QGIS API Documentation 3.38.0-Grenoble (exported)
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qgsmeshrenderersettings.cpp
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1/***************************************************************************
2 qgsmeshrenderersettings.cpp
3 ---------------------------
4 begin : May 2018
5 copyright : (C) 2018 by Peter Petrik
6 email : zilolv at gmail dot com
7 ***************************************************************************/
8
9/***************************************************************************
10 * *
11 * This program is free software; you can redistribute it and/or modify *
12 * it under the terms of the GNU General Public License as published by *
13 * the Free Software Foundation; either version 2 of the License, or *
14 * (at your option) any later version. *
15 * *
16 ***************************************************************************/
17
19#include "qgscolorutils.h"
20#include "qgsunittypes.h"
21
23{
24 return mEnabled;
25}
26
28{
29 mEnabled = on;
30}
31
33{
34 return mLineWidth;
35}
36
38{
39 mLineWidth = lineWidth;
40}
41
43{
44 return mColor;
45}
46
47void QgsMeshRendererMeshSettings::setColor( const QColor &color )
48{
49 mColor = color;
50}
51
53{
54 return mLineWidthUnit;
55}
56
58{
59 mLineWidthUnit = lineWidthUnit;
60}
61
62QDomElement QgsMeshRendererMeshSettings::writeXml( QDomDocument &doc ) const
63{
64 QDomElement elem = doc.createElement( QStringLiteral( "mesh-settings" ) );
65 elem.setAttribute( QStringLiteral( "enabled" ), mEnabled ? QStringLiteral( "1" ) : QStringLiteral( "0" ) );
66 elem.setAttribute( QStringLiteral( "line-width" ), mLineWidth );
67 elem.setAttribute( QStringLiteral( "color" ), QgsColorUtils::colorToString( mColor ) );
68 elem.setAttribute( QStringLiteral( "line-width-unit" ), QgsUnitTypes::encodeUnit( mLineWidthUnit ) );
69 return elem;
70}
71
72void QgsMeshRendererMeshSettings::readXml( const QDomElement &elem )
73{
74 mEnabled = elem.attribute( QStringLiteral( "enabled" ) ).toInt();
75 mLineWidth = elem.attribute( QStringLiteral( "line-width" ) ).toDouble();
76 mColor = QgsColorUtils::colorFromString( elem.attribute( QStringLiteral( "color" ) ) );
77 mLineWidthUnit = QgsUnitTypes::decodeRenderUnit( elem.attribute( QStringLiteral( "line-width-unit" ) ) );
78}
79// ---------------------------------------------------------------------
80
82{
83 return mColorRampShader;
84}
85
87{
88 mColorRampShader = shader;
89}
90
91double QgsMeshRendererScalarSettings::classificationMinimum() const { return mClassificationMinimum; }
92
93double QgsMeshRendererScalarSettings::classificationMaximum() const { return mClassificationMaximum; }
94
96{
97 mClassificationMinimum = minimum;
98 mClassificationMaximum = maximum;
99}
100
101double QgsMeshRendererScalarSettings::opacity() const { return mOpacity; }
102
103void QgsMeshRendererScalarSettings::setOpacity( double opacity ) { mOpacity = opacity; }
104
109
111{
112 mDataResamplingMethod = dataInterpolationMethod;
113}
114
115QDomElement QgsMeshRendererScalarSettings::writeXml( QDomDocument &doc, const QgsReadWriteContext &context ) const
116{
117 QDomElement elem = doc.createElement( QStringLiteral( "scalar-settings" ) );
118 elem.setAttribute( QStringLiteral( "min-val" ), mClassificationMinimum );
119 elem.setAttribute( QStringLiteral( "max-val" ), mClassificationMaximum );
120 elem.setAttribute( QStringLiteral( "opacity" ), mOpacity );
121
122 QString methodTxt;
123 switch ( mDataResamplingMethod )
124 {
125 case NoResampling:
126 methodTxt = QStringLiteral( "no-resampling" );
127 break;
128 case NeighbourAverage:
129 methodTxt = QStringLiteral( "neighbour-average" );
130 break;
131 }
132 elem.setAttribute( QStringLiteral( "interpolation-method" ), methodTxt );
133 const QDomElement elemShader = mColorRampShader.writeXml( doc, context );
134 elem.appendChild( elemShader );
135
136 QDomElement elemEdge = doc.createElement( QStringLiteral( "edge-settings" ) );
137 elemEdge.appendChild( mEdgeStrokeWidth.writeXml( doc, context ) );
138 elemEdge.setAttribute( QStringLiteral( "stroke-width-unit" ), static_cast< int >( mEdgeStrokeWidthUnit ) );
139 elem.appendChild( elemEdge );
140
141 return elem;
142}
143
144void QgsMeshRendererScalarSettings::readXml( const QDomElement &elem, const QgsReadWriteContext &context )
145{
146 mClassificationMinimum = elem.attribute( QStringLiteral( "min-val" ) ).toDouble();
147 mClassificationMaximum = elem.attribute( QStringLiteral( "max-val" ) ).toDouble();
148 mOpacity = elem.attribute( QStringLiteral( "opacity" ) ).toDouble();
149
150 const QString methodTxt = elem.attribute( QStringLiteral( "interpolation-method" ) );
151 if ( QStringLiteral( "neighbour-average" ) == methodTxt )
152 {
153 mDataResamplingMethod = DataResamplingMethod::NeighbourAverage;
154 }
155 else
156 {
157 mDataResamplingMethod = DataResamplingMethod::NoResampling;
158 }
159 const QDomElement elemShader = elem.firstChildElement( QStringLiteral( "colorrampshader" ) );
160 mColorRampShader.readXml( elemShader, context );
161
162 const QDomElement elemEdge = elem.firstChildElement( QStringLiteral( "edge-settings" ) );
163 const QDomElement elemEdgeStrokeWidth = elemEdge.firstChildElement( QStringLiteral( "mesh-stroke-width" ) );
164 mEdgeStrokeWidth.readXml( elemEdgeStrokeWidth, context );
165 mEdgeStrokeWidthUnit = static_cast<Qgis::RenderUnit>(
166 elemEdge.attribute( QStringLiteral( "stroke-width-unit" ) ).toInt() );
167}
168
173
175{
176 mEdgeStrokeWidth = strokeWidth;
177}
178
180{
181 return mEdgeStrokeWidthUnit;
182}
183
185{
186 mEdgeStrokeWidthUnit = edgeStrokeWidthUnit;
187}
188
189// ---------------------------------------------------------------------
190
192{
193 return mLineWidth;
194}
195
197{
198 mLineWidth = lineWidth;
199}
200
202{
203 return mColor;
204}
205
206void QgsMeshRendererVectorSettings::setColor( const QColor &vectorColor )
207{
208 mColor = vectorColor;
209}
210
212{
213 return mFilterMin;
214}
215
217{
218 mFilterMin = vectorFilterMin;
219}
220
222{
223 return mFilterMax;
224}
225
227{
228 mFilterMax = vectorFilterMax;
229}
230
232{
233 return mOnUserDefinedGrid;
234}
235
237{
238 mOnUserDefinedGrid = enabled;
239}
240
242{
243 return mUserGridCellWidth;
244}
245
247{
248 mUserGridCellWidth = width;
249}
250
252{
253 return mUserGridCellHeight;
254}
255
257{
258 mUserGridCellHeight = height;
259}
260
265
270
272{
273 return mMinShaftLength;
274}
275
277{
278 mMinShaftLength = minShaftLength;
279}
280
282{
283 return mMaxShaftLength;
284}
285
287{
288 mMaxShaftLength = maxShaftLength;
289}
290
292{
293 return mScaleFactor;
294}
295
297{
298 mScaleFactor = scaleFactor;
299}
300
302{
303 return mFixedShaftLength;
304}
305
307{
308 mFixedShaftLength = fixedShaftLength;
309}
310
312{
313 return mArrowHeadWidthRatio;
314}
315
317{
318 mArrowHeadWidthRatio = vectorHeadWidthRatio;
319}
320
322{
323 return mArrowHeadLengthRatio;
324}
325
327{
328 mArrowHeadLengthRatio = vectorHeadLengthRatio;
329}
330
331QDomElement QgsMeshRendererVectorArrowSettings::writeXml( QDomDocument &doc ) const
332{
333 QDomElement elem = doc.createElement( QStringLiteral( "vector-arrow-settings" ) );
334 elem.setAttribute( QStringLiteral( "arrow-head-width-ratio" ), mArrowHeadWidthRatio );
335 elem.setAttribute( QStringLiteral( "arrow-head-length-ratio" ), mArrowHeadLengthRatio );
336
337 QDomElement elemShaft = doc.createElement( QStringLiteral( "shaft-length" ) );
338 QString methodTxt;
339 switch ( mShaftLengthMethod )
340 {
341 case MinMax:
342 methodTxt = QStringLiteral( "minmax" );
343 elemShaft.setAttribute( QStringLiteral( "min" ), mMinShaftLength );
344 elemShaft.setAttribute( QStringLiteral( "max" ), mMaxShaftLength );
345 break;
346 case Scaled:
347 methodTxt = QStringLiteral( "scaled" );
348 elemShaft.setAttribute( QStringLiteral( "scale-factor" ), mScaleFactor );
349 break;
350 case Fixed:
351 methodTxt = QStringLiteral( "fixed" ) ;
352 elemShaft.setAttribute( QStringLiteral( "fixed-length" ), mFixedShaftLength );
353 break;
354 }
355 elemShaft.setAttribute( QStringLiteral( "method" ), methodTxt );
356 elem.appendChild( elemShaft );
357 return elem;
358}
359
360void QgsMeshRendererVectorArrowSettings::readXml( const QDomElement &elem )
361{
362 mArrowHeadWidthRatio = elem.attribute( QStringLiteral( "arrow-head-width-ratio" ) ).toDouble();
363 mArrowHeadLengthRatio = elem.attribute( QStringLiteral( "arrow-head-length-ratio" ) ).toDouble();
364
365 const QDomElement elemShaft = elem.firstChildElement( QStringLiteral( "shaft-length" ) );
366 const QString methodTxt = elemShaft.attribute( QStringLiteral( "method" ) );
367 if ( QStringLiteral( "minmax" ) == methodTxt )
368 {
369 mShaftLengthMethod = MinMax;
370 mMinShaftLength = elemShaft.attribute( QStringLiteral( "min" ) ).toDouble();
371 mMaxShaftLength = elemShaft.attribute( QStringLiteral( "max" ) ).toDouble();
372 }
373 else if ( QStringLiteral( "scaled" ) == methodTxt )
374 {
375 mShaftLengthMethod = Scaled;
376 mScaleFactor = elemShaft.attribute( QStringLiteral( "scale-factor" ) ).toDouble();
377 }
378 else // fixed
379 {
380 mShaftLengthMethod = Fixed;
381 mFixedShaftLength = elemShaft.attribute( QStringLiteral( "fixed-length" ) ).toDouble();
382 }
383}
384
385// ---------------------------------------------------------------------
386
391
393
395{
396 return mAveragingMethod.get();
397}
398
400{
401 if ( method )
402 mAveragingMethod.reset( method->clone() );
403 else
404 mAveragingMethod.reset();
405}
406
407QDomElement QgsMeshRendererSettings::writeXml( QDomDocument &doc, const QgsReadWriteContext &context ) const
408{
409 QDomElement elem = doc.createElement( QStringLiteral( "mesh-renderer-settings" ) );
410
411 QDomElement elemActiveDatasetGroup = doc.createElement( QStringLiteral( "active-dataset-group" ) );
412 elemActiveDatasetGroup.setAttribute( QStringLiteral( "scalar" ), mActiveScalarDatasetGroup );
413 elemActiveDatasetGroup.setAttribute( QStringLiteral( "vector" ), mActiveVectorDatasetGroup );
414 elem.appendChild( elemActiveDatasetGroup );
415
416 for ( auto groupIndex = mRendererScalarSettings.keyBegin(); groupIndex != mRendererScalarSettings.keyEnd(); groupIndex++ )
417 {
418 const QgsMeshRendererScalarSettings &scalarSettings = mRendererScalarSettings[*groupIndex];
419 QDomElement elemScalar = scalarSettings.writeXml( doc, context );
420 elemScalar.setAttribute( QStringLiteral( "group" ), *groupIndex );
421 elem.appendChild( elemScalar );
422 }
423
424 for ( auto groupIndex = mRendererVectorSettings.keyBegin(); groupIndex != mRendererVectorSettings.keyEnd(); groupIndex++ )
425 {
426 const QgsMeshRendererVectorSettings &vectorSettings = mRendererVectorSettings[*groupIndex];
427 QDomElement elemVector = vectorSettings.writeXml( doc, context );
428 elemVector.setAttribute( QStringLiteral( "group" ), *groupIndex );
429 elem.appendChild( elemVector );
430 }
431
432 QDomElement elemNativeMesh = mRendererNativeMeshSettings.writeXml( doc );
433 elemNativeMesh.setTagName( QStringLiteral( "mesh-settings-native" ) );
434 elem.appendChild( elemNativeMesh );
435
436 QDomElement elemEdgeMesh = mRendererEdgeMeshSettings.writeXml( doc );
437 elemEdgeMesh.setTagName( QStringLiteral( "mesh-settings-edge" ) );
438 elem.appendChild( elemEdgeMesh );
439
440 QDomElement elemTriangularMesh = mRendererTriangularMeshSettings.writeXml( doc );
441 elemTriangularMesh.setTagName( QStringLiteral( "mesh-settings-triangular" ) );
442 elem.appendChild( elemTriangularMesh );
443
444 if ( mAveragingMethod )
445 {
446 QDomElement elemAveraging = doc.createElement( QStringLiteral( "averaging-3d" ) );
447 elemAveraging.setAttribute( QStringLiteral( "method" ), QString::number( mAveragingMethod->method() ) ) ;
448 const QDomElement elemAveragingParams = mAveragingMethod->writeXml( doc );
449 elemAveraging.appendChild( elemAveragingParams );
450 elem.appendChild( elemAveraging );
451 }
452
453 return elem;
454}
455
456void QgsMeshRendererSettings::readXml( const QDomElement &elem, const QgsReadWriteContext &context )
457{
458 mRendererScalarSettings.clear();
459 mRendererVectorSettings.clear();
460 mAveragingMethod.reset();
461
462 const QDomElement elemActiveDataset = elem.firstChildElement( QStringLiteral( "active-dataset-group" ) );
463 if ( elemActiveDataset.hasAttribute( QStringLiteral( "scalar" ) ) )
464 mActiveScalarDatasetGroup = elemActiveDataset.attribute( QStringLiteral( "scalar" ) ).toInt();
465
466 if ( elemActiveDataset.hasAttribute( QStringLiteral( "vector" ) ) )
467 mActiveVectorDatasetGroup = elemActiveDataset.attribute( QStringLiteral( "vector" ) ).toInt();
468
469 QDomElement elemScalar = elem.firstChildElement( QStringLiteral( "scalar-settings" ) );
470 while ( !elemScalar.isNull() )
471 {
472 const int groupIndex = elemScalar.attribute( QStringLiteral( "group" ) ).toInt();
474 scalarSettings.readXml( elemScalar, context );
475 mRendererScalarSettings.insert( groupIndex, scalarSettings );
476
477 elemScalar = elemScalar.nextSiblingElement( QStringLiteral( "scalar-settings" ) );
478 }
479
480 QDomElement elemVector = elem.firstChildElement( QStringLiteral( "vector-settings" ) );
481 while ( !elemVector.isNull() )
482 {
483 const int groupIndex = elemVector.attribute( QStringLiteral( "group" ) ).toInt();
485 vectorSettings.readXml( elemVector, context );
486 mRendererVectorSettings.insert( groupIndex, vectorSettings );
487
488 elemVector = elemVector.nextSiblingElement( QStringLiteral( "vector-settings" ) );
489 }
490
491 const QDomElement elemNativeMesh = elem.firstChildElement( QStringLiteral( "mesh-settings-native" ) );
492 mRendererNativeMeshSettings.readXml( elemNativeMesh );
493
494 const QDomElement elemEdgeMesh = elem.firstChildElement( QStringLiteral( "mesh-settings-edge" ) );
495 mRendererEdgeMeshSettings.readXml( elemEdgeMesh );
496
497 const QDomElement elemTriangularMesh = elem.firstChildElement( QStringLiteral( "mesh-settings-triangular" ) );
498 mRendererTriangularMeshSettings.readXml( elemTriangularMesh );
499
500 const QDomElement elemAveraging = elem.firstChildElement( QStringLiteral( "averaging-3d" ) );
501 if ( !elemAveraging.isNull() )
502 {
503 mAveragingMethod.reset( QgsMesh3DAveragingMethod::createFromXml( elemAveraging ) );
504 }
505}
506
508{
509 return mActiveScalarDatasetGroup;
510}
511
513{
514 mActiveScalarDatasetGroup = activeScalarDatasetGroup;
515}
516
518{
519 return mActiveVectorDatasetGroup;
520}
521
523{
524 mActiveVectorDatasetGroup = activeVectorDatasetGroup;
525}
526
531
536
538{
539 return mSeedingDensity;
540}
541
543{
544 mSeedingDensity = seedingDensity;
545}
546
547QDomElement QgsMeshRendererVectorStreamlineSettings::writeXml( QDomDocument &doc ) const
548{
549 QDomElement elem = doc.createElement( QStringLiteral( "vector-streamline-settings" ) );
550
551 elem.setAttribute( QStringLiteral( "seeding-method" ), mSeedingMethod );
552 elem.setAttribute( QStringLiteral( "seeding-density" ), mSeedingDensity );
553
554 return elem;
555}
556
558{
559 mSeedingMethod =
561 elem.attribute( QStringLiteral( "seeding-method" ) ).toInt() );
562 mSeedingDensity = elem.attribute( QStringLiteral( "seeding-density" ) ).toDouble();
563}
564
569
571{
572 mDisplayingMethod = displayingMethod;
573}
574
579
584
589
594
595QDomElement QgsMeshRendererVectorSettings::writeXml( QDomDocument &doc, const QgsReadWriteContext &context ) const
596{
597 QDomElement elem = doc.createElement( QStringLiteral( "vector-settings" ) );
598 elem.setAttribute( QStringLiteral( "symbology" ), mDisplayingMethod );
599
600 elem.setAttribute( QStringLiteral( "line-width" ), mLineWidth );
601 elem.setAttribute( QStringLiteral( "coloring-method" ), coloringMethod() );
602 elem.setAttribute( QStringLiteral( "color" ), QgsColorUtils::colorToString( mColor ) );
603 const QDomElement elemShader = mColorRampShader.writeXml( doc, context );
604 elem.appendChild( elemShader );
605 elem.setAttribute( QStringLiteral( "filter-min" ), mFilterMin );
606 elem.setAttribute( QStringLiteral( "filter-max" ), mFilterMax );
607
608 elem.setAttribute( QStringLiteral( "user-grid-enabled" ), mOnUserDefinedGrid ? QStringLiteral( "1" ) : QStringLiteral( "0" ) );
609 elem.setAttribute( QStringLiteral( "user-grid-width" ), mUserGridCellWidth );
610 elem.setAttribute( QStringLiteral( "user-grid-height" ), mUserGridCellHeight );
611
612 elem.appendChild( mArrowsSettings.writeXml( doc ) );
613 elem.appendChild( mStreamLinesSettings.writeXml( doc ) );
614 elem.appendChild( mTracesSettings.writeXml( doc ) );
615 elem.appendChild( mWindBarbSettings.writeXml( doc ) );
616
617 return elem;
618}
619
620void QgsMeshRendererVectorSettings::readXml( const QDomElement &elem, const QgsReadWriteContext &context )
621{
622 mDisplayingMethod = static_cast<QgsMeshRendererVectorSettings::Symbology>(
623 elem.attribute( QStringLiteral( "symbology" ) ).toInt() );
624
625 mLineWidth = elem.attribute( QStringLiteral( "line-width" ) ).toDouble();
626 mColoringMethod = static_cast<QgsInterpolatedLineColor::ColoringMethod>(
627 elem.attribute( QStringLiteral( "coloring-method" ) ).toInt() );
628 mColor = QgsColorUtils::colorFromString( elem.attribute( QStringLiteral( "color" ) ) );
629 mColorRampShader.readXml( elem.firstChildElement( "colorrampshader" ), context );
630 mFilterMin = elem.attribute( QStringLiteral( "filter-min" ) ).toDouble();
631 mFilterMax = elem.attribute( QStringLiteral( "filter-max" ) ).toDouble();
632
633 mOnUserDefinedGrid = elem.attribute( QStringLiteral( "user-grid-enabled" ) ).toInt(); //bool
634 mUserGridCellWidth = elem.attribute( QStringLiteral( "user-grid-width" ) ).toInt();
635 mUserGridCellHeight = elem.attribute( QStringLiteral( "user-grid-height" ) ).toInt();
636
637 const QDomElement elemVector = elem.firstChildElement( QStringLiteral( "vector-arrow-settings" ) );
638 if ( ! elemVector.isNull() )
639 mArrowsSettings.readXml( elemVector );
640
641 const QDomElement elemStreamLine = elem.firstChildElement( QStringLiteral( "vector-streamline-settings" ) );
642 if ( ! elemStreamLine.isNull() )
643 mStreamLinesSettings.readXml( elemStreamLine );
644
645 const QDomElement elemTraces = elem.firstChildElement( QStringLiteral( "vector-traces-settings" ) );
646 if ( ! elemTraces.isNull() )
647 mTracesSettings.readXml( elemTraces );
648
649 const QDomElement elemWindBarb = elem.firstChildElement( QStringLiteral( "vector-windbarb-settings" ) );
650 if ( ! elemWindBarb.isNull() )
651 mWindBarbSettings.readXml( elemWindBarb );
652}
653
658
663
665{
666 return mColorRampShader;
667}
668
670{
671 mColorRampShader = colorRampShader;
672}
673
675{
676 QgsInterpolatedLineColor strokeColoring;
677 switch ( mColoringMethod )
678 {
680 strokeColoring = QgsInterpolatedLineColor( mColor );
681 break;
683 strokeColoring = QgsInterpolatedLineColor( mColorRampShader );
684 break;
685 }
686
687 return strokeColoring;
688}
689
694
699
700void QgsMeshRendererVectorTracesSettings::readXml( const QDomElement &elem )
701{
702 mMaximumTailLength = elem.attribute( QStringLiteral( "maximum-tail-length" ) ).toInt();
703 mMaximumTailLengthUnit = static_cast<Qgis::RenderUnit>(
704 elem.attribute( QStringLiteral( "maximum-tail-length-unit" ) ).toInt() );
705 mParticlesCount = elem.attribute( QStringLiteral( "particles-count" ) ).toInt();
706}
707
708QDomElement QgsMeshRendererVectorTracesSettings::writeXml( QDomDocument &doc ) const
709{
710 QDomElement elem = doc.createElement( QStringLiteral( "vector-traces-settings" ) );
711 elem.setAttribute( QStringLiteral( "maximum-tail-length" ), mMaximumTailLength );
712 elem.setAttribute( QStringLiteral( "maximum-tail-length-unit" ), static_cast< int >( mMaximumTailLengthUnit ) );
713 elem.setAttribute( QStringLiteral( "particles-count" ), mParticlesCount );
714
715 return elem;
716}
717
719{
720 return mMaximumTailLengthUnit;
721}
722
724{
725 mMaximumTailLengthUnit = maximumTailLengthUnit;
726}
727
729{
730 return mMaximumTailLength;
731}
732
734{
735 mMaximumTailLength = maximumTailLength;
736}
737
739{
740 return mParticlesCount;
741}
742
744{
745 mParticlesCount = value;
746}
747
748bool QgsMeshRendererSettings::hasSettings( int datasetGroupIndex ) const
749{
750 return mRendererScalarSettings.contains( datasetGroupIndex ) || mRendererVectorSettings.contains( datasetGroupIndex );
751}
752
757
762
764{
765 mShaftLength = elem.attribute( QStringLiteral( "shaft-length" ), QStringLiteral( "10" ) ).toDouble();
766 mShaftLengthUnits = static_cast<Qgis::RenderUnit>(
767 elem.attribute( QStringLiteral( "shaft-length-units" ) ).toInt() );
768 mMagnitudeMultiplier = elem.attribute( QStringLiteral( "magnitude-multiplier" ), QStringLiteral( "1" ) ).toDouble();
769 mMagnitudeUnits = static_cast<WindSpeedUnit>(
770 elem.attribute( QStringLiteral( "magnitude-units" ), QStringLiteral( "0" ) ).toInt() );
771}
772
773QDomElement QgsMeshRendererVectorWindBarbSettings::writeXml( QDomDocument &doc ) const
774{
775 QDomElement elem = doc.createElement( QStringLiteral( "vector-windbarb-settings" ) );
776 elem.setAttribute( QStringLiteral( "shaft-length" ), mShaftLength );
777 elem.setAttribute( QStringLiteral( "shaft-length-units" ), static_cast< int >( mShaftLengthUnits ) );
778 elem.setAttribute( QStringLiteral( "magnitude-multiplier" ), mMagnitudeMultiplier );
779 elem.setAttribute( QStringLiteral( "magnitude-units" ), static_cast< int >( mMagnitudeUnits ) );
780 return elem;
781}
782
784{
785 switch ( mMagnitudeUnits )
786 {
788 return 1.0;
790 return 3600.0 / 1852.0;
792 return 1.0 / 1.852;
794 return 1.609344 / 1.852;
796 return 3600.0 / 1.852 / 5280.0 * 1.609344 ;
798 return mMagnitudeMultiplier;
799 }
800 return 1.0; // should not reach
801}
802
804{
805 mMagnitudeMultiplier = magnitudeMultiplier;
806}
807
809{
810 return mShaftLength;
811}
812
814{
815 mShaftLength = shaftLength;
816}
817
822
824{
825 mShaftLengthUnits = shaftLengthUnit;
826}
827
832
834{
835 mMagnitudeUnits = units;
836}
RenderUnit
Rendering size units.
Definition qgis.h:4489
A ramp shader will color a raster pixel based on a list of values ranges in a ramp.
QDomElement writeXml(QDomDocument &doc, const QgsReadWriteContext &context=QgsReadWriteContext()) const
Writes configuration to a new DOM element.
void readXml(const QDomElement &elem, const QgsReadWriteContext &context=QgsReadWriteContext())
Reads configuration from the given DOM element.
static QColor colorFromString(const QString &string)
Decodes a string into a color value.
static QString colorToString(const QColor &color)
Encodes a color into a string value.
Class defining color to render mesh datasets.
ColoringMethod
Defines how the color is defined.
@ ColorRamp
Render with a color ramp.
@ SingleColor
Render with a single color.
Represents a width than can vary depending on values.
void readXml(const QDomElement &elem, const QgsReadWriteContext &context)
Reads configuration from the given DOM element.
QDomElement writeXml(QDomDocument &doc, const QgsReadWriteContext &context) const
Writes configuration to a new DOM element.
Abstract class to interpolate 3d stacked mesh data to 2d data.
static QgsMesh3DAveragingMethod * createFromXml(const QDomElement &elem)
Creates the instance from XML by calling readXml of derived classes.
virtual QgsMesh3DAveragingMethod * clone() const =0
Clone the instance.
void setLineWidthUnit(Qgis::RenderUnit lineWidthUnit)
Sets units of the width of the mesh frame.
void setEnabled(bool enabled)
Sets whether mesh structure rendering is enabled.
QColor color() const
Returns color used for rendering.
QDomElement writeXml(QDomDocument &doc) const
Writes configuration to a new DOM element.
double lineWidth() const
Returns line width used for rendering (in millimeters)
void setLineWidth(double lineWidth)
Sets line width used for rendering (in millimeters)
void readXml(const QDomElement &elem)
Reads configuration from the given DOM element.
Qgis::RenderUnit lineWidthUnit() const
Returns units of the width of the mesh frame.
bool isEnabled() const
Returns whether mesh structure rendering is enabled.
void setColor(const QColor &color)
Sets color used for rendering of the mesh.
Represents a mesh renderer settings for scalar datasets.
void setClassificationMinimumMaximum(double minimum, double maximum)
Sets min/max values used for creation of the color ramp shader.
double opacity() const
Returns opacity.
void readXml(const QDomElement &elem, const QgsReadWriteContext &context=QgsReadWriteContext())
Reads configuration from the given DOM element.
void setEdgeStrokeWidthUnit(Qgis::RenderUnit edgeStrokeWidthUnit)
Sets the stroke width unit used to render edges scalar dataset.
void setColorRampShader(const QgsColorRampShader &shader)
Sets color ramp shader function.
QgsColorRampShader colorRampShader() const
Returns color ramp shader function.
double classificationMinimum() const
Returns min value used for creation of the color ramp shader.
void setOpacity(double opacity)
Sets opacity.
DataResamplingMethod
Resampling of value from dataset.
@ NoResampling
Does not use resampling.
@ NeighbourAverage
Does a simple average of values defined for all surrounding faces/vertices.
Qgis::RenderUnit edgeStrokeWidthUnit() const
Returns the stroke width unit used to render edges scalar dataset.
DataResamplingMethod dataResamplingMethod() const
Returns the type of interpolation to use to convert face defined datasets to values on vertices.
QDomElement writeXml(QDomDocument &doc, const QgsReadWriteContext &context=QgsReadWriteContext()) const
Writes configuration to a new DOM element.
void setEdgeStrokeWidth(const QgsInterpolatedLineWidth &strokeWidth)
Sets the stroke width used to render edges scalar dataset.
double classificationMaximum() const
Returns max value used for creation of the color ramp shader.
QgsInterpolatedLineWidth edgeStrokeWidth() const
Returns the stroke width used to render edges scalar dataset.
void setDataResamplingMethod(const DataResamplingMethod &dataResamplingMethod)
Sets data interpolation method.
void setAveragingMethod(QgsMesh3DAveragingMethod *method)
Sets averaging method for conversion of 3d stacked mesh data to 2d data.
void setActiveVectorDatasetGroup(int activeVectorDatasetGroup)
Sets the active vector dataset group.
QgsMeshRendererScalarSettings scalarSettings(int groupIndex) const
Returns renderer settings.
int activeVectorDatasetGroup() const
Returns the active vector dataset group.
QgsMesh3DAveragingMethod * averagingMethod() const
Returns averaging method for conversion of 3d stacked mesh data to 2d data.
bool hasSettings(int datasetGroupIndex) const
Returns whether the group with index has render settings (scalar or vector)
int activeScalarDatasetGroup() const
Returns the active scalar dataset group.
QgsMeshRendererVectorSettings vectorSettings(int groupIndex) const
Returns renderer settings.
void setActiveScalarDatasetGroup(int activeScalarDatasetGroup)
Sets the active scalar dataset group.
void readXml(const QDomElement &elem, const QgsReadWriteContext &context=QgsReadWriteContext())
Reads configuration from the given DOM element.
QgsMeshRendererSettings()
Constructs renderer with default single layer averaging method.
QDomElement writeXml(QDomDocument &doc, const QgsReadWriteContext &context=QgsReadWriteContext()) const
Writes configuration to a new DOM element.
~QgsMeshRendererSettings()
Destructor.
Represents a mesh renderer settings for vector datasets displayed with arrows.
void setFixedShaftLength(double fixedShaftLength)
Sets fixed length (in millimeters)
void setMaxShaftLength(double maxShaftLength)
Sets maximum shaft length (in millimeters)
QgsMeshRendererVectorArrowSettings::ArrowScalingMethod shaftLengthMethod() const
Returns method used for drawing arrows.
void setMinShaftLength(double minShaftLength)
Sets mininimum shaft length (in millimeters)
double fixedShaftLength() const
Returns fixed arrow length (in millimeters)
void setArrowHeadWidthRatio(double arrowHeadWidthRatio)
Sets ratio of the head width of the arrow (range 0-1)
double scaleFactor() const
Returns scale factor.
double maxShaftLength() const
Returns maximum shaft length (in millimeters)
double arrowHeadWidthRatio() const
Returns ratio of the head width of the arrow (range 0-1)
void setArrowHeadLengthRatio(double arrowHeadLengthRatio)
Sets ratio of the head length of the arrow (range 0-1)
void readXml(const QDomElement &elem)
Reads configuration from the given DOM element.
void setScaleFactor(double scaleFactor)
Sets scale factor.
void setShaftLengthMethod(ArrowScalingMethod shaftLengthMethod)
Sets method used for drawing arrows.
ArrowScalingMethod
Algorithm how to transform vector magnitude to length of arrow on the device in pixels.
@ Scaled
Scale vector magnitude by factor scaleFactor()
@ MinMax
Scale vector magnitude linearly to fit in range of vectorFilterMin() and vectorFilterMax()
@ Fixed
Use fixed length fixedShaftLength() regardless of vector's magnitude.
double minShaftLength() const
Returns mininimum shaft length (in millimeters)
QDomElement writeXml(QDomDocument &doc) const
Writes configuration to a new DOM element.
double arrowHeadLengthRatio() const
Returns ratio of the head length of the arrow (range 0-1)
Represents a renderer settings for vector datasets.
void setColorRampShader(const QgsColorRampShader &colorRampShader)
Returns the color ramp shader used to render vector datasets.
void setStreamLinesSettings(const QgsMeshRendererVectorStreamlineSettings &streamLinesSettings)
Sets settings for vector rendered with streamlines.
int userGridCellWidth() const
Returns width in pixels of user grid cell.
void setArrowsSettings(const QgsMeshRendererVectorArrowSettings &arrowSettings)
Sets settings for vector rendered with arrows.
void setUserGridCellWidth(int width)
Sets width of user grid cell (in pixels)
void setColor(const QColor &color)
Sets color used for drawing arrows.
QgsMeshRendererVectorTracesSettings tracesSettings() const
Returns settings for vector rendered with traces.
QColor color() const
Returns color used for drawing arrows.
int userGridCellHeight() const
Returns height in pixels of user grid cell.
void setOnUserDefinedGrid(bool enabled)
Toggles drawing of vectors on user defined grid.
double lineWidth() const
Returns line width of the arrow (in millimeters)
Symbology
Defines the symbology of vector rendering.
void setUserGridCellHeight(int height)
Sets height of user grid cell (in pixels)
Symbology symbology() const
Returns the displaying method used to render vector datasets.
double filterMax() const
Returns filter value for vector magnitudes.
QgsColorRampShader colorRampShader() const
Sets the color ramp shader used to render vector datasets.
void setSymbology(const Symbology &symbology)
Sets the displaying method used to render vector datasets.
void setFilterMin(double filterMin)
Sets filter value for vector magnitudes.
QgsMeshRendererVectorArrowSettings arrowSettings() const
Returns settings for vector rendered with arrows.
void setFilterMax(double filterMax)
Sets filter value for vector magnitudes.
QgsInterpolatedLineColor vectorStrokeColoring() const
Returns the stroke coloring used to render vector datasets.
void setTracesSettings(const QgsMeshRendererVectorTracesSettings &tracesSettings)
Sets settings for vector rendered with traces.
QDomElement writeXml(QDomDocument &doc, const QgsReadWriteContext &context=QgsReadWriteContext()) const
Writes configuration to a new DOM element.
void setColoringMethod(const QgsInterpolatedLineColor::ColoringMethod &coloringMethod)
Sets the coloring method used to render vector datasets.
QgsInterpolatedLineColor::ColoringMethod coloringMethod() const
Returns the coloring method used to render vector datasets.
void readXml(const QDomElement &elem, const QgsReadWriteContext &context=QgsReadWriteContext())
Reads configuration from the given DOM element.
QgsMeshRendererVectorWindBarbSettings windBarbSettings() const
Returns settings for vector rendered with wind barbs.
void setLineWidth(double lineWidth)
Sets line width of the arrow in pixels (in millimeters)
bool isOnUserDefinedGrid() const
Returns whether vectors are drawn on user-defined grid.
double filterMin() const
Returns filter value for vector magnitudes.
void setWindBarbSettings(const QgsMeshRendererVectorWindBarbSettings &windBarbSettings)
Sets settings for vector rendered with wind barbs.
QgsMeshRendererVectorStreamlineSettings streamLinesSettings() const
Returns settings for vector rendered with streamlines.
Represents a streamline renderer settings for vector datasets displayed by streamlines.
void setSeedingDensity(double seedingDensity)
Sets the density used for seeding start points.
SeedingStartPointsMethod seedingMethod() const
Returns the method used for seeding start points of strealines.
void setSeedingMethod(const SeedingStartPointsMethod &seedingMethod)
Sets the method used for seeding start points of strealines.
QDomElement writeXml(QDomDocument &doc) const
Writes configuration to a new DOM element.
SeedingStartPointsMethod
Method used to define start points that are used to draw streamlines.
void readXml(const QDomElement &elem)
Reads configuration from the given DOM element.
double seedingDensity() const
Returns the density used for seeding start points.
Represents a trace renderer settings for vector datasets displayed by particle traces.
Qgis::RenderUnit maximumTailLengthUnit() const
Returns the maximum tail length unit.
void setMaximumTailLength(double maximumTailLength)
Sets the maximums tail length.
QDomElement writeXml(QDomDocument &doc) const
Writes configuration to a new DOM element.
void readXml(const QDomElement &elem)
Reads configuration from the given DOM element.
void setMaximumTailLengthUnit(Qgis::RenderUnit maximumTailLengthUnit)
Sets the maximum tail length unit.
double maximumTailLength() const
Returns the maximum tail length.
int particlesCount() const
Returns particles count.
void setParticlesCount(int value)
Sets particles count.
Represents a mesh renderer settings for vector datasets displayed with wind barbs.
void readXml(const QDomElement &elem)
Reads configuration from the given DOM element.
void setShaftLengthUnits(Qgis::RenderUnit shaftLengthUnit)
Returns the units for the shaft length.
WindSpeedUnit magnitudeUnits() const
Returns the units that the data are in.
void setMagnitudeUnits(WindSpeedUnit units)
Sets the units that the data are in.
Qgis::RenderUnit shaftLengthUnits()
Sets the units for the shaft length.
void setMagnitudeMultiplier(double magnitudeMultiplier)
Sets a multiplier for the magnitude to convert it to knots.
double shaftLength() const
Returns the shaft length (in millimeters)
void setShaftLength(double shaftLength)
Sets the shaft length (in millimeters)
QDomElement writeXml(QDomDocument &doc) const
Writes configuration to a new DOM element.
WindSpeedUnit
Wind speed units. Wind barbs use knots so we use this enum for preset conversion values.
double magnitudeMultiplier() const
Returns the multiplier for the magnitude to convert it to knots, according to the units set with setM...
Sigma averages over the values between 0 (bed level) and 1 (surface).
The class is used as a container of context for various read/write operations on other objects.
static Q_INVOKABLE Qgis::RenderUnit decodeRenderUnit(const QString &string, bool *ok=nullptr)
Decodes a render unit from a string.
static Q_INVOKABLE QString encodeUnit(Qgis::DistanceUnit unit)
Encodes a distance unit to a string.