dox/DiffusiveFluxKernelThermalized__single__precision_8h_source.html

//======================================================================================================================

//

//  This file is part of waLBerla. waLBerla 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.

//

//  waLBerla 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 GNU General Public License along

//  with waLBerla (see COPYING.txt). If not, see <http://www.gnu.org/licenses/>.

//

//! \\file DiffusiveFluxKernelThermalized_single_precision.h

//! \\author pystencils

//======================================================================================================================


// kernel generated with pystencils v1.3.3, lbmpy v1.3.3,

// lbmpy_walberla/pystencils_walberla from waLBerla commit

// b0842e1a493ce19ef1bbb8d2cf382fc343970a7f


#pragma once

#include "core/DataTypes.h"

#include "core/logging/Logging.h"


#include "domain_decomposition/BlockDataID.h"

#include "domain_decomposition/IBlock.h"

#include "domain_decomposition/StructuredBlockStorage.h"

#include "field/GhostLayerField.h"

#include "field/SwapableCompare.h"

#include <set>


#ifdef __GNUC__

#define RESTRICT __restrict__

#elif _MSC_VER

#define RESTRICT __restrict

#else

#define RESTRICT

#endif


#if (defined WALBERLA_CXX_COMPILER_IS_GNU) ||                                  \

    (defined WALBERLA_CXX_COMPILER_IS_CLANG)

#pragma GCC diagnostic push

#pragma GCC diagnostic ignored "-Wunused-parameter"

#pragma GCC diagnostic ignored "-Wreorder"

#endif


namespace walberla {

namespace pystencils {


class DiffusiveFluxKernelThermalized_single_precision {

public:


  DiffusiveFluxKernelThermalized_single_precision(

      BlockDataID jID_, BlockDataID rhoID_, float D, uint32_t field_size_0,

      uint32_t field_size_1, uint32_t field_size_2, uint32_t seed,

      uint32_t time_step)

      : jID(jID_), rhoID(rhoID_), D_(D), field_size_0_(field_size_0),

        field_size_1_(field_size_1), field_size_2_(field_size_2), seed_(seed),

        time_step_(time_step), configured_(false){};


  void run(IBlock *block);


  void runOnCellInterval(const shared_ptr<StructuredBlockStorage> &blocks,

                         const CellInterval &globalCellInterval,

                         cell_idx_t ghostLayers, IBlock *block);


  void operator()(IBlock *block) { run(block); }


  static std::function<void(IBlock *)>


  getSweep(const shared_ptr<DiffusiveFluxKernelThermalized_single_precision>

               &kernel) {

    return [kernel](IBlock *b) { kernel->run(b); };

  }


  static std::function<void(IBlock *)> getSweepOnCellInterval(

      const shared_ptr<DiffusiveFluxKernelThermalized_single_precision> &kernel,

      const shared_ptr<StructuredBlockStorage> &blocks,

      const CellInterval &globalCellInterval, cell_idx_t ghostLayers = 1) {

    return [kernel, blocks, globalCellInterval, ghostLayers](IBlock *b) {

      kernel->runOnCellInterval(blocks, globalCellInterval, ghostLayers, b);

    };

  }


  std::function<void(IBlock *)> getSweep() {

    return [this](IBlock *b) { this->run(b); };

  }


  std::function<void(IBlock *)>


  getSweepOnCellInterval(const shared_ptr<StructuredBlockStorage> &blocks,

                         const CellInterval &globalCellInterval,

                         cell_idx_t ghostLayers = 1) {

    return [this, blocks, globalCellInterval, ghostLayers](IBlock *b) {

      this->runOnCellInterval(blocks, globalCellInterval, ghostLayers, b);

    };

  }


  void configure(const shared_ptr<StructuredBlockStorage> &blocks,

                 IBlock *block) {

    Cell BlockCellBB = blocks->getBlockCellBB(*block).min();

    block_offset_0_ = uint32_t(BlockCellBB[0]);

    block_offset_1_ = uint32_t(BlockCellBB[1]);

    block_offset_2_ = uint32_t(BlockCellBB[2]);

    configured_ = true;

  }


  BlockDataID jID;

  BlockDataID rhoID;

  float D_;

  uint32_t block_offset_0_;

  uint32_t block_offset_1_;

  uint32_t block_offset_2_;

  uint32_t field_size_0_;

  uint32_t field_size_1_;

  uint32_t field_size_2_;

  uint32_t seed_;

  uint32_t time_step_;

  bool configured_;

};


} // namespace pystencils

} // namespace walberla


#if (defined WALBERLA_CXX_COMPILER_IS_GNU) ||                                  \

    (defined WALBERLA_CXX_COMPILER_IS_CLANG)

#pragma GCC diagnostic pop

#endif

Cell
Definition Cell.hpp:97

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision
Definition DiffusiveFluxKernelThermalized_single_precision.h:53

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::operator()
void operator()(IBlock *block)
Definition DiffusiveFluxKernelThermalized_single_precision.h:69

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::block_offset_0_
uint32_t block_offset_0_
Definition DiffusiveFluxKernelThermalized_single_precision.h:111

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::getSweepOnCellInterval
std::function< void(IBlock *)> getSweepOnCellInterval(const shared_ptr< StructuredBlockStorage > &blocks, const CellInterval &globalCellInterval, cell_idx_t ghostLayers=1)
Definition DiffusiveFluxKernelThermalized_single_precision.h:91

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::DiffusiveFluxKernelThermalized_single_precision
DiffusiveFluxKernelThermalized_single_precision(BlockDataID jID_, BlockDataID rhoID_, float D, uint32_t field_size_0, uint32_t field_size_1, uint32_t field_size_2, uint32_t seed, uint32_t time_step)
Definition DiffusiveFluxKernelThermalized_single_precision.h:55

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::run
void run(IBlock *block)
Definition DiffusiveFluxKernelThermalized_single_precision.cpp:2903

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::getSweep
std::function< void(IBlock *)> getSweep()
Definition DiffusiveFluxKernelThermalized_single_precision.h:86

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::getSweep
static std::function< void(IBlock *)> getSweep(const shared_ptr< DiffusiveFluxKernelThermalized_single_precision > &kernel)
Definition DiffusiveFluxKernelThermalized_single_precision.h:72

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::seed_
uint32_t seed_
Definition DiffusiveFluxKernelThermalized_single_precision.h:117

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::field_size_1_
uint32_t field_size_1_
Definition DiffusiveFluxKernelThermalized_single_precision.h:115

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::rhoID
BlockDataID rhoID
Definition DiffusiveFluxKernelThermalized_single_precision.h:109

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::configure
void configure(const shared_ptr< StructuredBlockStorage > &blocks, IBlock *block)
Definition DiffusiveFluxKernelThermalized_single_precision.h:99

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::getSweepOnCellInterval
static std::function< void(IBlock *)> getSweepOnCellInterval(const shared_ptr< DiffusiveFluxKernelThermalized_single_precision > &kernel, const shared_ptr< StructuredBlockStorage > &blocks, const CellInterval &globalCellInterval, cell_idx_t ghostLayers=1)
Definition DiffusiveFluxKernelThermalized_single_precision.h:77

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::jID
BlockDataID jID
Definition DiffusiveFluxKernelThermalized_single_precision.h:108

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::block_offset_2_
uint32_t block_offset_2_
Definition DiffusiveFluxKernelThermalized_single_precision.h:113

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::block_offset_1_
uint32_t block_offset_1_
Definition DiffusiveFluxKernelThermalized_single_precision.h:112

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::time_step_
uint32_t time_step_
Definition DiffusiveFluxKernelThermalized_single_precision.h:118

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::configured_
bool configured_
Definition DiffusiveFluxKernelThermalized_single_precision.h:119

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::D_
float D_
Definition DiffusiveFluxKernelThermalized_single_precision.h:110

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::runOnCellInterval
void runOnCellInterval(const shared_ptr< StructuredBlockStorage > &blocks, const CellInterval &globalCellInterval, cell_idx_t ghostLayers, IBlock *block)
Definition DiffusiveFluxKernelThermalized_single_precision.cpp:2939

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::field_size_0_
uint32_t field_size_0_
Definition DiffusiveFluxKernelThermalized_single_precision.h:114

walberla::pystencils::DiffusiveFluxKernelThermalized_single_precision::field_size_2_
uint32_t field_size_2_
Definition DiffusiveFluxKernelThermalized_single_precision.h:116

block
static double * block(double *p, std::size_t index, std::size_t size)
Definition elc.cpp:172

walberla
Definition EKWalberla.hpp:36