QGIS API Documentation 3.28.0-Firenze (ed3ad0430f)
qgsvectorlayerrenderer.cpp
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1/***************************************************************************
2 qgsvectorlayerrenderer.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
18#include "diagram/qgsdiagram.h"
19
20#include "qgsdiagramrenderer.h"
21#include "qgsmessagelog.h"
22#include "qgspallabeling.h"
23#include "qgsrenderer.h"
24#include "qgsrendercontext.h"
26#include "qgssymbollayer.h"
27#include "qgssymbollayerutils.h"
28#include "qgssymbol.h"
29#include "qgsvectorlayer.h"
34#include "qgspainteffect.h"
36#include "qgsexception.h"
37#include "qgslabelsink.h"
38#include "qgslogger.h"
43#include "qgsmapclippingutils.h"
45
46#include <QPicture>
47#include <QTimer>
48
50 : QgsMapLayerRenderer( layer->id(), &context )
51 , mFeedback( std::make_unique< QgsFeedback >() )
52 , mLayer( layer )
53 , mFields( layer->fields() )
54 , mSource( std::make_unique< QgsVectorLayerFeatureSource >( layer ) )
55 , mNoSetLayerExpressionContext( layer->customProperty( QStringLiteral( "_noset_layer_expression_context" ) ).toBool() )
56{
57 std::unique_ptr< QgsFeatureRenderer > mainRenderer( layer->renderer() ? layer->renderer()->clone() : nullptr );
58
59 if ( !mainRenderer )
60 return;
61
62 QList< const QgsFeatureRendererGenerator * > generators = layer->featureRendererGenerators();
63 std::sort( generators.begin(), generators.end(), []( const QgsFeatureRendererGenerator * g1, const QgsFeatureRendererGenerator * g2 )
64 {
65 return g1->level() < g2->level();
66 } );
67
68 bool insertedMainRenderer = false;
69 double prevLevel = std::numeric_limits< double >::lowest();
70 mRenderer = mainRenderer.get();
71 for ( const QgsFeatureRendererGenerator *generator : std::as_const( generators ) )
72 {
73 if ( generator->level() >= 0 && prevLevel < 0 && !insertedMainRenderer )
74 {
75 // insert main renderer when level changes from <0 to >0
76 mRenderers.emplace_back( std::move( mainRenderer ) );
77 insertedMainRenderer = true;
78 }
79 mRenderers.emplace_back( generator->createRenderer() );
80 prevLevel = generator->level();
81 }
82 // cppcheck-suppress accessMoved
83 if ( mainRenderer )
84 {
85 // cppcheck-suppress accessMoved
86 mRenderers.emplace_back( std::move( mainRenderer ) );
87 }
88
89 mSelectedFeatureIds = layer->selectedFeatureIds();
90
91 mDrawVertexMarkers = nullptr != layer->editBuffer();
92
93 mGeometryType = layer->geometryType();
94
95 mFeatureBlendMode = layer->featureBlendMode();
96
97 if ( context.isTemporal() )
98 {
99 QgsVectorLayerTemporalContext temporalContext;
100 temporalContext.setLayer( layer );
101 mTemporalFilter = qobject_cast< const QgsVectorLayerTemporalProperties * >( layer->temporalProperties() )->createFilterString( temporalContext, context.temporalRange() );
102 QgsDebugMsgLevel( "Rendering with Temporal Filter: " + mTemporalFilter, 2 );
103 }
104
105 // if there's already a simplification method specified via the context, we respect that. Otherwise, we fall back
106 // to the layer's individual setting
107 if ( renderContext()->vectorSimplifyMethod().simplifyHints() != QgsVectorSimplifyMethod::NoSimplification )
108 {
109 mSimplifyMethod = renderContext()->vectorSimplifyMethod();
112 }
113 else
114 {
115 mSimplifyMethod = layer->simplifyMethod();
117 }
118
120
122 if ( markerTypeString == QLatin1String( "Cross" ) )
123 {
124 mVertexMarkerStyle = Qgis::VertexMarkerType::Cross;
125 }
126 else if ( markerTypeString == QLatin1String( "SemiTransparentCircle" ) )
127 {
129 }
130 else
131 {
132 mVertexMarkerStyle = Qgis::VertexMarkerType::NoMarker;
133 }
134
136
137 QgsDebugMsgLevel( "rendering v2:\n " + mRenderer->dump(), 2 );
138
139 if ( mDrawVertexMarkers )
140 {
141 // set editing vertex markers style (main renderer only)
142 mRenderer->setVertexMarkerAppearance( mVertexMarkerStyle, mVertexMarkerSize );
143 }
144 if ( !mNoSetLayerExpressionContext )
146
147 for ( const std::unique_ptr< QgsFeatureRenderer > &renderer : mRenderers )
148 {
149 mAttrNames.unite( renderer->usedAttributes( context ) );
150 }
151 if ( context.hasRenderedFeatureHandlers() )
152 {
153 const QList< QgsRenderedFeatureHandlerInterface * > handlers = context.renderedFeatureHandlers();
154 for ( QgsRenderedFeatureHandlerInterface *handler : handlers )
155 mAttrNames.unite( handler->usedAttributes( layer, context ) );
156 }
157
158 //register label and diagram layer to the labeling engine
159 prepareLabeling( layer, mAttrNames );
160 prepareDiagrams( layer, mAttrNames );
161
162 mClippingRegions = QgsMapClippingUtils::collectClippingRegionsForLayer( context, layer );
163
164 if ( std::any_of( mRenderers.begin(), mRenderers.end(), []( const auto & renderer ) { return renderer->forceRasterRender(); } ) )
165 {
166 //raster rendering is forced for this layer
167 mForceRasterRender = true;
168 }
169
171 ( ( layer->blendMode() != QPainter::CompositionMode_SourceOver )
172 || ( layer->featureBlendMode() != QPainter::CompositionMode_SourceOver )
173 || ( !qgsDoubleNear( layer->opacity(), 1.0 ) ) ) )
174 {
175 //layer properties require rasterization
176 mForceRasterRender = true;
177 }
178
179 mReadyToCompose = false;
180}
181
183
185{
186 mRenderTimeHint = time;
187}
188
190{
191 return mFeedback.get();
192}
193
195{
196 return mForceRasterRender;
197}
198
200{
201 if ( mGeometryType == QgsWkbTypes::NullGeometry || mGeometryType == QgsWkbTypes::UnknownGeometry )
202 {
203 mReadyToCompose = true;
204 return true;
205 }
206
207 if ( mRenderers.empty() )
208 {
209 mReadyToCompose = true;
210 mErrors.append( QObject::tr( "No renderer for drawing." ) );
211 return false;
212 }
213
214 // if the previous layer render was relatively quick (e.g. less than 3 seconds), the we show any previously
215 // cached version of the layer during rendering instead of the usual progressive updates
216 if ( mRenderTimeHint > 0 && mRenderTimeHint <= MAX_TIME_TO_USE_CACHED_PREVIEW_IMAGE )
217 {
218 mBlockRenderUpdates = true;
219 mElapsedTimer.start();
220 }
221
222 bool res = true;
223 for ( const std::unique_ptr< QgsFeatureRenderer > &renderer : mRenderers )
224 {
225 res = renderInternal( renderer.get() ) && res;
226 }
227
228 mReadyToCompose = true;
229 return res && !renderContext()->renderingStopped();
230}
231
232bool QgsVectorLayerRenderer::renderInternal( QgsFeatureRenderer *renderer )
233{
234 const bool isMainRenderer = renderer == mRenderer;
235
236 QgsRenderContext &context = *renderContext();
237 context.setSymbologyReferenceScale( renderer->referenceScale() );
238
239 if ( renderer->type() == QLatin1String( "nullSymbol" ) )
240 {
241 // a little shortcut for the null symbol renderer - most of the time it is not going to render anything
242 // so we can even skip the whole loop to fetch features
243 if ( !isMainRenderer ||
244 ( !mDrawVertexMarkers && !mLabelProvider && !mDiagramProvider && mSelectedFeatureIds.isEmpty() ) )
245 return true;
246 }
247
248 QgsScopedQPainterState painterState( context.painter() );
249
250 bool usingEffect = false;
251 if ( renderer->paintEffect() && renderer->paintEffect()->enabled() )
252 {
253 usingEffect = true;
254 renderer->paintEffect()->begin( context );
255 }
256
257 // Per feature blending mode
258 if ( context.useAdvancedEffects() && mFeatureBlendMode != QPainter::CompositionMode_SourceOver )
259 {
260 // set the painter to the feature blend mode, so that features drawn
261 // on this layer will interact and blend with each other
262 context.painter()->setCompositionMode( mFeatureBlendMode );
263 }
264
265 renderer->startRender( context, mFields );
266
267 QString rendererFilter = renderer->filter( mFields );
268
269 QgsRectangle requestExtent = context.extent();
270 if ( !mClippingRegions.empty() )
271 {
272 mClipFilterGeom = QgsMapClippingUtils::calculateFeatureRequestGeometry( mClippingRegions, context, mApplyClipFilter );
273 requestExtent = requestExtent.intersect( mClipFilterGeom.boundingBox() );
274
275 mClipFeatureGeom = QgsMapClippingUtils::calculateFeatureIntersectionGeometry( mClippingRegions, context, mApplyClipGeometries );
276
277 bool needsPainterClipPath = false;
278 const QPainterPath path = QgsMapClippingUtils::calculatePainterClipRegion( mClippingRegions, context, QgsMapLayerType::VectorLayer, needsPainterClipPath );
279 if ( needsPainterClipPath )
280 context.painter()->setClipPath( path, Qt::IntersectClip );
281
282 mLabelClipFeatureGeom = QgsMapClippingUtils::calculateLabelIntersectionGeometry( mClippingRegions, context, mApplyLabelClipGeometries );
283
284 if ( mDiagramProvider )
285 mDiagramProvider->setClipFeatureGeometry( mLabelClipFeatureGeom );
286 }
287 renderer->modifyRequestExtent( requestExtent, context );
288
289 QgsFeatureRequest featureRequest = QgsFeatureRequest()
290 .setFilterRect( requestExtent )
291 .setSubsetOfAttributes( mAttrNames, mFields )
293 if ( renderer->orderByEnabled() )
294 {
295 featureRequest.setOrderBy( renderer->orderBy() );
296 }
297
298 const QgsFeatureFilterProvider *featureFilterProvider = context.featureFilterProvider();
299 if ( featureFilterProvider )
300 {
301 featureFilterProvider->filterFeatures( mLayer, featureRequest );
302 }
303 if ( !rendererFilter.isEmpty() && rendererFilter != QLatin1String( "TRUE" ) )
304 {
305 featureRequest.combineFilterExpression( rendererFilter );
306 }
307 if ( !mTemporalFilter.isEmpty() )
308 {
309 featureRequest.combineFilterExpression( mTemporalFilter );
310 }
311
312 if ( renderer->usesEmbeddedSymbols() )
313 {
314 featureRequest.setFlags( featureRequest.flags() | QgsFeatureRequest::EmbeddedSymbols );
315 }
316
317 // enable the simplification of the geometries (Using the current map2pixel context) before send it to renderer engine.
318 if ( mSimplifyGeometry )
319 {
320 double map2pixelTol = mSimplifyMethod.threshold();
321 bool validTransform = true;
322
323 const QgsMapToPixel &mtp = context.mapToPixel();
324 map2pixelTol *= mtp.mapUnitsPerPixel();
325 const QgsCoordinateTransform ct = context.coordinateTransform();
326
327 // resize the tolerance using the change of size of an 1-BBOX from the source CoordinateSystem to the target CoordinateSystem
328 if ( ct.isValid() && !ct.isShortCircuited() )
329 {
330 try
331 {
332 QgsCoordinateTransform toleranceTransform = ct;
333 QgsPointXY center = context.extent().center();
334 double rectSize = toleranceTransform.sourceCrs().mapUnits() == QgsUnitTypes::DistanceDegrees ? 0.0008983 /* ~100/(40075014/360=111319.4833) */ : 100;
335
336 QgsRectangle sourceRect = QgsRectangle( center.x(), center.y(), center.x() + rectSize, center.y() + rectSize );
337 toleranceTransform.setBallparkTransformsAreAppropriate( true );
338 QgsRectangle targetRect = toleranceTransform.transform( sourceRect );
339
340 QgsDebugMsgLevel( QStringLiteral( "Simplify - SourceTransformRect=%1" ).arg( sourceRect.toString( 16 ) ), 4 );
341 QgsDebugMsgLevel( QStringLiteral( "Simplify - TargetTransformRect=%1" ).arg( targetRect.toString( 16 ) ), 4 );
342
343 if ( !sourceRect.isEmpty() && sourceRect.isFinite() && !targetRect.isEmpty() && targetRect.isFinite() )
344 {
345 QgsPointXY minimumSrcPoint( sourceRect.xMinimum(), sourceRect.yMinimum() );
346 QgsPointXY maximumSrcPoint( sourceRect.xMaximum(), sourceRect.yMaximum() );
347 QgsPointXY minimumDstPoint( targetRect.xMinimum(), targetRect.yMinimum() );
348 QgsPointXY maximumDstPoint( targetRect.xMaximum(), targetRect.yMaximum() );
349
350 double sourceHypothenuse = std::sqrt( minimumSrcPoint.sqrDist( maximumSrcPoint ) );
351 double targetHypothenuse = std::sqrt( minimumDstPoint.sqrDist( maximumDstPoint ) );
352
353 QgsDebugMsgLevel( QStringLiteral( "Simplify - SourceHypothenuse=%1" ).arg( sourceHypothenuse ), 4 );
354 QgsDebugMsgLevel( QStringLiteral( "Simplify - TargetHypothenuse=%1" ).arg( targetHypothenuse ), 4 );
355
356 if ( !qgsDoubleNear( targetHypothenuse, 0.0 ) )
357 map2pixelTol *= ( sourceHypothenuse / targetHypothenuse );
358 }
359 }
360 catch ( QgsCsException &cse )
361 {
362 QgsMessageLog::logMessage( QObject::tr( "Simplify transform error caught: %1" ).arg( cse.what() ), QObject::tr( "CRS" ) );
363 validTransform = false;
364 }
365 }
366
367 if ( validTransform )
368 {
369 QgsSimplifyMethod simplifyMethod;
371 simplifyMethod.setTolerance( map2pixelTol );
372 simplifyMethod.setThreshold( mSimplifyMethod.threshold() );
373 simplifyMethod.setForceLocalOptimization( mSimplifyMethod.forceLocalOptimization() );
374 featureRequest.setSimplifyMethod( simplifyMethod );
375
376 QgsVectorSimplifyMethod vectorMethod = mSimplifyMethod;
377 vectorMethod.setTolerance( map2pixelTol );
378 context.setVectorSimplifyMethod( vectorMethod );
379 }
380 else
381 {
382 QgsVectorSimplifyMethod vectorMethod;
384 context.setVectorSimplifyMethod( vectorMethod );
385 }
386 }
387 else
388 {
389 QgsVectorSimplifyMethod vectorMethod;
391 context.setVectorSimplifyMethod( vectorMethod );
392 }
393
394 featureRequest.setFeedback( mFeedback.get() );
395 // also set the interruption checker for the expression context, in case the renderer uses some complex expression
396 // which could benefit from early exit paths...
397 context.expressionContext().setFeedback( mFeedback.get() );
398
399 QgsFeatureIterator fit = mSource->getFeatures( featureRequest );
400 // Attach an interruption checker so that iterators that have potentially
401 // slow fetchFeature() implementations, such as in the WFS provider, can
402 // check it, instead of relying on just the mContext.renderingStopped() check
403 // in drawRenderer()
404 fit.setInterruptionChecker( mFeedback.get() );
405
406 if ( ( renderer->capabilities() & QgsFeatureRenderer::SymbolLevels ) && renderer->usingSymbolLevels() )
407 drawRendererLevels( renderer, fit );
408 else
409 drawRenderer( renderer, fit );
410
411 if ( !fit.isValid() )
412 {
413 mErrors.append( QStringLiteral( "Data source invalid" ) );
414 }
415
416 if ( usingEffect )
417 {
418 renderer->paintEffect()->end( context );
419 }
420
421 context.expressionContext().setFeedback( nullptr );
422 return true;
423}
424
425
426void QgsVectorLayerRenderer::drawRenderer( QgsFeatureRenderer *renderer, QgsFeatureIterator &fit )
427{
428 const bool isMainRenderer = renderer == mRenderer;
429
431 QgsRenderContext &context = *renderContext();
432 context.expressionContext().appendScope( symbolScope );
433
434 std::unique_ptr< QgsGeometryEngine > clipEngine;
435 if ( mApplyClipFilter )
436 {
437 clipEngine.reset( QgsGeometry::createGeometryEngine( mClipFilterGeom.constGet() ) );
438 clipEngine->prepareGeometry();
439 }
440
441 QgsFeature fet;
442 while ( fit.nextFeature( fet ) )
443 {
444 try
445 {
446 if ( context.renderingStopped() )
447 {
448 QgsDebugMsgLevel( QStringLiteral( "Drawing of vector layer %1 canceled." ).arg( layerId() ), 2 );
449 break;
450 }
451
452 if ( !fet.hasGeometry() || fet.geometry().isEmpty() )
453 continue; // skip features without geometry
454
455 if ( clipEngine && !clipEngine->intersects( fet.geometry().constGet() ) )
456 continue; // skip features outside of clipping region
457
458 if ( mApplyClipGeometries )
459 context.setFeatureClipGeometry( mClipFeatureGeom );
460
461 if ( ! mNoSetLayerExpressionContext )
462 context.expressionContext().setFeature( fet );
463
464 bool sel = isMainRenderer && context.showSelection() && mSelectedFeatureIds.contains( fet.id() );
465 bool drawMarker = isMainRenderer && ( mDrawVertexMarkers && context.drawEditingInformation() && ( !mVertexMarkerOnlyForSelection || sel ) );
466
467 // render feature
468 bool rendered = false;
470 {
471 rendered = renderer->renderFeature( fet, context, -1, sel, drawMarker );
472 }
473 else
474 {
475 rendered = renderer->willRenderFeature( fet, context );
476 }
477
478 // labeling - register feature
479 if ( rendered )
480 {
481 // as soon as first feature is rendered, we can start showing layer updates.
482 // but if we are blocking render updates (so that a previously cached image is being shown), we wait
483 // at most e.g. 3 seconds before we start forcing progressive updates.
484 if ( !mBlockRenderUpdates || mElapsedTimer.elapsed() > MAX_TIME_TO_USE_CACHED_PREVIEW_IMAGE )
485 {
486 mReadyToCompose = true;
487 }
488
489 // new labeling engine
490 if ( isMainRenderer && context.labelingEngine() && ( mLabelProvider || mDiagramProvider ) )
491 {
492 QgsGeometry obstacleGeometry;
493 QgsSymbolList symbols = renderer->originalSymbolsForFeature( fet, context );
494 QgsSymbol *symbol = nullptr;
495 if ( !symbols.isEmpty() && fet.geometry().type() == QgsWkbTypes::PointGeometry )
496 {
497 obstacleGeometry = QgsVectorLayerLabelProvider::getPointObstacleGeometry( fet, context, symbols );
498 }
499
500 if ( !symbols.isEmpty() )
501 {
502 symbol = symbols.at( 0 );
504 }
505
506 if ( mApplyLabelClipGeometries )
507 context.setFeatureClipGeometry( mLabelClipFeatureGeom );
508
509 if ( mLabelProvider )
510 {
511 mLabelProvider->registerFeature( fet, context, obstacleGeometry, symbol );
512 }
513 if ( mDiagramProvider )
514 {
515 mDiagramProvider->registerFeature( fet, context, obstacleGeometry );
516 }
517
518 if ( mApplyLabelClipGeometries )
520 }
521 }
522 }
523 catch ( const QgsCsException &cse )
524 {
525 Q_UNUSED( cse )
526 QgsDebugMsg( QStringLiteral( "Failed to transform a point while drawing a feature with ID '%1'. Ignoring this feature. %2" )
527 .arg( fet.id() ).arg( cse.what() ) );
528 }
529 }
530
531 delete context.expressionContext().popScope();
532
533 stopRenderer( renderer, nullptr );
534}
535
536void QgsVectorLayerRenderer::drawRendererLevels( QgsFeatureRenderer *renderer, QgsFeatureIterator &fit )
537{
538 const bool isMainRenderer = renderer == mRenderer;
539
540 QHash< QgsSymbol *, QList<QgsFeature> > features; // key = symbol, value = array of features
541 QgsRenderContext &context = *renderContext();
542
543 QgsSingleSymbolRenderer *selRenderer = nullptr;
544 if ( !mSelectedFeatureIds.isEmpty() )
545 {
546 selRenderer = new QgsSingleSymbolRenderer( QgsSymbol::defaultSymbol( mGeometryType ) );
547 selRenderer->symbol()->setColor( context.selectionColor() );
548 selRenderer->setVertexMarkerAppearance( mVertexMarkerStyle, mVertexMarkerSize );
549 selRenderer->startRender( context, mFields );
550 }
551
553 std::unique_ptr< QgsExpressionContextScopePopper > scopePopper = std::make_unique< QgsExpressionContextScopePopper >( context.expressionContext(), symbolScope );
554
555
556 std::unique_ptr< QgsGeometryEngine > clipEngine;
557 if ( mApplyClipFilter )
558 {
559 clipEngine.reset( QgsGeometry::createGeometryEngine( mClipFilterGeom.constGet() ) );
560 clipEngine->prepareGeometry();
561 }
562
563 if ( mApplyLabelClipGeometries )
564 context.setFeatureClipGeometry( mLabelClipFeatureGeom );
565
566 // 1. fetch features
567 QgsFeature fet;
568 while ( fit.nextFeature( fet ) )
569 {
570 if ( context.renderingStopped() )
571 {
572 qDebug( "rendering stop!" );
573 stopRenderer( renderer, selRenderer );
574 return;
575 }
576
577 if ( !fet.hasGeometry() )
578 continue; // skip features without geometry
579
580 if ( clipEngine && !clipEngine->intersects( fet.geometry().constGet() ) )
581 continue; // skip features outside of clipping region
582
583 if ( ! mNoSetLayerExpressionContext )
584 context.expressionContext().setFeature( fet );
585 QgsSymbol *sym = renderer->symbolForFeature( fet, context );
586 if ( !sym )
587 {
588 continue;
589 }
590
592 {
593 if ( !features.contains( sym ) )
594 {
595 features.insert( sym, QList<QgsFeature>() );
596 }
597 features[sym].append( fet );
598 }
599
600 // new labeling engine
601 if ( isMainRenderer && context.labelingEngine() && ( mLabelProvider || mDiagramProvider ) )
602 {
603 QgsGeometry obstacleGeometry;
604 QgsSymbolList symbols = renderer->originalSymbolsForFeature( fet, context );
605 QgsSymbol *symbol = nullptr;
606 if ( !symbols.isEmpty() && fet.geometry().type() == QgsWkbTypes::PointGeometry )
607 {
608 obstacleGeometry = QgsVectorLayerLabelProvider::getPointObstacleGeometry( fet, context, symbols );
609 }
610
611 if ( !symbols.isEmpty() )
612 {
613 symbol = symbols.at( 0 );
615 }
616
617 if ( mLabelProvider )
618 {
619 mLabelProvider->registerFeature( fet, context, obstacleGeometry, symbol );
620 }
621 if ( mDiagramProvider )
622 {
623 mDiagramProvider->registerFeature( fet, context, obstacleGeometry );
624 }
625 }
626 }
627
628 if ( mApplyLabelClipGeometries )
630
631 scopePopper.reset();
632
633 if ( features.empty() )
634 {
635 // nothing to draw
636 stopRenderer( renderer, selRenderer );
637 return;
638 }
639
640 // find out the order
641 QgsSymbolLevelOrder levels;
642 QgsSymbolList symbols = renderer->symbols( context );
643 for ( int i = 0; i < symbols.count(); i++ )
644 {
645 QgsSymbol *sym = symbols[i];
646 for ( int j = 0; j < sym->symbolLayerCount(); j++ )
647 {
648 int level = sym->symbolLayer( j )->renderingPass();
649 if ( level < 0 || level >= 1000 ) // ignore invalid levels
650 continue;
651 QgsSymbolLevelItem item( sym, j );
652 while ( level >= levels.count() ) // append new empty levels
653 levels.append( QgsSymbolLevel() );
654 levels[level].append( item );
655 }
656 }
657
658 if ( mApplyClipGeometries )
659 context.setFeatureClipGeometry( mClipFeatureGeom );
660
661 // 2. draw features in correct order
662 for ( int l = 0; l < levels.count(); l++ )
663 {
664 QgsSymbolLevel &level = levels[l];
665 for ( int i = 0; i < level.count(); i++ )
666 {
667 QgsSymbolLevelItem &item = level[i];
668 if ( !features.contains( item.symbol() ) )
669 {
670 QgsDebugMsg( QStringLiteral( "level item's symbol not found!" ) );
671 continue;
672 }
673 int layer = item.layer();
674 QList<QgsFeature> &lst = features[item.symbol()];
675 QList<QgsFeature>::iterator fit;
676 for ( fit = lst.begin(); fit != lst.end(); ++fit )
677 {
678 if ( context.renderingStopped() )
679 {
680 stopRenderer( renderer, selRenderer );
681 return;
682 }
683
684 bool sel = isMainRenderer && context.showSelection() && mSelectedFeatureIds.contains( fit->id() );
685 // maybe vertex markers should be drawn only during the last pass...
686 bool drawMarker = isMainRenderer && ( mDrawVertexMarkers && context.drawEditingInformation() && ( !mVertexMarkerOnlyForSelection || sel ) );
687
688 if ( ! mNoSetLayerExpressionContext )
689 context.expressionContext().setFeature( *fit );
690
691 try
692 {
693 renderer->renderFeature( *fit, context, layer, sel, drawMarker );
694
695 // as soon as first feature is rendered, we can start showing layer updates.
696 // but if we are blocking render updates (so that a previously cached image is being shown), we wait
697 // at most e.g. 3 seconds before we start forcing progressive updates.
698 if ( !mBlockRenderUpdates || mElapsedTimer.elapsed() > MAX_TIME_TO_USE_CACHED_PREVIEW_IMAGE )
699 {
700 mReadyToCompose = true;
701 }
702 }
703 catch ( const QgsCsException &cse )
704 {
705 Q_UNUSED( cse )
706 QgsDebugMsg( QStringLiteral( "Failed to transform a point while drawing a feature with ID '%1'. Ignoring this feature. %2" )
707 .arg( fet.id() ).arg( cse.what() ) );
708 }
709 }
710 }
711 }
712
713 stopRenderer( renderer, selRenderer );
714}
715
716void QgsVectorLayerRenderer::stopRenderer( QgsFeatureRenderer *renderer, QgsSingleSymbolRenderer *selRenderer )
717{
718 QgsRenderContext &context = *renderContext();
719 renderer->stopRender( context );
720 if ( selRenderer )
721 {
722 selRenderer->stopRender( context );
723 delete selRenderer;
724 }
725}
726
727void QgsVectorLayerRenderer::prepareLabeling( QgsVectorLayer *layer, QSet<QString> &attributeNames )
728{
729 QgsRenderContext &context = *renderContext();
730 // TODO: add attributes for geometry generator
731 if ( QgsLabelingEngine *engine2 = context.labelingEngine() )
732 {
733 if ( layer->labelsEnabled() )
734 {
735 if ( context.labelSink() )
736 {
737 if ( const QgsRuleBasedLabeling *rbl = dynamic_cast<const QgsRuleBasedLabeling *>( layer->labeling() ) )
738 {
739 mLabelProvider = new QgsRuleBasedLabelSinkProvider( *rbl, layer, context.labelSink() );
740 }
741 else
742 {
743 QgsPalLayerSettings settings = layer->labeling()->settings();
744 mLabelProvider = new QgsLabelSinkProvider( layer, QString(), context.labelSink(), &settings );
745 }
746 }
747 else
748 {
749 mLabelProvider = layer->labeling()->provider( layer );
750 }
751 if ( mLabelProvider )
752 {
753 engine2->addProvider( mLabelProvider );
754 if ( !mLabelProvider->prepare( context, attributeNames ) )
755 {
756 engine2->removeProvider( mLabelProvider );
757 mLabelProvider = nullptr; // deleted by engine
758 }
759 }
760 }
761 }
762
763#if 0 // TODO: limit of labels, font not found
764 QgsPalLayerSettings &palyr = mContext.labelingEngine()->layer( mLayerID );
765
766 // see if feature count limit is set for labeling
767 if ( palyr.limitNumLabels && palyr.maxNumLabels > 0 )
768 {
769 QgsFeatureIterator fit = getFeatures( QgsFeatureRequest()
770 .setFilterRect( mContext.extent() )
771 .setNoAttributes() );
772
773 // total number of features that may be labeled
774 QgsFeature f;
775 int nFeatsToLabel = 0;
776 while ( fit.nextFeature( f ) )
777 {
778 nFeatsToLabel++;
779 }
780 palyr.mFeaturesToLabel = nFeatsToLabel;
781 }
782
783 // notify user about any font substitution
784 if ( !palyr.mTextFontFound && !mLabelFontNotFoundNotified )
785 {
786 emit labelingFontNotFound( this, palyr.mTextFontFamily );
787 mLabelFontNotFoundNotified = true;
788 }
789#endif
790}
791
792void QgsVectorLayerRenderer::prepareDiagrams( QgsVectorLayer *layer, QSet<QString> &attributeNames )
793{
794 QgsRenderContext &context = *renderContext();
795 if ( QgsLabelingEngine *engine2 = context.labelingEngine() )
796 {
797 if ( layer->diagramsEnabled() )
798 {
799 mDiagramProvider = new QgsVectorLayerDiagramProvider( layer );
800 // need to be added before calling prepare() - uses map settings from engine
801 engine2->addProvider( mDiagramProvider );
802 if ( !mDiagramProvider->prepare( context, attributeNames ) )
803 {
804 engine2->removeProvider( mDiagramProvider );
805 mDiagramProvider = nullptr; // deleted by engine
806 }
807 }
808 }
809}
810
@ SkipSymbolRendering
Disable symbol rendering while still drawing labels if enabled (since QGIS 3.24)
@ UseAdvancedEffects
Enable layer opacity and blending effects.
@ SemiTransparentCircle
Semi-transparent circle marker.
@ Cross
Cross marker.
virtual QgsPalLayerSettings settings(const QString &providerId=QString()) const =0
Gets associated label settings.
virtual QgsVectorLayerLabelProvider * provider(QgsVectorLayer *layer) const
Factory for label provider implementation.
Q_GADGET QgsUnitTypes::DistanceUnit mapUnits
Class for doing transforms between two map coordinate systems.
QgsCoordinateReferenceSystem sourceCrs() const
Returns the source coordinate reference system, which the transform will transform coordinates from.
void setBallparkTransformsAreAppropriate(bool appropriate)
Sets whether approximate "ballpark" results are appropriate for this coordinate transform.
bool isShortCircuited() const
Returns true if the transform short circuits because the source and destination are equivalent.
bool isValid() const
Returns true if the coordinate transform is valid, ie both the source and destination CRS have been s...
QgsPointXY transform(const QgsPointXY &point, Qgis::TransformDirection direction=Qgis::TransformDirection::Forward) const SIP_THROW(QgsCsException)
Transform the point from the source CRS to the destination CRS.
Custom exception class for Coordinate Reference System related exceptions.
Definition: qgsexception.h:66
QString what() const
Definition: qgsexception.h:48
Single scope for storing variables and functions for use within a QgsExpressionContext.
static QgsExpressionContextScope * updateSymbolScope(const QgsSymbol *symbol, QgsExpressionContextScope *symbolScope=nullptr)
Updates a symbol scope related to a QgsSymbol to an expression context.
static QgsExpressionContextScope * layerScope(const QgsMapLayer *layer)
Creates a new scope which contains variables and functions relating to a QgsMapLayer.
QgsExpressionContextScope * popScope()
Removes the last scope from the expression context and return it.
void appendScope(QgsExpressionContextScope *scope)
Appends a scope to the end of the context.
void setFeedback(QgsFeedback *feedback)
Attach a feedback object that can be queried regularly by the expression engine to check if expressio...
void setFeature(const QgsFeature &feature)
Convenience function for setting a feature for the context.
Abstract interface for use by classes that filter the features or attributes of a layer.
virtual void filterFeatures(const QgsVectorLayer *layer, QgsFeatureRequest &featureRequest) const =0
Add additional filters to the feature request to further restrict the features returned by the reques...
Wrapper for iterator of features from vector data provider or vector layer.
bool nextFeature(QgsFeature &f)
void setInterruptionChecker(QgsFeedback *interruptionChecker)
Attach an object that can be queried regularly by the iterator to check if it must stopped.
bool isValid() const
Will return if this iterator is valid.
An interface for objects which generate feature renderers for vector layers.
virtual void modifyRequestExtent(QgsRectangle &extent, QgsRenderContext &context)
Allows for a renderer to modify the extent of a feature request prior to rendering.
virtual QString filter(const QgsFields &fields=QgsFields())
If a renderer does not require all the features this method may be overridden and return an expressio...
Definition: qgsrenderer.h:206
QgsPaintEffect * paintEffect() const
Returns the current paint effect for the renderer.
virtual QgsSymbolList symbols(QgsRenderContext &context) const
Returns list of symbols used by the renderer.
virtual void stopRender(QgsRenderContext &context)
Must be called when a render cycle has finished, to allow the renderer to clean up.
QString type() const
Definition: qgsrenderer.h:142
virtual bool usesEmbeddedSymbols() const
Returns true if the renderer uses embedded symbols for features.
double referenceScale() const
Returns the symbology reference scale.
Definition: qgsrenderer.h:466
bool usingSymbolLevels() const
Definition: qgsrenderer.h:292
virtual QString dump() const
Returns debug information about this renderer.
virtual QgsFeatureRenderer::Capabilities capabilities()
Returns details about internals of this renderer.
Definition: qgsrenderer.h:283
virtual QgsSymbol * symbolForFeature(const QgsFeature &feature, QgsRenderContext &context) const =0
To be overridden.
@ SymbolLevels
Rendering with symbol levels (i.e. implements symbols(), symbolForFeature())
Definition: qgsrenderer.h:263
bool orderByEnabled() const
Returns whether custom ordering will be applied before features are processed by this renderer.
virtual bool willRenderFeature(const QgsFeature &feature, QgsRenderContext &context) const
Returns whether the renderer will render a feature or not.
virtual void startRender(QgsRenderContext &context, const QgsFields &fields)
Must be called when a new render cycle is started.
Definition: qgsrenderer.cpp:96
virtual bool renderFeature(const QgsFeature &feature, QgsRenderContext &context, int layer=-1, bool selected=false, bool drawVertexMarker=false) SIP_THROW(QgsCsException)
Render a feature using this renderer in the given context.
void setVertexMarkerAppearance(Qgis::VertexMarkerType type, double size)
Sets type and size of editing vertex markers for subsequent rendering.
QgsFeatureRequest::OrderBy orderBy() const
Gets the order in which features shall be processed by this renderer.
virtual QgsSymbolList originalSymbolsForFeature(const QgsFeature &feature, QgsRenderContext &context) const
Equivalent of originalSymbolsForFeature() call extended to support renderers that may use more symbol...
virtual QgsFeatureRenderer * clone() const =0
Create a deep copy of this renderer.
This class wraps a request for features to a vector layer (or directly its vector data provider).
QgsFeatureRequest & setSimplifyMethod(const QgsSimplifyMethod &simplifyMethod)
Set a simplification method for geometries that will be fetched.
QgsFeatureRequest & combineFilterExpression(const QString &expression)
Modifies the existing filter expression to add an additional expression filter.
QgsFeatureRequest & setFlags(QgsFeatureRequest::Flags flags)
Sets flags that affect how features will be fetched.
Flags flags() const
Returns the flags which affect how features are fetched.
QgsFeatureRequest & setSubsetOfAttributes(const QgsAttributeList &attrs)
Set a subset of attributes that will be fetched.
void setFeedback(QgsFeedback *feedback)
Attach a feedback object that can be queried regularly by the iterator to check if it should be cance...
@ EmbeddedSymbols
Retrieve any embedded feature symbology (since QGIS 3.20)
QgsFeatureRequest & setExpressionContext(const QgsExpressionContext &context)
Sets the expression context used to evaluate filter expressions.
QgsFeatureRequest & setNoAttributes()
Set that no attributes will be fetched.
QgsFeatureRequest & setOrderBy(const OrderBy &orderBy)
Set a list of order by clauses.
QgsFeatureRequest & setFilterRect(const QgsRectangle &rectangle)
Sets the rectangle from which features will be taken.
The feature class encapsulates a single feature including its unique ID, geometry and a list of field...
Definition: qgsfeature.h:56
QgsGeometry geometry
Definition: qgsfeature.h:67
bool hasGeometry() const
Returns true if the feature has an associated geometry.
Definition: qgsfeature.cpp:233
Q_GADGET QgsFeatureId id
Definition: qgsfeature.h:64
Base class for feedback objects to be used for cancellation of something running in a worker thread.
Definition: qgsfeedback.h:45
A geometry is the spatial representation of a feature.
Definition: qgsgeometry.h:164
const QgsAbstractGeometry * constGet() const SIP_HOLDGIL
Returns a non-modifiable (const) reference to the underlying abstract geometry primitive.
QgsWkbTypes::GeometryType type
Definition: qgsgeometry.h:167
static QgsGeometryEngine * createGeometryEngine(const QgsAbstractGeometry *geometry)
Creates and returns a new geometry engine representing the specified geometry.
bool isEmpty() const
Returns true if the geometry is empty (eg a linestring with no vertices, or a collection with no geom...
QgsRectangle boundingBox() const
Returns the bounding box of the geometry.
Implements a derived label provider for use with QgsLabelSink.
Definition: qgslabelsink.h:75
The QgsLabelingEngine class provides map labeling functionality.
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.
static QPainterPath calculatePainterClipRegion(const QList< QgsMapClippingRegion > &regions, const QgsRenderContext &context, QgsMapLayerType layerType, bool &shouldClip)
Returns a QPainterPath representing the intersection of clipping regions from context which should be...
static QgsGeometry calculateLabelIntersectionGeometry(const QList< QgsMapClippingRegion > &regions, const QgsRenderContext &context, bool &shouldClip)
Returns the geometry representing the intersection of clipping regions from context which should be u...
static QgsGeometry calculateFeatureIntersectionGeometry(const QList< QgsMapClippingRegion > &regions, const QgsRenderContext &context, bool &shouldClip)
Returns the geometry representing the intersection of clipping regions from context which should be u...
static QgsGeometry calculateFeatureRequestGeometry(const QList< QgsMapClippingRegion > &regions, const QgsRenderContext &context, bool &shouldFilter)
Returns the geometry representing the intersection of clipping regions from context.
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...
static constexpr int MAX_TIME_TO_USE_CACHED_PREVIEW_IMAGE
Maximum time (in ms) to allow display of a previously cached preview image while rendering layers,...
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.
QPainter::CompositionMode blendMode() const
Returns the current blending mode for a layer.
double opacity
Definition: qgsmaplayer.h:82
Perform transforms between map coordinates and device coordinates.
Definition: qgsmaptopixel.h:39
double mapUnitsPerPixel() const
Returns the current map units per pixel.
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).
virtual void begin(QgsRenderContext &context)
Begins intercepting paint operations to a render context.
virtual void end(QgsRenderContext &context)
Ends interception of paint operations to a render context, and draws the result to the render context...
bool enabled() const
Returns whether the effect is enabled.
Contains settings for how a map layer will be labeled.
A class to represent a 2D point.
Definition: qgspointxy.h:59
double y
Definition: qgspointxy.h:63
Q_GADGET double x
Definition: qgspointxy.h:62
A rectangle specified with double values.
Definition: qgsrectangle.h:42
QString toString(int precision=16) const
Returns a string representation of form xmin,ymin : xmax,ymax Coordinates will be truncated to the sp...
double yMaximum() const SIP_HOLDGIL
Returns the y maximum value (top side of rectangle).
Definition: qgsrectangle.h:193
double xMaximum() const SIP_HOLDGIL
Returns the x maximum value (right side of rectangle).
Definition: qgsrectangle.h:183
double xMinimum() const SIP_HOLDGIL
Returns the x minimum value (left side of rectangle).
Definition: qgsrectangle.h:188
double yMinimum() const SIP_HOLDGIL
Returns the y minimum value (bottom side of rectangle).
Definition: qgsrectangle.h:198
bool isEmpty() const
Returns true if the rectangle is empty.
Definition: qgsrectangle.h:469
QgsRectangle intersect(const QgsRectangle &rect) const
Returns the intersection with the given rectangle.
Definition: qgsrectangle.h:333
bool isFinite() const
Returns true if the rectangle has finite boundaries.
Definition: qgsrectangle.h:559
QgsPointXY center() const SIP_HOLDGIL
Returns the center point of the rectangle.
Definition: qgsrectangle.h:251
Contains information about the context of a rendering operation.
bool useAdvancedEffects() const
Returns true if advanced effects such as blend modes such be used.
bool hasRenderedFeatureHandlers() const
Returns true if the context has any rendered feature handlers.
QPainter * painter()
Returns the destination QPainter for the render operation.
QgsExpressionContext & expressionContext()
Gets the expression context.
void setVectorSimplifyMethod(const QgsVectorSimplifyMethod &simplifyMethod)
Sets the simplification setting to use when rendering vector layers.
QgsLabelSink * labelSink() const
Returns the associated label sink, or nullptr if not set.
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 setFeatureClipGeometry(const QgsGeometry &geometry)
Sets a geometry to use to clip features at render time.
const QgsFeatureFilterProvider * featureFilterProvider() const
Gets the filter feature provider used for additional filtering of rendered features.
QList< QgsRenderedFeatureHandlerInterface * > renderedFeatureHandlers() const
Returns the list of rendered feature handlers to use while rendering map layers.
void setSymbologyReferenceScale(double scale)
Sets the symbology reference scale.
bool showSelection() const
Returns true if vector selections should be shown in the rendered map.
const QgsVectorSimplifyMethod & vectorSimplifyMethod() const
Returns the simplification settings to use when rendering vector layers.
const QgsMapToPixel & mapToPixel() const
Returns the context's map to pixel transform, which transforms between map coordinates and device coo...
QColor selectionColor() const
Returns the color to use when rendering selected features.
bool drawEditingInformation() const
Returns true if edit markers should be drawn during the render operation.
bool renderingStopped() const
Returns true if the rendering operation has been stopped and any ongoing rendering should be canceled...
QgsLabelingEngine * labelingEngine() const
Gets access to new labeling engine (may be nullptr).
QgsCoordinateTransform coordinateTransform() const
Returns the current coordinate transform for the context.
An interface for classes which provider custom handlers for features rendered as part of a map render...
Implements a derived label provider for rule based labels for use with QgsLabelSink.
Definition: qgslabelsink.h:95
Rule based labeling for a vector layer.
Scoped object for saving and restoring a QPainter object's state.
T value(const QString &dynamicKeyPart=QString()) const
Returns settings value.
T value(const QString &dynamicKeyPart=QString()) const
Returns settings value.
static const QgsSettingsEntryString settingsDigitizingMarkerStyle
Settings entry digitizing marker style.
static const QgsSettingsEntryDouble settingsDigitizingMarkerSizeMm
Settings entry digitizing marker size mm.
static const QgsSettingsEntryBool settingsDigitizingMarkerOnlyForSelected
Settings entry digitizing marker only for selected.
This class contains information about how to simplify geometries fetched from a QgsFeatureIterator.
void setTolerance(double tolerance)
Sets the tolerance of simplification in map units. Represents the maximum distance in map units betwe...
void setThreshold(float threshold)
Sets the simplification threshold in pixels. Represents the maximum distance in pixels between two co...
void setForceLocalOptimization(bool localOptimization)
Sets whether the simplification executes after fetch the geometries from provider,...
void setMethodType(MethodType methodType)
Sets the simplification type.
@ OptimizeForRendering
Simplify using the map2pixel data to optimize the rendering of geometries.
QgsSymbol * symbol() const
Returns the symbol which will be rendered for every feature.
void stopRender(QgsRenderContext &context) override
Must be called when a render cycle has finished, to allow the renderer to clean up.
void startRender(QgsRenderContext &context, const QgsFields &fields) override
Must be called when a new render cycle is started.
int renderingPass() const
Specifies the rendering pass in which this symbol layer should be rendered.
int layer() const
The layer of this symbol level.
QgsSymbol * symbol() const
The symbol of this symbol level.
Abstract base class for all rendered symbols.
Definition: qgssymbol.h:93
QgsSymbolLayer * symbolLayer(int layer)
Returns the symbol layer at the specified index.
Definition: qgssymbol.cpp:756
static QgsSymbol * defaultSymbol(QgsWkbTypes::GeometryType geomType)
Returns a new default symbol for the specified geometry type.
Definition: qgssymbol.cpp:704
void setColor(const QColor &color) const
Sets the color for the symbol.
Definition: qgssymbol.cpp:898
int symbolLayerCount() const
Returns the total number of symbol layers contained in the symbol.
Definition: qgssymbol.h:215
const QgsDateTimeRange & temporalRange() const
Returns the datetime range for the object.
bool isTemporal() const
Returns true if the object's temporal range is enabled, and the object will be filtered when renderin...
@ DistanceDegrees
Degrees, for planar geographic CRS distance measurements.
Definition: qgsunittypes.h:75
The QgsVectorLayerDiagramProvider class implements support for diagrams within the labeling engine.
virtual bool prepare(const QgsRenderContext &context, QSet< QString > &attributeNames)
Prepare for registration of features.
virtual void registerFeature(QgsFeature &feature, QgsRenderContext &context, const QgsGeometry &obstacleGeometry=QgsGeometry())
Register a feature for labeling as one or more QgsLabelFeature objects stored into mFeatures.
void setClipFeatureGeometry(const QgsGeometry &geometry)
Sets a geometry to use to clip features to when registering them as diagrams.
Partial snapshot of vector layer's state (only the members necessary for access to features)
virtual bool prepare(QgsRenderContext &context, QSet< QString > &attributeNames)
Prepare for registration of features.
static QgsGeometry getPointObstacleGeometry(QgsFeature &fet, QgsRenderContext &context, const QgsSymbolList &symbols)
Returns the geometry for a point feature which should be used as an obstacle for labels.
virtual QList< QgsLabelFeature * > registerFeature(const QgsFeature &feature, QgsRenderContext &context, const QgsGeometry &obstacleGeometry=QgsGeometry(), const QgsSymbol *symbol=nullptr)
Register a feature for labeling as one or more QgsLabelFeature objects stored into mLabels.
bool forceRasterRender() const override
Returns true if the renderer must be rendered to a raster paint device (e.g.
QgsVectorLayerRenderer(QgsVectorLayer *layer, QgsRenderContext &context)
~QgsVectorLayerRenderer() override
void setLayerRenderingTimeHint(int time) override
Sets approximate render time (in ms) for the layer to render.
bool render() override
Do the rendering (based on data stored in the class).
QgsFeedback * feedback() const override
Access to feedback object of the layer renderer (may be nullptr)
Encapsulates the context in which a QgsVectorLayer's temporal capabilities will be applied.
void setLayer(QgsVectorLayer *layer)
Sets the associated layer.
Represents a vector layer which manages a vector based data sets.
bool labelsEnabled() const
Returns whether the layer contains labels which are enabled and should be drawn.
Q_INVOKABLE QgsWkbTypes::GeometryType geometryType() const
Returns point, line or polygon.
QgsMapLayerTemporalProperties * temporalProperties() override
Returns the layer's temporal properties.
QPainter::CompositionMode featureBlendMode() const
Returns the current blending mode for features.
bool diagramsEnabled() const
Returns whether the layer contains diagrams which are enabled and should be drawn.
Q_INVOKABLE const QgsFeatureIds & selectedFeatureIds() const
Returns a list of the selected features IDs in this layer.
const QgsAbstractVectorLayerLabeling * labeling() const
Access to const labeling configuration.
QgsFeatureRenderer * renderer()
Returns the feature renderer used for rendering the features in the layer in 2D map views.
Q_INVOKABLE QgsVectorLayerEditBuffer * editBuffer()
Buffer with uncommitted editing operations. Only valid after editing has been turned on.
const QgsVectorSimplifyMethod & simplifyMethod() const
Returns the simplification settings for fast rendering of features.
bool simplifyDrawingCanbeApplied(const QgsRenderContext &renderContext, QgsVectorSimplifyMethod::SimplifyHint simplifyHint) const
Returns whether the VectorLayer can apply the specified simplification hint.
QList< const QgsFeatureRendererGenerator * > featureRendererGenerators() const
Returns a list of the feature renderer generators owned by the layer.
This class contains information how to simplify geometries fetched from a vector layer.
bool forceLocalOptimization() const
Gets where the simplification executes, after fetch the geometries from provider, or when supported,...
void setSimplifyHints(SimplifyHints simplifyHints)
Sets the simplification hints of the vector layer managed.
SimplifyHints simplifyHints() const
Gets the simplification hints of the vector layer managed.
void setTolerance(double tolerance)
Sets the tolerance of simplification in map units. Represents the maximum distance in map units betwe...
float threshold() const
Gets the simplification threshold of the vector layer managed.
@ GeometrySimplification
The geometries can be simplified using the current map2pixel context state.
@ FullSimplification
All simplification hints can be applied ( Geometry + AA-disabling )
@ NoSimplification
No simplification can be applied.
@ VectorLayer
Vector layer.
bool qgsDoubleNear(double a, double b, double epsilon=4 *std::numeric_limits< double >::epsilon())
Compare two doubles (but allow some difference)
Definition: qgis.h:2527
#define QgsDebugMsgLevel(str, level)
Definition: qgslogger.h:39
#define QgsDebugMsg(str)
Definition: qgslogger.h:38
QList< QgsSymbolLevel > QgsSymbolLevelOrder
Definition: qgsrenderer.h:88
QList< QgsSymbolLevelItem > QgsSymbolLevel
Definition: qgsrenderer.h:84
QList< QgsSymbol * > QgsSymbolList
Definition: qgsrenderer.h:44