );
528 drawer.draw( *( renderContext() ), mRasterViewPort, mFeedback );
529
530 if ( mDrawElevationMap )
531 drawElevationMap();
532
533 if ( restoreOldResamplingStage )
534 {
535 mPipe->setResamplingStage( oldResamplingState );
536 }
537
538 const QStringList errors = mFeedback->errors();
539 for ( const QString &error : errors )
540 {
541 mErrors.append( error );
542 }
543
544 QgsDebugMsgLevel( QStringLiteral( "total raster draw time (ms): %1" ).arg( time.elapsed(), 5 ), 4 );
545 mReadyToCompose = true;
546
547 mPipe->moveToThread( nullptr );
548
549 return !mFeedback->isCanceled();
550}
551
553{
554 return mFeedback;
555}
556
558{
559 if ( !mRasterViewPort || !mPipe )
560 return false; // this layer is not going to get rendered
561
562 // preview of intermediate raster rendering results requires a temporary output image
564 return true;
565
566 if ( QgsRasterRenderer *renderer = mPipe->renderer() )
567 {
569 && renderContext()->testFlag( Qgis::RenderContextFlag::UseAdvancedEffects ) && ( !qgsDoubleNear( mLayerOpacity, 1.0 ) ) )
570 return true;
571 }
572
573 return false;
574}
575
576void QgsRasterLayerRenderer::drawElevationMap()
577{
578 QgsRasterDataProvider *dataProvider = mPipe->provider();
579 if ( renderContext()->elevationMap() && dataProvider )
580 {
581 double dpiScalefactor;
582
583 if ( renderContext()->dpiTarget() >= 0.0 )
584 dpiScalefactor = renderContext()->dpiTarget() / ( renderContext()->scaleFactor() * 25.4 );
585 else
586 dpiScalefactor = 1.0;
587
588 int outputWidth = static_cast<int>( static_cast<double>( mRasterViewPort->mWidth ) / dpiScalefactor * renderContext()->devicePixelRatio() );
589 int outputHeight = static_cast<int>( static_cast<double>( mRasterViewPort->mHeight ) / dpiScalefactor * renderContext()->devicePixelRatio() );
590
591 QSize viewSize = renderContext()->deviceOutputSize();
592 int viewWidth = static_cast<int>( viewSize.width() / dpiScalefactor );
593 int viewHeight = static_cast<int>( viewSize.height() / dpiScalefactor );
594
595 bool canRenderElevation = false;
596 std::unique_ptr<QgsRasterBlock> elevationBlock;
597 if ( mRasterViewPort->mSrcCRS == mRasterViewPort->mDestCRS )
598 {
599 elevationBlock.reset(
600 dataProvider->block(
601 mElevationBand,
602 mRasterViewPort->mDrawnExtent,
603 outputWidth,
604 outputHeight,
605 mFeedback ) );
606 canRenderElevation = true;
607 }
608 else
609 {
610 // Destinaton CRS is different from the source CRS.
611 // Using the raster projector lead to have big artifacts when rendering the elevation map.
612 // To get a smoother elevation map, we use GDAL resampling with coordinates transform
613 QgsRectangle viewExtentInLayerCoordinate = renderContext()->extent();
614
615 // If view extent is infinite, we use the data provider extent
616 if ( viewExtentInLayerCoordinate.xMinimum() == std::numeric_limits<double>::lowest() &&
617 viewExtentInLayerCoordinate.yMinimum() == std::numeric_limits<double>::lowest() &&
618 viewExtentInLayerCoordinate.xMaximum() == std::numeric_limits<double>::max() &&
619 viewExtentInLayerCoordinate.yMaximum() == std::numeric_limits<double>::max() )
620 {
621 viewExtentInLayerCoordinate = dataProvider->extent();
622 }
623
624 double xLayerResol = viewExtentInLayerCoordinate.width() / static_cast<double>( viewWidth );
625 double yLayerResol = viewExtentInLayerCoordinate.height() / static_cast<double>( viewHeight );
626
627 double overSampling = 1;
628 if ( mPipe->resampleFilter() )
629 overSampling = mPipe->resampleFilter()->maxOversampling();
630
632 {
633 // If the dataprovider has size capability, we calculate the requested resolution to provider
634 double providerXResol = dataProvider->extent().width() / dataProvider->xSize();
635 double providerYResol = dataProvider->extent().height() / dataProvider->ySize();
636 overSampling = ( xLayerResol / providerXResol + yLayerResol / providerYResol ) / 2;
637 }
638
639 GDALResampleAlg alg;
640 if ( overSampling > 1 )
642 else
644
645 Qgis::DataType dataType = dataProvider->dataType( mElevationBand );
646
647 if ( dataType != Qgis::DataType::UnknownDataType ) // resampling data by GDAL is not compatible with unknown data type
648 {
649 // we need extra pixels on border to avoid effect border with resampling (at least 2 pixels band for cubic alg)
650 int sourceWidth = viewWidth + 4;
651 int sourceHeight = viewHeight + 4;
652 viewExtentInLayerCoordinate = QgsRectangle(
653 viewExtentInLayerCoordinate.xMinimum() - xLayerResol * 2,
654 viewExtentInLayerCoordinate.yMinimum() - yLayerResol * 2,
655 viewExtentInLayerCoordinate.xMaximum() + xLayerResol * 2,
656 viewExtentInLayerCoordinate.yMaximum() + yLayerResol * 2 );
657
658 // Now we can do the resampling
659 std::unique_ptr<QgsRasterBlock> sourcedata( dataProvider->block( mElevationBand, viewExtentInLayerCoordinate, sourceWidth, sourceHeight, mFeedback ) );
660 gdal::dataset_unique_ptr gdalDsInput =
661 QgsGdalUtils::blockToSingleBandMemoryDataset( viewExtentInLayerCoordinate, sourcedata.get() );
662
663
664 elevationBlock.reset( new QgsRasterBlock( dataType,
665 outputWidth,
666 outputHeight ) );
667
668 elevationBlock->setNoDataValue( dataProvider->sourceNoDataValue( mElevationBand ) );
669
670 gdal::dataset_unique_ptr gdalDsOutput =
671 QgsGdalUtils::blockToSingleBandMemoryDataset( mRasterViewPort->mDrawnExtent, elevationBlock.get() );
672
673 // For coordinate transformation, we try to obtain a coordinate operation string from the transform context.
674 // Depending of the CRS, if we can't we use GDAL transformation directly from the source and destination CRS
675 QString coordinateOperation;
676 const QgsCoordinateTransformContext &transformContext = renderContext()->transformContext();
677 if ( transformContext.mustReverseCoordinateOperation( mRasterViewPort->mSrcCRS, mRasterViewPort->mDestCRS ) )
678 coordinateOperation = transformContext.calculateCoordinateOperation( mRasterViewPort->mDestCRS, mRasterViewPort->mSrcCRS );
679 else
680 coordinateOperation = transformContext.calculateCoordinateOperation( mRasterViewPort->mSrcCRS, mRasterViewPort->mDestCRS );
681
682 if ( coordinateOperation.isEmpty() )
683 canRenderElevation = QgsGdalUtils::resampleSingleBandRaster( gdalDsInput.get(), gdalDsOutput.get(), alg,
684 mRasterViewPort->mSrcCRS, mRasterViewPort->mDestCRS );
685 else
686 canRenderElevation = QgsGdalUtils::resampleSingleBandRaster( gdalDsInput.get(), gdalDsOutput.get(), alg,
687 coordinateOperation.toUtf8().constData() );
688 }
689 }
690
691 if ( canRenderElevation )
692 {
693 QPoint topLeft;
694 if ( renderContext()->mapToPixel().mapRotation() != 0 )
695 {
696 // Now rendering elevation on the elevation map, we need to take care of rotation:
697 // again a resampling but this time with a geotransform.
698 const QgsMapToPixel &mtp = renderContext()->mapToPixel();
700
701 int elevMapWidth = elevMap->rawElevationImage().width();
702 int elevMapHeight = elevMap->rawElevationImage().height();
703
704 int bottom = 0;
705 int top = elevMapHeight;
706 int left = elevMapWidth;
707 int right = 0;
708
709 QList<QgsPointXY> corners;
710 corners << QgsPointXY( mRasterViewPort->mDrawnExtent.xMinimum(), mRasterViewPort->mDrawnExtent.yMinimum() )
711 << QgsPointXY( mRasterViewPort->mDrawnExtent.xMaximum(), mRasterViewPort->mDrawnExtent.yMaximum() )
712 << QgsPointXY( mRasterViewPort->mDrawnExtent.xMinimum(), mRasterViewPort->mDrawnExtent.yMaximum() )
713 << QgsPointXY( mRasterViewPort->mDrawnExtent.xMaximum(), mRasterViewPort->mDrawnExtent.yMinimum() );
714
715 for ( const QgsPointXY &corner : std::as_const( corners ) )
716 {
717 const QgsPointXY dpt = mtp.transform( corner );
718 int x = static_cast<int>( std::round( dpt.x() ) );
719 int y = static_cast<int>( std::round( dpt.y() ) );
720
721 if ( x < left )
722 left = x;
723 if ( x > right )
724 right = x;
725 if ( y < top )
726 top = y;
727 if ( y > bottom )
728 bottom = y;
729 }
730
731 const QgsPointXY origin = mtp.toMapCoordinates( left, top );
732 double gridXSize = mtp.toMapCoordinates( right, top ).distance( origin );
733 double gridYSize = mtp.toMapCoordinates( left, bottom ).distance( origin );
734 double angleRad = renderContext()->mapToPixel().mapRotation() / 180 * M_PI;
735
736 gdal::dataset_unique_ptr gdalDsInput =
737 QgsGdalUtils::blockToSingleBandMemoryDataset( mRasterViewPort->mDrawnExtent, elevationBlock.get() );
738
739 std::unique_ptr<QgsRasterBlock> rotatedElevationBlock =
740 std::make_unique<QgsRasterBlock>( elevationBlock->dataType(),
741 ( right - left ) * renderContext()->devicePixelRatio() + 1,
742 ( bottom - top ) * renderContext()->devicePixelRatio() + 1 );
743
744 rotatedElevationBlock->setNoDataValue( elevationBlock->noDataValue() );
745
746 gdal::dataset_unique_ptr gdalDsOutput =
747 QgsGdalUtils::blockToSingleBandMemoryDataset( angleRad, origin, gridXSize, gridYSize, rotatedElevationBlock.get() );
748
750 gdalDsInput.get(),
751 gdalDsOutput.get(),
753 {
754 elevationBlock.reset( rotatedElevationBlock.release() );
755 }
756
757 topLeft = QPoint( left, top );
758 }
759 else
760 {
761 topLeft = mRasterViewPort->mTopLeftPoint.toQPointF().toPoint();
762 }
763
765 elevationBlock.get(),
766 topLeft.y() * renderContext()->devicePixelRatio(),
767 topLeft.x() * renderContext()->devicePixelRatio(),
768 mElevationScale,
769 mElevationOffset );
770 }
771 }
772}
The Qgis class provides global constants for use throughout the application.
Definition qgis.h:54
RasterResamplingStage
Stage at which raster resampling occurs.
Definition qgis.h:1380
@ Provider
Resampling occurs in Provider.
@ ProviderHintCanPerformProviderResampling
Provider can perform resampling (to be opposed to post rendering resampling)
@ DpiDependentData
Provider's rendering is dependent on requested pixel size of the viewport.
@ InternalLayerOpacityHandling
The renderer internally handles the raster layer's opacity, so the default layer level opacity handli...
@ UseNoDataForOutOfRangePixels
Out of range pixels (eg those values outside of the rendered map's z range filter) should be set usin...
@ FixedRangePerBand
Layer has a fixed (manually specified) elevation range per band.
@ FixedElevationRange
Layer has a fixed elevation range.
@ RepresentsElevationSurface
Pixel values represent an elevation surface.
@ DynamicRangePerBand
Layer has a elevation range per band, calculated dynamically from an expression.
@ Milliseconds
Milliseconds.
@ RepresentsTemporalValues
Pixel values represent an datetime.
@ RedrawLayerOnly
Redraw the layer when temporal range changes, but don't apply any filtering. Useful when raster symbo...
@ FixedRangePerBand
Layer has a fixed temporal range per band.
@ TemporalRangeFromDataProvider
Mode when raster layer delegates temporal range handling to the dataprovider.
@ FixedTemporalRange
Mode when temporal properties have fixed start and end datetimes.
@ Prefetch
Allow prefetching of out-of-view images.
@ Size
Original data source size (and thus resolution) is known, it is not always available,...
DataType
Raster data types.
Definition qgis.h:351
@ UnknownDataType
Unknown or unspecified type.
@ Raster
Raster layer.
@ RenderPreviewJob
Render is a 'canvas preview' render, and shortcuts should be taken to ensure fast rendering.
@ RenderPartialOutput
Whether to make extra effort to update map image with partially rendered layers (better for interacti...
@ Render3DMap
Render is for a 3D map.
@ UseAdvancedEffects
Enable layer opacity and blending effects.
static QgsRuntimeProfiler * profiler()
Returns the application runtime profiler.
This class represents a coordinate reference system (CRS).
Contains information about the context in which a coordinate transform is executed.
QString calculateCoordinateOperation(const QgsCoordinateReferenceSystem &source, const QgsCoordinateReferenceSystem &destination) const
Returns the Proj coordinate operation string to use when transforming from the specified source CRS t...
bool mustReverseCoordinateOperation(const QgsCoordinateReferenceSystem &source, const QgsCoordinateReferenceSystem &destination) const
Returns true if the coordinate operation returned by calculateCoordinateOperation() for the source to...
Class for doing transforms between two map coordinate systems.
void setBallparkTransformsAreAppropriate(bool appropriate)
Sets whether approximate "ballpark" results are appropriate for this coordinate transform.
QgsRectangle transformBoundingBox(const QgsRectangle &rectangle, Qgis::TransformDirection direction=Qgis::TransformDirection::Forward, bool handle180Crossover=false) const
Transforms a rectangle from the source CRS to the destination CRS.
bool isValid() const
Returns true if the coordinate transform is valid, ie both the source and destination CRS have been s...
QgsCoordinateReferenceSystem destinationCrs() const
Returns the destination coordinate reference system, which the transform will transform coordinates t...
Custom exception class for Coordinate Reference System related exceptions.
bool isInfinite() const
Returns true if the range consists of all possible values.
Definition qgsrange.h:285
Stores digital elevation model in a raster image which may get updated as a part of map layer renderi...
QImage rawElevationImage() const
Returns raw elevation image with elevations encoded as color values.
void fillWithRasterBlock(QgsRasterBlock *block, int top, int left, double zScale=1.0, double offset=0.0)
Fills the elevation map with values contains in a raster block starting from position defined by top ...
QString what() const
Base class for feedback objects to be used for cancellation of something running in a worker thread.
Definition qgsfeedback.h:44
static GDALResampleAlg gdalResamplingAlgorithm(QgsRasterDataProvider::ResamplingMethod method)
Returns the GDAL resampling method corresponding to the QGIS resampling method.
static bool resampleSingleBandRaster(GDALDatasetH hSrcDS, GDALDatasetH hDstDS, GDALResampleAlg resampleAlg, const char *pszCoordinateOperation)
Resamples a single band raster to the destination dataset with different resolution (and possibly wit...
static gdal::dataset_unique_ptr blockToSingleBandMemoryDataset(int pixelWidth, int pixelHeight, const QgsRectangle &extent, void *block, GDALDataType dataType)
Converts a data block to a single band GDAL memory dataset.
A representation of the interval between two datetime values.
Definition qgsinterval.h:46
double originalDuration() const
Returns the original interval duration.
Qgis::TemporalUnit originalUnit() const
Returns the original interval temporal unit.
static QPainterPath calculatePainterClipRegion(const QList< QgsMapClippingRegion > &regions, const QgsRenderContext &context, Qgis::LayerType layerType, bool &shouldClip)
Returns a QPainterPath representing the intersection of clipping regions from context which should be...
static QList< QgsMapClippingRegion > collectClippingRegionsForLayer(const QgsRenderContext &context, const QgsMapLayer *layer)
Collects the list of map clipping regions from a context which apply to a map layer.
double zScale() const
Returns the z scale, which is a scaling factor which should be applied to z values from the layer.
double zOffset() const
Returns the z offset, which is a fixed offset amount which should be added to z values from the layer...
Base class for utility classes that encapsulate information necessary for rendering of map layers.
bool mReadyToCompose
The flag must be set to false in renderer's constructor if wants to use the smarter map redraws funct...
QString layerId() const
Gets access to the ID of the layer rendered by this class.
QgsRenderContext * renderContext()
Returns the render context associated with the renderer.
QStringList errors() const
Returns list of errors (problems) that happened during the rendering.
virtual QgsRectangle extent() const
Returns the extent of the layer.
QgsCoordinateReferenceSystem crs
Definition qgsmaplayer.h:83
void statusChanged(const QString &status)
Emit a signal with status (e.g. to be caught by QgisApp and display a msg on status bar)
Perform transforms between map coordinates and device coordinates.
int mapHeight() const
Returns current map height in pixels.
void setMapRotation(double degrees, double cx, double cy)
Sets map rotation in degrees (clockwise).
double mapUnitsPerPixel() const
Returns the current map units per pixel.
QgsPointXY toMapCoordinates(int x, int y) const
Transforms device coordinates to map (world) coordinates.
int mapWidth() const
Returns the current map width in pixels.
QgsPointXY transform(const QgsPointXY &p) const
Transforms a point p from map (world) coordinates to device coordinates.
double mapRotation() const
Returns the current map rotation in degrees (clockwise).
static void logMessage(const QString &message, const QString &tag=QString(), Qgis::MessageLevel level=Qgis::MessageLevel::Warning, bool notifyUser=true)
Adds a message to the log instance (and creates it if necessary).
A class to represent a 2D point.
Definition qgspointxy.h:60
double distance(double x, double y) const
Returns the distance between this point and a specified x, y coordinate.
Definition qgspointxy.h:206
void setY(double y)
Sets the y value of the point.
Definition qgspointxy.h:129
double y
Definition qgspointxy.h:64
double x
Definition qgspointxy.h:63
void setX(double x)
Sets the x value of the point.
Definition qgspointxy.h:119
QPointF toQPointF() const
Converts a point to a QPointF.
Definition qgspointxy.h:165
bool includeUpper() const
Returns true if the upper bound is inclusive, or false if the upper bound is exclusive.
Definition qgsrange.h:101
T lower() const
Returns the lower bound of the range.
Definition qgsrange.h:78
bool includeLower() const
Returns true if the lower bound is inclusive, or false if the lower bound is exclusive.
Definition qgsrange.h:93
T upper() const
Returns the upper bound of the range.
Definition qgsrange.h:85
Feedback object tailored for raster block reading.
void setPreviewOnly(bool preview)
set flag whether the block request is for preview purposes only
void setRenderPartialOutput(bool enable)
Set whether our painter is drawing to a temporary image used just by this layer.
Raster data container.
Implementation of data provider temporal properties for QgsRasterDataProviders.
Base class for raster data providers.
virtual double sourceNoDataValue(int bandNo) const
Value representing no data value.
ResamplingMethod zoomedOutResamplingMethod() const
Returns resampling method for zoomed-out operations.
void setDpi(int dpi)
Sets the output device resolution.
QgsRectangle extent() const override=0
Returns the extent of the layer.
Qgis::DataType dataType(int bandNo) const override=0
Returns data type for the band specified by number.
QgsRasterBlock * block(int bandNo, const QgsRectangle &boundingBox, int width, int height, QgsRasterBlockFeedback *feedback=nullptr) override
Read block of data using given extent and size.
void statusChanged(const QString &) const
Emit a message to be displayed on status bar, usually used by network providers (WMS,...
ResamplingMethod zoomedInResamplingMethod() const
Returns resampling method for zoomed-in operations.
The drawing pipe for raster layers.
void draw(QPainter *p, QgsRasterViewPort *viewPort, const QgsMapToPixel *qgsMapToPixel, QgsRasterBlockFeedback *feedback=nullptr)
Draws raster data.
virtual Qgis::RasterInterfaceCapabilities capabilities() const
Returns the capabilities supported by the interface.
virtual int xSize() const
Gets raster size.
virtual int ySize() const
Iterator for sequentially processing raster cells.
void setMaximumTileWidth(int w)
Sets the maximum tile width returned during iteration.
void setMaximumTileHeight(int h)
Sets the minimum tile height returned during iteration.
Raster layer specific subclass of QgsMapLayerElevationProperties.
Qgis::RasterElevationMode mode() const
Returns the elevation mode.
bool hasElevation() const override
Returns true if the layer has an elevation or z component.
int bandNumber() const
Returns the band number from which the elevation should be taken.
Implementation of threaded rendering for raster layers.
bool render() override
Do the rendering (based on data stored in the class).
QgsRasterLayerRenderer(QgsRasterLayer *layer, QgsRenderContext &rendererContext)
bool forceRasterRender() const override
Returns true if the renderer must be rendered to a raster paint device (e.g.
QgsFeedback * feedback() const override
Access to feedback object of the layer renderer (may be nullptr)
Implementation of map layer temporal properties for raster layers.
QDateTime temporalRepresentationOffset() const
Returns the temporal offset, which is a fixed datetime which should be added to individual pixel valu...
Qgis::TemporalIntervalMatchMethod intervalHandlingMethod() const
Returns the desired method to use when resolving a temporal interval to matching layers or bands in t...
const QgsInterval & temporalRepresentationScale() const
Returns the scale, which is an interval factor which should be applied to individual pixel values fro...
Qgis::RasterTemporalMode mode() const
Returns the temporal properties mode.
int bandNumber() const
Returns the band number from which temporal values should be taken.
static int renderedBandForElevationAndTemporalRange(QgsRasterLayer *layer, const QgsDateTimeRange &temporalRange, const QgsDoubleRange &elevationRange, bool &matched)
Given a raster layer, returns the band which should be used for rendering the layer for a specified t...
Represents a raster layer.
int height() const
Returns the height of the (unclipped) raster.
void refreshRendererIfNeeded(QgsRasterRenderer *rasterRenderer, const QgsRectangle &extent)
Refresh renderer with new extent, if needed.
QgsMapLayerTemporalProperties * temporalProperties() override
Returns the layer's temporal properties.
QgsRasterPipe * pipe()
Returns the raster pipe.
bool ignoreExtents() const
If the ignoreExtent flag is set, the layer will also render outside the bounding box reported by the ...
QgsRasterDataProvider * dataProvider() override
Returns the source data provider.
int width() const
Returns the width of the (unclipped) raster.
QgsMapLayerElevationProperties * elevationProperties() override
Returns the layer's elevation properties.
Raster pipe that deals with null values.
Contains a pipeline of raster interfaces for sequential raster processing.
Implements approximate projection support for optimised raster transformation.
Q_DECL_DEPRECATED void setCrs(const QgsCoordinateReferenceSystem &srcCRS, const QgsCoordinateReferenceSystem &destCRS, int srcDatumTransform=-1, int destDatumTransform=-1)
Sets the source and destination CRS.
Raster values range container.
@ IncludeMin
Include the min value, but not the max value, e.g. min <= value < max.
@ IncludeMinAndMax
Min and max values are inclusive.
@ IncludeMax
Include the max value, but not the min value, e.g. min < value <= max.
Raster renderer pipe that applies colors to a raster.
Defines the list of pixel values to be considered as transparent or semi transparent when rendering r...
A rectangle specified with double values.
QString toString(int precision=16) const
Returns a string representation of form xmin,ymin : xmax,ymax Coordinates will be truncated to the sp...
double xMinimum() const
Returns the x minimum value (left side of rectangle).
double yMinimum() const
Returns the y minimum value (bottom side of rectangle).
double width() const
Returns the width of the rectangle.
double xMaximum() const
Returns the x maximum value (right side of rectangle).
double yMaximum() const
Returns the y maximum value (top side of rectangle).
void set(const QgsPointXY &p1, const QgsPointXY &p2, bool normalize=true)
Sets the rectangle from two QgsPoints.
bool isEmpty() const
Returns true if the rectangle has no area.
double height() const
Returns the height of the rectangle.
void setNull()
Mark a rectangle as being null (holding no spatial information).
QgsRectangle intersect(const QgsRectangle &rect) const
Returns the intersection with the given rectangle.
Contains information about the context of a rendering operation.
double scaleFactor() const
Returns the scaling factor for the render to convert painter units to physical sizes.
QPainter * painter()
Returns the destination QPainter for the render operation.
QgsExpressionContext & expressionContext()
Gets the expression context.
QgsCoordinateTransformContext transformContext() const
Returns the context's coordinate transform context, which stores various information regarding which ...
QgsElevationMap * elevationMap() const
Returns the destination elevation map for the render operation.
const QgsRectangle & extent() const
When rendering a map layer, calling this method returns the "clipping" extent for the layer (in the l...
bool testFlag(Qgis::RenderContextFlag flag) const
Check whether a particular flag is enabled.
void setDpiTarget(double dpi)
Sets the targeted dpi for rendering.
float devicePixelRatio() const
Returns the device pixel ratio.
double dpiTarget() const
Returns the targeted DPI for rendering.
const QgsMapToPixel & mapToPixel() const
Returns the context's map to pixel transform, which transforms between map coordinates and device coo...
QgsDoubleRange zRange() const
Returns the range of z-values which should be rendered.
QSize deviceOutputSize() const
Returns the device output size of the render.
QgsCoordinateTransform coordinateTransform() const
Returns the current coordinate transform for the context.
Qgis::RenderContextFlags flags() const
Returns combination of flags used for rendering.
void record(const QString &name, double time, const QString &group="startup", const QString &id=QString())
Manually adds a profile event with the given name and total time (in seconds).
Scoped object for saving and restoring a QPainter object's state.
bool isActive() const
Returns true if the temporal property is active.
const QgsDateTimeRange & temporalRange() const
Returns the datetime range for the object.
T begin() const
Returns the beginning of the range.
Definition qgsrange.h:444
T end() const
Returns the upper bound of the range.
Definition qgsrange.h:451
static Q_INVOKABLE double fromUnitToUnitFactor(Qgis::DistanceUnit fromUnit, Qgis::DistanceUnit toUnit)
Returns the conversion factor between the specified distance units.
std::unique_ptr< std::remove_pointer< GDALDatasetH >::type, GDALDatasetCloser > dataset_unique_ptr
Scoped GDAL dataset.
unsigned long long qgssize
Qgssize is used instead of size_t, because size_t is stdlib type, unknown by SIP, and it would be har...
Definition qgis.h:6506
bool qgsDoubleNear(double a, double b, double epsilon=4 *std::numeric_limits< double >::epsilon())
Compare two doubles (but allow some difference)
Definition qgis.h:5958
#define QgsDebugMsgLevel(str, level)
Definition qgslogger.h:39
#define QgsDebugError(str)
Definition qgslogger.h:38
QgsTemporalRange< QDateTime > QgsDateTimeRange
QgsRange which stores a range of date times.
Definition qgsrange.h:742
QList< QgsRasterRange > QgsRasterRangeList
Defines the transparency for a range of single-band pixel values.
This class provides details of the viewable area that a raster will be rendered into.
qgssize mHeight
Height, number of rows to be rendered.
QgsCoordinateReferenceSystem mDestCRS
Target coordinate system.
QgsPointXY mBottomRightPoint
Coordinate (in output device coordinate system) of bottom right corner of the part of the raster that...
QgsPointXY mTopLeftPoint
Coordinate (in output device coordinate system) of top left corner of the part of the raster that is ...
QgsCoordinateReferenceSystem mSrcCRS
Source coordinate system.
QgsRectangle mDrawnExtent
Intersection of current map extent and layer extent.
QgsCoordinateTransformContext mTransformContext
Coordinate transform context.
qgssize mWidth
Width, number of columns to be rendered.