CCLDragDerivation Derived Type
type, public, extends(Derivation) :: CCLDragDerivation
Calculates the Chang-Cooper-Langdon drag coefficient for f0 Coulomb collisions assuming that the passed variable is the single harmonic f0
Components
| Type | Visibility | Attributes | Name | Initial | |||
|---|---|---|---|---|---|---|---|
| logical, | public | :: | userDefined | = | .false. |
True only if user explicitly sets it to true |
|
| real(kind=rk), | private, | allocatable, dimension(:) | :: | v2dv |
v^2 dv vector used for integration |
||
| integer(kind=ik), | private | :: | numV |
Type-Bound Procedures
procedure, public :: isDefined => isDefinedObject
-
interface
private pure module function isDefinedObject(this) result(defined)
Getter for userDefined
Arguments
Type Intent Optional Attributes Name class(Object), intent(in) :: this Return Value logical
procedure, public :: makeDefined => makeDefinedObject
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interface
private pure module subroutine makeDefinedObject(this)
Set userDefined to .true.
Arguments
Type Intent Optional Attributes Name class(Object), intent(inout) :: this
procedure, public :: makeUndefined => makeUndefinedObject
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interface
private pure module subroutine makeUndefinedObject(this)
Set userDefined to .false.
Arguments
Type Intent Optional Attributes Name class(Object), intent(inout) :: this
procedure, public :: init => initCCLDrag
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interface
private module subroutine initCCLDrag(this, vSpaceObj)
Initialize Chang-Cooper-Langdon drag coefficient derivation
Arguments
Type Intent Optional Attributes Name class(CCLDragDerivation), intent(inout) :: this type(VSpace), intent(in) :: vSpaceObj
procedure, public :: calculate => calculateCCLDrag
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interface
private module function calculateCCLDrag(this, inputArray, indices) result(output)
Arguments
Type Intent Optional Attributes Name class(CCLDragDerivation), intent(inout) :: this type(RealArray), intent(in), dimension(:) :: inputArray integer(kind=ik), intent(in), dimension(:) :: indices Return Value real(kind=rk), allocatable, dimension(:)