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cWrapper.f95
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cWrapper.f95
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subroutine cPlmBar(p,lmax,z,csphase,cnorm,exitstatus) bind(c, name="PlmBar")
use, intrinsic :: iso_c_binding
use shtools, only: PlmBar
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: p
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: cnorm
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlmBar(p,lmax,z,csphase=csphase,cnorm=cnorm,exitstatus=exitstatus)
end subroutine cPlmBar
subroutine cPlmBar_d1(p,dp1,lmax,z,csphase,cnorm,exitstatus) bind(c, name="PlmBar_d1")
use, intrinsic :: iso_c_binding
use shtools, only: PlmBar_d1
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: p
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: dp1
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: cnorm
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlmBar_d1(p,dp1,lmax,z,csphase=csphase,cnorm=cnorm,exitstatus=exitstatus)
end subroutine cPlmBar_d1
subroutine cPlBar(p,lmax,z,exitstatus) bind(c, name="PlBar")
use, intrinsic :: iso_c_binding
use shtools, only: PlBar
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: p
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlBar(p,lmax,z,exitstatus=exitstatus)
end subroutine cPlBar
subroutine cPlBar_d1(p,dp1,lmax,z,exitstatus) bind(c, name="PlBar_d1")
use, intrinsic :: iso_c_binding
use shtools, only: PlBar_d1
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: p
real(kind=c_double), dimension(lmax+1),intent(out) :: dp1
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlBar_d1(p,dp1,lmax,z,exitstatus=exitstatus)
end subroutine cPlBar_d1
subroutine cPlmON(p,lmax,z,csphase,cnorm,exitstatus) bind(c, name="PlmON")
use, intrinsic :: iso_c_binding
use shtools, only: PlmON
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: p
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: cnorm
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlmON(p,lmax,z,csphase=csphase,cnorm=cnorm,exitstatus=exitstatus)
end subroutine cPlmON
subroutine cPlmON_d1(p,dp1,lmax,z,csphase,cnorm,exitstatus) bind(c, name="PlmON_d1")
use, intrinsic :: iso_c_binding
use shtools, only: PlmON_d1
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: p
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: dp1
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: cnorm
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlmON_d1(p,dp1,lmax,z,csphase=csphase,cnorm=cnorm,exitstatus=exitstatus)
end subroutine cPlmON_d1
subroutine cPlON(p,lmax,z,exitstatus) bind(c, name="PlON")
use, intrinsic :: iso_c_binding
use shtools, only: PlON
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: p
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlON(p,lmax,z,exitstatus=exitstatus)
end subroutine cPlON
subroutine cPlON_d1(p,dp1,lmax,z,exitstatus) bind(c, name="PlON_d1")
use, intrinsic :: iso_c_binding
use shtools, only: PlON_d1
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: p
real(kind=c_double), dimension(lmax+1),intent(out) :: dp1
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlON_d1(p,dp1,lmax,z,exitstatus=exitstatus)
end subroutine cPlON_d1
subroutine cPlmSchmidt(p,lmax,z,csphase,cnorm,exitstatus) bind(c, name="PlmSchmidt")
use, intrinsic :: iso_c_binding
use shtools, only: PlmSchmidt
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: p
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: cnorm
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlmSchmidt(p,lmax,z,csphase=csphase,cnorm=cnorm,exitstatus=exitstatus)
end subroutine cPlmSchmidt
subroutine cPlmSchmidt_d1(p,dp1,lmax,z,csphase,cnorm,exitstatus) bind(c, name="PlmSchmidt_d1")
use, intrinsic :: iso_c_binding
use shtools, only: PlmSchmidt_d1
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: p
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: dp1
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: cnorm
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlmSchmidt_d1(p,dp1,lmax,z,csphase=csphase,cnorm=cnorm,exitstatus=exitstatus)
end subroutine cPlmSchmidt_d1
subroutine cPlSchmidt(p,lmax,z,exitstatus) bind(c, name="PlSchmidt")
use, intrinsic :: iso_c_binding
use shtools, only: PlSchmidt
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: p
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlSchmidt(p,lmax,z,exitstatus=exitstatus)
end subroutine cPlSchmidt
subroutine cPlSchmidt_d1(p,dp1,lmax,z,exitstatus) bind(c, name="PlSchmidt_d1")
use, intrinsic :: iso_c_binding
use shtools, only: PlSchmidt_d1
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: p
real(kind=c_double), dimension(lmax+1),intent(out) :: dp1
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(out) :: exitstatus
call PlSchmidt_d1(p,dp1,lmax,z,exitstatus=exitstatus)
end subroutine cPlSchmidt_d1
subroutine cPLegendreA(p,lmax,z,csphase,exitstatus) bind(c, name="PLegendreA")
use, intrinsic :: iso_c_binding
use shtools, only: PLegendreA
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: p
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(out) :: exitstatus
call PLegendreA(p,lmax,z,csphase=csphase,exitstatus=exitstatus)
end subroutine cPLegendreA
subroutine cPLegendreA_d1(p,dp1,lmax,z,csphase,exitstatus) bind(c, name="PLegendreA_d1")
use, intrinsic :: iso_c_binding
use shtools, only: PLegendreA_d1
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: p
real(kind=c_double), dimension((lmax+1)*(lmax+2)/2),intent(out) :: dp1
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(out) :: exitstatus
call PLegendreA_d1(p,dp1,lmax,z,csphase=csphase,exitstatus=exitstatus)
end subroutine cPLegendreA_d1
subroutine cPLegendre(p,lmax,z,exitstatus) bind(c, name="PLegendre")
use, intrinsic :: iso_c_binding
use shtools, only: PLegendre
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: p
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(out) :: exitstatus
call PLegendre(p,lmax,z,exitstatus=exitstatus)
end subroutine cPLegendre
subroutine cPLegendre_d1(p,dp1,lmax,z,exitstatus) bind(c, name="PLegendre_d1")
use, intrinsic :: iso_c_binding
use shtools, only: PLegendre_d1
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: p
real(kind=c_double), dimension(lmax+1),intent(out) :: dp1
real(kind=c_double), value,intent(in) :: z
integer(kind=c_int), optional,intent(out) :: exitstatus
call PLegendre_d1(p,dp1,lmax,z,exitstatus=exitstatus)
end subroutine cPLegendre_d1
function cPlmIndex(l,m) bind(c, name="PlmIndex")
use, intrinsic :: iso_c_binding
use shtools, only: PlmIndex
implicit none
integer(kind=c_int) :: cPlmIndex
integer(kind=c_int), value,intent(in) :: l
integer(kind=c_int), value,intent(in) :: m
cPlmIndex=PlmIndex(l,m)
end function cPlmIndex
subroutine cSHExpandDH(grid,grid_d0,grid_d1,n,cilm,cilm_dim,lmax,norm,sampling&
,csphase,lmax_calc,exitstatus) bind(c, name="SHExpandDH")
use, intrinsic :: iso_c_binding
use shtools, only: SHExpandDH
implicit none
integer(kind=c_int), value,intent(in) :: grid_d0
integer(kind=c_int), value,intent(in) :: grid_d1
real(kind=c_double), dimension(grid_d0,grid_d1),intent(in) :: grid
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
integer(kind=c_int), value,intent(in) :: n
integer(kind=c_int), intent(out) :: lmax
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: sampling
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHExpandDH(grid,n,cilm,lmax,norm=norm,sampling=sampling,csphase=csphase&
,lmax_calc=lmax_calc,exitstatus=exitstatus)
end subroutine cSHExpandDH
subroutine cMakeGridDH(griddh,griddh_d0,griddh_d1,n,cilm,cilm_dim,lmax,norm,sampling&
,csphase,lmax_calc,extend,exitstatus) bind(c, name="MakeGridDH")
use, intrinsic :: iso_c_binding
use shtools, only: MakeGridDH
implicit none
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: griddh_d0
integer(kind=c_int), value,intent(in) :: griddh_d1
real(kind=c_double), dimension(griddh_d0,griddh_d1),intent(out) :: griddh
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), intent(out) :: n
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: sampling
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(in) :: extend
integer(kind=c_int), optional,intent(out) :: exitstatus
call MakeGridDH(griddh,n,cilm,lmax,norm=norm,sampling=sampling,csphase=csphase&
,lmax_calc=lmax_calc,extend=extend,exitstatus=exitstatus)
end subroutine cMakeGridDH
subroutine cSHExpandDHC(grid,grid_d0,grid_d1,n,cilm,cilm_dim,lmax,norm,sampling&
,csphase,lmax_calc,exitstatus) bind(c, name="SHExpandDHC")
use, intrinsic :: iso_c_binding
use shtools, only: SHExpandDHC
implicit none
integer(kind=c_int), value,intent(in) :: grid_d0
integer(kind=c_int), value,intent(in) :: grid_d1
complex(kind=c_double_complex), dimension(grid_d0,grid_d1),intent(in) :: grid
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
integer(kind=c_int), value,intent(in) :: n
integer(kind=c_int), intent(out) :: lmax
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: sampling
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHExpandDHC(grid,n,cilm,lmax,norm=norm,sampling=sampling,csphase=csphase&
,lmax_calc=lmax_calc,exitstatus=exitstatus)
end subroutine cSHExpandDHC
subroutine cMakeGridDHC(griddh,griddh_d0,griddh_d1,n,cilm,cilm_dim,lmax,norm,sampling&
,csphase,lmax_calc,extend,exitstatus) bind(c, name="MakeGridDHC")
use, intrinsic :: iso_c_binding
use shtools, only: MakeGridDHC
implicit none
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: griddh_d0
integer(kind=c_int), value,intent(in) :: griddh_d1
complex(kind=c_double_complex), dimension(griddh_d0,griddh_d1),intent(out) :: griddh
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), intent(out) :: n
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: sampling
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(in) :: extend
integer(kind=c_int), optional,intent(out) :: exitstatus
call MakeGridDHC(griddh,n,cilm,lmax,norm=norm,sampling=sampling,csphase=csphase&
,lmax_calc=lmax_calc,extend=extend,exitstatus=exitstatus)
end subroutine cMakeGridDHC
subroutine cMakeGradientDH(cilm,cilm_dim,lmax,theta,phi,theta_d0,theta_d1,n,sampling&
,lmax_calc,extend,radius,exitstatus) bind(c, name="MakeGradientDH")
use, intrinsic :: iso_c_binding
use shtools, only: MakeGradientDH
implicit none
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: theta_d0
integer(kind=c_int), value,intent(in) :: theta_d1
real(kind=c_double), dimension(theta_d0,theta_d1),intent(out) :: theta
real(kind=c_double), dimension(theta_d0,theta_d1),intent(out) :: phi
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), optional,intent(in) :: radius
integer(kind=c_int), intent(out) :: n
integer(kind=c_int), optional,intent(in) :: sampling
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(in) :: extend
integer(kind=c_int), optional,intent(out) :: exitstatus
call MakeGradientDH(cilm,lmax,theta,phi,n,sampling=sampling&
,lmax_calc=lmax_calc,extend=extend&
,radius=radius,exitstatus=exitstatus)
end subroutine cMakeGradientDH
subroutine cSHGLQ(lmax,zero,w,plx,norm,csphase,cnorm,exitstatus) bind(c, name="SHGLQ")
use, intrinsic :: iso_c_binding
use shtools, only: SHGLQ
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(out) :: zero
real(kind=c_double), dimension(lmax+1),intent(out) :: w
real(kind=c_double), optional,dimension(lmax+1,(lmax+1)*(lmax+2)/2),intent(out) :: plx
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: cnorm
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHGLQ(lmax,zero,w,plx=plx,norm=norm,csphase=csphase,cnorm=cnorm,exitstatus=exitstatus)
end subroutine cSHGLQ
subroutine cSHExpandGLQ(cilm,cilm_dim,lmax,gridglq,w,plx,zero,norm,csphase,lmax_calc&
,exitstatus) bind(c, name="SHExpandGLQ")
use, intrinsic :: iso_c_binding
use shtools, only: SHExpandGLQ
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(in) :: w
real(kind=c_double), dimension(lmax+1,2*lmax+1),intent(in) :: gridglq
real(kind=c_double), optional,dimension(lmax+1,(lmax+1)*(lmax+2)/2),intent(in) :: plx
real(kind=c_double), optional,dimension(lmax+1),intent(in) :: zero
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHExpandGLQ(cilm,lmax,gridglq,w,plx=plx,zero=zero,norm=norm,csphase=csphase&
,lmax_calc=lmax_calc,exitstatus=exitstatus)
end subroutine cSHExpandGLQ
subroutine cMakeGridGLQ(gridglq,gridglq_d0,gridglq_d1,cilm,cilm_dim,lmax,plx,zero&
,norm,csphase,lmax_calc,extend,exitstatus) bind(c&
, name="MakeGridGLQ")
use, intrinsic :: iso_c_binding
use shtools, only: MakeGridGLQ
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), optional,dimension(lmax+1,(lmax+1)*(lmax+2)/2),intent(in) :: plx
real(kind=c_double), optional,dimension(lmax+1),intent(in) :: zero
integer(kind=c_int), value,intent(in) :: gridglq_d0
integer(kind=c_int), value,intent(in) :: gridglq_d1
real(kind=c_double), dimension(gridglq_d0,gridglq_d1),intent(out) :: gridglq
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(in) :: extend
integer(kind=c_int), optional,intent(out) :: exitstatus
call MakeGridGLQ(gridglq,cilm,lmax,plx=plx,zero=zero,norm=norm,csphase=csphase&
,lmax_calc=lmax_calc,extend=extend,exitstatus=exitstatus)
end subroutine cMakeGridGLQ
subroutine cSHExpandGLQC(cilm,cilm_dim,lmax,gridglq,w,plx,zero,norm,csphase,lmax_calc&
,exitstatus) bind(c, name="SHExpandGLQC")
use, intrinsic :: iso_c_binding
use shtools, only: SHExpandGLQC
implicit none
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax+1),intent(in) :: w
complex(kind=c_double_complex), dimension(lmax+1,2*lmax+1),intent(in) :: gridglq
real(kind=c_double), optional,dimension(lmax+1,(lmax+1)*(lmax+2)/2),intent(in) :: plx
real(kind=c_double), optional,dimension(lmax+1),intent(in) :: zero
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHExpandGLQC(cilm,lmax,gridglq,w,plx=plx,zero=zero,norm=norm,csphase=csphase&
,lmax_calc=lmax_calc,exitstatus=exitstatus)
end subroutine cSHExpandGLQC
subroutine cMakeGridGLQC(gridglq,gridglq_d0,gridglq_d1,cilm,cilm_dim,lmax,plx&
,zero,norm,csphase,lmax_calc,extend,exitstatus) bind(c&
, name="MakeGridGLQC")
use, intrinsic :: iso_c_binding
use shtools, only: MakeGridGLQC
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), optional,dimension(lmax+1,(lmax+1)*(lmax+2)/2),intent(in) :: plx
real(kind=c_double), optional,dimension(lmax+1),intent(in) :: zero
integer(kind=c_int), value,intent(in) :: gridglq_d0
integer(kind=c_int), value,intent(in) :: gridglq_d1
complex(kind=c_double_complex), dimension(gridglq_d0,gridglq_d1),intent(out) :: gridglq
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: lmax_calc
integer(kind=c_int), optional,intent(in) :: extend
integer(kind=c_int), optional,intent(out) :: exitstatus
call MakeGridGLQC(gridglq,cilm,lmax,plx=plx,zero=zero,norm=norm,csphase=csphase&
,lmax_calc=lmax_calc,extend=extend,exitstatus=exitstatus)
end subroutine cMakeGridGLQC
subroutine cGLQGridCoord(latglq,latglq_d0,longlq,longlq_d0,lmax,nlat,nlong,extend&
,exitstatus) bind(c, name="GLQGridCoord")
use, intrinsic :: iso_c_binding
use shtools, only: GLQGridCoord
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), intent(out) :: nlat
integer(kind=c_int), intent(out) :: nlong
integer(kind=c_int), value,intent(in) :: latglq_d0
real(kind=c_double), dimension(latglq_d0),intent(out) :: latglq
integer(kind=c_int), value,intent(in) :: longlq_d0
real(kind=c_double), dimension(longlq_d0),intent(out) :: longlq
integer(kind=c_int), optional,intent(in) :: extend
integer(kind=c_int), optional,intent(out) :: exitstatus
call GLQGridCoord(latglq,longlq,lmax,nlat,nlong,extend=extend,exitstatus=exitstatus)
end subroutine cGLQGridCoord
subroutine cSHExpandLSQ(cilm,cilm_dim,d,lat,lon,nmax,lmax,norm,chi2,csphase,weights&
,exitstatus) bind(c, name="SHExpandLSQ")
use, intrinsic :: iso_c_binding
use shtools, only: SHExpandLSQ
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: nmax
real(kind=c_double), dimension(nmax),intent(in) :: d
real(kind=c_double), dimension(nmax),intent(in) :: lat
real(kind=c_double), dimension(nmax),intent(in) :: lon
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
real(kind=c_double), optional,intent(out) :: chi2
real(kind=c_double), optional,dimension(nmax),intent(in) :: weights
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHExpandLSQ(cilm,d,lat,lon,nmax,lmax,norm=norm,chi2=chi2,csphase=csphase&
,weights=weights,exitstatus=exitstatus)
end subroutine cSHExpandLSQ
subroutine cMakeGrid2d(grid,grid_d0,grid_d1,cilm,cilm_dim,lmax,interval,nlat,nlong&
,norm,csphase,f,a,north,south,east,west,dealloc,exitstatus) bind(c&
, name="MakeGrid2d")
use, intrinsic :: iso_c_binding
use shtools, only: MakeGrid2d
implicit none
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), value,intent(in) :: interval
integer(kind=c_int), value,intent(in) :: grid_d0
integer(kind=c_int), value,intent(in) :: grid_d1
real(kind=c_double), dimension(grid_d0,grid_d1),intent(out) :: grid
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), intent(out) :: nlat
integer(kind=c_int), intent(out) :: nlong
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: dealloc
real(kind=c_double), optional,intent(in) :: f
real(kind=c_double), optional,intent(in) :: a
real(kind=c_double), optional,intent(in) :: north
real(kind=c_double), optional,intent(in) :: south
real(kind=c_double), optional,intent(in) :: east
real(kind=c_double), optional,intent(in) :: west
integer(kind=c_int), optional,intent(out) :: exitstatus
call MakeGrid2d(grid,cilm,lmax,interval,nlat,nlong,norm=norm,csphase=csphase&
,f=f,a=a,north=north,south=south,east=east,west=west,dealloc=dealloc&
,exitstatus=exitstatus)
end subroutine cMakeGrid2d
function cMakeGridPoint(cilm,cilm_dim,lmax,lat,lon,norm,csphase,dealloc) bind(c&
, name="MakeGridPoint")
use, intrinsic :: iso_c_binding
use shtools, only: MakeGridPoint
implicit none
real(kind=c_double) :: cMakeGridPoint
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), value,intent(in) :: lat
real(kind=c_double), value,intent(in) :: lon
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: dealloc
cMakeGridPoint=MakeGridPoint(cilm,lmax,lat,lon,norm=norm,csphase=csphase,dealloc=dealloc)
end function cMakeGridPoint
function cMakeGridPointC(cilm,cilm_dim,lmax,lat,lon,norm,csphase,dealloc) bind(c&
, name="MakeGridPointC")
use, intrinsic :: iso_c_binding
use shtools, only: MakeGridPointC
implicit none
complex(kind=c_double_complex) :: cMakeGridPointC
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), value,intent(in) :: lat
real(kind=c_double), value,intent(in) :: lon
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(in) :: dealloc
cMakeGridPointC=MakeGridPointC(cilm,lmax,lat,lon,norm=norm,csphase=csphase&
,dealloc=dealloc)
end function cMakeGridPointC
subroutine cSHMultiply(cilmout,cilmout_dim,cilm1,cilm1_dim,lmax1,cilm2,cilm2_dim&
,lmax2,precomp,norm,csphase,exitstatus) bind(c&
, name="SHMultiply")
use, intrinsic :: iso_c_binding
use shtools, only: SHMultiply
implicit none
integer(kind=c_int), value,intent(in) :: cilmout_dim
real(kind=c_double), dimension(2,cilmout_dim,cilmout_dim),intent(out) :: cilmout
integer(kind=c_int), value,intent(in) :: cilm1_dim
real(kind=c_double), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
real(kind=c_double), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
integer(kind=c_int), value,intent(in) :: lmax1
integer(kind=c_int), value,intent(in) :: lmax2
integer(kind=c_int), optional,intent(in) :: precomp
integer(kind=c_int), optional,intent(in) :: norm
integer(kind=c_int), optional,intent(in) :: csphase
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHMultiply(cilmout,cilm1,lmax1,cilm2,lmax2,precomp=precomp,norm=norm&
,csphase=csphase,exitstatus=exitstatus)
end subroutine cSHMultiply
subroutine cSHRead(filename,filename_d1,cilm,cilm_dim,lmax,skip,header,header_d0&
,error,exitstatus) bind(c, name="SHRead")
use, intrinsic :: iso_c_binding
use shtools, only: SHRead
implicit none
integer(kind=c_int), value,intent(in) :: filename_d1
character(kind=c_char), dimension(filename_d1),intent(in) :: filename
integer(kind=c_int), intent(out) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
integer(kind=c_int), value,intent(in) :: header_d0
real(kind=c_double), optional,dimension(header_d0),intent(out) :: header
real(kind=c_double), optional,dimension(2,cilm_dim,cilm_dim),intent(out) :: error
integer(kind=c_int), optional,intent(in) :: skip
integer(kind=c_int), optional,intent(out) :: exitstatus
character(filename_d1) :: filename2
filename2 = TRANSFER(filename,filename2)
call SHRead(filename2,cilm,lmax,header=header,error=error,skip=skip,exitstatus=exitstatus)
end subroutine cSHRead
subroutine cSHRead2(filename,filename_d1,cilm,cilm_dim,lmax,gm,r0_pot,error,dot&
,dot_dim,doystart,doyend,epoch,exitstatus) bind(c&
, name="SHRead2")
use, intrinsic :: iso_c_binding
use shtools, only: SHRead2
implicit none
integer(kind=c_int), value,intent(in) :: filename_d1
character(kind=c_char), dimension(filename_d1),intent(in) :: filename
integer(kind=c_int), intent(out) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
real(kind=c_double), intent(out) :: gm
real(kind=c_double), intent(out) :: r0_pot
real(kind=c_double), optional,dimension(2,cilm_dim,cilm_dim),intent(out) :: error
integer(kind=c_int), value,intent(in) :: dot_dim
real(kind=c_double), optional,dimension(2,dot_dim,dot_dim),intent(out) :: dot
real(kind=c_double), optional,intent(out) :: doystart
real(kind=c_double), optional,intent(out) :: doyend
real(kind=c_double), optional,intent(out) :: epoch
integer(kind=c_int), optional,intent(out) :: exitstatus
character(filename_d1) :: filename2
filename2 = TRANSFER(filename,filename2)
call SHRead2(filename2,cilm,lmax,gm,r0_pot,error=error,dot=dot,doystart=doystart&
,doyend=doyend,epoch=epoch,exitstatus=exitstatus)
end subroutine cSHRead2
subroutine cSHReadJPL(filename,filename_d1,cilm,cilm_dim,lmax,error,gm,formatstring&
,exitstatus) bind(c, name="SHReadJPL")
use, intrinsic :: iso_c_binding
use shtools, only: SHReadJPL
implicit none
integer(kind=c_int), value,intent(in) :: filename_d1
character(kind=c_char), dimension(filename_d1),intent(in) :: filename
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
real(kind=c_double), optional,dimension(2,cilm_dim,cilm_dim),intent(out) :: error
real(kind=c_double), optional,dimension(2),intent(out) :: gm
character(kind=c_char), optional,intent(in) :: formatstring
integer(kind=c_int), optional,intent(out) :: exitstatus
character(filename_d1) :: filename2
character(6) :: formatstring2
filename2 = TRANSFER(filename,filename2)
formatstring2 = TRANSFER(formatstring, formatstring2)
call SHReadJPL(filename2,cilm,lmax,error=error,gm=gm,formatstring=formatstring2&
,exitstatus=exitstatus)
end subroutine cSHReadJPL
subroutine cSHCilmToVector(cilm,cilm_dim,vector,lmax,exitstatus) bind(c, name="SHCilmToVector")
use, intrinsic :: iso_c_binding
use shtools, only: SHCilmToVector
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), dimension((lmax+1)**2),intent(out) :: vector
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHCilmToVector(cilm,vector,lmax,exitstatus=exitstatus)
end subroutine cSHCilmToVector
subroutine cSHVectorToCilm(vector,cilm,cilm_dim,lmax,exitstatus) bind(c, name="SHVectorToCilm")
use, intrinsic :: iso_c_binding
use shtools, only: SHVectorToCilm
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
real(kind=c_double), dimension((lmax+1)**2),intent(in) :: vector
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHVectorToCilm(vector,cilm,lmax,exitstatus=exitstatus)
end subroutine cSHVectorToCilm
subroutine cSHCilmToCindex(cilm,cilm_dim,cindex,cindex_d1,degmax,exitstatus) bind(c&
, name="SHCilmToCindex")
use, intrinsic :: iso_c_binding
use shtools, only: SHCilmToCindex
implicit none
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: cindex_d1
real(kind=c_double), dimension(2,cindex_d1),intent(out) :: cindex
integer(kind=c_int), optional,intent(in) :: degmax
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHCilmToCindex(cilm,cindex,degmax=degmax,exitstatus=exitstatus)
end subroutine cSHCilmToCindex
subroutine cSHCindexToCilm(cindex,cindex_d1,cilm,cilm_dim,degmax,exitstatus) bind(c&
, name="SHCindexToCilm")
use, intrinsic :: iso_c_binding
use shtools, only: SHCindexToCilm
implicit none
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(out) :: cilm
integer(kind=c_int), value,intent(in) :: cindex_d1
real(kind=c_double), dimension(2,cindex_d1),intent(in) :: cindex
integer(kind=c_int), optional,intent(in) :: degmax
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHCindexToCilm(cindex,cilm,degmax=degmax,exitstatus=exitstatus)
end subroutine cSHCindexToCilm
subroutine cSHrtoc(rcilm,rcilm_dim,ccilm,ccilm_dim,degmax,convention,switchcs&
,exitstatus) bind(c, name="SHrtoc")
use, intrinsic :: iso_c_binding
use shtools, only: SHrtoc
implicit none
integer(kind=c_int), value,intent(in) :: rcilm_dim
real(kind=c_double), dimension(2,rcilm_dim,rcilm_dim),intent(in) :: rcilm
integer(kind=c_int), value,intent(in) :: ccilm_dim
real(kind=c_double), dimension(2,ccilm_dim,ccilm_dim),intent(out) :: ccilm
integer(kind=c_int), optional,intent(in) :: degmax
integer(kind=c_int), optional,intent(in) :: convention
integer(kind=c_int), optional,intent(in) :: switchcs
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHrtoc(rcilm,ccilm,degmax=degmax,convention=convention,switchcs=switchcs&
,exitstatus=exitstatus)
end subroutine cSHrtoc
subroutine cSHctor(ccilm,ccilm_dim,rcilm,rcilm_dim,degmax,convention,switchcs&
,exitstatus) bind(c, name="SHctor")
use, intrinsic :: iso_c_binding
use shtools, only: SHctor
implicit none
integer(kind=c_int), value,intent(in) :: ccilm_dim
real(kind=c_double), dimension(2,ccilm_dim,ccilm_dim),intent(in) :: ccilm
integer(kind=c_int), value,intent(in) :: rcilm_dim
real(kind=c_double), dimension(2,rcilm_dim,rcilm_dim),intent(out) :: rcilm
integer(kind=c_int), optional,intent(in) :: degmax
integer(kind=c_int), optional,intent(in) :: convention
integer(kind=c_int), optional,intent(in) :: switchcs
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHctor(ccilm,rcilm,degmax=degmax,convention=convention,switchcs=switchcs&
,exitstatus=exitstatus)
end subroutine cSHctor
subroutine cdjpi2(dj,dj_dim,lmax,exitstatus) bind(c, name="djpi2")
use, intrinsic :: iso_c_binding
use shtools, only: djpi2
implicit none
integer(kind=c_int), value,intent(in) :: dj_dim
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(dj_dim,dj_dim,dj_dim),intent(out) :: dj
integer(kind=c_int), optional,intent(out) :: exitstatus
call djpi2(dj,lmax,exitstatus=exitstatus)
end subroutine cdjpi2
subroutine cSHRotateCoef(x,cof,cof_d0,cof_d1,rcof,rcof_d1,dj,dj_dim,lmax,exitstatus) bind(c&
, name="SHRotateCoef")
use, intrinsic :: iso_c_binding
use shtools, only: SHRotateCoef
implicit none
integer(kind=c_int), value,intent(in) :: dj_dim
integer(kind=c_int), value,intent(in) :: cof_d0
integer(kind=c_int), value,intent(in) :: cof_d1
real(kind=c_double), dimension(cof_d0,cof_d1),intent(in) :: cof
real(kind=c_double), dimension(dj_dim,dj_dim,dj_dim),intent(in) :: dj
real(kind=c_double), dimension(3),intent(in) :: x
integer(kind=c_int), value,intent(in) :: rcof_d1
real(kind=c_double), dimension(2,rcof_d1),intent(out) :: rcof
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHRotateCoef(x,cof,rcof,dj,lmax,exitstatus=exitstatus)
end subroutine cSHRotateCoef
subroutine cSHRotateRealCoef(cilmrot,cilmrot_dim,cilm,cilm_dim,lmax,x,dj,dj_dim&
,exitstatus) bind(c, name="SHRotateRealCoef")
use, intrinsic :: iso_c_binding
use shtools, only: SHRotateRealCoef
implicit none
integer(kind=c_int), value,intent(in) :: dj_dim
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), dimension(3),intent(in) :: x
real(kind=c_double), dimension(dj_dim,dj_dim,dj_dim),intent(in) :: dj
integer(kind=c_int), value,intent(in) :: cilmrot_dim
real(kind=c_double), dimension(2,cilmrot_dim,cilmrot_dim),intent(out) :: cilmrot
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHRotateRealCoef(cilmrot,cilm,lmax,x,dj,exitstatus=exitstatus)
end subroutine cSHRotateRealCoef
function cSHPowerL(cilm,cilm_dim,l) bind(c, name="SHPowerL")
use, intrinsic :: iso_c_binding
use shtools, only: SHPowerL
implicit none
real(kind=c_double) :: cSHPowerL
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: l
cSHPowerL=SHPowerL(cilm,l)
end function cSHPowerL
function cSHPowerDensityL(cilm,cilm_dim,l) bind(c, name="SHPowerDensityL")
use, intrinsic :: iso_c_binding
use shtools, only: SHPowerDensityL
implicit none
real(kind=c_double) :: cSHPowerDensityL
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: l
cSHPowerDensityL=SHPowerDensityL(cilm,l)
end function cSHPowerDensityL
function cSHCrossPowerL(cilm1,cilm1_dim,cilm2,cilm2_dim,l) bind(c, name="SHCrossPowerL")
use, intrinsic :: iso_c_binding
use shtools, only: SHCrossPowerL
implicit none
real(kind=c_double) :: cSHCrossPowerL
integer(kind=c_int), value,intent(in) :: cilm1_dim
real(kind=c_double), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
real(kind=c_double), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
integer(kind=c_int), value,intent(in) :: l
cSHCrossPowerL=SHCrossPowerL(cilm1,cilm2,l)
end function cSHCrossPowerL
function cSHCrossPowerDensityL(cilm1,cilm1_dim,cilm2,cilm2_dim,l) bind(c, name="SHCrossPowerDensityL")
use, intrinsic :: iso_c_binding
use shtools, only: SHCrossPowerDensityL
implicit none
real(kind=c_double) :: cSHCrossPowerDensityL
integer(kind=c_int), value,intent(in) :: cilm1_dim
real(kind=c_double), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
real(kind=c_double), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
integer(kind=c_int), value,intent(in) :: l
cSHCrossPowerDensityL=SHCrossPowerDensityL(cilm1,cilm2,l)
end function cSHCrossPowerDensityL
subroutine cSHPowerSpectrum(cilm,cilm_dim,lmax,spectra,exitstatus) bind(c, name="SHPowerSpectrum")
use, intrinsic :: iso_c_binding
use shtools, only: SHPowerSpectrum
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), dimension(lmax+1),intent(out) :: spectra
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHPowerSpectrum(cilm,lmax,spectra,exitstatus=exitstatus)
end subroutine cSHPowerSpectrum
subroutine cSHPowerSpectrumDensity(cilm,cilm_dim,lmax,spectra,exitstatus) bind(c&
, name="SHPowerSpectrumDensity")
use, intrinsic :: iso_c_binding
use shtools, only: SHPowerSpectrumDensity
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), dimension(lmax+1),intent(out) :: spectra
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHPowerSpectrumDensity(cilm,lmax,spectra,exitstatus=exitstatus)
end subroutine cSHPowerSpectrumDensity
subroutine cSHCrossPowerSpectrum(cilm1,cilm1_dim,cilm2,cilm2_dim,lmax,cspectra&
,exitstatus) bind(c, name="SHCrossPowerSpectrum")
use, intrinsic :: iso_c_binding
use shtools, only: SHCrossPowerSpectrum
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm1_dim
real(kind=c_double), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
real(kind=c_double), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
real(kind=c_double), dimension(lmax+1),intent(out) :: cspectra
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHCrossPowerSpectrum(cilm1,cilm2,lmax,cspectra,exitstatus=exitstatus)
end subroutine cSHCrossPowerSpectrum
subroutine cSHCrossPowerSpectrumDensity(cilm1,cilm1_dim,cilm2,cilm2_dim,lmax,cspectra&
,exitstatus) bind(c, name="SHCrossPowerSpectrumDensity")
use, intrinsic :: iso_c_binding
use shtools, only: SHCrossPowerSpectrumDensity
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm1_dim
real(kind=c_double), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
real(kind=c_double), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
real(kind=c_double), dimension(lmax+1),intent(out) :: cspectra
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHCrossPowerSpectrumDensity(cilm1,cilm2,lmax,cspectra,exitstatus=exitstatus)
end subroutine cSHCrossPowerSpectrumDensity
subroutine cSHAdmitCorr(gilm,gilm_dim,tilm,tilm_dim,lmax,admit,corr,admit_error&
,exitstatus) bind(c, name="SHAdmitCorr")
use, intrinsic :: iso_c_binding
use shtools, only: SHAdmitCorr
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: gilm_dim
real(kind=c_double), dimension(2,gilm_dim,gilm_dim),intent(in) :: gilm
integer(kind=c_int), value,intent(in) :: tilm_dim
real(kind=c_double), dimension(2,tilm_dim,tilm_dim),intent(in) :: tilm
real(kind=c_double), dimension(lmax+1),intent(out) :: admit
real(kind=c_double), dimension(lmax+1),intent(out) :: corr
real(kind=c_double), optional,dimension(lmax+1),intent(out) :: admit_error
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHAdmitCorr(gilm,tilm,lmax,admit,corr,admit_error=admit_error,exitstatus=exitstatus)
end subroutine cSHAdmitCorr
function cSHConfidence(l_conf,r) bind(c, name="SHConfidence")
use, intrinsic :: iso_c_binding
use shtools, only: SHConfidence
implicit none
real(kind=c_double) :: cSHConfidence
real(kind=c_double), value,intent(in) :: r
integer(kind=c_int), value,intent(in) :: l_conf
cSHConfidence=SHConfidence(l_conf,r)
end function cSHConfidence
function cSHPowerLC(cilm,cilm_dim,l) bind(c, name="SHPowerLC")
use, intrinsic :: iso_c_binding
use shtools, only: SHPowerLC
implicit none
real(kind=c_double) :: cSHPowerLC
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: l
cSHPowerLC=SHPowerLC(cilm,l)
end function cSHPowerLC
function cSHPowerDensityLC(cilm,cilm_dim,l) bind(c, name="SHPowerDensityLC")
use, intrinsic :: iso_c_binding
use shtools, only: SHPowerDensityLC
implicit none
real(kind=c_double) :: cSHPowerDensityLC
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: l
cSHPowerDensityLC=SHPowerDensityLC(cilm,l)
end function cSHPowerDensityLC
function cSHCrossPowerLC(cilm1,cilm1_dim,cilm2,cilm2_dim,l) bind(c, name="SHCrossPowerLC")
use, intrinsic :: iso_c_binding
use shtools, only: SHCrossPowerLC
implicit none
complex(kind=c_double_complex) :: cSHCrossPowerLC
integer(kind=c_int), value,intent(in) :: cilm1_dim
complex(kind=c_double_complex), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
complex(kind=c_double_complex), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
integer(kind=c_int), value,intent(in) :: l
cSHCrossPowerLC=SHCrossPowerLC(cilm1,cilm2,l)
end function cSHCrossPowerLC
function cSHCrossPowerDensityLC(cilm1,cilm1_dim,cilm2,cilm2_dim,l) bind(c, name="SHCrossPowerDensityLC")
use, intrinsic :: iso_c_binding
use shtools, only: SHCrossPowerDensityLC
implicit none
complex(kind=c_double_complex) :: cSHCrossPowerDensityLC
integer(kind=c_int), value,intent(in) :: cilm1_dim
complex(kind=c_double_complex), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
complex(kind=c_double_complex), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
integer(kind=c_int), value,intent(in) :: l
cSHCrossPowerDensityLC=SHCrossPowerDensityLC(cilm1,cilm2,l)
end function cSHCrossPowerDensityLC
subroutine cSHPowerSpectrumC(cilm,cilm_dim,lmax,spectra,exitstatus) bind(c, name="SHPowerSpectrumC")
use, intrinsic :: iso_c_binding
use shtools, only: SHPowerSpectrumC
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), dimension(lmax+1),intent(out) :: spectra
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHPowerSpectrumC(cilm,lmax,spectra,exitstatus=exitstatus)
end subroutine cSHPowerSpectrumC
subroutine cSHPowerSpectrumDensityC(cilm,cilm_dim,lmax,spectra,exitstatus) bind(c&
, name="SHPowerSpectrumDensityC")
use, intrinsic :: iso_c_binding
use shtools, only: SHPowerSpectrumDensityC
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm_dim
complex(kind=c_double_complex), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
real(kind=c_double), dimension(lmax+1),intent(out) :: spectra
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHPowerSpectrumDensityC(cilm,lmax,spectra,exitstatus=exitstatus)
end subroutine cSHPowerSpectrumDensityC
subroutine cSHCrossPowerSpectrumC(cilm1,cilm1_dim,cilm2,cilm2_dim,lmax,cspectra&
,exitstatus) bind(c, name="SHCrossPowerSpectrumC")
use, intrinsic :: iso_c_binding
use shtools, only: SHCrossPowerSpectrumC
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm1_dim
complex(kind=c_double_complex), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
complex(kind=c_double_complex), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
complex(kind=c_double_complex), dimension(lmax+1),intent(out) :: cspectra
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHCrossPowerSpectrumC(cilm1,cilm2,lmax,cspectra,exitstatus=exitstatus)
end subroutine cSHCrossPowerSpectrumC
subroutine cSHCrossPowerSpectrumDensityC(cilm1,cilm1_dim,cilm2,cilm2_dim,lmax&
,cspectra,exitstatus) bind(c, name="SHCrossPowerSpectrumDensityC")
use, intrinsic :: iso_c_binding
use shtools, only: SHCrossPowerSpectrumDensityC
implicit none
integer(kind=c_int), value,intent(in) :: lmax
integer(kind=c_int), value,intent(in) :: cilm1_dim
complex(kind=c_double_complex), dimension(2,cilm1_dim,cilm1_dim),intent(in) :: cilm1
integer(kind=c_int), value,intent(in) :: cilm2_dim
complex(kind=c_double_complex), dimension(2,cilm2_dim,cilm2_dim),intent(in) :: cilm2
complex(kind=c_double_complex), dimension(lmax+1),intent(out) :: cspectra
integer(kind=c_int), optional,intent(out) :: exitstatus
call SHCrossPowerSpectrumDensityC(cilm1,cilm2,lmax,cspectra,exitstatus=exitstatus)
end subroutine cSHCrossPowerSpectrumDensityC
subroutine cSHMultiTaperSE(mtse,sd,cilm,cilm_dim,lmax,tapers,tapers_d0,tapers_d1&
,taper_order,lmaxt,k,alpha,lat,lon,taper_wt,norm&
,csphase,exitstatus) bind(c, name="SHMultiTaperSE")
use, intrinsic :: iso_c_binding
use shtools, only: SHMultiTaperSE
implicit none
integer(kind=c_int), value,intent(in) :: k
integer(kind=c_int), value,intent(in) :: lmaxt
integer(kind=c_int), value,intent(in) :: lmax
real(kind=c_double), dimension(lmax-lmaxt+1),intent(out) :: mtse
real(kind=c_double), dimension(lmax-lmaxt+1),intent(out) :: sd
integer(kind=c_int), value,intent(in) :: cilm_dim
real(kind=c_double), dimension(2,cilm_dim,cilm_dim),intent(in) :: cilm
integer(kind=c_int), value,intent(in) :: tapers_d0
integer(kind=c_int), value,intent(in) :: tapers_d1
real(kind=c_double), dimension(tapers_d0,tapers_d1),intent(in) :: tapers
integer(kind=c_int), dimension(k),intent(in) :: taper_order