Same as multiplyScalTimesVec_fromElement except it multiply values from points via indices which are setup before
The interface has to comply to the abstract interface tem_varSys_module#tem_varSys_proc_getvalofindex.
TODO make it working for idxLen and contiguous access of index array
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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type(tem_time_type), | intent(in) | :: | time |
Point in time at which to evaluate the variable. |
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integer, | intent(in) | :: | iLevel |
Level on which values are requested |
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integer, | intent(in) | :: | idx(:) |
Index of points in the growing array and variable val array to return. Size: nVals |
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integer, | intent(in), | optional | :: | idxLen(:) |
With idx as start index in contiguous memory, idxLength defines length of each contiguous memory Size: nVals |
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integer, | intent(in) | :: | nVals |
Number of values to obtain for this variable (vectorized access). |
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real(kind=rk), | intent(out) | :: | res(:) |
Resulting values for the requested variable. Dimension: n requested entries x nComponents of this variable Access: (iElem-1)*fun%nComponents + iComp |
recursive subroutine tem_multiplyScalTimesVec_fromIndex( fun, varSys, time, & & iLevel, idx, & & idxLen, nVals, 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 !> Point in time at which to evaluate the variable. type(tem_time_type), intent(in) :: time !> Level on which values are requested integer, intent(in) :: iLevel !> Index of points in the growing array and variable val array to !! return. !! Size: nVals integer, intent(in) :: idx(:) !> With idx as start index in contiguous memory, !! idxLength defines length of each contiguous memory !! Size: nVals integer, optional, intent(in) :: idxLen(:) !> Number of values to obtain for this variable (vectorized access). integer, intent(in) :: nVals !> Resulting values for the requested variable. !! !! Dimension: n requested entries x nComponents of this variable !! Access: (iElem-1)*fun%nComponents + iComp real(kind=rk), intent(out) :: res(:) !--------------------------------------------------------------------------! type(tem_varSys_op_data_type), pointer :: opData real(kind=rk) :: scalar(nVals) real(kind=rk) :: vector(nVals*fun%nComponents) integer :: iComp, iVal !--------------------------------------------------------------------------! write(logUnit(10),*) 'Get the values of indices for derived variable',& & 'by multiplyScalTimesVec ', & & trim(varSys%varname%val(fun%myPos)) call C_F_POINTER( fun%method_Data, opData ) ! get the nodal values for the 2 inputs !>TODO make it working for idxLen and contiguous access of index array call tem_varSys_check_inArgs( fun, varSys, time, iLevel, idx, idxLen, & & nVals, label = 'tem_multiplyScalTimesVec_fromIndex' ) call varSys%method%val(fun%input_varPos(1))%get_valOfIndex( & & varSys = varSys, & & time = time, & & iLevel = iLevel, & & idx = opData%input_pntIndex(1) & & %indexLvl(iLevel)%val( idx(:) ), & & nVals = nVals, & & res = scalar ) call varSys%method%val(fun%input_varPos(2))%get_valOfIndex( & & varSys = varSys, & & time = time, & & iLevel = iLevel, & & idx = opData%input_pntIndex(2) & & %indexLvl(iLevel)%val( idx(:) ), & & nVals = nVals, & & res = vector ) do iVal = 1, nVals do iComp = 1, fun%nComponents res((iVal-1)*fun%nComponents + iComp) = & & scalar(iVal) * vector((iVal-1)*fun%nComponents + iComp) end do end do end subroutine tem_multiplyScalTimesVec_fromIndex