api/3.24/qgsfeatureiterator_8cpp_source.html

 /***************************************************************************

     qgsfeatureiterator.cpp

     ---------------------

     begin                : Juli 2012

     copyright            : (C) 2012 by Martin Dobias

     email                : wonder dot sk at gmail dot com

  ***************************************************************************

  *                                                                         *

  *   This program is free software; you can redistribute it and/or modify  *

  *   it under the terms of the GNU General Public License as published by  *

  *   the Free Software Foundation; either version 2 of the License, or     *

  *   (at your option) any later version.                                   *

  *                                                                         *

  ***************************************************************************/

 #include "qgsfeatureiterator.h"

 #include "qgslogger.h"


 #include "qgssimplifymethod.h"

 #include "qgsexception.h"

 #include "qgslinestring.h"

 #include "qgsexpressionsorter_p.h"

 #include "qgsfeedback.h"

 #include "qgscoordinatetransform.h"


 QgsAbstractFeatureIterator::QgsAbstractFeatureIterator( const QgsFeatureRequest &request )

   : mRequest( request )

 {

 }


 bool QgsAbstractFeatureIterator::nextFeature( QgsFeature &f )

 {

   bool dataOk = false;

   if ( mRequest.limit() >= 0 && mFetchedCount >= mRequest.limit() )

   {

     return false;

   }


   if ( mRequest.feedback() && mRequest.feedback()->isCanceled() )

     return false;


   if ( mUseCachedFeatures )

   {

     if ( mFeatureIterator != mCachedFeatures.constEnd() )

     {

       f = mFeatureIterator->mFeature;

       ++mFeatureIterator;

       dataOk = true;

     }

     else

     {

       dataOk = false;

       // even the zombie dies at this point...

       mZombie = false;

     }

   }

   else

   {

     switch ( mRequest.filterType() )

     {

       case QgsFeatureRequest::FilterExpression:

         dataOk = nextFeatureFilterExpression( f );

         break;


       case QgsFeatureRequest::FilterFids:

         dataOk = nextFeatureFilterFids( f );

         break;


       default:

         dataOk = fetchFeature( f );

         break;

     }

   }


   if ( dataOk )

     mFetchedCount++;


   return dataOk;

 }


 bool QgsAbstractFeatureIterator::nextFeatureFilterExpression( QgsFeature &f )

 {

   while ( fetchFeature( f ) )

   {

     mRequest.expressionContext()->setFeature( f );

     if ( mRequest.filterExpression()->evaluate( mRequest.expressionContext() ).toBool() )

       return true;

   }

   return false;

 }


 bool QgsAbstractFeatureIterator::nextFeatureFilterFids( QgsFeature &f )

 {

   while ( fetchFeature( f ) )

   {

     if ( mRequest.filterFids().contains( f.id() ) )

       return true;

   }

   return false;

 }


 void QgsAbstractFeatureIterator::geometryToDestinationCrs( QgsFeature &feature, const QgsCoordinateTransform &transform ) const

 {

   if ( transform.isValid() && feature.hasGeometry() )

   {

     try

     {

       QgsGeometry g = feature.geometry();

       g.transform( transform );

       feature.setGeometry( g );

     }

     catch ( QgsCsException & )

     {

       // transform error

       if ( mRequest.transformErrorCallback() )

       {

         mRequest.transformErrorCallback()( feature );

       }

       // remove geometry - we can't reproject so better not return a geometry in a different crs

       feature.clearGeometry();

     }

   }

 }


 QgsAbstractFeatureIterator::RequestToSourceCrsResult QgsAbstractFeatureIterator::updateRequestToSourceCrs( QgsFeatureRequest &request, const QgsCoordinateTransform &transform ) const

 {

   if ( transform.isShortCircuited() )

     return RequestToSourceCrsResult::Success; // nothing to do


   switch ( request.spatialFilterType() )

   {

     case Qgis::SpatialFilterType::NoFilter:

       return RequestToSourceCrsResult::Success;


     case Qgis::SpatialFilterType::BoundingBox:

     {

       QgsRectangle newRect = transform.transformBoundingBox( request.filterRect(), Qgis::TransformDirection::Reverse );

       request.setFilterRect( newRect );

       return RequestToSourceCrsResult::Success;

     }

     case Qgis::SpatialFilterType::DistanceWithin:

     {

       // we can't safely handle a distance within query, as we cannot transform the

       // static within tolerance distance from one CRS to a static distance in a different CRS.


       // in this case we transform the request's distance within requirement to a "worst case" bounding box filter, so

       // that the request itself can still take advantage of spatial indices even when we have to do the distance within check locally

       QgsRectangle newRect = transform.transformBoundingBox( request.filterRect(), Qgis::TransformDirection::Reverse );

       request.setFilterRect( newRect );


       return RequestToSourceCrsResult::DistanceWithinMustBeCheckedManually;

     }

   }


   BUILTIN_UNREACHABLE

 }


 QgsRectangle QgsAbstractFeatureIterator::filterRectToSourceCrs( const QgsCoordinateTransform &transform ) const

 {

   if ( mRequest.filterRect().isNull() )

     return QgsRectangle();


   QgsCoordinateTransform extentTransform = transform;

   extentTransform.setBallparkTransformsAreAppropriate( true );

   return extentTransform.transformBoundingBox( mRequest.filterRect(), Qgis::TransformDirection::Reverse );

 }


 void QgsAbstractFeatureIterator::ref()

 {

   // Prepare if required the simplification of geometries to fetch:

   // This code runs here because of 'prepareSimplification()' is virtual and it can be overridden

   // in inherited iterators who change the default behavior.

   // It would be better to call this method in the constructor enabling virtual-calls as it is described by example at:

   // http://www.parashift.com/c%2B%2B-faq-lite/calling-virtuals-from-ctor-idiom.html

   if ( refs == 0 )

   {

     prepareSimplification( mRequest.simplifyMethod() );


     // Should be called as last preparation step since it possibly will already fetch all features

     setupOrderBy( mRequest.orderBy() );

   }

   refs++;

 }


 void QgsAbstractFeatureIterator::deref()

 {

   refs--;

   if ( !refs )

     delete this;

 }


 bool QgsAbstractFeatureIterator::compileFailed() const

 {

   return mCompileFailed;

 }


 bool QgsAbstractFeatureIterator::prepareSimplification( const QgsSimplifyMethod &simplifyMethod )

 {

   Q_UNUSED( simplifyMethod )

   return false;

 }


 void QgsAbstractFeatureIterator::setupOrderBy( const QList<QgsFeatureRequest::OrderByClause> &orderBys )

 {

   // Let the provider try using an efficient order by strategy first

   if ( !orderBys.isEmpty() && !prepareOrderBy( orderBys ) )

   {

     // No success from the provider


     // Prepare the expressions

     QList<QgsFeatureRequest::OrderByClause> preparedOrderBys( orderBys );

     QList<QgsFeatureRequest::OrderByClause>::iterator orderByIt( preparedOrderBys.begin() );


     QgsExpressionContext *expressionContext( mRequest.expressionContext() );

     do

     {

       orderByIt->prepare( expressionContext );

     }

     while ( ++orderByIt != preparedOrderBys.end() );


     // Fetch all features

     QgsIndexedFeature indexedFeature;

     indexedFeature.mIndexes.resize( preparedOrderBys.size() );


     while ( nextFeature( indexedFeature.mFeature ) )

     {

       expressionContext->setFeature( indexedFeature.mFeature );

       int i = 0;

       const auto constPreparedOrderBys = preparedOrderBys;

       for ( const QgsFeatureRequest::OrderByClause &orderBy : constPreparedOrderBys )

       {

         indexedFeature.mIndexes.replace( i++, orderBy.expression().evaluate( expressionContext ) );

       }


       // We need all features, to ignore the limit for this pre-fetch

       // keep the fetched count at 0.

       mFetchedCount = 0;

       mCachedFeatures.append( indexedFeature );

     }


     std::sort( mCachedFeatures.begin(), mCachedFeatures.end(), QgsExpressionSorter( preparedOrderBys ) );


     mFeatureIterator = mCachedFeatures.constBegin();

     mUseCachedFeatures = true;

     // The real iterator is closed, we are only serving cached features

     mZombie = true;

   }

 }


 bool QgsAbstractFeatureIterator::providerCanSimplify( QgsSimplifyMethod::MethodType methodType ) const

 {

   Q_UNUSED( methodType )

   return false;

 }


 bool QgsAbstractFeatureIterator::prepareOrderBy( const QList<QgsFeatureRequest::OrderByClause> &orderBys )

 {

   Q_UNUSED( orderBys )

   return false;

 }


 void QgsAbstractFeatureIterator::setInterruptionChecker( QgsFeedback * )

 {

 }


 QgsFeatureIterator &QgsFeatureIterator::operator=( const QgsFeatureIterator &other )

 {

   if ( this != &other )

   {

     if ( mIter )

       mIter->deref();

     mIter = other.mIter;

     if ( mIter )

       mIter->ref();

   }

   return *this;

 }


 bool QgsFeatureIterator::isValid() const

 {

   return mIter && mIter->isValid();

 }

Qgis::SpatialFilterType::DistanceWithin
@ DistanceWithin
Filter by distance to reference geometry.

Qgis::SpatialFilterType::BoundingBox
@ BoundingBox
Filter using a bounding box.

Qgis::SpatialFilterType::NoFilter
@ NoFilter
No spatial filtering of features.

QgsAbstractFeatureIterator::RequestToSourceCrsResult
RequestToSourceCrsResult
Possible results from the updateRequestToSourceCrs() method.
Definition: qgsfeatureiterator.h:100

QgsAbstractFeatureIterator::RequestToSourceCrsResult::Success
@ Success
Request was successfully updated to the source CRS, or no changes were required.

QgsAbstractFeatureIterator::RequestToSourceCrsResult::DistanceWithinMustBeCheckedManually
@ DistanceWithinMustBeCheckedManually
The distance within request cannot be losslessly updated to the source CRS, and callers will need to ...

QgsAbstractFeatureIterator::mZombie
bool mZombie
A feature iterator may be closed already but still be serving features from the cache.
Definition: qgsfeatureiterator.h:190

QgsAbstractFeatureIterator::nextFeatureFilterFids
virtual bool nextFeatureFilterFids(QgsFeature &f)
By default, the iterator will fetch all features and check if the id is in the request.
Definition: qgsfeatureiterator.cpp:91

QgsAbstractFeatureIterator::geometryToDestinationCrs
void geometryToDestinationCrs(QgsFeature &feature, const QgsCoordinateTransform &transform) const
Transforms feature's geometry according to the specified coordinate transform.
Definition: qgsfeatureiterator.cpp:101

QgsAbstractFeatureIterator::setInterruptionChecker
virtual void setInterruptionChecker(QgsFeedback *interruptionChecker)
Attach an object that can be queried regularly by the iterator to check if it must stopped.
Definition: qgsfeatureiterator.cpp:261

QgsAbstractFeatureIterator::fetchFeature
virtual bool fetchFeature(QgsFeature &f)=0
If you write a feature iterator for your provider, this is the method you need to implement!...

QgsAbstractFeatureIterator::mFetchedCount
long long mFetchedCount
Number of features already fetched by iterator.
Definition: qgsfeatureiterator.h:205

QgsAbstractFeatureIterator::prepareSimplification
virtual bool prepareSimplification(const QgsSimplifyMethod &simplifyMethod)
Setup the simplification of geometries to fetch using the specified simplify method.
Definition: qgsfeatureiterator.cpp:196

QgsAbstractFeatureIterator::mCompileFailed
bool mCompileFailed
Definition: qgsfeatureiterator.h:210

QgsAbstractFeatureIterator::deref
void deref()
Remove reference, delete if refs == 0.
Definition: qgsfeatureiterator.cpp:184

QgsAbstractFeatureIterator::filterRectToSourceCrs
QgsRectangle filterRectToSourceCrs(const QgsCoordinateTransform &transform) const SIP_THROW(QgsCsException)
Returns a rectangle representing the original request's QgsFeatureRequest::filterRect().
Definition: qgsfeatureiterator.cpp:157

QgsAbstractFeatureIterator::mRequest
QgsFeatureRequest mRequest
A copy of the feature request.
Definition: qgsfeatureiterator.h:178

QgsAbstractFeatureIterator::QgsAbstractFeatureIterator
QgsAbstractFeatureIterator(const QgsFeatureRequest &request)
base class constructor - stores the iteration parameters
Definition: qgsfeatureiterator.cpp:25

QgsAbstractFeatureIterator::compileFailed
bool compileFailed() const
Indicator if there was an error when sending the compiled query to the server.
Definition: qgsfeatureiterator.cpp:191

QgsAbstractFeatureIterator::isValid
virtual bool isValid() const
Returns if this iterator is valid.
Definition: qgsfeatureiterator.h:81

QgsAbstractFeatureIterator::refs
int refs
reference counting (to allow seamless copying of QgsFeatureIterator instances)
Definition: qgsfeatureiterator.h:197

QgsAbstractFeatureIterator::nextFeature
virtual bool nextFeature(QgsFeature &f)
fetch next feature, return true on success
Definition: qgsfeatureiterator.cpp:30

QgsAbstractFeatureIterator::updateRequestToSourceCrs
RequestToSourceCrsResult updateRequestToSourceCrs(QgsFeatureRequest &request, const QgsCoordinateTransform &transform) const SIP_THROW(QgsCsException)
Update a QgsFeatureRequest so that spatial filters are transformed to the source's coordinate referen...
Definition: qgsfeatureiterator.cpp:124

QgsAbstractFeatureIterator::ref
void ref()
Add reference.
Definition: qgsfeatureiterator.cpp:167

QgsAbstractFeatureIterator::nextFeatureFilterExpression
virtual bool nextFeatureFilterExpression(QgsFeature &f)
By default, the iterator will fetch all features and check if the feature matches the expression.
Definition: qgsfeatureiterator.cpp:80

QgsCoordinateTransform
Class for doing transforms between two map coordinate systems.
Definition: qgscoordinatetransform.h:58

QgsCoordinateTransform::setBallparkTransformsAreAppropriate
void setBallparkTransformsAreAppropriate(bool appropriate)
Sets whether approximate "ballpark" results are appropriate for this coordinate transform.
Definition: qgscoordinatetransform.cpp:880

QgsCoordinateTransform::isShortCircuited
bool isShortCircuited() const
Returns true if the transform short circuits because the source and destination are equivalent.
Definition: qgscoordinatetransform.cpp:846

QgsCoordinateTransform::isValid
bool isValid() const
Returns true if the coordinate transform is valid, ie both the source and destination CRS have been s...
Definition: qgscoordinatetransform.cpp:841

QgsCoordinateTransform::transformBoundingBox
QgsRectangle transformBoundingBox(const QgsRectangle &rectangle, Qgis::TransformDirection direction=Qgis::TransformDirection::Forward, bool handle180Crossover=false) const SIP_THROW(QgsCsException)
Transforms a rectangle from the source CRS to the destination CRS.
Definition: qgscoordinatetransform.cpp:501

QgsCsException
Custom exception class for Coordinate Reference System related exceptions.
Definition: qgsexception.h:66

QgsExpressionContext
Expression contexts are used to encapsulate the parameters around which a QgsExpression should be eva...
Definition: qgsexpressioncontext.h:407

QgsExpressionContext::setFeature
void setFeature(const QgsFeature &feature)
Convenience function for setting a feature for the context.
Definition: qgsexpressioncontext.cpp:525

QgsExpression::evaluate
QVariant evaluate()
Evaluate the feature and return the result.
Definition: qgsexpression.cpp:350

QgsFeatureIterator
Wrapper for iterator of features from vector data provider or vector layer.
Definition: qgsfeatureiterator.h:290

QgsFeatureIterator::mIter
QgsAbstractFeatureIterator * mIter
Definition: qgsfeatureiterator.h:372

QgsFeatureIterator::operator=
QgsFeatureIterator & operator=(const QgsFeatureIterator &other)
Definition: qgsfeatureiterator.cpp:267

QgsFeatureIterator::isValid
bool isValid() const
Will return if this iterator is valid.
Definition: qgsfeatureiterator.cpp:280

QgsFeatureRequest::OrderByClause
The OrderByClause class represents an order by clause for a QgsFeatureRequest.
Definition: qgsfeaturerequest.h:140

QgsFeatureRequest
This class wraps a request for features to a vector layer (or directly its vector data provider).
Definition: qgsfeaturerequest.h:84

QgsFeatureRequest::simplifyMethod
const QgsSimplifyMethod & simplifyMethod() const
Returns the simplification method for geometries that will be fetched.
Definition: qgsfeaturerequest.h:752

QgsFeatureRequest::filterRect
QgsRectangle filterRect() const
Returns the rectangle from which features will be taken.
Definition: qgsfeaturerequest.cpp:117

QgsFeatureRequest::filterExpression
QgsExpression * filterExpression() const
Returns the filter expression (if set).
Definition: qgsfeaturerequest.h:549

QgsFeatureRequest::feedback
QgsFeedback * feedback() const
Returns the feedback object that can be queried regularly by the iterator to check if it should be ca...
Definition: qgsfeaturerequest.cpp:407

QgsFeatureRequest::limit
long long limit() const
Returns the maximum number of features to request, or -1 if no limit set.
Definition: qgsfeaturerequest.h:643

QgsFeatureRequest::orderBy
OrderBy orderBy() const
Returns a list of order by clauses specified for this feature request.
Definition: qgsfeaturerequest.cpp:205

QgsFeatureRequest::expressionContext
QgsExpressionContext * expressionContext()
Returns the expression context used to evaluate filter expressions.
Definition: qgsfeaturerequest.h:568

QgsFeatureRequest::spatialFilterType
Qgis::SpatialFilterType spatialFilterType() const
Returns the spatial filter type which is currently set on this request.
Definition: qgsfeaturerequest.h:356

QgsFeatureRequest::filterType
FilterType filterType() const
Returns the attribute/ID filter type which is currently set on this request.
Definition: qgsfeaturerequest.h:342

QgsFeatureRequest::filterFids
const QgsFeatureIds & filterFids() const
Returns the feature IDs that should be fetched.
Definition: qgsfeaturerequest.h:479

QgsFeatureRequest::FilterFids
@ FilterFids
Filter using feature IDs.
Definition: qgsfeaturerequest.h:105

QgsFeatureRequest::FilterExpression
@ FilterExpression
Filter using expression.
Definition: qgsfeaturerequest.h:104

QgsFeatureRequest::transformErrorCallback
std::function< void(const QgsFeature &) > transformErrorCallback() const
Returns the callback function to use when encountering a transform error when iterating features and ...
Definition: qgsfeaturerequest.h:834

QgsFeatureRequest::setFilterRect
QgsFeatureRequest & setFilterRect(const QgsRectangle &rectangle)
Sets the rectangle from which features will be taken.
Definition: qgsfeaturerequest.cpp:101

QgsFeature
The feature class encapsulates a single feature including its unique ID, geometry and a list of field...
Definition: qgsfeature.h:56

QgsFeature::geometry
QgsGeometry geometry
Definition: qgsfeature.h:67

QgsFeature::clearGeometry
void clearGeometry()
Removes any geometry associated with the feature.
Definition: qgsfeature.cpp:177

QgsFeature::hasGeometry
bool hasGeometry() const
Returns true if the feature has an associated geometry.
Definition: qgsfeature.cpp:223

QgsFeature::setGeometry
void setGeometry(const QgsGeometry &geometry)
Set the feature's geometry.
Definition: qgsfeature.cpp:163

QgsFeature::id
Q_GADGET QgsFeatureId id
Definition: qgsfeature.h:64

QgsFeedback
Base class for feedback objects to be used for cancellation of something running in a worker thread.
Definition: qgsfeedback.h:45

QgsFeedback::isCanceled
bool isCanceled() const SIP_HOLDGIL
Tells whether the operation has been canceled already.
Definition: qgsfeedback.h:54

QgsGeometry
A geometry is the spatial representation of a feature.
Definition: qgsgeometry.h:125

QgsGeometry::transform
Qgis::GeometryOperationResult transform(const QgsCoordinateTransform &ct, Qgis::TransformDirection direction=Qgis::TransformDirection::Forward, bool transformZ=false) SIP_THROW(QgsCsException)
Transforms this geometry as described by the coordinate transform ct.
Definition: qgsgeometry.cpp:3139

QgsIndexedFeature
Temporarily used structure to cache order by information.
Definition: qgsindexedfeature.h:30

QgsIndexedFeature::mFeature
QgsFeature mFeature
Definition: qgsindexedfeature.h:33

QgsIndexedFeature::mIndexes
QVector< QVariant > mIndexes
Definition: qgsindexedfeature.h:32

QgsRectangle
A rectangle specified with double values.
Definition: qgsrectangle.h:42

QgsRectangle::isNull
bool isNull() const
Test if the rectangle is null (all coordinates zero or after call to setMinimal()).
Definition: qgsrectangle.h:479

QgsSimplifyMethod
This class contains information about how to simplify geometries fetched from a QgsFeatureIterator.
Definition: qgssimplifymethod.h:29

QgsSimplifyMethod::MethodType
MethodType
Definition: qgssimplifymethod.h:32

BUILTIN_UNREACHABLE
#define BUILTIN_UNREACHABLE
Definition: qgis.h:2152

qgscoordinatetransform.h

qgsexception.h

qgsexpressionsorter_p.h

qgsfeatureiterator.h

qgsfeedback.h

qgslinestring.h

qgslogger.h

qgssimplifymethod.h