! Copyright (c) 2013-2014 Verena Krupp ! Copyright (c) 2013-2014,2017,2020 Harald Klimach <harald.klimach@uni-siegen.de> ! Copyright (c) 2013,2017 Peter Vitt <peter.vitt2@uni-siegen.de> ! Copyright (c) 2014 Nikhil Anand <nikhil.anand@uni-siegen.de> ! Copyright (c) 2017 Daniel PetrĂ³ <daniel.petro@student.uni-siegen.de> ! Copyright (c) 2019 Neda Ebrahimi Pour <neda.epour@uni-siegen.de> ! ! Parts of this file were written by Harald Klimach, Peter Vitt, Verena Krupp, ! Nikhil Anand, Daniel PetrĂ³ and Neda Ebrahimi Pour for University of Siegen. ! ! Permission to use, copy, modify, and distribute this software for any ! purpose with or without fee is hereby granted, provided that the above ! copyright notice and this permission notice appear in all copies. ! ! THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES ! WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF ! MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ! ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES ! WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ! ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF ! OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ! **************************************************************************** ! !> Parameters for the plain L2 projection method to transform between Legendre !! modes and nodal representation. !! !! This method utilizes the L2 projection from Legendre to Lagrange polynomials !! or the other way around. A numerical Gauss-Legendre Quadrature is used to !! compute the integral over the product of both functions. !! The Lagrange polynomials can be defined on any nodeset, see also !! [[ply_nodeset_module]]. !! !! Available options for the nodes to project onto are: !! !! * `'gauss-legendre'` these are the Gauss-Legendre integration points that !! are also used for the numerical integration (this is the default). !! * `'chebyshev'` these are the nodes from the Chebyshev integration. !! !! The set of nodes to use is configured by the `nodes_kind` option, and if !! `nodes_kind = 'chebyshev'` it is also possible to make use of Lobatto points !! to include the interval boundaries in the nodal representation. !! This is achieved by setting `lobattoPoints = true`, by default this is false. !! !! The configuration table for a projection with L2P may, for example, look as !! follows: !! !!```lua !! projection = { !! kind = 'l2p', !! factor = 1.5, !! nodes_kind = 'chebyshev', !! lobattoPoints = true !! } !!``` !! !! The example illustrates the three possible settings for the L2P !! transformation method: !! !! * `factor` - Oversampling factor to avoid aliasing. !! * `nodes_kind` - Selection of set of nodes to use in the nodal !! representation. !! * `lobattoPoints` - Whether to include interval bounds, only !! available for Chebyshev nodes. !! module ply_l2p_header_module use env_module, only: rk, labelLen use aotus_module, only: flu_State, aot_get_val use aot_out_module, only: aot_out_type, aot_out_val use tem_tools_module, only: upper_to_lower use tem_aux_module, only: tem_abort use tem_logging_module, only: logUnit use tem_float_module use ply_nodes_header_module implicit none private !> l2p projection header type, consisting of the node header which give !! information about the type and number of points for the projection type ply_l2p_header_type type(ply_nodes_header_type) :: nodes_header real(kind=rk) :: factor end type ply_l2p_header_type interface assignment(=) module procedure Copy_l2p_header end interface interface operator(==) module procedure isEqual end interface interface operator(/=) module procedure isUnequal end interface interface operator(<) module procedure isSmaller end interface interface operator(<=) module procedure isSmallerOrEqual end interface interface operator(>) module procedure isGreater end interface interface operator(>=) module procedure isGreaterOrEqual end interface public :: operator(==), operator(/=), operator(<), operator(<=) public :: operator(>), operator(>=) public :: assignment(=) public :: ply_l2p_header_type public :: ply_l2p_header_load, ply_l2p_header_display public :: ply_l2p_header_define public :: ply_l2p_header_out contains ! ************************************************************************ ! pure subroutine Copy_l2p_header( left, right ) ! -------------------------------------------------------------------- ! !> fpt to copy to type(ply_l2p_header_type), intent(out) :: left !> fpt to copy from type(ply_l2p_header_type), intent(in) :: right ! -------------------------------------------------------------------- ! left%factor = right%factor left%nodes_header = right%nodes_header end subroutine Copy_l2p_header ! ************************************************************************ ! ! ************************************************************************ ! !> Load settings to describe a projection method from a Lua table. subroutine ply_l2p_header_load( me, conf, thandle ) ! -------------------------------------------------------------------- ! type(ply_l2p_header_type), intent(out) :: me type(flu_State), intent(inout) :: conf integer, intent(in) :: thandle ! -------------------------------------------------------------------- ! character(len=labelLen) :: nodes_kind integer :: iError ! -------------------------------------------------------------------- ! ! for l2p gauss-legendre points are used me%nodes_header%nodes_kind = 'gauss-legendre' ! fill up l2p header call aot_get_val( L = conf, & & thandle = thandle, & & key = 'factor', & & val = me%factor, & & default = 1.0_rk, & & ErrCode = iError ) call aot_get_val( L = conf, & & thandle = thandle, & & key = 'lobattoPoints', & & val = me%nodes_header%lobattoPoints, & & ErrCode = iError, & & default = .false. ) call aot_get_val( L = conf, & & thandle = thandle, & & key = 'nodes_kind', & & val = nodes_kind, & & ErrCode = iError, & & default = 'gauss-legendre' ) me%nodes_header%nodes_kind = upper_to_lower(nodes_kind) select case (trim(me%nodes_header%nodes_kind)) case ('gauss-legendre') if ( me%nodes_header%lobattoPoints ) then write(logUnit(1),*) 'ERROR in loading projection: Legendre nodes' & & // ' do not support Lobatto points' write(logUnit(1),*) 'But you configured to use Lobatto Points!' write(logUnit(1),*) 'Probably you want to use Chebyshev nodes instead!' call tem_abort() end if case ('chebyshev') ! Nothing to do case default write(logUnit(1),*) 'ERROR in loading projection: nodes_kind' write(logUnit(1),*) trim(me%nodes_header%nodes_kind) write(logUnit(1),*) 'The nodes_kind needs to be one of:' write(logUnit(1),*) ' * "gauss-legendre"' write(logUnit(1),*) ' * "chebyshev"' write(logUnit(1),*) '' write(logUnit(1),*) 'Aborting...' call tem_abort() end select if (me%factor <= 0.0_rk) then write(logUnit(1),*) 'ERROR in loading projection: factor for ' & & // 'projection has to be larger than 0!' write(logUnit(1),*) 'But it is set to ', me%factor call tem_abort() end if end subroutine ply_l2p_header_load ! ************************************************************************ ! ! ************************************************************************ ! subroutine ply_l2p_header_define( me, factor, nodes_kind, lobattoPoints ) ! -------------------------------------------------------------------- ! !> L2P header to define. type(ply_l2p_header_type), intent(out) :: me !> Oversampling factor to use in the projection, defaults to 1. integer, optional, intent(in) :: factor !> Set of nodes to use in the nodal representation. !! !! May be 'gauss-legendre' or 'chebyshev', defaults to 'gauss-legendre' character(len=*), optional :: nodes_kind !> Wether to use Lobatto points (include interval bounds) when using the !! chebyshev nodes, defaults to .false.. logical, optional, intent(in) :: lobattoPoints ! -------------------------------------------------------------------- ! ! -------------------------------------------------------------------- ! ! Set defaults: me%nodes_header%nodes_kind = 'gauss-legendre' me%nodes_header%lobattoPoints = .false. me%factor = 1.0_rk if (present(nodes_kind)) me%nodes_header%nodes_kind & & = upper_to_lower(nodes_kind) if (present(lobattoPoints)) me%nodes_header%lobattoPoints = lobattoPoints if (present(factor)) me%factor = factor select case (trim(me%nodes_header%nodes_kind)) case ('gauss-legendre') if ( me%nodes_header%lobattoPoints ) then write(logUnit(1),*) 'ERROR in defining projection: Legendre nodes' & & // ' do not support Lobatto points' write(logUnit(1),*) 'But you configured to use Lobatto Points!' write(logUnit(1),*) 'Probably you want to use Chebyshev nodes instead!' call tem_abort() end if case ('chebyshev') ! Nothing to do case default write(logUnit(1),*) 'ERROR in defining projection: nodes_kind' write(logUnit(1),*) trim(me%nodes_header%nodes_kind) write(logUnit(1),*) 'The nodes_kind needs to be one of:' write(logUnit(1),*) ' * "gauss-legendre"' write(logUnit(1),*) ' * "chebyshev"' write(logUnit(1),*) '' write(logUnit(1),*) 'Aborting...' call tem_abort() end select if (me%factor <= 0.0_rk) then write(logUnit(1),*) 'ERROR in defining projection: factor for ' & & // 'projection has to be larger than 0!' write(logUnit(1),*) 'But it is set to ', me%factor call tem_abort() end if end subroutine ply_l2p_header_define ! ************************************************************************ ! ! ************************************************************************ ! !> Write L2P settings into a Lua table. subroutine ply_l2p_header_out( me, conf ) ! -------------------------------------------------------------------- ! type(ply_l2p_header_type), intent(in) :: me type(aot_out_type), intent(inout) :: conf ! -------------------------------------------------------------------- ! call aot_out_val( put_conf = conf, & & vname = 'factor', & & val = me%factor ) call aot_out_val( put_conf = conf, & & vname = 'nodes_kind', & & val = trim(me%nodes_header%nodes_kind) ) call aot_out_val( put_conf = conf, & & vname = 'lobattoPoints', & & val = me%nodes_header%lobattoPoints ) end subroutine ply_l2p_header_out ! ************************************************************************ ! ! ************************************************************************ ! subroutine ply_l2p_header_display( me ) ! -------------------------------------------------------------------- ! type(ply_l2p_header_type), intent(in) :: me ! -------------------------------------------------------------------- ! write(logUnit(1),*) ' * Kind of projection method = l2p' write(logUnit(1),*) ' * Factor to use in projection = ', me%factor write(logUnit(1),*) ' * using this set of nodes: ' & & // trim(me%nodes_header%nodes_kind) write(logUnit(1),*) ' * using LobattoPoints =', & & me%nodes_header%lobattoPoints if (me%factor < 2.0_rk) then write(logUnit(1),*) '' write(logUnit(1),*) & & '+-----------------------------------------------------+' write(logUnit(1),*) & & '| WARNING, the oversampling factor is smaller than 2! |' write(logUnit(1),*) & & '| this might lead to bad projections! |' write(logUnit(1),*) & & '+-----------------------------------------------------+' end if end subroutine ply_l2p_header_display ! ************************************************************************ ! ! ************************************************************************ ! !> This function provides the test for equality of two projections. !! !! Two l2p header are considered to be equal, if their node_header, !! and the factor are equal. pure function isEqual( left, right ) result( equality ) ! -------------------------------------------------------------------- ! !> projection to compare type(ply_l2p_header_type), intent(in) :: left !> projection to compare against type(ply_l2p_header_type), intent(in) :: right !> is equal?? logical :: equality ! -------------------------------------------------------------------- ! equality = ( left%nodes_header == right%nodes_header ) & & .and. ( left%factor .feq. right%factor ) end function isEqual ! ************************************************************************ ! ! ************************************************************************ ! !> This function provides the test for unequality of two projections. !! !! Two l2p header are considered to be unequal, if their node_header, !! or the factor are not equal. pure function isUnequal( left, right ) result( unequality ) ! -------------------------------------------------------------------- ! !> projection to compare type(ply_l2p_header_type), intent(in) :: left !> projection to compare against type(ply_l2p_header_type), intent(in) :: right !> is unequal?? logical :: unequality ! -------------------------------------------------------------------- ! unequality = ( left%nodes_header /= right%nodes_header ) & & .or. ( left%factor .fne. right%factor ) end function isUnequal ! ************************************************************************ ! ! ************************************************************************ ! !> This function provides a < comparison of two projections. !! !! Sorting of l2p header is given by node_header and by the factor. pure function isSmaller( left, right ) result( small ) ! -------------------------------------------------------------------- ! !> projection to compare type(ply_l2p_header_type), intent(in) :: left !> projection to compare against type(ply_l2p_header_type), intent(in) :: right !> is smaller?? logical :: small ! -------------------------------------------------------------------- ! small = .false. if (left%nodes_header < right%nodes_header) then small = .true. else if (left%nodes_header == right%nodes_header) then small = (left%factor < right%factor) end if end if end function isSmaller ! ************************************************************************ ! ! ************************************************************************ ! !> This function provides a <= comparison of two projections. !! !! Sorting of l2p header is given by node_header, l2p_blocksize and !! last by factor. pure function isSmallerOrEqual( left, right ) result( small ) ! -------------------------------------------------------------------- ! !> projection to compare type(ply_l2p_header_type), intent(in) :: left !> projection to compare against type(ply_l2p_header_type), intent(in) :: right !> is smaller?? logical :: small ! -------------------------------------------------------------------- ! small = .false. if (left%nodes_header < right%nodes_header) then small = .true. else if (left%nodes_header == right%nodes_header) then small = (left%factor <= right%factor) end if end if end function isSmallerOrEqual ! ************************************************************************ ! ! ************************************************************************ ! !> This function provides a > comparison of two projections. !! !! Sorting of l2p header is given by node_header, l2p_blocksize and !! last by factor. pure function isGreater( left, right ) result( great ) ! -------------------------------------------------------------------- ! !> projection to compare type(ply_l2p_header_type), intent(in) :: left !> projection to compare against type(ply_l2p_header_type), intent(in) :: right !> is greater?? logical :: great ! -------------------------------------------------------------------- ! great = .false. if (left%nodes_header > right%nodes_header) then great = .true. else if (left%nodes_header == right%nodes_header) then great = (left%factor > right%factor) end if end if end function isGreater ! ************************************************************************ ! ! ************************************************************************ ! !> This function provides a >= comparison of two projections. !! !! Sorting of l2p header is given by node_header, l2p_blocksize and !! last by factor. pure function isGreaterOrEqual( left, right ) result( great ) ! -------------------------------------------------------------------- ! !> projection to compare type(ply_l2p_header_type), intent(in) :: left !> projection to compare against type(ply_l2p_header_type), intent(in) :: right !> is greater?? logical :: great ! -------------------------------------------------------------------- ! great = .false. if (left%nodes_header > right%nodes_header) then great = .true. else if (left%nodes_header == right%nodes_header) then great = (left%factor >= right%factor) end if end if end function isGreaterOrEqual ! ************************************************************************ ! end module ply_l2p_header_module