Public Member Functions | Protected Member Functions | Protected Attributes | List of all members
CumulativeProductOp Class Referenceabstract

Base class for flat (2D) products computed in the polar coordinate system. More...

#include <CumulativeProductOp.h>

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Public Member Functions

virtual const std::string & getOutputQuantity (const std::string &inputQuantity="") const
 Returns the primary output quantity (ODIM what:quantity , like DBZH)
 
virtual void computeSingleProduct (const DataSetMap< PolarSrc > &srcSweeps, DataSet< PolarDst > &dstProduct) const
 
- Public Member Functions inherited from PolarProductOp
 PolarProductOp (const std::string &name=__FUNCTION__, const std::string &description="")
 
 PolarProductOp (const PolarProductOp &op)
 
- Public Member Functions inherited from VolumeOp< PolarODIM >
 VolumeOp (const std::string &name, const std::string &description="")
 
virtual void processVolume (const Hi5Tree &src, Hi5Tree &dst) const
 Traverse through given volume and create new, processed data (volume or polar product). More...
 
- Public Member Functions inherited from BinaryPixelVectorOp< MultiplicationFunctor >
 BinaryPixelVectorOp (const std::string &name, const std::string &description)
 
virtual void process (const ImageFrame &src, Image &dst) const
 Main interface. Typically splits processing to each channel. More...
 
virtual void process (const ImageFrame &src1, const ImageFrame &src2, Image &dst) const
 
virtual void traverseChannels (const ImageTray< const Channel > &srcTray, ImageTray< Channel > &dstTray) const
 
virtual void traverseChannels (const ImageTray< const Channel > &src, const ImageTray< const Channel > &src2, ImageTray< Channel > &dst) const
 
void traverseFrame (const ImageFrame &src1, const ImageFrame &src2, ImageFrame &dst) const
 
- Public Member Functions inherited from PixelVectorOp
virtual void getDstConf (const ImageConf &srcConf, ImageConf &dstConf) const
 Given source image, determine respective dest image configuration. More...
 
- Public Member Functions inherited from ImageOp
virtual void process (const ImageFrame &src, const ImageFrame &srcWeight, Image &dst, Image &dstWeight) const
 
virtual void process (const ImageTray< const Channel > &src, ImageTray< Image > &dst, bool checkOverlap=true) const
 Run the operator on a series of images. Geometry and type may be changed. UNDER CONSTR. More...
 
virtual void traverseChannel (const Channel &src, Channel &dst) const
 Apply to single channel.
 
virtual void traverseChannel (const Channel &src, const Channel &srcAlpha, Channel &dst, Channel &dstAlpha) const
 Apply to single channel with alpha.
 
virtual void makeCompatible (const ImageConf &src, Image &dst) const
 Depending on the operator, modifies the geometry and type of dst. More...
 
virtual void makeCompatible2 (const ImageFrame &src1, const ImageFrame &src2, Image &dst) const
 Modifies the geometry and type of dst to fit the computation result.
 
virtual void help (std::ostream &ostr=std::cout) const
 Prints name, description and parameters using BeanLike::toOStr(). Virtual, so derived classes may extend output.
 
- Public Member Functions inherited from ImageMod
virtual int srcAlpha () const
 Tell if alpha channel(s) is required in input. More...
 
virtual void process (Image &dst) const
 Run this modifier for an image. More...
 
virtual void traverseChannels (ImageTray< Channel > &dst) const
 Run this modifier for a set of channels. More...
 
virtual void traverseChannel (Channel &dst) const
 Run this modifier for an image frame. More...
 
virtual void traverseChannel (Channel &dst, Channel &dstAlpha) const
 Run this modifier for an image frame. More...
 
virtual void traverseChannels (ImageFrame &dst) const
 Converts dst to ImageTray<Channel> and calls traverseFrame(ImageTray<Channel> &) .
 
- Public Member Functions inherited from BeanLike
virtual const std::string & getName () const
 Return the name of an instance.
 
virtual const std::string & getDescription () const
 Return a brief description.
 
bool hasParameters () const
 
template<class F >
getParameter (const std::string &p) const
 Gets a single parameter.
 
const ReferenceMapgetParameters () const
 
ReferenceMapgetParameters ()
 
template<class F >
void setParametersFromEntries (const F &args)
 
void setParameters (std::initializer_list< Variable::init_pair_t > args)
 Grants access to (if above hidden)
 
virtual void setParameters (const std::string &p, char assignmentSymbol='=', char separatorSymbol=0)
 Sets comma-separated parameters in a predetermined order "a,b,c" or by specifing them "b=2". More...
 
template<class T >
void setParameters (const std::map< std::string, T > &args)
 Set parameters.
 
template<class T >
void setParameters (const SmartMap< T > &args)
 Set parameters.
 
void setParameter (const std::string &p, const Castable &value)
 Sets a single parameter.
 
template<class T >
void setParameter (const std::string &p, const VariableT< T > &value)
 
template<class F >
void setParameter (const std::string &p, const F &value)
 Sets a single parameter. More...
 
template<class F >
void setParameter (const std::string &p, std::initializer_list< F > value)
 Sets a single parameter.
 
BeanLikeoperator= (const BeanLike &b)
 
virtual std::ostream & toStream (std::ostream &ostr, bool compact=true) const
 
 BeanLike (const BeanLike &b)
 
 BeanLike (const std::string &name, const std::string &description="")
 

Protected Member Functions

 CumulativeProductOp (const std::string &name=__FUNCTION__, const std::string &description="", const std::string &accumulationMethod="LATEST")
 
 CumulativeProductOp (const CumulativeProductOp &op)
 
virtual void setGeometry (const PolarODIM &srcODIM, PlainData< PolarDst > &dstData) const
 
virtual void processData (const Data< PolarSrc > &src, RadarAccumulator< Accumulator, PolarODIM > &cumulator) const =0
 
- Protected Member Functions inherited from PolarProductOp
void copyPolarGeometry (const PolarODIM &srcODIM, PlainData< PolarDst > &dstData) const
 
virtual void deriveDstGeometry (const DataSetMap< PolarSrc > &srcSweeps, PolarODIM &dstOdim, bool MINIMISE_RSCALE=false) const
 Based on input data, find geometry that maximises range and ray count. More...
 
virtual void determineMetadata (const DataSetMap< PolarSrc > &srcSweeps, PolarODIM &dstOdim) const
 Update timestamps etc. More...
 
- Protected Member Functions inherited from PixelVectorOp
 PixelVectorOp (const std::string &name, const std::string &description)
 
- Protected Member Functions inherited from ImageOp
 ImageOp (const std::string &name=__FUNCTION__, const std::string &description="")
 
 ImageOp (const ImageOp &op)
 
virtual bool processOverlappingWithTemp (const ImageFrame &src, Image &dst) const
 
virtual bool processOverlappingWithTemp (const ImageTray< const Channel > &src, ImageTray< Image > &dst) const
 
bool traverseOverlappingWithTemp (const Channel &src, Channel &dst) const
 
bool traverseOverlappingWithTemp (const Channel &src, const Channel &srcWeight, Channel &dst, Channel &dstWeight) const
 
void traverseChannelsEqually (const ImageTray< const Channel > &src, ImageTray< Channel > &dst) const
 Calls processWithTemp() if the frames overlap. More...
 
void traverseChannelsRepeated (const ImageTray< const Channel > &src, ImageTray< Channel > &dst) const
 Recycle channels until all dst channels completed.
 
void traverseChannelsSeparately (const ImageTray< const Channel > &src, ImageTray< Channel > &dst) const
 Process each (src,dst) channel pair independently. Raise error if their counts differ. More...
 
void traverseAsChannelTrays (const ImageFrame &src, ImageFrame &dst) const
 Redirect to processing as trays. This is the opposite of processChannels...() functions.
 
void traverseAsChannelTrays (const ImageFrame &src, const ImageFrame &srcWeight, ImageFrame &dst, ImageFrame &dstWeight) const
 Redirect to processing as trays. This is the opposite of processChannels...() functions.
 
virtual void initializeParameters (const ImageFrame &src, const ImageFrame &dst) const
 Set applicable internal parameters before calling traverse().
 
virtual void initializeParameters (const ImageFrame &src, const ImageFrame &src2, const ImageFrame &dst) const
 Set applicable internal parameters before calling traverse().
 
- Protected Member Functions inherited from ImageMod
 ImageMod (const std::string &name=__FUNCTION__, const std::string &description="")
 
 ImageMod (const ImageMod &op)
 
virtual void processChannelsSeparately (ImageTray< Channel > &dst) const
 Run this modifier by calling traverseChannel(Channel &) for each image.
 
virtual void initialize (Image &dst) const
 Modifies the geometry and the type of dst such that traverseChannel(Channel &) can be called.
 
virtual void initializeAlpha (const Image &srcAlpha, Image &dstAlpha) const
 Modifies the geometry and the type of dst such that traverseChannel(Channel &) can be called.
 
- Protected Member Functions inherited from BeanLike
virtual void storeLastArguments (const std::string &p)
 Called after setParameters()
 
virtual void updateBean () const
 Called after setParameters()
 

Protected Attributes

std::string accumulationMethod
 
- Protected Attributes inherited from PolarProductOp
bool aboveSeaLevel
 
- Protected Attributes inherited from BinaryPixelVectorOp< MultiplicationFunctor >
MultiplicationFunctor binaryFunctor
 
- Protected Attributes inherited from PixelVectorOp
double rescale
 
double POW
 
double INVPOW
 
- Protected Attributes inherited from BeanLike
const std::string name
 
const std::string description
 
ReferenceMap parameters
 

Additional Inherited Members

- Public Attributes inherited from PixelVectorOp
std::string functorDef
 
- Public Attributes inherited from ImageMod
bool physicalScale
 
- Static Public Attributes inherited from PolarProductOp
static const CoordinatePolicy polarCoordPolicy
 
- Static Protected Member Functions inherited from ImageOp
static void adaptCoordinateHandler (const Channel &src, CoordinateHandler2D &handler)
 

Detailed Description

Base class for flat (2D) products computed in the polar coordinate system.

Operator for radar data in HDF5 input, producing another HDF as output H5 data is in form Tree<NodeH5>.

Member Function Documentation

◆ computeSingleProduct()

void computeSingleProduct ( const DataSetMap< PolarSrc > &  srcSweeps,
DataSet< PolarDst > &  dstProduct 
) const
virtual

Some product generators may have user defined accumulation methods.

Important: RELINK => resize, relocate (Address of dstData.odim.angles[0] may have changed.)


The documentation for this class was generated from the following files: