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PlaneDirectSum.f90
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module PlaneDirectSumModule
!------------------------------------------------------------------------------
! Lagrangian Particle / Panel Method
!------------------------------------------------------------------------------
!
!> @author
!> Peter Bosler, Department of Mathematics, University of Michigan
!
!> @defgroup PlaneDirectSum Planar Direct Sum RK4
!> Provides RK4 time stepping for the 2d incompressible equations using direct summation.
!
!
! DESCRIPTION:
!> @file
!> Provides RK4 time stepping for the 2d incompressible equations using direct summation.
!
!------------------------------------------------------------------------------
use NumberKindsModule
use LoggerModule
use PlaneGeomModule
use ParticlesModule
use EdgesModule
use PanelsModule
use PlaneMeshModule
implicit none
include 'mpif.h'
private
public PlaneRK4DirectSum
public New, Delete
public RK4TimestepNoRotation, RK4TimestepIncompressibleAdvection
public VELOCITY_SMOOTH
public LeVeque93
!
!----------------
! Types and module constants
!----------------
!
real(kreal), protected, save :: VELOCITY_SMOOTH = 0.01_kreal
type PlaneRK4DirectSum
! MPI load balancing
integer(kint), pointer :: particlesIndexStart(:) => null(), &
particlesIndexEnd(:) =>null(), &
particlesMessageSize(:) => null(), &
activePanelsIndexStart(:) => null(), &
activePanelsIndexEnd(:) => null(), &
activePanelsMessageSize(:) => null(), &
passivePanelsIndexStart(:) => null() ,&
passivePanelsIndexEnd(:) => null(), &
passivePanelsMessageSize(:) => null()
logical(klog) :: rk4isReady, &
mpiIsReady
! mesh variables
type(Panels), pointer :: activePanels => null(),&
passivePanels => null()
integer(kint), pointer :: activeMap(:) => null(), &
passiveMap(:) => null()
! Runge-Kutta variables
real(kreal), pointer :: particlesInput(:,:) => null(), &
particlesStage1(:,:) => null(), &
particlesStage2(:,:) => null(), &
particlesStage3(:,:) => null(), &
particlesStage4(:,:) => null(), &
newParticlesX(:,:) => null(), &
activePanelsInput(:,:) => null(), &
activePanelsStage1(:,:) => null() , &
activePanelsStage2(:,:) => null() , &
activePanelsStage3(:,:) => null() , &
activePanelsStage4(:,:) => null() , &
activeVortInput(:) => null(), &
activeVortStage1(:) => null(), &
activeVortStage2(:) => null(), &
activeVortStage3(:) => null(), &
activeVortStage4(:) => null(), &
newActiveVort(:) => null(),&
area(:) => null(), &
newActivePanelsX(:,:) => null() , &
passivePanelsInput(:,:) => null(), &
passivePanelsStage1(:,:) => null(), &
passivePanelsStage2(:,:) => null(), &
passivePanelsStage3(:,:) => null(), &
passivePanelsStage4(:,:) => null(), &
newPassivePanelsX(:,:) => null()
end type
!
!----------------
! Logging
!----------------
!
logical(klog), save :: logInit = .FALSE.
type(Logger) :: log
character(len=28), save :: logKey = 'PlaneRK4'
integer(kint), parameter :: logLevel = TRACE_LOGGING_LEVEL
character(len=128) :: logstring
character(len=24) :: formatstring
!
!----------------
! Interfaces
!----------------
!
interface New
module procedure NewPrivate
end interface
interface Delete
module procedure DeletePrivate
end interface
interface
function AdvectionVelocity(xy, t)
real(8) :: AdvectionVelocity(2)
real(8), intent(in) :: xy(2), t
end function
end interface
contains
!
!----------------
! Standard methods : Constructor / Destructor
!----------------
!
subroutine NewPrivate(self, aMesh, nProcs)
type(PlaneRK4DirectSum), intent(out) :: self
type(PlaneMesh), intent(in) :: aMesh
integer(kint), intent(in) :: nProcs
!
type(Particles), pointer :: aParticles
type(Panels), pointer :: aPanels
integer(kint) :: nParticles, nActive, nPassive, nTracer, panelKind, problemKind
if ( .NOT. loginit) call InitLogger(log, procRank)
call LogMessage(log,DEBUG_LOGGING_LEVEL,logKey,'Creating new PlaneRK4DirectSum.')
self%rk4isReady = .FALSE.
aParticles => aMesh%particles
aPanels => aMesh%panels
nParticles = aParticles%N
nActive = aPanels%N_Active
nPassive = aPanels%N - aPanels%N_Active
nTracer = aMesh%nTracer
panelkind = QUAD_PANEL
problemKind = PLANE_SOLVER
!
! Allocate MPI variables
!
allocate(self%particlesIndexStart(0:nProcs-1))
allocate(self%particlesIndexEnd(0:nProcs-1))
allocate(self%particlesMessageSize(0:nProcs-1))
self%particlesIndexStart = -1
self%particlesIndexEnd = -1
self%particlesMessageSize = -1
allocate(self%activePanelsIndexStart(0:nProcs-1))
allocate(self%activePanelsIndexEnd(0:nProcs-1))
allocate(self%activePanelsMessageSize(0:nProcs-1))
self%activePanelsIndexStart = -1
self%activePanelsIndexEnd = -1
self%activePanelsMessageSize = -1
allocate(self%passivePanelsIndexStart(0:nProcs-1))
allocate(self%passivePanelsIndexEnd(0:nProcs-1))
allocate(self%passivePanelsMessageSize(0:nProcs-1))
self%passivePanelsIndexStart = -1
self%passivePanelsIndexEnd = -1
self%passivePanelsMessageSize = -1
!
! separate active panels from passive panels
!
allocate(self%activePanels)
call New(self%activePanels, nActive, panelKind, nTracer, problemKind)
allocate(self%activeMap(nActive))
self%activePanels%N = nActive
self%activePanels%N_active = nActive
self%activeMap = 0
allocate(self%passivePanels)
call New(self%passivePanels, nPassive, panelKind, nTracer, problemKind)
allocate(self%passiveMap(nPassive))
self%passivePanels%N = nPassive
self%passiveMap = 0
call GatherPanels(aPanels, self%activePanels, self%activeMap, self%passivePanels, self%passiveMap)
!
! Allocate RK4 variables
!
allocate(self%particlesInput(2,nParticles))
allocate(self%particlesStage1(2,nParticles))
allocate(self%particlesStage2(2,nParticles))
allocate(self%particlesStage3(2,nParticles))
allocate(self%particlesStage4(2,nParticles))
allocate(self%newParticlesX(2,nParticles))
allocate(self%activePanelsInput(2,nActive))
allocate(self%activePanelsStage1(2,nActive))
allocate(self%activePanelsStage2(2,nActive))
allocate(self%activePanelsStage3(2,nActive))
allocate(self%activePanelsStage4(2,nActive))
allocate(self%newActivePanelsX(2,nActive))
allocate(self%activeVortInput(nActive))
allocate(self%activeVortStage1(nActive))
allocate(self%activeVortStage2(nActive))
allocate(self%activeVortStage3(nActive))
allocate(self%activeVortStage4(nActive))
allocate(self%newActiveVort(nActive))
allocate(self%area(nActive))
allocate(self%passivePanelsInput(2,nPassive))
allocate(self%passivePanelsStage1(2,nPassive))
allocate(self%passivePanelsStage2(2,nPassive))
allocate(self%passivePanelsStage3(2,nPassive))
allocate(self%passivePanelsStage4(2,nPassive))
allocate(self%newPassivePanelsX(2,nPassive))
self%rk4isReady = .TRUE.
call ZeroRK4(self)
call LoadBalance(self,nParticles,nActive,nPassive,nProcs)
call LogMessage(log,DEBUG_LOGGING_LEVEL,logkey,' RK4 data ready.')
end subroutine
subroutine DeletePrivate(self)
! Deletes / frees memory associated with an RK4 object
!
type(PlaneRK4DirectSum), intent(inout) :: self
self%mpiIsReady = .FALSE.
self%rk4isReady = .FALSE.
deallocate(self%activeMap)
deallocate(self%passiveMap)
call Delete(self%activePanels)
call Delete(self%passivePanels)
deallocate(self%activePanels)
deallocate(self%passivePanels)
! MPI variables
deallocate(self%particlesIndexStart)
deallocate(self%particlesIndexEnd)
deallocate(self%particlesMessageSize)
deallocate(self%activePanelsIndexStart)
deallocate(self%activePanelsIndexEnd)
deallocate(self%activePanelsMessageSize)
deallocate(self%passivePanelsIndexStart)
deallocate(self%passivePanelsIndexEnd)
deallocate(self%passivePanelsMessageSize)
deallocate(self%particlesInput)
deallocate(self%particlesStage1)
deallocate(self%particlesStage2)
deallocate(self%particlesStage3)
deallocate(self%particlesStage4)
deallocate(self%newParticlesX)
deallocate(self%activePanelsInput)
deallocate(self%activePanelsStage1)
deallocate(self%activePanelsStage2)
deallocate(self%activePanelsStage3)
deallocate(self%activePanelsStage4)
deallocate(self%newActivePanelsX)
deallocate(self%activeVortInput)
deallocate(self%activeVortStage1)
deallocate(self%activeVortStage2)
deallocate(self%activeVortStage3)
deallocate(self%activeVortStage4)
deallocate(self%newActiveVort)
deallocate(self%passivePanelsInput)
deallocate(self%passivePanelsStage1)
deallocate(self%passivePanelsStage2)
deallocate(self%passivePanelsStage3)
deallocate(self%passivePanelsStage4)
deallocate(self%newPassivePanelsX)
end subroutine
!
!----------------
! Public member functions
!----------------
!
subroutine RK4TimestepNoRotation(self, aMesh, dt, procRank, nProcs)
type(PlaneRK4DirectSum), intent(inout) :: self
type(PlaneMesh), intent(inout) :: aMesh
real(kreal), intent(in) :: dt
integer(kint), intent(in) :: procRank, nProcs
!
type(Particles), pointer :: aParticles
integer(kint) :: j, mpiErrCode
call LogMessage(log, DEBUG_LOGGING_LEVEL, logkey,' entering rk4 timestep.')
if ( self%rk4isReady .AND. self%mpiIsReady ) then
call ZeroRK4(self)
else
call LogMessage(log, ERROR_LOGGING_LEVEL, logkey, ' RK4Timestep ERROR : data not ready.')
return
endif
aParticles => aMesh%particles
!!!!!!!!!!!!!!!!!!!!!!!!!!
! RK Stage 1 !
!!!!!!!!!!!!!!!!!!!!!!!!!!
! Set input arrays for stage 1
self%particlesInput = aParticles%x(:,1:aParticles%N)
self%activePanelsInput = self%activePanels%x
self%activeVortInput = self%activePanels%relVort
self%area = self%activePanels%area
self%passivePanelsInput = self%passivePanels%x
call PlanePassiveVel_noRotation( self%particlesStage1, self%particlesInput, &
self%activePanelsInput, self%activeVortInput, self%area, &
self%particlesIndexStart(procRank), self%particlesIndexEnd(procRank))
call PlaneActiveVel_noRotation( self%activePanelsStage1, self%activePanelsInput, self%activeVortInput, self%area, &
self%activePanelsIndexStart(procRank), self%activePanelsIndexEnd(procRank))
call PlaneSmoothVel_noRotation( self%passivePanelsStage1, self%passivePanelsINput, &
self%activePanelsINput, self%activeVortInput, self%area, &
self%passivePanelsIndexStart(procRank), self%passivePanelsIndexEnd(procRank))
do j = 0, nProcs - 1
call MPI_BCAST( self%particlesStage1(:, self%particlesIndexStart(j):self%particlesIndexEnd(j)), &
2*self%particlesMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
call MPI_BCAST( self%activePanelsStage1(:, self%activePanelsIndexStart(j):self%activePanelsIndexEnd(j)), &
2*self%activePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
call MPI_BCAST( self%passivePanelsStage1(:, self%passivePanelsIndexStart(j):self%passivePanelsIndexEnd(j)), &
2*self%passivePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
enddo
!
! STAGE 1 ONLY : store velocity and kinetic energy
!
do j = 1, aParticles%N
aParticles%ke(j) = sum( self%particlesStage1(:,j) * self%particlesStage1(:,j))
aParticles%u(:,j) = self%particlesStage1(:,j)
enddo
do j = 1, self%activePanels%N
self%activePanels%ke(j) = sum( self%activePanelsStage1(:,j) * self%activePanelsStage1(:,j) )
self%activePanels%u(:,j) = self%activePanelsStage1(:,j)
enddo
self%particlesStage1 = dt * self%particlesStage1
self%activePanelsStage1 = dt * self%activePanelsStage1
self%passivePanelsStage1 = dt * self%passivePanelsStage1
!!!!!!!!!!!!!!!!!!!!!!!!!!
! RK Stage 2 !
!!!!!!!!!!!!!!!!!!!!!!!!!!
! Set input arrays for stage 2
self%particlesInput = aParticles%x(:,1:aParticles%N) + 0.5_kreal*self%particlesStage1
self%activePanelsInput = self%activePanels%x + 0.5_kreal*self%activePanelsStage1
self%passivePanelsInput = self%passivePanels%x + 0.5_kreal*self%passivePanelsStage1
call PlanePassiveVel_noRotation( self%particlesStage2, self%particlesInput, &
self%activePanelsInput, self%activeVortInput, self%area, &
self%particlesIndexStart(procRank), self%particlesIndexEnd(procRank))
call PlaneActiveVel_noRotation( self%activePanelsStage2, self%activePanelsInput, self%activeVortInput, self%area, &
self%activePanelsIndexStart(procRank), self%activePanelsIndexEnd(procRank))
call PlaneSmoothVel_noRotation( self%passivePanelsStage2, self%passivePanelsINput, &
self%activePanelsINput, self%activeVortInput, self%area, &
self%passivePanelsIndexStart(procRank), self%passivePanelsIndexEnd(procRank))
do j = 0, nProcs - 1
call MPI_BCAST( self%particlesStage2(:, self%particlesIndexStart(j):self%particlesIndexEnd(j)), &
2*self%particlesMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
call MPI_BCAST( self%activePanelsStage2(:, self%activePanelsIndexStart(j):self%activePanelsIndexEnd(j)), &
2*self%activePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
call MPI_BCAST( self%passivePanelsStage2(:, self%passivePanelsIndexStart(j):self%passivePanelsIndexEnd(j)), &
2*self%passivePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
enddo
self%particlesStage2 = dt * self%particlesStage2
self%activePanelsStage2 = dt * self%activePanelsStage2
self%passivePanelsStage2 = dt * self%passivePanelsStage2
!!!!!!!!!!!!!!!!!!!!!!!!!!
! RK Stage 3 !
!!!!!!!!!!!!!!!!!!!!!!!!!!
! Set input arrays for stage 3
self%particlesInput = aParticles%x(:,1:aParticles%N) + 0.5_kreal*self%particlesStage2
self%activePanelsInput = self%activePanels%x + 0.5_kreal*self%activePanelsStage2
self%passivePanelsInput = self%passivePanels%x + 0.5_kreal*self%passivePanelsStage2
call PlanePassiveVel_noRotation( self%particlesStage3, self%particlesInput, &
self%activePanelsInput, self%activeVortInput, self%area, &
self%particlesIndexStart(procRank), self%particlesIndexEnd(procRank))
call PlaneActiveVel_noRotation( self%activePanelsStage3, self%activePanelsInput, self%activeVortInput, self%area, &
self%activePanelsIndexStart(procRank), self%activePanelsIndexEnd(procRank))
call PlaneSmoothVel_noRotation( self%passivePanelsStage3, self%passivePanelsINput, &
self%activePanelsINput, self%activeVortInput, self%area, &
self%passivePanelsIndexStart(procRank), self%passivePanelsIndexEnd(procRank))
do j = 0, nProcs - 1
call MPI_BCAST( self%particlesStage3(:, self%particlesIndexStart(j):self%particlesIndexEnd(j)), &
2*self%particlesMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
call MPI_BCAST( self%activePanelsStage3(:, self%activePanelsIndexStart(j):self%activePanelsIndexEnd(j)), &
2*self%activePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
call MPI_BCAST( self%passivePanelsStage3(:, self%passivePanelsIndexStart(j):self%passivePanelsIndexEnd(j)), &
2*self%passivePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
enddo
self%particlesStage3 = dt * self%particlesStage3
self%activePanelsStage3 = dt * self%activePanelsStage3
self%passivePanelsStage3 = dt * self%passivePanelsStage3
!!!!!!!!!!!!!!!!!!!!!!!!!!
! RK Stage 4 !
!!!!!!!!!!!!!!!!!!!!!!!!!!
! Set input arrays for stage 4
self%particlesInput = aParticles%x(:,1:aParticles%N) + self%particlesStage3
self%activePanelsInput = self%activePanels%x + self%activePanelsStage3
self%passivePanelsInput = self%passivePanels%x + self%passivePanelsStage3
call PlanePassiveVel_noRotation( self%particlesStage4, self%particlesInput, &
self%activePanelsInput, self%activeVortInput, self%area, &
self%particlesIndexStart(procRank), self%particlesIndexEnd(procRank))
call PlaneActiveVel_noRotation( self%activePanelsStage4, self%activePanelsInput, self%activeVortInput, self%area, &
self%activePanelsIndexStart(procRank), self%activePanelsIndexEnd(procRank))
call PlaneSmoothVel_noRotation( self%passivePanelsStage4, self%passivePanelsINput, &
self%activePanelsINput, self%activeVortInput, self%area, &
self%passivePanelsIndexStart(procRank), self%passivePanelsIndexEnd(procRank))
do j = 0, nProcs - 1
call MPI_BCAST( self%particlesStage4(:, self%particlesIndexStart(j):self%particlesIndexEnd(j)), &
2*self%particlesMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
call MPI_BCAST( self%activePanelsStage4(:, self%activePanelsIndexStart(j):self%activePanelsIndexEnd(j)), &
2*self%activePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
call MPI_BCAST( self%passivePanelsStage4(:, self%passivePanelsIndexStart(j):self%passivePanelsIndexEnd(j)), &
2*self%passivePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, &
MPI_COMM_WORLD, mpiErrCode)
enddo
self%particlesStage4 = dt * self%particlesStage4
self%activePanelsStage4 = dt * self%activePanelsStage4
self%passivePanelsStage4 = dt * self%passivePanelsStage4
!!!!!!!!!!!!!!!!!
! RK update !
!!!!!!!!!!!!!!!!!
self%newParticlesX = aParticles%x(:,1:aParticles%N) + self%particlesStage1/6.0_kreal + &
self%particlesStage2/3.0_kreal + self%particlesStage3/3.0_kreal + self%particlesStage4/6.0_kreal
self%newActivePanelsX = self%activePanels%x + self%activePanelsStage1/6.0_kreal + &
self%activePanelsStage2/3.0_kreal + self%activePanelsStage3/3.0_kreal + self%activePanelsStage4/6.0_kreal
self%newPassivePanelsX = self%passivePanels%x + self%passivePanelsStage1/6.0_kreal + &
self%passivePanelsStage2/3.0_kreal + self%passivePanelsStage3/3.0_kreal + self%passivePanelsStage4/6.0_kreal
aParticles%x(:,1:aParticles%N) = self%newParticlesX
self%activePanels%x = self%newActivePanelsX
self%passivePanels%x = self%newPassivePanelsX
call ScatterPanels( aMesh%panels, self%activePanels, self%activeMap, self%passivePanels, self%passiveMap)
call LogMessage(log, DEBUG_LOGGING_LEVEL, logkey, '... timestep complete.')
end subroutine
subroutine RK4TimestepIncompressibleAdvection(self, aMesh, dt, t, procRank, nProcs, velocityFunction)
type(PlaneRK4DirectSum), intent(inout) :: self
type(PlaneMesh), intent(inout) :: aMesh
real(kreal), intent(in) :: dt, t
integer(kint), intent(in) :: procRank, nProcs
procedure(AdvectionVelocity) :: velocityFunction
!
type(Particles), pointer :: aParticles
integer(kint) :: j, errCode
call LogMessage(log, DEBUG_LOGGING_LEVEL, logkey, 'entering advection rk4 timestep.')
if ( self%rk4isReady .AND. self%mpiIsReady ) then
call ZeroRK4(self)
else
call LogMessage(log, ERROR_LOGGING_LEVEL, logkey, ' RK4Timestep ERROR : data not ready.')
return
endif
aParticles => aMesh%particles
!!!!!!!!!!!!!!!!!!!!!!!!!!
! RK Stage 1 !
!!!!!!!!!!!!!!!!!!!!!!!!!!
! Set input arrays for stage 1
self%particlesInput = aParticles%x(:,1:aParticles%N)
self%activePanelsInput = self%activePanels%x
self%passivePanelsInput = self%passivePanels%x
do j = self%particlesIndexStart(procRank), self%particlesIndexEnd(procRank)
self%particlesStage1(:,j) = VelocityFunction(self%particlesInput(:,j), t)
enddo
do j = self%activePanelsIndexStart(procRank), self%activePanelsIndexEnd(procRank)
self%activePanelsStage1(:,j) = VelocityFunction(self%activePanelsInput(:,j), t)
enddo
do j = self%passivePanelsIndexStart(procRank), self%passivePanelsIndexEnd(procRank)
self%passivePanelsStage1(:,j) = VelocityFunction(self%passivePanelsInput(:,j), t)
enddo
do j = 0, nProcs - 1
call MPI_BCAST(self%particlesStage1(:,self%particlesIndexStart(j):self%particlesIndexEnd(j)), &
2*self%particlesMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
call MPI_BCAST(self%activePanelsStage1(:,self%activePanelsIndexStart(j):self%activePanelsIndexEnd(j)), &
2*self%activePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
call MPI_BCAST(self%passivePanelsStage1(:,self%passivePanelsIndexStart(j):self%passivePanelsIndexEnd(j)), &
2*self%passivePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
enddo
!
! STAGE 1 ONLY : store velocity and kinetic energy
!
do j = 1, aParticles%N
aParticles%ke(j) = sum( self%particlesStage1(:,j) * self%particlesStage1(:,j))
aParticles%u(:,j) = self%particlesStage1(:,j)
enddo
do j = 1, self%activePanels%N
self%activePanels%ke(j) = sum( self%activePanelsStage1(:,j) * self%activePanelsStage1(:,j) )
self%activePanels%u(:,j) = self%activePanelsStage1(:,j)
enddo
self%particlesStage1 = dt * self%particlesStage1
self%activePanelsStage1 = dt * self%activePanelsStage1
self%passivePanelsStage1 = dt * self%passivePanelsStage1
!!!!!!!!!!!!!!!!!!!!!!!!!!
! RK Stage 2 !
!!!!!!!!!!!!!!!!!!!!!!!!!!
! Set input arrays for stage 2
self%particlesInput = aParticles%x(:,1:aParticles%N) + 0.5_kreal*self%particlesStage1
self%activePanelsInput = self%activePanels%x + 0.5_kreal*self%activePanelsStage1
self%passivePanelsInput = self%passivePanels%x + 0.5_kreal*self%passivePanelsStage1
do j = self%particlesIndexStart(procRank), self%particlesIndexEnd(procRank)
self%particlesStage2(:,j) = VelocityFunction(self%particlesInput(:,j), t)
enddo
do j = self%activePanelsIndexStart(procRank), self%activePanelsIndexEnd(procRank)
self%activePanelsStage2(:,j) = VelocityFunction(self%activePanelsInput(:,j), t)
enddo
do j = self%passivePanelsIndexStart(procRank), self%passivePanelsIndexEnd(procRank)
self%passivePanelsStage2(:,j) = VelocityFunction(self%passivePanelsInput(:,j), t)
enddo
do j = 0, nProcs - 1
call MPI_BCAST(self%particlesStage2(:,self%particlesIndexStart(j):self%particlesIndexEnd(j)), &
2*self%particlesMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
call MPI_BCAST(self%activePanelsStage2(:,self%activePanelsIndexStart(j):self%activePanelsIndexEnd(j)), &
2*self%activePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
call MPI_BCAST(self%passivePanelsStage2(:,self%passivePanelsIndexStart(j):self%passivePanelsIndexEnd(j)), &
2*self%passivePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
enddo
self%particlesStage2 = dt * self%particlesStage2
self%activePanelsStage2 = dt * self%activePanelsStage2
self%passivePanelsStage2 = dt * self%passivePanelsStage2
!!!!!!!!!!!!!!!!!!!!!!!!!!
! RK Stage 3 !
!!!!!!!!!!!!!!!!!!!!!!!!!!
! Set input arrays for stage 3
self%particlesInput = aParticles%x(:,1:aParticles%N) + 0.5_kreal*self%particlesStage2
self%activePanelsInput = self%activePanels%x + 0.5_kreal*self%activePanelsStage2
self%passivePanelsInput = self%passivePanels%x + 0.5_kreal*self%passivePanelsStage2
do j = self%particlesIndexStart(procRank), self%particlesIndexEnd(procRank)
self%particlesStage3(:,j) = VelocityFunction(self%particlesInput(:,j), t)
enddo
do j = self%activePanelsIndexStart(procRank), self%activePanelsIndexEnd(procRank)
self%activePanelsStage3(:,j) = VelocityFunction(self%activePanelsInput(:,j), t)
enddo
do j = self%passivePanelsIndexStart(procRank), self%passivePanelsIndexEnd(procRank)
self%passivePanelsStage3(:,j) = VelocityFunction(self%passivePanelsInput(:,j), t)
enddo
do j = 0, nProcs - 1
call MPI_BCAST(self%particlesStage3(:,self%particlesIndexStart(j):self%particlesIndexEnd(j)), &
2*self%particlesMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
call MPI_BCAST(self%activePanelsStage3(:,self%activePanelsIndexStart(j):self%activePanelsIndexEnd(j)), &
2*self%activePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
call MPI_BCAST(self%passivePanelsStage3(:,self%passivePanelsIndexStart(j):self%passivePanelsIndexEnd(j)), &
2*self%passivePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
enddo
self%particlesStage3 = dt * self%particlesStage3
self%activePanelsStage3 = dt * self%activePanelsStage3
self%passivePanelsStage3 = dt * self%passivePanelsStage3
!!!!!!!!!!!!!!!!!!!!!!!!!!
! RK Stage 4 !
!!!!!!!!!!!!!!!!!!!!!!!!!!
! Set input arrays for stage 4
self%particlesInput = aParticles%x(:,1:aParticles%N) + self%particlesStage3
self%activePanelsInput = self%activePanels%x + self%activePanelsStage3
self%passivePanelsInput = self%passivePanels%x + self%passivePanelsStage3
do j = self%particlesIndexStart(procRank), self%particlesIndexEnd(procRank)
self%particlesStage4(:,j) = VelocityFunction(self%particlesInput(:,j), t)
enddo
do j = self%activePanelsIndexStart(procRank), self%activePanelsIndexEnd(procRank)
self%activePanelsStage4(:,j) = VelocityFunction(self%activePanelsInput(:,j), t)
enddo
do j = self%passivePanelsIndexStart(procRank), self%passivePanelsIndexEnd(procRank)
self%passivePanelsStage4(:,j) = VelocityFunction(self%passivePanelsInput(:,j), t)
enddo
do j = 0, nProcs - 1
call MPI_BCAST(self%particlesStage4(:,self%particlesIndexStart(j):self%particlesIndexEnd(j)), &
2*self%particlesMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
call MPI_BCAST(self%activePanelsStage4(:,self%activePanelsIndexStart(j):self%activePanelsIndexEnd(j)), &
2*self%activePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
call MPI_BCAST(self%passivePanelsStage4(:,self%passivePanelsIndexStart(j):self%passivePanelsIndexEnd(j)), &
2*self%passivePanelsMessageSize(j), MPI_DOUBLE_PRECISION, j, MPI_COMM_WORLD, errCode)
enddo
self%particlesStage4 = dt * self%particlesStage4
self%activePanelsStage4 = dt * self%activePanelsStage4
self%passivePanelsStage4 = dt * self%passivePanelsStage4
!!!!!!!!!!!!!!!!!
! RK update !
!!!!!!!!!!!!!!!!!
self%newParticlesX = aParticles%x(:,1:aParticles%N) + self%particlesStage1/6.0_kreal + &
self%particlesStage2/3.0_kreal + self%particlesStage3/3.0_kreal + self%particlesStage4/6.0_kreal
self%newActivePanelsX = self%activePanels%x + self%activePanelsStage1/6.0_kreal + &
self%activePanelsStage2/3.0_kreal + self%activePanelsStage3/3.0_kreal + self%activePanelsStage4/6.0_kreal
self%newPassivePanelsX = self%passivePanels%x + self%passivePanelsStage1/6.0_kreal + &
self%passivePanelsStage2/3.0_kreal + self%passivePanelsStage3/3.0_kreal + self%passivePanelsStage4/6.0_kreal
aParticles%x(:,1:aParticles%N) = self%newParticlesX
self%activePanels%x = self%newActivePanelsX
self%passivePanels%x = self%newPassivePanelsX
call ScatterPanels( aMesh%panels, self%activePanels, self%activeMap, self%passivePanels, self%passiveMap)
call LogMessage(log, DEBUG_LOGGING_LEVEL, logkey, '... timestep complete.')
end subroutine
subroutine SetVelocitySmoothingParameter(newSmooth)
real(kreal), intent(in) :: newSmooth
VELOCITY_SMOOTH = newSmooth
end subroutine
!
!----------------
! Module methods : module- or type-specific private functions
!----------------
!
subroutine ZeroRK4(self)
type(PlaneRK4DirectSum), intent(inout) :: self
!
if ( .not. self%rk4isReady ) then
call LogMessage(log,ERROR_LOGGING_LEVEL,'ZeroRK4 ERROR : ','memory not ready.')
return
endif
self%particlesInput = 0.0_kreal
self%particlesStage1 = 0.0_kreal
self%particlesStage2 = 0.0_kreal
self%particlesStage3 = 0.0_kreal
self%particlesStage4 = 0.0_kreal
self%newParticlesX = 0.0_kreal
self%activePanelsInput = 0.0_kreal
self%activePanelsStage1 = 0.0_kreal
self%activePanelsStage2 = 0.0_kreal
self%activePanelsStage3 = 0.0_kreal
self%activePanelsStage4 = 0.0_kreal
self%newActivePanelsX = 0.0_kreal
self%activeVortInput = 0.0_kreal
self%activeVortStage1 = 0.0_kreal
self%activeVortStage2 = 0.0_kreal
self%activeVortStage3 = 0.0_kreal
self%activeVortStage4 = 0.0_kreal
self%newActiveVort = 0.0_kreal
self%area = 0.0_kreal
self%passivePanelsInput = 0.0_kreal
self%passivePanelsStage1 = 0.0_kreal
self%passivePanelsStage2 = 0.0_kreal
self%passivePanelsStage3 = 0.0_kreal
self%passivePanelsStage4 = 0.0_kreal
self%newPassivePanelsX = 0.0_kreal
end subroutine
subroutine LoadBalance(self,nParticles,nActive,nPassive,nProcs)
! Calculates the portion of each work array to be done by each process.
!
type(PlaneRK4DirectSum), intent(inout) :: self
integer(kint), intent(in) :: nParticles,nActive, nPassive, nProcs
integer(kint) :: j, chunkSize
call LogMessage(log,DEBUG_LOGGING_LEVEL,' Entering LoadBalance.')
chunkSize = nParticles / nProcs
do j=0,nProcs-1
self%particlesIndexStart(j) = j*chunkSize + 1
self%particlesIndexEnd(j) = (j+1)*chunkSize
enddo
self%particlesIndexEnd(nProcs-1) = nParticles
self%particlesMessageSize = self%particlesIndexEnd - self%particlesIndexStart + 1
chunkSize = nActive / nProcs
do j=0,nProcs-1
self%activePanelsIndexStart(j) = j*chunkSize + 1
self%activePanelsIndexEnd(j) = (j+1)*chunkSize
enddo
self%activePanelsIndexEnd(nProcs-1) = nActive
self%activePanelsMessageSize = self%activePanelsIndexEnd - self%activePanelsIndexStart + 1
chunkSize = nPassive / nProcs
do j=0,nProcs-1
self%passivePanelsIndexStart(j) = j*chunkSize + 1
self%passivePanelsIndexEnd(j) = (j+1)*chunkSize
enddo
self%passivePanelsIndexEnd(nProcs-1) = nPassive
self%passivePanelsMessageSize = self%passivePanelsIndexEnd - self%passivePanelsIndexStart + 1
self%mpiIsReady = .TRUE.
end subroutine
subroutine PlaneActiveVel_noRotation(dX, x, vort, area, indexStart, indexEnd)
real(kreal), intent(out) :: dX(:,:)
real(kreal), intent(in) :: x(:,:), vort(:), area(:)
integer(kint), intent(in) :: indexStart, indexEnd
!
integer(kint) :: j, k, n
real(kreal) :: denom
n = size(vort)
dX = 0.0_kreal
do j = indexStart, indexEnd
do k = 1, j-1
denom = 2.0_kreal * PI * ( sum( (x(:,j) - x(:,k)) * (x(:,j) - x(:,k))))
dX(1,j) = dx(1,j) - ( x(2,j) - x(2,k) ) * vort(k) * area(k) / denom
dX(2,j) = dx(2,j) + ( x(1,j) - x(1,k) ) * vort(k) * area(k) / denom
enddo
do k = j+1, n
denom = 2.0_kreal * PI * ( sum( (x(:,j) - x(:,k)) * (x(:,j) - x(:,k))))
dX(1,j) = dx(1,j) - ( x(2,j) - x(2,k) ) * vort(k) * area(k) / denom
dX(2,j) = dx(2,j) + ( x(1,j) - x(1,k) ) * vort(k) * area(k) / denom
enddo
enddo
end subroutine
subroutine PlanePassiveVel_noRotation(dxP, xP, xA, vort, area, indexStart, indexEnd)
real(kreal), intent(out) :: dxP(:,:)
real(kreal), intent(in) :: xP(:,:), xA(:,:), vort(:), area(:)
integer(kint), intent(in) :: indexStart, indexEnd
!
integer(kint) :: j, k, n
real(kreal) :: denom
n = size(vort)
dxP = 0.0_kreal
do j = indexStart, indexEnd
do k = 1, n
denom = 2.0_kreal * PI * ( sum( (xP(:,j) - xA(:,k))*(xP(:,j) - xA(:,k))))
dxp(1,j) = dxp(1,j) - ( xp(2,j) - xa(2,k) ) * vort(k) * area(k) / denom
dxp(2,j) = dxp(2,j) + ( xp(1,j) - xa(1,k) ) * vort(k) * area(k) / denom
enddo
enddo
end subroutine
subroutine PlaneSmoothVel_noRotation(dxP, xP, xA, vort, area, indexStart, indexEnd)
real(kreal), intent(out) :: dxP(:,:)
real(kreal), intent(in) :: xP(:,:), xa(:,:), vort(:), area(:)
integer(kint), intent(in) :: indexStart, indexEnd
!
integer(kint) :: j, k, n
real(kreal) :: denom
n = size(vort)
do j = indexStart, indexEnd
do k = 1, n
denom = 2.0_kreal * PI * ( sum( (xP(:,j) - xA(:,k)) * (xP(:,j) - xA(:,k))) + VELOCITY_SMOOTH * VELOCITY_SMOOTH)
dxP(1,j) = dxP(1,j) - ( xp(2,j) - xA(2,k) ) * vort(k) * area(k) / denom
dxP(2,j) = dxP(2,j) + ( xP(1,j) - xa(1,k) ) * vort(k) * area(k) / denom
enddo
enddo
end subroutine
function LeVeque93(xy, t)
real(kreal) :: LeVeque93(2)
real(kreal), intent(in) :: xy(2), t
LeVeque93(1) = - xy(2) + 0.5_kreal
LeVeque93(2) = xy(1) - 0.5_kreal
LeVeque93 = LeVeque93 / (2.0_kreal * PI)
end function
subroutine InitLogger(aLog, rank)
type(Logger), intent(inout) :: aLog
integer(kint), intent(in) :: rank
write(logKey,'(A,A,I0.2,A)') trim(logKey),'_',rank,' : '
if ( rank == 0 ) then
call New(aLog,logLevel)
else
call New(aLog,WARNING_LOGGING_LEVEL)
endif
logInit = .TRUE.
end subroutine
end module