Type | Intent | Optional | Attributes | Name | ||
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class(tem_varSys_op_type), | intent(in) | :: | fun |
Description of the method to obtain the variables, here some preset values might be stored, like the space time function to use or the required variables. |
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type(tem_varSys_type), | intent(in) | :: | varSys |
The variable system to obtain the variable from. |
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integer, | intent(in) | :: | elempos(:) |
Position of the TreeID of the element to get the variable for in the global treeID list. |
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type(tem_time_type), | intent(in) | :: | time |
Point in time at which to evaluate the variable. |
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type(treelmesh_type), | intent(in) | :: | tree |
global treelm mesh info |
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integer, | intent(in) | :: | nElems |
Number of values to obtain for this variable (vectorized access). |
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integer, | intent(in) | :: | nDofs |
Number of degrees of freedom within an element. |
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real(kind=rk), | intent(out) | :: | res(:) |
Resulting values for the requested variable. Linearized array dimension: (n requested entries) x (nComponents of this variable) x (nDegrees of freedom) Access: (iElem-1)fun%nComponentsnDofs + (iDof-1)*fun%nComponents + iComp |
subroutine evalLogicalOr_forElement( fun, varsys, elempos, time, tree, & & nElems, nDofs, res ) !--------------------------------------------------------------------------! !> Description of the method to obtain the variables, here some preset !! values might be stored, like the space time function to use or the !! required variables. class(tem_varSys_op_type), intent(in) :: fun !> The variable system to obtain the variable from. type(tem_varSys_type), intent(in) :: varSys !> Position of the TreeID of the element to get the variable for in the !! global treeID list. integer, intent(in) :: elempos(:) !> Point in time at which to evaluate the variable. type(tem_time_type), intent(in) :: time !> global treelm mesh info type(treelmesh_type), intent(in) :: tree !> Number of values to obtain for this variable (vectorized access). integer, intent(in) :: nElems !> Number of degrees of freedom within an element. integer, intent(in) :: nDofs !> Resulting values for the requested variable. !! !! Linearized array dimension: !! (n requested entries) x (nComponents of this variable) !! x (nDegrees of freedom) !! Access: (iElem-1)*fun%nComponents*nDofs + !! (iDof-1)*fun%nComponents + iComp real(kind=rk), intent(out) :: res(:) !--------------------------------------------------------------------------! integer :: iDep, posDepVar, iComp, iElem, lIdx, uIdx ! first dimension:nElems, ! second dimension:size of difference variable in input_varname real(kind=rk), allocatable :: input_varRes(:,:) !--------------------------------------------------------------------------! ! nInputs must be two allocate(input_varRes(nElems*nDofs*fun%nComponents, fun%nInputs)) do iDep = 1, fun%nInputs ! get position of dependent var in varSys posDepVar = fun%input_varPos(iDep) ! derive dependent variable call varSys%method%val(posDepVar)%get_element( & & varSys = varSys, & & elemPos = elemPos, & & time = time, & & tree = tree, & & nElems = nElems, & & nDofs = nDofs, & & res = input_varRes(:, iDep) ) end do do iComp = 1, fun%nComponents do iElem = 1, nElems ! We only take the first mode into consideration, but store the result ! value for all modes. lIdx = (( ielem-1)* fun%ncomponents* ndofs+( 1-1)* fun%ncomponents+icomp) uIdx = (( ielem-1)* fun%ncomponents* ndofs+( ndofs-1)* fun%ncomponents+icomp) res( lIdx : uIdx ) = logicalToReal( & & realToLogical( input_varRes( lIdx, 1 ) ) & & .or. realToLogical( input_varRes( lIdx, 2 ) ) ) end do end do deallocate(input_varRes) end subroutine evalLogicalOr_forElement