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Merge branch 'master' into reconnection

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Grzegorz Kowal 2020-10-09 22:42:28 -03:00
commit f9b88b7384
1 changed files with 158 additions and 35 deletions
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sources/interpolations.F90
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@ -381,6 +381,12 @@ module interpolations
reconstruct_states => reconstruct_ocmp5
order = 5
nghosts = max(nghosts, 4)
case ("ocmp7", "OCMP7")
name_rec = "7th order Optimized Compact Monotonicity Preserving"
interfaces => interfaces_dir
reconstruct_states => reconstruct_ocmp7
order = 7
nghosts = max(nghosts, 4)
case ("gp", "GP")
write(stmp, '(f16.1)') sgp
write(name_rec, '("Gaussian Process (",i1,"-point, δ=",a,")")') ngp &
@ -4489,30 +4495,30 @@ module interpolations
real(kind=8), dimension(size(fc)) :: r
real(kind=8), dimension(size(fc)) :: u
real(kind=8), parameter :: a1 = 5.0163016d-01
real(kind=8), parameter :: a2 = 2.5394716d-01
real(kind=8), dimension(3), parameter :: &
di = [ 5.0163016d-01, 1.0d+00, 2.5394716d-01 ]
di5 = [ a1, 1.0d+00, a2 ]
real(kind=8), dimension(5), parameter :: &
ci5 = [- 3.0d+00 * di(1) - 3.0d+00 * di(3) + 2.0d+00, &
2.7d+01 * di(1) + 1.7d+01 * di(3) - 1.3d+01, &
4.7d+01 * di(1) - 4.3d+01 * di(3) + 4.7d+01, &
- 1.3d+01 * di(1) + 7.7d+01 * di(3) + 2.7d+01, &
2.0d+00 * di(1) + 1.2d+01 * di(3) - 3.0d+00 ] / 6.0d+01
ci5 = [- 3.0d+00 * a1 - 3.0d+00 * a2 + 2.0d+00, &
2.7d+01 * a1 + 1.7d+01 * a2 - 1.3d+01, &
4.7d+01 * a1 - 4.3d+01 * a2 + 4.7d+01, &
- 1.3d+01 * a1 + 7.7d+01 * a2 + 2.7d+01, &
2.0d+00 * a1 + 1.2d+01 * a2 - 3.0d+00 ] / 6.0d+01
!
!-------------------------------------------------------------------------------
!
n = size(fc)
! prepare the diagonals of the tridiagonal matrix
!
do i = 1, ng
a(i) = 0.0d+00
b(i) = 1.0d+00
c(i) = 0.0d+00
end do
do i = ng + 1, n - ng - 1
a(i) = di(1)
b(i) = di(2)
c(i) = di(3)
a(i) = di5(1)
b(i) = di5(2)
c(i) = di5(3)
end do
do i = n - ng, n
a(i) = 0.0d+00
@ -4522,14 +4528,10 @@ module interpolations
!! === left-side interpolation ===
!!
! prepare the right-hand side of the linear system
!
do i = ng, n - ng + 1
r(i) = sum(ci5(:) * fc(i-2:i+2))
end do
! use explicit methods for ghost zones
!
r( 1) = sum(ce2(:) * fc( 1: 2))
r( 2) = sum(ce3(:) * fc( 1: 3))
do i = 3, ng
@ -4541,32 +4543,20 @@ module interpolations
r(n-1) = sum(ce3(:) * fc(n-2: n))
r(n ) = fc(n )
! solve the tridiagonal system of equations
!
call tridiag(n, a(1:n), b(1:n), c(1:n), r(1:n), u(1:n))
! apply the monotonicity preserving limiter
!
call mp_limiting(fc(:), u(:))
! return the interpolated values of the left state
!
fl(1:n) = u(1:n)
!! === right-side interpolation ===
!!
! invert the cell-centered integrals
!
fi(1:n) = fc(n:1:-1)
! prepare the right-hand side of the linear system
!
do i = ng, n - ng + 1
r(i) = sum(ci5(:) * fi(i-2:i+2))
end do ! i = ng, n - ng + 1
! use explicit methods for ghost zones
!
r( 1) = sum(ce2(:) * fi( 1: 2))
r( 2) = sum(ce3(:) * fi( 1: 3))
do i = 3, ng
@ -4578,20 +4568,12 @@ module interpolations
r(n-1) = sum(ce3(:) * fi(n-2: n))
r(n ) = fi(n )
! solve the tridiagonal system of equations
!
call tridiag(n, a(1:n), b(1:n), c(1:n), r(1:n), u(1:n))
! apply the monotonicity preserving limiter
!
call mp_limiting(fi(:), u(:))
! return the interpolated values of the right state
!
fr(1:n-1) = u(n-1:1:-1)
! update the extremum points
!
i = n - 1
fl(1) = 0.5d+00 * (fc(1) + fc(2))
fr(i) = 0.5d+00 * (fc(i) + fc(n))
@ -4604,6 +4586,147 @@ module interpolations
!
!===============================================================================
!
! subroutine RECONSTRUCT_OCMP7:
! -----------------------------
!
! Subroutine reconstructs the interface states using the 7th order Optimized
! Compact Reconstruction Monotonicity Preserving (CRMP) method.
!
! Arguments are described in subroutine reconstruct().
!
! References:
!
! [1] Myeong-Hwan Ahn, Duck-Joo Lee,
! "Modified Monotonicity Preserving Constraints for High-Resolution
! Optimized Compact Scheme",
! Journal of Scientific Computing,
! 2020, vol. 83, p. 34
! https://doi.org/10.1007/s10915-020-01221-0
!
!===============================================================================
!
subroutine reconstruct_ocmp7(h, fc, fl, fr)
use algebra, only : pentadiag
implicit none
real(kind=8) , intent(in) :: h
real(kind=8), dimension(:), intent(in) :: fc
real(kind=8), dimension(:), intent(out) :: fl, fr
integer :: n, i
real(kind=8), dimension(size(fc)) :: fi
real(kind=8), dimension(size(fc)) :: e, c, d, a, b
real(kind=8), dimension(size(fc)) :: r
real(kind=8), dimension(size(fc)) :: u
real(kind=8), parameter :: a1 = 6.6850691831375709863684029643567d-01
real(kind=8), parameter :: a2 = 3.3644225201902153852210572056440d-01
real(kind=8), dimension(5), parameter :: &
di7 = [ (3.0d+00 * a1 + 2.0d+00 * a2 - 2.0d+00) / 8.0d+00, &
a1, 1.0d+00, a2, &
( a1 + 6.0d+00 * a2 - 2.0d+00) / 4.0d+01 ]
real(kind=8), dimension(5), parameter :: &
ci7 = [ 1.80d+01 * a1 + 1.80d+01 * a2 - 1.60d+01, &
5.43d+02 * a1 + 2.68d+02 * a2 - 2.91d+02, &
3.43d+02 * a1 - 3.32d+02 * a2 + 5.09d+02, &
-1.07d+02 * a1 + 5.68d+02 * a2 + 3.09d+02, &
4.30d+01 * a1 + 3.18d+02 * a2 - 9.10d+01 ] / 6.0d+02
!
!-------------------------------------------------------------------------------
!
n = size(fc)
! prepare the diagonals of the tridiagonal matrix
!
do i = 1, ng
e(i) = 0.0d+00
c(i) = 0.0d+00
d(i) = 1.0d+00
a(i) = 0.0d+00
b(i) = 0.0d+00
end do
do i = ng + 1, n - ng - 1
e(i) = di7(1)
c(i) = di7(2)
d(i) = di7(3)
a(i) = di7(4)
b(i) = di7(5)
end do
do i = n - ng, n
e(i) = 0.0d+00
c(i) = 0.0d+00
d(i) = 1.0d+00
a(i) = 0.0d+00
b(i) = 0.0d+00
end do
!! === left-side interpolation ===
!!
do i = ng, n - ng + 1
r(i) = sum(ci7(:) * fc(i-2:i+2))
end do
r( 1) = sum(ce2(:) * fc( 1: 2))
r( 2) = sum(ce3(:) * fc( 1: 3))
r( 3) = sum(ce5(:) * fc( 1: 5))
do i = 4, ng
r(i) = sum(ce7(:) * fc(i-3:i+3))
end do
do i = n - ng, n - 3
r(i) = sum(ce7(:) * fc(i-3:i+3))
end do
r(n-2) = sum(ce5(:) * fc(n-4: n))
r(n-1) = sum(ce3(:) * fc(n-2: n))
r(n ) = fc(n )
call pentadiag(n, e(:), c(:), d(:), a(:), b(:), r(:), u(:))
call mp_limiting(fc(:), u(:))
fl(1:n) = u(1:n)
!! === right-side interpolation ===
!!
fi(1:n) = fc(n:1:-1)
do i = ng, n - ng + 1
r(i) = sum(ci7(:) * fi(i-2:i+2))
end do ! i = ng, n - ng + 1
r( 1) = sum(ce2(:) * fi( 1: 2))
r( 2) = sum(ce3(:) * fi( 1: 3))
r( 3) = sum(ce5(:) * fi( 1: 5))
do i = 4, ng
r(i) = sum(ce7(:) * fi(i-3:i+3))
end do
do i = n - ng, n - 3
r(i) = sum(ce7(:) * fi(i-3:i+3))
end do
r(n-2) = sum(ce5(:) * fi(n-4: n))
r(n-1) = sum(ce3(:) * fi(n-2: n))
r(n ) = fi(n )
call pentadiag(n, e(:), c(:), d(:), a(:), b(:), r(:), u(:))
call mp_limiting(fi(:), u(:))
fr(1:n-1) = u(n-1:1:-1)
i = n - 1
fl(1) = 0.5d+00 * (fc(1) + fc(2))
fr(i) = 0.5d+00 * (fc(i) + fc(n))
fl(n) = fc(n)
fr(n) = fc(n)
!-------------------------------------------------------------------------------
!
end subroutine reconstruct_ocmp7
!
!===============================================================================
!
! subroutine PREPARE_GP:
! ---------------------
!