Fortraneries/Fraktalism/fraktals.f90

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module fraktals
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use points3d
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implicit none
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!-----------------------------------------------------
!-----------------------------------------------------
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contains
!-----------------------------------------------------
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subroutine simple_julia(pic, cx, cy, maxiter)
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implicit none
integer, intent(inout), dimension (:,:) :: pic
real, intent(in) :: cx, cy
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integer, intent(in) :: maxiter
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integer :: ix, iy, width, height
real :: fx, fy
complex :: Z, C
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integer :: iter
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logical :: over_iter
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width = ubound(pic, 1)
height = ubound(pic, 2)
C = complex(cx, cy)
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print *, "Const = ", C
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! ready ? ok, clear the picture
pic = 0
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do ix = 1, width
fx = (float(ix) / (float(width)/4.0) - 2.0)
do iy = 1, height
fy = (float(iy) / (float(height)/4.0) - 2.0)
! ------ traitement du pixel
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iter = 0 ; over_iter = .FALSE.
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Z = complex(fx, fy)
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do while (modulus2(Z) .LT. 4.0)
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Z = (Z * Z) + C
iter = iter + 1
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if (iter .GE. maxiter) then
over_iter = .TRUE.
exit
endif
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end do
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if (over_iter) then
pic(ix, iy) = 0
else
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pic(ix, iy) = iter*12
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endif
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enddo ! iy
enddo ! ix
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end subroutine simple_julia
!-----------------------------------------------------
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!
! d'après les pages 91/92 du livre de Roger T Stevens
! "Fractal programming in C"
!
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subroutine compute_pickover(array, coefs)
type(t_point3d), dimension(:) :: array
double precision, dimension(4) :: coefs
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double precision :: xa, ya, za, xb, yb, zb
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integer :: i
! print *, "coefs ", coefs
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! write(0, '(1X, A18, I9)') "compute pickover ", ubound(array, 1)
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xa = 1.0 ; ya = 1.0 ; za = 1.0
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do i=1, ubound(array, 1)
xb = sin(coefs(1)*ya) - za*cos(coefs(2)*xa)
yb = za*sin(coefs(3)*xa) - cos(coefs(4)*ya)
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zb = sin(xa)
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array(i)%x = xb
array(i)%y = yb
array(i)%z = zb
array(i)%seq = i
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xa = xb ; ya = yb ; za = zb
enddo
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end subroutine
!-----------------------------------------------------
!
! d'après les pages 91/92 du livre de Roger T Stevens
! "Fractal programming in C"
!
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subroutine plot_pickover(pic, count)
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implicit none
integer, intent(inout), dimension (:,:) :: pic
integer, intent(in) :: count
type(t_point3d), dimension(:), allocatable :: points
double precision, dimension(4) :: coefs
integer :: i, w, h, px, py, errcode
write(0, '(1X, A18 , I9)') "pickover_0 ", count
allocate(points(count), stat=errcode)
if (0 .NE. errcode) then
STOP " : NO ENOUGH MEMORY"
endif
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! Clear the picture
pic = 0
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coefs(1) = 2.24 ; coefs(2) = 0.43
coefs(3) = -0.65 ; coefs(4) = -2.43
call compute_pickover(points, coefs)
w = ubound(pic, 1)
h = ubound(pic, 2)
do i=1, ubound(points, 1)
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px = int((points(i)%x * (w/4.09)) + (w / 2))
py = int((points(i)%y * (h/4.09)) + (h / 2))
pic(px, py) = 255 ! WARNING COREDUMP ?
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enddo
deallocate(points)
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end subroutine plot_pickover
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!-----------------------------------------------------
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!
! d'après les pages NN/NN du livre de Roger T Stevens
! "Fractal programming in C"
!
subroutine lorentz_0(pic, count)
implicit none
integer, intent(inout), dimension (:,:) :: pic
integer, intent(in) :: count
! XXX double precision :: xa, ya, za, xb, yb, zb
! XXX double precision :: ka, kb, kc, kd
! XXX integer :: i, w, h, px, py
end subroutine lorentz_0
!-----------------------------------------------------------
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! -- some support functions --
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!-----------------------------------------------------------
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! usage : evolvopick & voxelize
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subroutine interp4dp (ina, inb, out, dpk)
double precision, dimension(4), intent(in) :: ina, inb
double precision, dimension(4), intent(out) :: out
double precision, intent(in) :: dpk
integer :: foo
do foo=1, 4
out(foo) = (ina(foo) * (1.0-dpk)) + (inb(foo) * (dpk))
enddo
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end subroutine
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!-----------------------------------------------------------
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function dist0 (x, y)
implicit none
real, intent(in) :: x, y
real :: dist0
dist0 = ( x*x + y*y )
end function
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!-----------------------------------------------------------
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function modulus2(pt)
implicit none
complex, intent(in) :: pt
real :: modulus2
modulus2 = real(pt)*real(pt) + imag(pt)*imag(pt)
end
!-----------------------------------------------------
end module fraktals