doxygen/xlink_main_2022_07_07_08.22.14/_chunker_8h_source.html

/*

 * LSST Data Management System

 * Copyright 2014-2015 AURA/LSST.

 *

 * This product includes software developed by the

 * LSST Project (http://www.lsst.org/).

 *

 * 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 3 of the License, or

 * (at your option) any later version.

 *

 * This program is distributed in the hope that it will be useful,

 * but WITHOUT ANY WARRANTY; without even the implied warranty of

 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the

 * GNU General Public License for more details.

 *

 * You should have received a copy of the LSST License Statement and

 * the GNU General Public License along with this program.  If not,

 * see <https://www.lsstcorp.org/LegalNotices/>.

 */


#ifndef LSST_SPHGEOM_CHUNKER_H_

#define LSST_SPHGEOM_CHUNKER_H_


#include <stdint.h>

#include <vector>


#include "Angle.h"

#include "Box.h"


namespace lsst {

namespace sphgeom {


struct SubChunks {

    int32_t chunkId;

    std::vector<int32_t> subChunkIds;


    SubChunks() : chunkId(-1) {}


    void swap(SubChunks & sc) {

        std::swap(chunkId, sc.chunkId);

        subChunkIds.swap(sc.subChunkIds);

    }

};


class Chunker {

public:

    Chunker(int32_t numStripes,

            int32_t numSubStripesPerStripe);


    bool operator==(Chunker const & c) const {

        return _numStripes == c._numStripes &&

               _numSubStripesPerStripe == c._numSubStripesPerStripe;

    }


    bool operator!=(Chunker const & c) const {

        return _numStripes != c._numStripes ||

               _numSubStripesPerStripe != c._numSubStripesPerStripe;

    }


    int32_t getNumStripes() const {

        return _numStripes;

    }


    int32_t getNumSubStripesPerStripe() const {

        return _numSubStripesPerStripe;

    }


    std::vector<int32_t> getChunksIntersecting(Region const & r) const;


    std::vector<SubChunks> getSubChunksIntersecting(Region const & r) const;


    std::vector<int32_t> getAllChunks() const;


    std::vector<int32_t> getAllSubChunks(int32_t chunkId) const;


    bool valid(int32_t chunkId) const;


    Box getChunkBoundingBox(int32_t stripe, int32_t chunk) const;

    Box getSubChunkBoundingBox(int32_t subStripe, int32_t subChunk) const;


    int32_t getStripe(int32_t chunkId) const {

        return chunkId / (2 * _numStripes);

    }


    int32_t getChunk(int32_t chunkId, int32_t stripe) const {

        return chunkId - stripe*2*_numStripes;

    }


private:

    struct Stripe {

        Angle chunkWidth;

        int32_t numChunksPerStripe;

        int32_t numSubChunksPerChunk;


        Stripe() :

            chunkWidth(0),

            numChunksPerStripe(0),

            numSubChunksPerChunk(0)

        {}

    };


    struct SubStripe {

        Angle subChunkWidth;

        int32_t numSubChunksPerChunk;


        SubStripe() : subChunkWidth(), numSubChunksPerChunk(0) {}

    };


    int32_t _getChunkId(int32_t stripe, int32_t chunk) const {

        return stripe * 2 * _numStripes + chunk;

    }


    int32_t _getSubChunkId(int32_t stripe, int32_t subStripe,

                           int32_t chunk, int32_t subChunk) const {

        int32_t y = subStripe - stripe * _numSubStripesPerStripe;

        int32_t x = subChunk -

                    chunk * _subStripes[subStripe].numSubChunksPerChunk;

        return y * _maxSubChunksPerSubStripeChunk + x;

    }


    void _getSubChunks(std::vector<SubChunks> & subChunks,

                       Region const & r,

                       NormalizedAngleInterval const & lon,

                       int32_t stripe,

                       int32_t chunk,

                       int32_t minSS,

                       int32_t maxSS) const;


    int32_t _numStripes;

    int32_t _numSubStripesPerStripe;

    int32_t _numSubStripes;

    int32_t _maxSubChunksPerSubStripeChunk;

    Angle _subStripeHeight;

    std::vector<Stripe> _stripes;

    std::vector<SubStripe> _subStripes;

};


}} // namespace lsst::sphgeom


#endif // LSST_SPHGEOM_CHUNKER_H_

x
double x
Definition: ChebyshevBoundedField.cc:276

y
int y
Definition: SpanSet.cc:48

lsst::sphgeom::Angle
Angle represents an angle in radians.
Definition: Angle.h:43

lsst::sphgeom::Box
Box represents a rectangle in spherical coordinate space that contains its boundary.
Definition: Box.h:54

lsst::sphgeom::Chunker
Chunker subdivides the unit sphere into longitude-latitude boxes.
Definition: Chunker.h:66

lsst::sphgeom::Chunker::getAllChunks
std::vector< int32_t > getAllChunks() const
getAllChunks returns the complete set of chunk IDs for the unit sphere.
Definition: Chunker.cc:258

lsst::sphgeom::Chunker::operator!=
bool operator!=(Chunker const &c) const
Definition: Chunker.h:76

lsst::sphgeom::Chunker::getStripe
int32_t getStripe(int32_t chunkId) const
Return the stripe for the specified chunkId.
Definition: Chunker.h:116

lsst::sphgeom::Chunker::getSubChunkBoundingBox
Box getSubChunkBoundingBox(int32_t subStripe, int32_t subChunk) const
Definition: Chunker.cc:302

lsst::sphgeom::Chunker::getNumSubStripesPerStripe
int32_t getNumSubStripesPerStripe() const
getNumSubStripesPerStripe returns the number of fixed-height latitude sub-intervals in each stripe.
Definition: Chunker.h:89

lsst::sphgeom::Chunker::getChunk
int32_t getChunk(int32_t chunkId, int32_t stripe) const
Return the chunk for the given chunkId and stripe.
Definition: Chunker.h:121

lsst::sphgeom::Chunker::Chunker
Chunker(int32_t numStripes, int32_t numSubStripesPerStripe)
Definition: Chunker.cc:57

lsst::sphgeom::Chunker::getAllSubChunks
std::vector< int32_t > getAllSubChunks(int32_t chunkId) const
getAllSubChunks returns the complete set of sub-chunk IDs for the given chunk.
Definition: Chunker.cc:269

lsst::sphgeom::Chunker::operator==
bool operator==(Chunker const &c) const
Definition: Chunker.h:71

lsst::sphgeom::Chunker::getSubChunksIntersecting
std::vector< SubChunks > getSubChunksIntersecting(Region const &r) const
getSubChunksIntersecting returns all the sub-chunks that potentially intersect the given region.
Definition: Chunker.cc:148

lsst::sphgeom::Chunker::getChunkBoundingBox
Box getChunkBoundingBox(int32_t stripe, int32_t chunk) const
Definition: Chunker.cc:291

lsst::sphgeom::Chunker::getNumStripes
int32_t getNumStripes() const
getNumStripes returns the number of fixed-height latitude intervals in the sky subdivision.
Definition: Chunker.h:83

lsst::sphgeom::Chunker::valid
bool valid(int32_t chunkId) const
Return 'true' if the specified chunk number is valid.
Definition: Chunker.cc:285

lsst::sphgeom::Chunker::getChunksIntersecting
std::vector< int32_t > getChunksIntersecting(Region const &r) const
getChunksIntersecting returns all the chunks that potentially intersect the given region.
Definition: Chunker.cc:103

lsst::sphgeom::Region
Region is a minimal interface for 2-dimensional regions on the unit sphere.
Definition: Region.h:79

lsst::afw::table::Angle
lsst::geom::Angle Angle
Definition: misc.h:33

lsst
A base class for image defects.
Definition: imageAlgorithm.dox:1

Angle.h
This file declares a class for representing angles.

Box.h
This file declares a class for representing longitude/latitude angle boxes on the unit sphere.

lsst::sphgeom::SubChunks
SubChunks represents a set of sub-chunks of a particular chunk.
Definition: Chunker.h:43

lsst::sphgeom::SubChunks::subChunkIds
std::vector< int32_t > subChunkIds
Definition: Chunker.h:45

lsst::sphgeom::SubChunks::swap
void swap(SubChunks &sc)
Definition: Chunker.h:49

lsst::sphgeom::SubChunks::chunkId
int32_t chunkId
Definition: Chunker.h:44

lsst::sphgeom::SubChunks::SubChunks
SubChunks()
Definition: Chunker.h:47

std::swap
T swap(T... args)

std::vector