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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [gfortran.dg/] [vect/] [fast-math-vect-8.f90] - Rev 694
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! { dg-do compile }
! { dg-require-effective-target vect_float }
module solv_cap
implicit none
public :: init_solve
integer, parameter, public :: dp = 4
real(kind=dp), private :: Pi, Mu0, c0, eps0
logical, private :: UseFFT, UsePreco
real(kind=dp), private :: D1, D2
integer, private, save :: Ng1=0, Ng2=0
integer, private, pointer, dimension(:,:) :: Grid
real(kind=dp), private, allocatable, dimension(:,:) :: G
contains
subroutine init_solve(Grid_in, GrSize1, GrSize2, UseFFT_in, UsePreco_in)
integer, intent(in), target, dimension(:,:) :: Grid_in
real(kind=dp), intent(in) :: GrSize1, GrSize2
logical, intent(in) :: UseFFT_in, UsePreco_in
integer :: i, j
Pi = acos(-1.0_dp)
Mu0 = 4e-7_dp * Pi
c0 = 299792458
eps0 = 1 / (Mu0 * c0**2)
UseFFT = UseFFT_in
UsePreco = UsePreco_in
if(Ng1 /= 0 .and. allocated(G) ) then
deallocate( G )
end if
Grid => Grid_in
Ng1 = size(Grid, 1)
Ng2 = size(Grid, 2)
D1 = GrSize1/Ng1
D2 = GrSize2/Ng2
allocate( G(0:Ng1,0:Ng2) )
write(unit=*, fmt=*) "Calculating G"
do i=0,Ng1
do j=0,Ng2
G(j,i) = Ginteg( -D1/2,-D2/2, D1/2,D2/2, i*D1,j*D2 )
end do
end do
if(UseFFT) then
write(unit=*, fmt=*) "Transforming G"
call FourirG(G,1)
end if
return
contains
function Ginteg(xq1,yq1, xq2,yq2, xp,yp) result(G)
real(kind=dp), intent(in) :: xq1,yq1, xq2,yq2, xp,yp
real(kind=dp) :: G
real(kind=dp) :: x1,x2,y1,y2,t
x1 = xq1-xp
x2 = xq2-xp
y1 = yq1-yp
y2 = yq2-yp
if (x1+x2 < 0) then
t = -x1
x1 = -x2
x2 = t
end if
if (y1+y2 < 0) then
t = -y1
y1 = -y2
y2 = t
end if
G = (x2*y2)-(x1*y2)-(x2*y1)+(x1*y1)
return
end function Ginteg
end subroutine init_solve
end module solv_cap
! { dg-final { scan-tree-dump-times "vectorized 1 loops" 1 "vect" { target vect_intfloat_cvt } } }
! { dg-final { cleanup-tree-dump "vect" } }
! { dg-final { cleanup-modules "solv_cap" } }