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module invert_zoom_x_m |
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implicit none |
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INTEGER, PARAMETER:: nmax = 30000 |
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DOUBLE PRECISION abs_y |
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private abs_y, funcd |
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contains |
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subroutine invert_zoom_x(xf, xtild, G, xlon, xprim, xuv) |
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use coefpoly_m, only: coefpoly, a1, a2, a3 |
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USE dimens_m, ONLY: iim |
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use dynetat0_m, only: clon |
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use nr_util, only: pi_d, twopi_d |
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use numer_rec_95, only: hunt, rtsafe |
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DOUBLE PRECISION, intent(in):: Xf(0:), xtild(0:), G(0:) ! (0:nmax) |
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real, intent(out):: xlon(:), xprim(:) ! (iim) |
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DOUBLE PRECISION, intent(in):: xuv |
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! between - 0.25 and 0.5 |
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! 0. si calcul aux points scalaires |
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! 0.5 si calcul aux points U |
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! Local: |
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DOUBLE PRECISION Y |
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DOUBLE PRECISION h ! step of the uniform grid |
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integer i, it |
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DOUBLE PRECISION xvrai(iim), Gvrai(iim) |
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! intermediary variables because xlon and xprim are simple precision |
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!------------------------------------------------------------------ |
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it = 0 ! initial guess |
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h = twopi_d / iim |
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DO i = 1, iim |
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Y = - pi_d + (i + xuv - 0.75d0) * h |
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! - pi <= y < pi |
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abs_y = abs(y) |
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call hunt(xf, abs_y, it, my_lbound = 0) |
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! {0 <= it <= nmax - 1} |
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! Calcul de xvrai(i) et Gvrai(i) |
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CALL coefpoly(Xf(it), Xf(it + 1), G(it), G(it + 1), xtild(it), & |
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xtild(it + 1)) |
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xvrai(i) = rtsafe(funcd, xtild(it), xtild(it + 1), xacc = 1d-6) |
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Gvrai(i) = a1 + xvrai(i) * (2d0 * a2 + xvrai(i) * 3d0 * a3) |
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if (y < 0d0) xvrai(i) = - xvrai(i) |
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end DO |
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DO i = 1, iim -1 |
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IF (xvrai(i + 1) < xvrai(i)) THEN |
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print *, 'xvrai(', i + 1, ') < xvrai(', i, ')' |
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STOP 1 |
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END IF |
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END DO |
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xlon = xvrai + clon |
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xprim = h / Gvrai |
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end subroutine invert_zoom_x |
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!********************************************************************** |
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SUBROUTINE funcd(x, fval, fderiv) |
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use coefpoly_m, only: a0, a1, a2, a3 |
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DOUBLE PRECISION, INTENT(IN):: x |
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DOUBLE PRECISION, INTENT(OUT):: fval, fderiv |
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fval = a0 + x * (a1 + x * (a2 + x * a3)) - abs_y |
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fderiv = a1 + x * (2d0 * a2 + x * 3d0 * a3) |
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END SUBROUTINE funcd |
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end module invert_zoom_x_m |