fBase_evalDOF_x

private function fBase_evalDOF_x(sf, x, deriv, DOFs) result(y)

evaluate all modes at a given interpolation point

Type Bound

Arguments

Type	Intent		Name
class(t_fBase),	intent(in)	::	sf	self
real(kind=wp),	intent(in)	::	x(2)	input coordinate theta,zeta in [0,2pi]^2
integer,	intent(in)	::	deriv	=0: base, =2: dthet , =3: dzeta
real(kind=wp),	intent(in)	::	DOFs(:)	array of all modes

Return Value real(kind=wp)

Calls

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Called by

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Source Code

FUNCTION fBase_evalDOF_x(sf,x,deriv,DOFs) RESULT(y)
  ! MODULES
  IMPLICIT NONE
  ! INPUT VARIABLES -------------------------!
  CLASS(t_fBase), INTENT(IN   ) :: sf     !! self
  REAL(wp)      , INTENT(IN   ) :: x(2)   !! input coordinate theta,zeta in [0,2pi]^2
  INTEGER       , INTENT(IN   ) :: deriv  !! =0: base, =2: dthet , =3: dzeta
  REAL(wp)      , INTENT(IN   ) :: DOFs(:)  !! array of all modes
  ! OUTPUT VARIABLES -------------------------!
  REAL(wp)                      :: y
  ! LOCAL VARIABLES -------------------------!
  REAL(wp)                      :: base_x(1:sf%modes)
  ! CODE --------------------------------------------------------------------------------------------------------------------------!
IF(SIZE(DOFs,1).NE.sf%modes) CALL abort(__STAMP__, &
       'nDOF not correct when calling fBase_evalDOF_x' )
  base_x=sf%eval(deriv,x)
  y=DOT_PRODUCT(base_x,DOFs(:))

END FUNCTION fBase_evalDOF_x

fBase_evalDOF_x Function

Contents

Source Code

private function fBase_evalDOF_x(sf, x, deriv, DOFs) result(y)

Type Bound

Arguments

Return Value real(kind=wp)

Calls

Called by

Source Code