!prec.f90 407 2009-08-31 15:09:15Z MPIE\f.roters
!##############################################################
MODULE prec
!##############################################################
implicit none
! *** Precision of real and integer variables ***
integer, parameter :: pReal = selected_real_kind(15,300) ! 15 significant digits, up to 1e+-300
integer, parameter :: pInt = selected_int_kind(9) ! up to +- 1e9
integer, parameter :: pLongInt = 8 ! should be 64bit
END MODULE prec
program voronoi
use prec, only: pReal, pInt
implicit none
logical, dimension(:), allocatable :: seedmap
character(len=1024) filename
integer(pInt), dimension(3) :: seedcoord
integer(pInt), dimension(:), allocatable :: rndInit
integer(pInt) a, b, c, N_Seeds, seedpoint, i, randomSeed, rndSize
real(pReal), dimension(:,:), allocatable :: grainEuler, seeds
real(pReal), parameter :: pi = 3.14159265358979323846264338327950288419716939937510_pReal
print*, '******************************************************************************'
print*, ' Voronoi description file'
print*, '******************************************************************************'
print*, '$Id$'
print*, ''
print*, 'generates:'
print*, ' * description file "_OUTPUT_.seeds":'
print*, ''
write(*, '(A)', advance = 'NO') 'output seed filename: '
read(*, *), filename
write(*, '(A)', advance = 'NO') 'seed of random number generator: '
read(*, *), randomSeed; randomSeed = max(0_pInt,randomSeed)
write(*, '(A)', advance = 'NO') 'number of grains: '
read(*, *), N_Seeds
write(*, '(A)', advance = 'NO') 'min. Fourier points in x: '
read(*, *), a
write(*, '(A)', advance = 'NO') 'min. Fourier points in y: '
read(*, *), b
write(*, '(A)', advance = 'NO') 'min. Fourier points in z: '
read(*, *), c
allocate (seedmap(a*b*c)); seedmap = .false. ! logical to store information which position is occupied by a voronoi seed
allocate (seeds(N_Seeds,3))
allocate (grainEuler(N_Seeds,3))
call random_seed(size=rndSize)
allocate(rndInit(rndSize))
rndInit = randomSeed
call random_seed(put=rndInit)
call random_seed(get=rndInit)
do i=1, N_Seeds
call random_number(grainEuler(i,1))
call random_number(grainEuler(i,2))
call random_number(grainEuler(i,3))
grainEuler(i,1) = (grainEuler(i,1))*360.0
grainEuler(i,2) = acos(2.0_pReal*(grainEuler(i,2))-1.0_pReal)*180.0/pi
grainEuler(i,3) = grainEuler(i,3)*360.0
enddo
!generate random position of seeds for voronoi tessellation
i = 1
do while (i <= N_Seeds)
call random_number(seeds(i,1)); seedcoord(1) = min(a,int(seeds(i,1)*a)+1_pInt)-1_pInt
call random_number(seeds(i,2)); seedcoord(2) = min(b,int(seeds(i,2)*b)+1_pInt)-1_pInt
call random_number(seeds(i,3)); seedcoord(3) = min(c,int(seeds(i,3)*c)+1_pInt)-1_pInt
seedpoint = seedcoord(1) + seedcoord(2)*a + seedcoord(3)*a*b
if (.not. seedmap(seedpoint+1)) then
seedmap(seedpoint+1) = .true.
i = i + 1
end if
end do
! write description file with orientation and position of each seed
open(21, file = trim(filename)//('.seeds'))
write(21, '(i1,a1,a6)') 4,achar(9),'header'
write(21, '(A, I8, A, I8, A, I8)') 'resolution a ', a, ' b ', b, ' c ', c
write(21, '(A, I8)') 'grains', N_Seeds
write(21, '(A, I8)') 'random seed ',rndInit(1)
write(21,'(6(a,a1))') 'x',achar(9),'y',achar(9),'z',achar(9),'phi1',achar(9),'Phi',achar(9),'phi2',achar(9)
do i = 1, n_Seeds
write(21, '(6(F10.6,a1))'),seeds(i,1), achar(9), seeds(i,2), achar(9), seeds(i,3), achar(9), &
grainEuler(i,1),achar(9), grainEuler(i,2),achar(9), grainEuler(i,3),achar(9)
end do
close(21)
deallocate (rndInit)
end program voronoi