deleted invisible files (e6aef737) · Commits · TNL / tnl-dev

examples/inviscid-flow/1d/EulerPressureGetter.h~

deleted100644 → 0

+0 −58

Original line number	Diff line number	Diff line
		#ifndef EulerPressureGetter_H
		#define EulerPressureGetter_H

		#include <core/vectors/tnlVector.h>
		#include <mesh/tnlGrid.h>
		#include <functions/tnlDomain.h>

		template< typename Mesh,
		typename Real = typename Mesh::RealType,
		typename Index = typename Mesh::IndexType >
		class EulerPressureGetter
		: public tnlDomain< Mesh::getMeshDimensions(), MeshDomain >
		{
		public:

		typedef Mesh MeshType;
		typedef Real RealType;
		typedef Index IndexType;
		typedef tnlMeshFunction< MeshType > MeshFunctionType;
		enum { Dimensions = MeshType::getMeshDimensions() };

		static tnlString getType();

		EulerPressureGetter( const MeshFunctionType& velocity,
		const MeshFunctionType& rhoVel,
		const MeshFunctionType& energy,
		const RealType& gamma )
		: rho( rho ), rhoVel( rhoVel ), energy( energy ), gamma( gamma )
		{}

		template< typename MeshEntity >
		__cuda_callable__
		Real operator()( const MeshEntity& entity,
		const RealType& time = 0.0 ) const
		{
		return this->operator[]( entity.getIndex() );
		}

		__cuda_callable__
		Real operator[]( const IndexType& idx ) const
		{
		return ( this->gamma - 1.0 ) * ( this->energy[ idx ] - 0.5 * this->rhoVel[ idx ] * * this->rhoVel[ idx ] / this->rho[ idx ]);
		}


		protected:

		Real gamma;

		const MeshFunctionType& rho;

		const MeshFunctionType& rhoVel;

		const MeshFunctionType& energy;

		};

		#endif /* EulerPressureGetter_H */

examples/inviscid-flow/1d/EulerPressureGetter_impl.h~

deleted100644 → 0

+0 −338

Original line number	Diff line number	Diff line
		#ifndef EulerPressureGetter_IMPL_H
		#define EulerPressureGetter_IMPL_H

		/****
		* 1D problem
		*/
		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		tnlString
		EulerPressureGetter< tnlGrid< 1, MeshReal, Device, MeshIndex >, Real, Index >::
		getType()
		{
		return tnlString( "EulerPressureGetter< " ) +
		MeshType::getType() + ", " +
		::getType< Real >() + ", " +
		::getType< Index >() + " >";
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshFunction, typename MeshEntity >
		__cuda_callable__
		Real
		EulerPressureGetter< tnlGrid< 1, MeshReal, Device, MeshIndex >, Real, Index >::
		operator()( const MeshFunction& u,
		const MeshEntity& entity,
		const Real& time ) const
		{
		static_assert( MeshEntity::entityDimensions == 1, "Wrong mesh entity dimensions." );
		static_assert( MeshFunction::getEntitiesDimensions() == 1, "Wrong preimage function" );
		const typename MeshEntity::template NeighbourEntities< 1 >& neighbourEntities = entity.getNeighbourEntities();

		//pressure
		const IndexType& center = entity.getIndex();
		typedef typename MeshType::Cell Cell;
		return ( this->gamma - 1 ) * ( energy[ center ] - 0.5 * rhoVel[ center ] * velocity[ center ]);
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshEntity >
		__cuda_callable__
		Index
		EulerPressureGetter< tnlGrid< 1, MeshReal, Device, MeshIndex >, Real, Index >::
		getLinearSystemRowLength( const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity ) const
		{
		/****
		* Return a number of non-zero elements in a line (associated with given grid element) of
		* the linear system.
		* The following example is the Laplace operator approximated
		* by the Finite difference method.
		*/

		return 2*Dimensions + 1;
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshEntity, typename Vector, typename MatrixRow >
		__cuda_callable__
		void
		EulerPressureGetter< tnlGrid< 1, MeshReal, Device, MeshIndex >, Real, Index >::
		updateLinearSystem( const RealType& time,
		const RealType& tau,
		const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity,
		const MeshFunctionType& u,
		Vector& b,
		MatrixRow& matrixRow ) const
		{
		/****
		* Setup the non-zero elements of the linear system here.
		* The following example is the Laplace operator appriximated
		* by the Finite difference method.
		*/

		const typename MeshEntity::template NeighbourEntities< 1 >& neighbourEntities = entity.getNeighbourEntities();
		const RealType& lambdaX = tau * entity.getMesh().template getSpaceStepsProducts< -2 >();
		const IndexType& center = entity.getIndex();
		const IndexType& east = neighbourEntities.template getEntityIndex< 1 >();
		const IndexType& west = neighbourEntities.template getEntityIndex< -1 >();
		matrixRow.setElement( 0, west, - lambdaX );
		matrixRow.setElement( 1, center, 2.0 * lambdaX );
		matrixRow.setElement( 2, east, - lambdaX );
		}

		/****
		* 2D problem
		*/
		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		tnlString
		EulerPressureGetter< tnlGrid< 2, MeshReal, Device, MeshIndex >, Real, Index >::
		getType()
		{
		return tnlString( "EulerPressureGetter< " ) +
		MeshType::getType() + ", " +
		::getType< Real >() + ", " +
		::getType< Index >() + " >";
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshFunction, typename MeshEntity >
		__cuda_callable__
		Real
		EulerPressureGetter< tnlGrid< 2, MeshReal, Device, MeshIndex >, Real, Index >::
		operator()( const MeshFunction& u,
		const MeshEntity& entity,
		const Real& time ) const
		{
		/****
		* Implement your explicit form of the differential operator here.
		* The following example is the Laplace operator approximated
		* by the Finite difference method.
		*/
		static_assert( MeshEntity::entityDimensions == 2, "Wrong mesh entity dimensions." );
		static_assert( MeshFunction::getEntitiesDimensions() == 2, "Wrong preimage function" );
		const typename MeshEntity::template NeighbourEntities< 2 >& neighbourEntities = entity.getNeighbourEntities();

		const RealType& hxSquareInverse = entity.getMesh().template getSpaceStepsProducts< -2, 0 >();
		const RealType& hySquareInverse = entity.getMesh().template getSpaceStepsProducts< 0, -2 >();
		const IndexType& center = entity.getIndex();
		const IndexType& east = neighbourEntities.template getEntityIndex< 1, 0 >();
		const IndexType& west = neighbourEntities.template getEntityIndex< -1, 0 >();
		const IndexType& north = neighbourEntities.template getEntityIndex< 0, 1 >();
		const IndexType& south = neighbourEntities.template getEntityIndex< 0, -1 >();
		return ( u[ west ] - 2.0 * u[ center ] + u[ east ] ) * hxSquareInverse +
		( u[ south ] - 2.0 * u[ center ] + u[ north ] ) * hySquareInverse;
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshEntity >
		__cuda_callable__
		Index
		EulerPressureGetter< tnlGrid< 2, MeshReal, Device, MeshIndex >, Real, Index >::
		getLinearSystemRowLength( const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity ) const
		{
		/****
		* Return a number of non-zero elements in a line (associated with given grid element) of
		* the linear system.
		* The following example is the Laplace operator approximated
		* by the Finite difference method.
		*/

		return 2*Dimensions + 1;
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshEntity, typename Vector, typename MatrixRow >
		__cuda_callable__
		void
		EulerPressureGetter< tnlGrid< 2, MeshReal, Device, MeshIndex >, Real, Index >::
		updateLinearSystem( const RealType& time,
		const RealType& tau,
		const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity,
		const MeshFunctionType& u,
		Vector& b,
		MatrixRow& matrixRow ) const
		{
		/****
		* Setup the non-zero elements of the linear system here.
		* The following example is the Laplace operator appriximated
		* by the Finite difference method.
		*/

		const typename MeshEntity::template NeighbourEntities< 2 >& neighbourEntities = entity.getNeighbourEntities();
		const RealType& lambdaX = tau * entity.getMesh().template getSpaceStepsProducts< -2, 0 >();
		const RealType& lambdaY = tau * entity.getMesh().template getSpaceStepsProducts< 0, -2 >();
		const IndexType& center = entity.getIndex();
		const IndexType& east = neighbourEntities.template getEntityIndex< 1, 0 >();
		const IndexType& west = neighbourEntities.template getEntityIndex< -1, 0 >();
		const IndexType& north = neighbourEntities.template getEntityIndex< 0, 1 >();
		const IndexType& south = neighbourEntities.template getEntityIndex< 0, -1 >();
		matrixRow.setElement( 0, south, -lambdaY );
		matrixRow.setElement( 1, west, -lambdaX );
		matrixRow.setElement( 2, center, 2.0 * ( lambdaX + lambdaY ) );
		matrixRow.setElement( 3, east, -lambdaX );
		matrixRow.setElement( 4, north, -lambdaY );
		}

		/****
		* 3D problem
		*/
		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		tnlString
		EulerPressureGetter< tnlGrid< 3, MeshReal, Device, MeshIndex >, Real, Index >::
		getType()
		{
		return tnlString( "EulerPressureGetter< " ) +
		MeshType::getType() + ", " +
		::getType< Real >() + ", " +
		::getType< Index >() + " >";
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshFunction, typename MeshEntity >
		__cuda_callable__
		Real
		EulerPressureGetter< tnlGrid< 3, MeshReal, Device, MeshIndex >, Real, Index >::
		operator()( const MeshFunction& u,
		const MeshEntity& entity,
		const Real& time ) const
		{
		/****
		* Implement your explicit form of the differential operator here.
		* The following example is the Laplace operator approximated
		* by the Finite difference method.
		*/
		static_assert( MeshEntity::entityDimensions == 3, "Wrong mesh entity dimensions." );
		static_assert( MeshFunction::getEntitiesDimensions() == 3, "Wrong preimage function" );
		const typename MeshEntity::template NeighbourEntities< 3 >& neighbourEntities = entity.getNeighbourEntities();

		const RealType& hxSquareInverse = entity.getMesh().template getSpaceStepsProducts< -2, 0, 0 >();
		const RealType& hySquareInverse = entity.getMesh().template getSpaceStepsProducts< 0, -2, 0 >();
		const RealType& hzSquareInverse = entity.getMesh().template getSpaceStepsProducts< 0, 0, -2 >();
		const IndexType& center = entity.getIndex();
		const IndexType& east = neighbourEntities.template getEntityIndex< 1, 0, 0 >();
		const IndexType& west = neighbourEntities.template getEntityIndex< -1, 0, 0 >();
		const IndexType& north = neighbourEntities.template getEntityIndex< 0, 1, 0 >();
		const IndexType& south = neighbourEntities.template getEntityIndex< 0, -1, 0 >();
		const IndexType& up = neighbourEntities.template getEntityIndex< 0, 0, 1 >();
		const IndexType& down = neighbourEntities.template getEntityIndex< 0, 0, -1 >();
		return ( u[ west ] - 2.0 * u[ center ] + u[ east ] ) * hxSquareInverse +
		( u[ south ] - 2.0 * u[ center ] + u[ north ] ) * hySquareInverse +
		( u[ up ] - 2.0 * u[ center ] + u[ down ] ) * hzSquareInverse;
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshEntity >
		__cuda_callable__
		Index
		EulerPressureGetter< tnlGrid< 3, MeshReal, Device, MeshIndex >, Real, Index >::
		getLinearSystemRowLength( const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity ) const
		{
		/****
		* Return a number of non-zero elements in a line (associated with given grid element) of
		* the linear system.
		* The following example is the Laplace operator approximated
		* by the Finite difference method.
		*/

		return 2*Dimensions + 1;
		}

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		template< typename MeshEntity, typename Vector, typename MatrixRow >
		__cuda_callable__
		void
		EulerPressureGetter< tnlGrid< 3, MeshReal, Device, MeshIndex >, Real, Index >::
		updateLinearSystem( const RealType& time,
		const RealType& tau,
		const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity,
		const MeshFunctionType& u,
		Vector& b,
		MatrixRow& matrixRow ) const
		{
		/****
		* Setup the non-zero elements of the linear system here.
		* The following example is the Laplace operator appriximated
		* by the Finite difference method.
		*/

		const typename MeshEntity::template NeighbourEntities< 3 >& neighbourEntities = entity.getNeighbourEntities();
		const RealType& lambdaX = tau * entity.getMesh().template getSpaceStepsProducts< -2, 0, 0 >();
		const RealType& lambdaY = tau * entity.getMesh().template getSpaceStepsProducts< 0, -2, 0 >();
		const RealType& lambdaZ = tau * entity.getMesh().template getSpaceStepsProducts< 0, 0, -2 >();
		const IndexType& center = entity.getIndex();
		const IndexType& east = neighbourEntities.template getEntityIndex< 1, 0, 0 >();
		const IndexType& west = neighbourEntities.template getEntityIndex< -1, 0, 0 >();
		const IndexType& north = neighbourEntities.template getEntityIndex< 0, 1, 0 >();
		const IndexType& south = neighbourEntities.template getEntityIndex< 0, -1, 0 >();
		const IndexType& up = neighbourEntities.template getEntityIndex< 0, 0, 1 >();
		const IndexType& down = neighbourEntities.template getEntityIndex< 0, 0, -1 >();
		matrixRow.setElement( 0, down, -lambdaZ );
		matrixRow.setElement( 1, south, -lambdaY );
		matrixRow.setElement( 2, west, -lambdaX );
		matrixRow.setElement( 3, center, 2.0 * ( lambdaX + lambdaY + lambdaZ ) );
		matrixRow.setElement( 4, east, -lambdaX );
		matrixRow.setElement( 5, north, -lambdaY );
		matrixRow.setElement( 6, up, -lambdaZ );
		}

		#endif /* EulerPressureGetterIMPL_H */

examples/inviscid-flow/1d/EulerVelGetter.h~

deleted100644 → 0

+0 −52

Original line number	Diff line number	Diff line
		#ifndef EulerVelGetter_H
		#define EulerVelGetter_H

		#include <core/vectors/tnlVector.h>
		#include <mesh/tnlGrid.h>

		template< typename Mesh,
		typename Real = typename Mesh::RealType,
		typename Index = typename Mesh::IndexType >
		class EulerVelGetter
		: public tnlDomain< Mesh::getMeshDimensions(), MeshDomain >
		{
		public:

		typedef Mesh MeshType;
		typedef Real RealType;
		typedef Index IndexType;
		typedef tnlMeshFunction< MeshType > MeshFunctionType;
		enum { Dimensions = MeshType::getMeshDimensions() };

		static tnlString getType();

		EulerVelGetter( const MeshFunctionType& rho,
		const MeshFunctionType& rhoVel)
		: rho( rho ), rhoVel( rhoVel )
		{}

		template< typename MeshEntity >
		__cuda_callable__
		Real operator()( const MeshEntity& entity,
		const RealType& time = 0.0 ) const
		{
		return this->operator[]( entity.getIndex() );
		}

		template< typename MeshEntity >
		__cuda_callable__
		Real operator[]( const IndexType& idx ) const
		{
		return this->rho[ idx ] / this->rhoVel[ idx ];
		}


		protected:

		const MeshFunctionType& rho;

		const MeshFunctionType& rhoVel;

		};

		#endif /* EulerVelGetter_H */

examples/inviscid-flow/1d/EulerVelGetter_impl.h~

deleted100644 → 0

+0 −342

File deleted.

Preview size limit exceeded, changes collapsed.

examples/inviscid-flow/1d/LaxFridrichs (kopie).h~

deleted100644 → 0

+0 −143

Original line number	Diff line number	Diff line
		#ifndef LaxFridrichs_H
		#define LaxFridrichs_H

		#include <core/vectors/tnlVector.h>
		#include <mesh/tnlGrid.h>

		template< typename Mesh,
		typename Real = typename Mesh::RealType,
		typename Index = typename Mesh::IndexType >
		class LaxFridrichs
		{
		};

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		class LaxFridrichs< tnlGrid< 1,MeshReal, Device, MeshIndex >, Real, Index >
		{
		public:
		typedef tnlGrid< 1, MeshReal, Device, MeshIndex > MeshType;
		typedef typename MeshType::CoordinatesType CoordinatesType;
		typedef Real RealType;
		typedef Device DeviceType;
		typedef Index IndexType;
		typedef tnlMeshFunction< MeshType > MeshFunctionType;
		enum { Dimensions = MeshType::getMeshDimensions() };

		static tnlString getType();

		template< typename MeshFunction, typename MeshEntity >
		__cuda_callable__
		Real operator()( const MeshFunction& u,
		const MeshEntity& entity,
		const RealType& time = 0.0 ) const;

		__cuda_callable__
		template< typename MeshEntity >
		Index getLinearSystemRowLength( const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity ) const;

		template< typename MeshEntity, typename Vector, typename MatrixRow >
		__cuda_callable__
		void updateLinearSystem( const RealType& time,
		const RealType& tau,
		const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity,
		const MeshFunctionType& u,
		Vector& b,
		MatrixRow& matrixRow ) const;
		};

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		class LaxFridrichs< tnlGrid< 2,MeshReal, Device, MeshIndex >, Real, Index >
		{
		public:
		typedef tnlGrid< 2, MeshReal, Device, MeshIndex > MeshType;
		typedef typename MeshType::CoordinatesType CoordinatesType;
		typedef Real RealType;
		typedef Device DeviceType;
		typedef Index IndexType;
		typedef tnlMeshFunction< MeshType > MeshFunctionType;
		enum { Dimensions = MeshType::getMeshDimensions() };

		static tnlString getType();

		template< typename MeshFunction, typename MeshEntity >
		__cuda_callable__
		Real operator()( const MeshFunction& u,
		const MeshEntity& entity,
		const RealType& time = 0.0 ) const;

		__cuda_callable__
		template< typename MeshEntity >
		Index getLinearSystemRowLength( const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity ) const;

		template< typename MeshEntity, typename Vector, typename MatrixRow >
		__cuda_callable__
		void updateLinearSystem( const RealType& time,
		const RealType& tau,
		const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity,
		const MeshFunctionType& u,
		Vector& b,
		MatrixRow& matrixRow ) const;
		};

		template< typename MeshReal,
		typename Device,
		typename MeshIndex,
		typename Real,
		typename Index >
		class LaxFridrichs< tnlGrid< 3,MeshReal, Device, MeshIndex >, Real, Index >
		{
		public:
		typedef tnlGrid< 3, MeshReal, Device, MeshIndex > MeshType;
		typedef typename MeshType::CoordinatesType CoordinatesType;
		typedef Real RealType;
		typedef Device DeviceType;
		typedef Index IndexType;
		typedef tnlMeshFunction< MeshType > MeshFunctionType;
		enum { Dimensions = MeshType::getMeshDimensions() };

		static tnlString getType();

		template< typename MeshFunction, typename MeshEntity >
		__cuda_callable__
		Real operator()( const MeshFunction& u,
		const MeshEntity& entity,
		const RealType& time = 0.0 ) const;

		__cuda_callable__
		template< typename MeshEntity >
		Index getLinearSystemRowLength( const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity ) const;

		template< typename MeshEntity, typename Vector, typename MatrixRow >
		__cuda_callable__
		void updateLinearSystem( const RealType& time,
		const RealType& tau,
		const MeshType& mesh,
		const IndexType& index,
		const MeshEntity& entity,
		const MeshFunctionType& u,
		Vector& b,
		MatrixRow& matrixRow ) const;
		};


		#include "LaxFridrichs_impl.h"

		#endif /* LaxFridrichs_H */