QGIS API Documentation 3.41.0-Master (af5edcb665c)
Loading...
Searching...
No Matches
qgszonalstatistics.cpp
Go to the documentation of this file.
1/***************************************************************************
2 qgszonalstatistics.cpp - description
3 ----------------------------
4 begin : August 29th, 2009
5 copyright : (C) 2009 by Marco Hugentobler
6 email : marco at hugis dot net
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
18#include "qgszonalstatistics.h"
19
20#include "qgsfeatureiterator.h"
21#include "qgsfeedback.h"
22#include "qgsgeometry.h"
24#include "qgsvectorlayer.h"
26#include "qgsrasterlayer.h"
27#include "qgsproject.h"
28
29#include <QFile>
30
31QgsZonalStatistics::QgsZonalStatistics( QgsVectorLayer *polygonLayer, QgsRasterLayer *rasterLayer, const QString &attributePrefix, int rasterBand, Qgis::ZonalStatistics stats )
32 : QgsZonalStatistics( polygonLayer, rasterLayer ? rasterLayer->dataProvider() : nullptr, rasterLayer ? rasterLayer->crs() : QgsCoordinateReferenceSystem(), rasterLayer ? rasterLayer->rasterUnitsPerPixelX() : 0, rasterLayer ? rasterLayer->rasterUnitsPerPixelY() : 0, attributePrefix, rasterBand, stats )
33{
34}
35
36QgsZonalStatistics::QgsZonalStatistics( QgsVectorLayer *polygonLayer, QgsRasterInterface *rasterInterface, const QgsCoordinateReferenceSystem &rasterCrs, double rasterUnitsPerPixelX, double rasterUnitsPerPixelY, const QString &attributePrefix, int rasterBand, Qgis::ZonalStatistics stats )
37 : mRasterInterface( rasterInterface )
38 , mRasterCrs( rasterCrs )
39 , mCellSizeX( std::fabs( rasterUnitsPerPixelX ) )
40 , mCellSizeY( std::fabs( rasterUnitsPerPixelY ) )
41 , mRasterBand( rasterBand )
42 , mPolygonLayer( polygonLayer )
43 , mAttributePrefix( attributePrefix )
44 , mStatistics( stats )
45{
46}
47
49{
50 if ( !mRasterInterface )
51 {
53 }
54
55 if ( mRasterInterface->bandCount() < mRasterBand )
56 {
58 }
59
60 if ( !mPolygonLayer || mPolygonLayer->geometryType() != Qgis::GeometryType::Polygon )
61 {
63 }
64
65 QgsVectorDataProvider *vectorProvider = mPolygonLayer->dataProvider();
66 if ( !vectorProvider )
67 {
69 }
70
71 QMap<Qgis::ZonalStatistic, int> statFieldIndexes;
72
73 //add the new fields to the provider
74 int oldFieldCount = vectorProvider->fields().count();
75 QList<QgsField> newFieldList;
76 for ( Qgis::ZonalStatistic stat :
77 {
90 } )
91 {
92 if ( mStatistics & stat )
93 {
94 QString fieldName = getUniqueFieldName( mAttributePrefix + QgsZonalStatistics::shortName( stat ), newFieldList );
95 QgsField field( fieldName, QMetaType::Type::Double, QStringLiteral( "double precision" ) );
96 newFieldList.push_back( field );
97 statFieldIndexes.insert( stat, oldFieldCount + newFieldList.count() - 1 );
98 }
99 }
100
101 vectorProvider->addAttributes( newFieldList );
102
103 long featureCount = vectorProvider->featureCount();
104
105 QgsFeatureRequest request;
106 request.setNoAttributes();
107
108 request.setDestinationCrs( mRasterCrs, QgsProject::instance()->transformContext() );
109 QgsFeatureIterator fi = vectorProvider->getFeatures( request );
110 QgsFeature feature;
111
112 int featureCounter = 0;
113
114 QgsChangedAttributesMap changeMap;
115 while ( fi.nextFeature( feature ) )
116 {
117 ++featureCounter;
118 if ( feedback && feedback->isCanceled() )
119 {
120 break;
121 }
122
123 if ( feedback )
124 {
125 feedback->setProgress( 100.0 * static_cast<double>( featureCounter ) / featureCount );
126 }
127
128 QgsGeometry featureGeometry = feature.geometry();
129
130 QMap<Qgis::ZonalStatistic, QVariant> results = calculateStatistics( mRasterInterface, featureGeometry, mCellSizeX, mCellSizeY, mRasterBand, mStatistics );
131
132 if ( results.empty() )
133 continue;
134
135 QgsAttributeMap changeAttributeMap;
136 for ( const auto &result : results.toStdMap() )
137 {
138 changeAttributeMap.insert( statFieldIndexes.value( result.first ), result.second );
139 }
140
141 changeMap.insert( feature.id(), changeAttributeMap );
142 }
143
144 vectorProvider->changeAttributeValues( changeMap );
145 mPolygonLayer->updateFields();
146
147 if ( feedback )
148 {
149 if ( feedback->isCanceled() )
151
152 feedback->setProgress( 100 );
153 }
154
156}
157
158QString QgsZonalStatistics::getUniqueFieldName( const QString &fieldName, const QList<QgsField> &newFields )
159{
160 QgsVectorDataProvider *dp = mPolygonLayer->dataProvider();
161
162 if ( !dp->storageType().contains( QLatin1String( "ESRI Shapefile" ) ) )
163 {
164 return fieldName;
165 }
166
167 QList<QgsField> allFields = dp->fields().toList();
168 allFields.append( newFields );
169 QString shortName = fieldName.mid( 0, 10 );
170
171 bool found = false;
172 for ( const QgsField &field : std::as_const( allFields ) )
173 {
174 if ( shortName == field.name() )
175 {
176 found = true;
177 break;
178 }
179 }
180
181 if ( !found )
182 {
183 return shortName;
184 }
185
186 int n = 1;
187 shortName = QStringLiteral( "%1_%2" ).arg( fieldName.mid( 0, 8 ) ).arg( n );
188 found = true;
189 while ( found )
190 {
191 found = false;
192 for ( const QgsField &field : std::as_const( allFields ) )
193 {
194 if ( shortName == field.name() )
195 {
196 n += 1;
197 if ( n < 9 )
198 {
199 shortName = QStringLiteral( "%1_%2" ).arg( fieldName.mid( 0, 8 ) ).arg( n );
200 }
201 else
202 {
203 shortName = QStringLiteral( "%1_%2" ).arg( fieldName.mid( 0, 7 ) ).arg( n );
204 }
205 found = true;
206 }
207 }
208 }
209 return shortName;
210}
211
213{
214 switch ( statistic )
215 {
217 return QObject::tr( "Count" );
219 return QObject::tr( "Sum" );
221 return QObject::tr( "Mean" );
223 return QObject::tr( "Median" );
225 return QObject::tr( "St dev" );
227 return QObject::tr( "Minimum" );
229 return QObject::tr( "Maximum" );
231 return QObject::tr( "Minimum point" );
233 return QObject::tr( "Maximum point" );
235 return QObject::tr( "Range" );
237 return QObject::tr( "Minority" );
239 return QObject::tr( "Majority" );
241 return QObject::tr( "Variety" );
243 return QObject::tr( "Variance" );
246 return QString();
247 }
248 return QString();
249}
250
252{
253 switch ( statistic )
254 {
256 return QStringLiteral( "count" );
258 return QStringLiteral( "sum" );
260 return QStringLiteral( "mean" );
262 return QStringLiteral( "median" );
264 return QStringLiteral( "stdev" );
266 return QStringLiteral( "min" );
268 return QStringLiteral( "max" );
270 return QStringLiteral( "minpoint" );
272 return QStringLiteral( "maxpoint" );
274 return QStringLiteral( "range" );
276 return QStringLiteral( "minority" );
278 return QStringLiteral( "majority" );
280 return QStringLiteral( "variety" );
282 return QStringLiteral( "variance" );
285 return QString();
286 }
287 return QString();
288}
289
291QMap<int, QVariant> QgsZonalStatistics::calculateStatisticsInt( QgsRasterInterface *rasterInterface, const QgsGeometry &geometry, double cellSizeX, double cellSizeY, int rasterBand, Qgis::ZonalStatistics statistics )
292{
293 const auto result { QgsZonalStatistics::calculateStatistics( rasterInterface, geometry, cellSizeX, cellSizeY, rasterBand, statistics ) };
294 QMap<int, QVariant> pyResult;
295 for ( auto it = result.constBegin(); it != result.constEnd(); ++it )
296 {
297 pyResult.insert( static_cast<int>( it.key() ), it.value() );
298 }
299 return pyResult;
300}
302
303QMap<Qgis::ZonalStatistic, QVariant> QgsZonalStatistics::calculateStatistics( QgsRasterInterface *rasterInterface, const QgsGeometry &geometry, double cellSizeX, double cellSizeY, int rasterBand, Qgis::ZonalStatistics statistics )
304{
305 QMap<Qgis::ZonalStatistic, QVariant> results;
306
307 if ( geometry.isEmpty() )
308 return results;
309
310 QgsRectangle rasterBBox = rasterInterface->extent();
311
312 QgsRectangle featureRect = geometry.boundingBox().intersect( rasterBBox );
313
314 if ( featureRect.isEmpty() )
315 return results;
316
317 bool statsStoreValues = ( statistics & Qgis::ZonalStatistic::Median ) || ( statistics & Qgis::ZonalStatistic::StDev ) || ( statistics & Qgis::ZonalStatistic::Variance );
318 bool statsStoreValueCount = ( statistics & Qgis::ZonalStatistic::Minority ) || ( statistics & Qgis::ZonalStatistic::Majority );
319
320 FeatureStats featureStats( statsStoreValues, statsStoreValueCount );
321
322 int nCellsXProvider = rasterInterface->xSize();
323 int nCellsYProvider = rasterInterface->ySize();
324
325 int nCellsX, nCellsY;
326 QgsRectangle rasterBlockExtent;
327 QgsRasterAnalysisUtils::cellInfoForBBox( rasterBBox, featureRect, cellSizeX, cellSizeY, nCellsX, nCellsY, nCellsXProvider, nCellsYProvider, rasterBlockExtent );
328
329 featureStats.reset();
330 QgsRasterAnalysisUtils::statisticsFromMiddlePointTest( rasterInterface, rasterBand, geometry, nCellsX, nCellsY, cellSizeX, cellSizeY, rasterBlockExtent, [&featureStats]( double value, const QgsPointXY &point ) { featureStats.addValue( value, point ); } );
331
332 if ( featureStats.count <= 1 )
333 {
334 //the cell resolution is probably larger than the polygon area. We switch to precise pixel - polygon intersection in this case
335 featureStats.reset();
336 QgsRasterAnalysisUtils::statisticsFromPreciseIntersection( rasterInterface, rasterBand, geometry, nCellsX, nCellsY, cellSizeX, cellSizeY, rasterBlockExtent, [&featureStats]( double value, double weight, const QgsPointXY &point ) { featureStats.addValue( value, point, weight ); } );
337 }
338
339 // calculate the statistics
340
341 if ( statistics & Qgis::ZonalStatistic::Count )
342 results.insert( Qgis::ZonalStatistic::Count, QVariant( featureStats.count ) );
343 if ( statistics & Qgis::ZonalStatistic::Sum )
344 results.insert( Qgis::ZonalStatistic::Sum, QVariant( featureStats.sum ) );
345 if ( featureStats.count > 0 )
346 {
347 double mean = featureStats.sum / featureStats.count;
348 if ( statistics & Qgis::ZonalStatistic::Mean )
349 results.insert( Qgis::ZonalStatistic::Mean, QVariant( mean ) );
350 if ( statistics & Qgis::ZonalStatistic::Median )
351 {
352 std::sort( featureStats.values.begin(), featureStats.values.end() );
353 int size = featureStats.values.count();
354 bool even = ( size % 2 ) < 1;
355 double medianValue;
356 if ( even )
357 {
358 medianValue = ( featureStats.values.at( size / 2 - 1 ) + featureStats.values.at( size / 2 ) ) / 2;
359 }
360 else //odd
361 {
362 medianValue = featureStats.values.at( ( size + 1 ) / 2 - 1 );
363 }
364 results.insert( Qgis::ZonalStatistic::Median, QVariant( medianValue ) );
365 }
366 if ( statistics & Qgis::ZonalStatistic::StDev || statistics & Qgis::ZonalStatistic::Variance )
367 {
368 double sumSquared = 0;
369 for ( int i = 0; i < featureStats.values.count(); ++i )
370 {
371 double diff = featureStats.values.at( i ) - mean;
372 sumSquared += diff * diff;
373 }
374 double variance = sumSquared / featureStats.values.count();
375 if ( statistics & Qgis::ZonalStatistic::StDev )
376 {
377 double stdev = std::pow( variance, 0.5 );
378 results.insert( Qgis::ZonalStatistic::StDev, QVariant( stdev ) );
379 }
380 if ( statistics & Qgis::ZonalStatistic::Variance )
381 results.insert( Qgis::ZonalStatistic::Variance, QVariant( variance ) );
382 }
383 if ( statistics & Qgis::ZonalStatistic::Min )
384 results.insert( Qgis::ZonalStatistic::Min, QVariant( featureStats.min ) );
385 if ( statistics & Qgis::ZonalStatistic::Max )
386 results.insert( Qgis::ZonalStatistic::Max, QVariant( featureStats.max ) );
387 if ( statistics & Qgis::ZonalStatistic::MinimumPoint )
388 results.insert( Qgis::ZonalStatistic::MinimumPoint, QVariant( featureStats.minPoint ) );
389 if ( statistics & Qgis::ZonalStatistic::MaximumPoint )
390 results.insert( Qgis::ZonalStatistic::MaximumPoint, QVariant( featureStats.maxPoint ) );
391 if ( statistics & Qgis::ZonalStatistic::Range )
392 results.insert( Qgis::ZonalStatistic::Range, QVariant( featureStats.max - featureStats.min ) );
393 if ( statistics & Qgis::ZonalStatistic::Minority || statistics & Qgis::ZonalStatistic::Majority )
394 {
395 QList<int> vals = featureStats.valueCount.values();
396 std::sort( vals.begin(), vals.end() );
397 if ( statistics & Qgis::ZonalStatistic::Minority )
398 {
399 double minorityKey = featureStats.valueCount.key( vals.first() );
400 results.insert( Qgis::ZonalStatistic::Minority, QVariant( minorityKey ) );
401 }
402 if ( statistics & Qgis::ZonalStatistic::Majority )
403 {
404 double majKey = featureStats.valueCount.key( vals.last() );
405 results.insert( Qgis::ZonalStatistic::Majority, QVariant( majKey ) );
406 }
407 }
408 if ( statistics & Qgis::ZonalStatistic::Variety )
409 results.insert( Qgis::ZonalStatistic::Variety, QVariant( featureStats.valueCount.count() ) );
410 }
411
412 return results;
413}
ZonalStatistic
Statistics to be calculated during a zonal statistics operation.
Definition qgis.h:5424
@ StDev
Standard deviation of pixel values.
@ Mean
Mean of pixel values.
@ Median
Median of pixel values.
@ Max
Max of pixel values.
@ Variance
Variance of pixel values.
@ MinimumPoint
Pixel centroid for minimum pixel value.
@ Min
Min of pixel values.
@ Default
Default statistics.
@ Range
Range of pixel values (max - min)
@ Sum
Sum of pixel values.
@ Minority
Minority of pixel values.
@ All
All statistics. For QGIS 3.x this includes ONLY numeric statistics, but for 4.0 this will be extended...
@ Majority
Majority of pixel values.
@ Variety
Variety (count of distinct) pixel values.
@ MaximumPoint
Pixel centroid for maximum pixel value.
@ Count
Pixel count.
@ Polygon
Polygons.
ZonalStatisticResult
Zonal statistics result codes.
Definition qgis.h:5459
@ Canceled
Algorithm was canceled.
@ LayerTypeWrong
Layer is not a polygon layer.
@ RasterBandInvalid
The raster band does not exist on the raster layer.
@ RasterInvalid
Raster layer is invalid.
@ LayerInvalid
Layer is invalid.
QFlags< ZonalStatistic > ZonalStatistics
Statistics to be calculated during a zonal statistics operation.
Definition qgis.h:5450
This class represents a coordinate reference system (CRS).
Wrapper for iterator of features from vector data provider or vector layer.
bool nextFeature(QgsFeature &f)
Fetch next feature and stores in f, returns true on success.
This class wraps a request for features to a vector layer (or directly its vector data provider).
QgsFeatureRequest & setDestinationCrs(const QgsCoordinateReferenceSystem &crs, const QgsCoordinateTransformContext &context)
Sets the destination crs for feature's geometries.
QgsFeatureRequest & setNoAttributes()
Set that no attributes will be fetched.
The feature class encapsulates a single feature including its unique ID, geometry and a list of field...
Definition qgsfeature.h:58
QgsFeatureId id
Definition qgsfeature.h:66
QgsGeometry geometry
Definition qgsfeature.h:69
Base class for feedback objects to be used for cancellation of something running in a worker thread.
Definition qgsfeedback.h:44
bool isCanceled() const
Tells whether the operation has been canceled already.
Definition qgsfeedback.h:53
void setProgress(double progress)
Sets the current progress for the feedback object.
Definition qgsfeedback.h:61
Encapsulate a field in an attribute table or data source.
Definition qgsfield.h:53
int count
Definition qgsfields.h:50
QList< QgsField > toList() const
Utility function to return a list of QgsField instances.
A geometry is the spatial representation of a feature.
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.
A class to represent a 2D point.
Definition qgspointxy.h:60
static QgsProject * instance()
Returns the QgsProject singleton instance.
Base class for processing filters like renderers, reprojector, resampler etc.
virtual int xSize() const
Gets raster size.
virtual int bandCount() const =0
Gets number of bands.
virtual int ySize() const
virtual QgsRectangle extent() const
Gets the extent of the interface.
Represents a raster layer.
A rectangle specified with double values.
QgsRectangle intersect(const QgsRectangle &rect) const
Returns the intersection with the given rectangle.
This is the base class for vector data providers.
long long featureCount() const override=0
Number of features in the layer.
virtual QString storageType() const
Returns the permanent storage type for this layer as a friendly name.
virtual bool changeAttributeValues(const QgsChangedAttributesMap &attr_map)
Changes attribute values of existing features.
QgsFields fields() const override=0
Returns the fields associated with this data provider.
QgsFeatureIterator getFeatures(const QgsFeatureRequest &request=QgsFeatureRequest()) const override=0
Query the provider for features specified in request.
virtual bool addAttributes(const QList< QgsField > &attributes)
Adds new attributes to the provider.
Represents a vector layer which manages a vector based data sets.
void updateFields()
Will regenerate the fields property of this layer by obtaining all fields from the dataProvider,...
QgsVectorDataProvider * dataProvider() FINAL
Returns the layer's data provider, it may be nullptr.
Q_INVOKABLE Qgis::GeometryType geometryType() const
Returns point, line or polygon.
A class that calculates raster statistics (count, sum, mean) for a polygon or multipolygon layer and ...
QgsZonalStatistics(QgsVectorLayer *polygonLayer, QgsRasterLayer *rasterLayer, const QString &attributePrefix=QString(), int rasterBand=1, Qgis::ZonalStatistics stats=Qgis::ZonalStatistic::Default)
Convenience constructor for QgsZonalStatistics, using an input raster layer.
Qgis::ZonalStatisticResult calculateStatistics(QgsFeedback *feedback)
Runs the calculation.
static QString displayName(Qgis::ZonalStatistic statistic)
Returns the friendly display name for a statistic.
static QString shortName(Qgis::ZonalStatistic statistic)
Returns a short, friendly display name for a statistic, suitable for use in a field name.
QMap< int, QVariant > QgsAttributeMap
QMap< QgsFeatureId, QgsAttributeMap > QgsChangedAttributesMap
const QgsCoordinateReferenceSystem & crs