api/3.36/qgspointcloudrenderer_8h_source.html

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

                         qgspointcloudrenderer.h

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

    begin                : October 2020

    copyright            : (C) 2020 by Peter Petrik

    email                : zilolv 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.                                   *

 *                                                                         *

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


#ifndef QGSPOINTCLOUDRENDERER_H

#define QGSPOINTCLOUDRENDERER_H


#include "qgsrendercontext.h"


#include "qgis_core.h"

#include "qgis_sip.h"

#include "qgsvector3d.h"

#include "qgspointcloudattribute.h"


class QgsPointCloudBlock;

class QgsLayerTreeLayer;

class QgsLayerTreeModelLegendNode;

class QgsPointCloudLayer;

class QgsElevationMap;


class CORE_EXPORT QgsPointCloudRenderContext

{

  public:


    QgsPointCloudRenderContext( QgsRenderContext &context, const QgsVector3D &scale, const QgsVector3D &offset,

                                double zValueScale, double zValueFixedOffset, QgsFeedback *feedback = nullptr );


    QgsPointCloudRenderContext( const QgsPointCloudRenderContext &rh ) = delete;


    QgsPointCloudRenderContext &operator=( const QgsPointCloudRenderContext & ) = delete;


    QgsRenderContext &renderContext() { return mRenderContext; }


    const QgsRenderContext &renderContext() const { return mRenderContext; } SIP_SKIP


    QgsVector3D scale() const { return mScale; }


    void setScale( const QgsVector3D &scale ) { mScale = scale; }


    QgsVector3D offset() const { return mOffset; }


    void setOffset( const QgsVector3D &offset ) { mOffset = offset; }


    long pointsRendered() const;


    void incrementPointsRendered( long count );


    QgsPointCloudAttributeCollection attributes() const { return mAttributes; }


    void setAttributes( const QgsPointCloudAttributeCollection &attributes );


    int pointRecordSize() const { return mPointRecordSize; }


    int xOffset() const { return mXOffset; }


    int yOffset() const { return mYOffset; }


    int zOffset() const { return mZOffset; }


    double zValueScale() const { return mZValueScale; }


    double zValueFixedOffset() const { return mZValueFixedOffset; }


    QgsFeedback *feedback() const { return mFeedback; }


#ifndef SIP_RUN


    template <typename T>


    static void getAttribute( const char *data, std::size_t offset, QgsPointCloudAttribute::DataType type, T &value )

    {

      switch ( type )

      {

        case QgsPointCloudAttribute::UChar:

          value = *reinterpret_cast< const unsigned char * >( data + offset );

          return;

        case QgsPointCloudAttribute::Char:

          value = *( data + offset );

          return;


        case QgsPointCloudAttribute::UInt32:

          value = *reinterpret_cast< const quint32 * >( data + offset );

          return;

        case QgsPointCloudAttribute::Int32:

          value = *reinterpret_cast< const qint32 * >( data + offset );

          return;


        case QgsPointCloudAttribute::UInt64:

          value = *reinterpret_cast< const quint64 * >( data + offset );

          return;

        case QgsPointCloudAttribute::Int64:

          value = *reinterpret_cast< const qint64 * >( data + offset );

          return;


        case QgsPointCloudAttribute::Short:

          value = *reinterpret_cast< const short * >( data + offset );

          return;


        case QgsPointCloudAttribute::UShort:

          value = *reinterpret_cast< const unsigned short * >( data + offset );

          return;


        case QgsPointCloudAttribute::Float:

          value = *reinterpret_cast< const float * >( data + offset );

          return;


        case QgsPointCloudAttribute::Double:

          value = *reinterpret_cast< const double * >( data + offset );

          return;

      }

    }

    static void getAttribute( const char *data, std::size_t offset, QgsPointCloudAttribute::DataType type, T &value ) {…}

#endif


#ifndef SIP_RUN    // this is only meant for low-level rendering in C++ code


    struct TriangulationData

    {

      std::vector<double> points;

      std::vector<QRgb> colors;

      std::vector<float> elevations;

    };

    struct TriangulationData {…};


    TriangulationData &triangulationData() { return mTriangulationData; }

#endif


  private:

#ifdef SIP_RUN

    QgsPointCloudRenderContext( const QgsPointCloudRenderContext &rh );

#endif


    QgsRenderContext &mRenderContext;

    QgsVector3D mScale;

    QgsVector3D mOffset;

    long mPointsRendered = 0;

    QgsPointCloudAttributeCollection mAttributes;

    int mPointRecordSize = 0;

    int mXOffset = 0;

    int mYOffset = 0;

    int mZOffset = 0;

    double mZValueScale = 1.0;

    double mZValueFixedOffset = 0;


    QgsFeedback *mFeedback = nullptr;


    TriangulationData mTriangulationData;

};

class CORE_EXPORT QgsPointCloudRenderContext {…};


#ifndef SIP_RUN


class CORE_EXPORT QgsPreparedPointCloudRendererData

{

  public:


    virtual ~QgsPreparedPointCloudRendererData();


    virtual QSet< QString > usedAttributes() const = 0;


    virtual bool prepareBlock( const QgsPointCloudBlock *block ) = 0;


    virtual QColor pointColor( const QgsPointCloudBlock *block, int i, double z ) = 0;


};

class CORE_EXPORT QgsPreparedPointCloudRendererData {…};


#endif


class CORE_EXPORT QgsPointCloudRenderer

{


#ifdef SIP_RUN

    SIP_CONVERT_TO_SUBCLASS_CODE


    const QString type = sipCpp->type();


    if ( type == QLatin1String( "rgb" ) )

      sipType = sipType_QgsPointCloudRgbRenderer;

    else if ( type == QLatin1String( "ramp" ) )

      sipType = sipType_QgsPointCloudAttributeByRampRenderer;

    else if ( type == QLatin1String( "classified" ) )

      sipType = sipType_QgsPointCloudClassifiedRenderer;

    else if ( type == QLatin1String( "extent" ) )

      sipType = sipType_QgsPointCloudExtentRenderer;

    else

      sipType = 0;

    SIP_END

#endif


  public:


    QgsPointCloudRenderer() = default;


    virtual ~QgsPointCloudRenderer() = default;


    virtual QString type() const = 0;


    virtual QgsPointCloudRenderer *clone() const = 0 SIP_FACTORY;


    QgsPointCloudRenderer( const QgsPointCloudRenderer &other ) = delete;


    QgsPointCloudRenderer &operator=( const QgsPointCloudRenderer &other ) = delete;


    virtual void renderBlock( const QgsPointCloudBlock *block, QgsPointCloudRenderContext &context ) = 0;


    QVector<QVariantMap> identify( QgsPointCloudLayer *layer, const QgsRenderContext &context, const QgsGeometry &geometry, double toleranceForPointIdentification = 0 ) SIP_SKIP;


    virtual bool willRenderPoint( const QMap<QString, QVariant> &pointAttributes )

    {

      Q_UNUSED( pointAttributes );

      return true;

    }

    virtual bool willRenderPoint( const QMap<QString, QVariant> &pointAttributes ) {…}


    static QgsPointCloudRenderer *load( QDomElement &element, const QgsReadWriteContext &context ) SIP_FACTORY;


    virtual QDomElement save( QDomDocument &doc, const QgsReadWriteContext &context ) const = 0;


    virtual QSet< QString > usedAttributes( const QgsPointCloudRenderContext &context ) const;


    virtual std::unique_ptr< QgsPreparedPointCloudRendererData > prepare() SIP_SKIP;


    virtual void startRender( QgsPointCloudRenderContext &context );


    virtual void stopRender( QgsPointCloudRenderContext &context );


    virtual bool legendItemChecked( const QString &key );


    virtual void checkLegendItem( const QString &key, bool state = true );


    void setPointSize( double size ) { mPointSize = size; }


    double pointSize() const { return mPointSize; }


    void setPointSizeUnit( const Qgis::RenderUnit units ) { mPointSizeUnit = units; }


    Qgis::RenderUnit pointSizeUnit() const { return mPointSizeUnit; }


    void setPointSizeMapUnitScale( const QgsMapUnitScale &scale ) { mPointSizeMapUnitScale = scale; }


    const QgsMapUnitScale &pointSizeMapUnitScale() const { return mPointSizeMapUnitScale; }


    Qgis::PointCloudDrawOrder drawOrder2d() const;


    void setDrawOrder2d( Qgis::PointCloudDrawOrder order );


    Qgis::PointCloudSymbol pointSymbol() const;


    void setPointSymbol( Qgis::PointCloudSymbol symbol );


    double maximumScreenError() const;


    void setMaximumScreenError( double error );


    Qgis::RenderUnit maximumScreenErrorUnit() const;


    void setMaximumScreenErrorUnit( Qgis::RenderUnit unit );


    bool renderAsTriangles() const { return mRenderAsTriangles; }


    void setRenderAsTriangles( bool asTriangles ) { mRenderAsTriangles = asTriangles; }


    bool horizontalTriangleFilter() const { return mHorizontalTriangleFilter; }


    void setHorizontalTriangleFilter( bool enabled ) { mHorizontalTriangleFilter = enabled; }


    double horizontalTriangleFilterThreshold() const { return mHorizontalTriangleFilterThreshold; }


    void setHorizontalTriangleFilterThreshold( double threshold ) { mHorizontalTriangleFilterThreshold = threshold; }


    Qgis::RenderUnit horizontalTriangleFilterUnit() const { return mHorizontalTriangleFilterUnit; }


    void setHorizontalTriangleFilterUnit( Qgis::RenderUnit unit ) { mHorizontalTriangleFilterUnit = unit; }


    virtual QList<QgsLayerTreeModelLegendNode *> createLegendNodes( QgsLayerTreeLayer *nodeLayer ) SIP_FACTORY;


    virtual QStringList legendRuleKeys() const;


  protected:


    static void pointXY( QgsPointCloudRenderContext &context, const char *ptr, int i, double &x, double &y )

    {

      // be wary when copying this code!! In the renderer we explicitly request x/y/z as qint32 values, but in other

      // situations these may be floats or doubles!

      const qint32 ix = *reinterpret_cast< const qint32 * >( ptr + i * context.pointRecordSize() + context.xOffset() );

      const qint32 iy = *reinterpret_cast< const qint32 * >( ptr + i * context.pointRecordSize() + context.yOffset() );

      x = context.offset().x() + context.scale().x() * ix;

      y = context.offset().y() + context.scale().y() * iy;

    }

    static void pointXY( QgsPointCloudRenderContext &context, const char *ptr, int i, double &x, double &y ) {…}


    static double pointZ( QgsPointCloudRenderContext &context, const char *ptr, int i )

    {

      // be wary when copying this code!! In the renderer we explicitly request x/y/z as qint32 values, but in other

      // situations these may be floats or doubles!

      const qint32 iz = *reinterpret_cast<const qint32 * >( ptr + i * context.pointRecordSize() + context.zOffset() );

      return ( context.offset().z() + context.scale().z() * iz ) * context.zValueScale() + context.zValueFixedOffset();

    }

    static double pointZ( QgsPointCloudRenderContext &context, const char *ptr, int i ) {…}


    void drawPoint( double x, double y, const QColor &color, QgsPointCloudRenderContext &context ) const

    {

      drawPoint( x, y, color, mDefaultPainterPenWidth, context );

    }

    void drawPoint( double x, double y, const QColor &color, QgsPointCloudRenderContext &context ) const {…}


    void drawPoint( double x, double y, const QColor &color, int width, QgsPointCloudRenderContext &context ) const

    {

      const QPointF originalXY( x, y );

      context.renderContext().mapToPixel().transformInPlace( x, y );

      QPainter *painter = context.renderContext().painter();

      switch ( mPointSymbol )

      {

        case Qgis::PointCloudSymbol::Square:

          painter->fillRect( QRectF( x - width * 0.5,

                                     y - width * 0.5,

                                     width, width ), color );

          break;


        case Qgis::PointCloudSymbol::Circle:

          painter->setBrush( QBrush( color ) );

          painter->setPen( Qt::NoPen );

          painter->drawEllipse( QRectF( x - width * 0.5,

                                        y - width * 0.5,

                                        width, width ) );

          break;

      };

    }

    void drawPoint( double x, double y, const QColor &color, int width, QgsPointCloudRenderContext &context ) const {…}


#ifndef SIP_RUN   // intentionally left out from SIP to avoid API breaks in future when we move elevation post-processing elsewhere


    void drawPointToElevationMap( double x, double y, double z, QgsPointCloudRenderContext &context ) const;


    void drawPointToElevationMap( double x, double y, double z, int width, QgsPointCloudRenderContext &context ) const;

#endif


    void addPointToTriangulation( double x, double y, double z, const QColor &color, QgsPointCloudRenderContext &context )

    {

      QgsPointXY p = context.renderContext().mapToPixel().transform( x, y ) * context.renderContext().devicePixelRatio();

      QgsPointCloudRenderContext::TriangulationData &triangulation = context.triangulationData();

      triangulation.points.push_back( p.x() );

      triangulation.points.push_back( p.y() );

      triangulation.colors.push_back( color.rgb() );

      if ( context.renderContext().elevationMap() )

        triangulation.elevations.push_back( static_cast<float>( z ) );

    }

    void addPointToTriangulation( double x, double y, double z, const QColor &color, QgsPointCloudRenderContext &context ) {…}


    void copyCommonProperties( QgsPointCloudRenderer *destination ) const;


    void restoreCommonProperties( const QDomElement &element, const QgsReadWriteContext &context );


    void saveCommonProperties( QDomElement &element, const QgsReadWriteContext &context ) const;


  private:

#ifdef SIP_RUN

    QgsPointCloudRenderer( const QgsPointCloudRenderer &other );

#endif


#ifdef QGISDEBUG

    QThread *mThread = nullptr;

#endif


    double mMaximumScreenError = 0.3;

    Qgis::RenderUnit mMaximumScreenErrorUnit = Qgis::RenderUnit::Millimeters;


    double mPointSize = 1;

    Qgis::RenderUnit mPointSizeUnit = Qgis::RenderUnit::Millimeters;

    QgsMapUnitScale mPointSizeMapUnitScale;


    Qgis::PointCloudSymbol mPointSymbol = Qgis::PointCloudSymbol::Square;

    int mDefaultPainterPenWidth = 1;

    Qgis::PointCloudDrawOrder mDrawOrder2d = Qgis::PointCloudDrawOrder::Default;


    bool mRenderAsTriangles = false;

    bool mHorizontalTriangleFilter = false;

    double mHorizontalTriangleFilterThreshold = 5.0;

    Qgis::RenderUnit mHorizontalTriangleFilterUnit = Qgis::RenderUnit::Millimeters;

};

class CORE_EXPORT QgsPointCloudRenderer {…};


#endif // QGSPOINTCLOUDRENDERER_H

Qgis::PointCloudSymbol
PointCloudSymbol
Rendering symbols for point cloud points.
Definition qgis.h:3426

Qgis::PointCloudSymbol::Circle
@ Circle
Renders points as circles.

Qgis::PointCloudSymbol::Square
@ Square
Renders points as squares.

Qgis::PointCloudDrawOrder
PointCloudDrawOrder
Pointcloud rendering order for 2d views.
Definition qgis.h:3438

Qgis::PointCloudDrawOrder::Default
@ Default
Draw points in the order they are stored.

Qgis::RenderUnit
RenderUnit
Rendering size units.
Definition qgis.h:4193

Qgis::RenderUnit::Millimeters
@ Millimeters
Millimeters.

QgsElevationMap
Stores digital elevation model in a raster image which may get updated as a part of map layer renderi...
Definition qgselevationmap.h:43

QgsFeedback
Base class for feedback objects to be used for cancellation of something running in a worker thread.
Definition qgsfeedback.h:44

QgsGeometry
A geometry is the spatial representation of a feature.
Definition qgsgeometry.h:162

QgsLayerTreeLayer
Layer tree node points to a map layer.
Definition qgslayertreelayer.h:43

QgsLayerTreeModelLegendNode
The QgsLegendRendererItem class is abstract interface for legend items returned from QgsMapLayerLegen...
Definition qgslayertreemodellegendnode.h:52

QgsMapToPixel::transform
QgsPointXY transform(const QgsPointXY &p) const
Transforms a point p from map (world) coordinates to device coordinates.
Definition qgsmaptopixel.h:88

QgsMapToPixel::transformInPlace
void transformInPlace(double &x, double &y) const
Transforms device coordinates to map coordinates.
Definition qgsmaptopixel.h:126

QgsMapUnitScale
Struct for storing maximum and minimum scales for measurements in map units.
Definition qgsmapunitscale.h:37

QgsPointCloudAttributeCollection
Collection of point cloud attributes.
Definition qgspointcloudattribute.h:142

QgsPointCloudAttribute::DataType
DataType
Systems of unit measurement.
Definition qgspointcloudattribute.h:45

QgsPointCloudAttribute::UShort
@ UShort
Unsigned short int 2 bytes.
Definition qgspointcloudattribute.h:49

QgsPointCloudAttribute::Double
@ Double
Double 8 bytes.
Definition qgspointcloudattribute.h:55

QgsPointCloudAttribute::Int32
@ Int32
Int32 4 bytes.
Definition qgspointcloudattribute.h:50

QgsPointCloudAttribute::Short
@ Short
Short int 2 bytes.
Definition qgspointcloudattribute.h:48

QgsPointCloudAttribute::Char
@ Char
Char 1 byte.
Definition qgspointcloudattribute.h:46

QgsPointCloudAttribute::Int64
@ Int64
Int64 8 bytes.
Definition qgspointcloudattribute.h:52

QgsPointCloudAttribute::UChar
@ UChar
Unsigned char 1 byte.
Definition qgspointcloudattribute.h:47

QgsPointCloudAttribute::UInt32
@ UInt32
Unsigned int32 4 bytes.
Definition qgspointcloudattribute.h:51

QgsPointCloudAttribute::Float
@ Float
Float 4 bytes.
Definition qgspointcloudattribute.h:54

QgsPointCloudAttribute::UInt64
@ UInt64
Unsigned int64 8 bytes.
Definition qgspointcloudattribute.h:53

QgsPointCloudBlock
Base class for storing raw data from point cloud nodes.
Definition qgspointcloudblock.h:39

QgsPointCloudLayer
Represents a map layer supporting display of point clouds.
Definition qgspointcloudlayer.h:46

QgsPointCloudRenderContext
Encapsulates the render context for a 2D point cloud rendering operation.
Definition qgspointcloudrenderer.h:43

QgsPointCloudRenderContext::yOffset
int yOffset() const
Returns the offset for the y value in a point record.
Definition qgspointcloudrenderer.h:146

QgsPointCloudRenderContext::zValueFixedOffset
double zValueFixedOffset() const
Returns any constant offset which must be applied to z values taken from the point cloud index.
Definition qgspointcloudrenderer.h:168

QgsPointCloudRenderContext::offset
QgsVector3D offset() const
Returns the offset of the layer's int32 coordinates compared to CRS coords.
Definition qgspointcloudrenderer.h:92

QgsPointCloudRenderContext::renderContext
QgsRenderContext & renderContext()
Returns a reference to the context's render context.
Definition qgspointcloudrenderer.h:70

QgsPointCloudRenderContext::getAttribute
static void getAttribute(const char *data, std::size_t offset, QgsPointCloudAttribute::DataType type, T &value)
Retrieves the attribute value from data at the specified offset, where type indicates the original da...
Definition qgspointcloudrenderer.h:184

QgsPointCloudRenderContext::setOffset
void setOffset(const QgsVector3D &offset)
Sets the offset of the layer's int32 coordinates compared to CRS coords.
Definition qgspointcloudrenderer.h:98

QgsPointCloudRenderContext::setScale
void setScale(const QgsVector3D &scale)
Sets the scale of the layer's int32 coordinates compared to CRS coords.
Definition qgspointcloudrenderer.h:87

QgsPointCloudRenderContext::pointRecordSize
int pointRecordSize() const
Returns the size of a single point record.
Definition qgspointcloudrenderer.h:130

QgsPointCloudRenderContext::xOffset
int xOffset() const
Returns the offset for the x value in a point record.
Definition qgspointcloudrenderer.h:138

QgsPointCloudRenderContext::renderContext
const QgsRenderContext & renderContext() const
Returns a reference to the context's render context.
Definition qgspointcloudrenderer.h:76

QgsPointCloudRenderContext::operator=
QgsPointCloudRenderContext & operator=(const QgsPointCloudRenderContext &)=delete
QgsPointCloudRenderContext cannot be copied.

QgsPointCloudRenderContext::QgsPointCloudRenderContext
QgsPointCloudRenderContext(const QgsPointCloudRenderContext &rh)=delete
QgsPointCloudRenderContext cannot be copied.

QgsPointCloudRenderContext::zValueScale
double zValueScale() const
Returns any constant scaling factor which must be applied to z values taken from the point cloud inde...
Definition qgspointcloudrenderer.h:161

QgsPointCloudRenderContext::scale
QgsVector3D scale() const
Returns the scale of the layer's int32 coordinates compared to CRS coords.
Definition qgspointcloudrenderer.h:81

QgsPointCloudRenderContext::attributes
QgsPointCloudAttributeCollection attributes() const
Returns the attributes associated with the rendered block.
Definition qgspointcloudrenderer.h:118

QgsPointCloudRenderContext::triangulationData
TriangulationData & triangulationData()
Returns reference to the triangulation data structure (only used when rendering as triangles is enabl...
Definition qgspointcloudrenderer.h:247

QgsPointCloudRenderContext::zOffset
int zOffset() const
Returns the offset for the y value in a point record.
Definition qgspointcloudrenderer.h:154

QgsPointCloudRenderContext::feedback
QgsFeedback * feedback() const
Returns the feedback object used to cancel rendering.
Definition qgspointcloudrenderer.h:175

QgsPointCloudRenderer
Abstract base class for 2d point cloud renderers.
Definition qgspointcloudrenderer.h:324

QgsPointCloudRenderer::save
virtual QDomElement save(QDomDocument &doc, const QgsReadWriteContext &context) const =0
Saves the renderer configuration to an XML element.

QgsPointCloudRenderer::renderAsTriangles
bool renderAsTriangles() const
Returns whether points are triangulated to render solid surface.
Definition qgspointcloudrenderer.h:593

QgsPointCloudRenderer::renderBlock
virtual void renderBlock(const QgsPointCloudBlock *block, QgsPointCloudRenderContext &context)=0
Renders a block of point cloud data using the specified render context.

QgsPointCloudRenderer::operator=
QgsPointCloudRenderer & operator=(const QgsPointCloudRenderer &other)=delete
QgsPointCloudRenderer cannot be copied – use clone() instead.

QgsPointCloudRenderer::pointSizeMapUnitScale
const QgsMapUnitScale & pointSizeMapUnitScale() const
Returns the map unit scale used for the point size.
Definition qgspointcloudrenderer.h:516

QgsPointCloudRenderer::setPointSizeMapUnitScale
void setPointSizeMapUnitScale(const QgsMapUnitScale &scale)
Sets the map unit scale used for the point size.
Definition qgspointcloudrenderer.h:508

QgsPointCloudRenderer::QgsPointCloudRenderer
QgsPointCloudRenderer()=default
Constructor for QgsPointCloudRenderer.

QgsPointCloudRenderer::horizontalTriangleFilter
bool horizontalTriangleFilter() const
Returns whether large triangles will get rendered.
Definition qgspointcloudrenderer.h:612

QgsPointCloudRenderer::type
virtual QString type() const =0
Returns the identifier of the renderer type.

QgsPointCloudRenderer::setHorizontalTriangleFilterThreshold
void setHorizontalTriangleFilterThreshold(double threshold)
Sets threshold for filtering of triangles.
Definition qgspointcloudrenderer.h:650

QgsPointCloudRenderer::setHorizontalTriangleFilterUnit
void setHorizontalTriangleFilterUnit(Qgis::RenderUnit unit)
Sets units of the threshold for filtering of triangles.
Definition qgspointcloudrenderer.h:672

QgsPointCloudRenderer::QgsPointCloudRenderer
QgsPointCloudRenderer(const QgsPointCloudRenderer &other)=delete
QgsPointCloudRenderer cannot be copied – use clone() instead.

QgsPointCloudRenderer::clone
virtual QgsPointCloudRenderer * clone() const =0
Create a deep copy of this renderer.

QgsPointCloudRenderer::addPointToTriangulation
void addPointToTriangulation(double x, double y, double z, const QColor &color, QgsPointCloudRenderContext &context)
Adds a point to the list of points to be triangulated (only used when renderAsTriangles() is enabled)
Definition qgspointcloudrenderer.h:765

QgsPointCloudRenderer::setPointSizeUnit
void setPointSizeUnit(const Qgis::RenderUnit units)
Sets the units used for the point size.
Definition qgspointcloudrenderer.h:492

QgsPointCloudRenderer::horizontalTriangleFilterUnit
Qgis::RenderUnit horizontalTriangleFilterUnit() const
Returns units of the threshold for filtering of triangles.
Definition qgspointcloudrenderer.h:661

QgsPointCloudRenderer::setRenderAsTriangles
void setRenderAsTriangles(bool asTriangles)
Sets whether points are triangulated to render solid surface.
Definition qgspointcloudrenderer.h:600

QgsPointCloudRenderer::~QgsPointCloudRenderer
virtual ~QgsPointCloudRenderer()=default

QgsPointCloudRenderer::drawPoint
void drawPoint(double x, double y, const QColor &color, QgsPointCloudRenderContext &context) const
Draws a point using a color at the specified x and y (in map coordinates).
Definition qgspointcloudrenderer.h:713

QgsPointCloudRenderer::drawPoint
void drawPoint(double x, double y, const QColor &color, int width, QgsPointCloudRenderContext &context) const
Draws a point using a color and painter width at the specified x and y (in map coordinates).
Definition qgspointcloudrenderer.h:723

QgsPointCloudRenderer::pointSizeUnit
Qgis::RenderUnit pointSizeUnit() const
Returns the units used for the point size.
Definition qgspointcloudrenderer.h:500

QgsPointCloudRenderer::horizontalTriangleFilterThreshold
double horizontalTriangleFilterThreshold() const
Returns threshold for filtering of triangles.
Definition qgspointcloudrenderer.h:637

QgsPointCloudRenderer::setHorizontalTriangleFilter
void setHorizontalTriangleFilter(bool enabled)
Sets whether large triangles will get rendered.
Definition qgspointcloudrenderer.h:624

QgsPointCloudRenderer::pointSize
double pointSize() const
Returns the point size.
Definition qgspointcloudrenderer.h:483

QgsPointCloudRenderer::pointZ
static double pointZ(QgsPointCloudRenderContext &context, const char *ptr, int i)
Retrieves the z value for the point at index i.
Definition qgspointcloudrenderer.h:702

QgsPointCloudRenderer::pointXY
static void pointXY(QgsPointCloudRenderContext &context, const char *ptr, int i, double &x, double &y)
Retrieves the x and y coordinate for the point at index i.
Definition qgspointcloudrenderer.h:689

QgsPointXY
A class to represent a 2D point.
Definition qgspointxy.h:60

QgsPointXY::y
double y
Definition qgspointxy.h:64

QgsPointXY::x
double x
Definition qgspointxy.h:63

QgsPreparedPointCloudRendererData
Base class for 2d point cloud renderer prepared data containers.
Definition qgspointcloudrenderer.h:284

QgsPreparedPointCloudRendererData::~QgsPreparedPointCloudRendererData
virtual ~QgsPreparedPointCloudRendererData()

QgsPreparedPointCloudRendererData::pointColor
virtual QColor pointColor(const QgsPointCloudBlock *block, int i, double z)=0
An optimised method of retrieving the color of a point from a point cloud block.

QgsPreparedPointCloudRendererData::prepareBlock
virtual bool prepareBlock(const QgsPointCloudBlock *block)=0
Prepares the renderer for using the specified block.

QgsPreparedPointCloudRendererData::usedAttributes
virtual QSet< QString > usedAttributes() const =0
Returns the set of attributes used by the prepared point cloud renderer.

QgsReadWriteContext
The class is used as a container of context for various read/write operations on other objects.
Definition qgsreadwritecontext.h:34

QgsRenderContext
Contains information about the context of a rendering operation.
Definition qgsrendercontext.h:61

QgsRenderContext::painter
QPainter * painter()
Returns the destination QPainter for the render operation.
Definition qgsrendercontext.h:107

QgsRenderContext::elevationMap
QgsElevationMap * elevationMap() const
Returns the destination elevation map for the render operation.
Definition qgsrendercontext.cpp:715

QgsRenderContext::devicePixelRatio
float devicePixelRatio() const
Returns the device pixel ratio.
Definition qgsrendercontext.cpp:680

QgsRenderContext::mapToPixel
const QgsMapToPixel & mapToPixel() const
Returns the context's map to pixel transform, which transforms between map coordinates and device coo...
Definition qgsrendercontext.h:308

QgsVector3D
Class for storage of 3D vectors similar to QVector3D, with the difference that it uses double precisi...
Definition qgsvector3d.h:31

QgsVector3D::y
double y() const
Returns Y coordinate.
Definition qgsvector3d.h:50

QgsVector3D::z
double z() const
Returns Z coordinate.
Definition qgsvector3d.h:52

QgsVector3D::x
double x() const
Returns X coordinate.
Definition qgsvector3d.h:48

qgis_sip.h

SIP_CONVERT_TO_SUBCLASS_CODE
#define SIP_CONVERT_TO_SUBCLASS_CODE(code)
Definition qgis_sip.h:191

SIP_SKIP
#define SIP_SKIP
Definition qgis_sip.h:126

SIP_FACTORY
#define SIP_FACTORY
Definition qgis_sip.h:76

SIP_END
#define SIP_END
Definition qgis_sip.h:208

qgspointcloudattribute.h

qgsrendercontext.h

qgsvector3d.h

QgsPointCloudRenderContext::TriangulationData
Helper data structure used when rendering points as triangulated surface.
Definition qgspointcloudrenderer.h:237

QgsPointCloudRenderContext::TriangulationData::colors
std::vector< QRgb > colors
RGB color for each point.
Definition qgspointcloudrenderer.h:239

QgsPointCloudRenderContext::TriangulationData::elevations
std::vector< float > elevations
Z value for each point (only used when global map shading is enabled)
Definition qgspointcloudrenderer.h:240

QgsPointCloudRenderContext::TriangulationData::points
std::vector< double > points
X,Y for each point - kept in this structure so that we can use it without further conversions in Dela...
Definition qgspointcloudrenderer.h:238