30 |
! Local: |
! Local: |
31 |
real rlonm025(iim + 1), rlonp025(iim + 1), d_rlonv(iim) |
real rlonm025(iim + 1), rlonp025(iim + 1), d_rlonv(iim) |
32 |
REAL dzoom, step |
REAL dzoom, step |
33 |
DOUBLE PRECISION, dimension(0:nmax):: xtild, fhyp, G, Xf |
DOUBLE PRECISION, dimension(0:nmax):: xtild, fhyp, G, Xf, ffdx |
34 |
DOUBLE PRECISION ffdx, beta |
DOUBLE PRECISION beta |
35 |
INTEGER i, is2 |
INTEGER i, is2 |
36 |
DOUBLE PRECISION xxpr(nmax - 1), xmoy(nmax), fxm(nmax) |
DOUBLE PRECISION xmoy(nmax), fxm(nmax) |
37 |
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38 |
!---------------------------------------------------------------------- |
!---------------------------------------------------------------------- |
39 |
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57 |
forall (i = 1:nmax) xmoy(i) = 0.5d0 * (xtild(i-1) + xtild(i)) |
forall (i = 1:nmax) xmoy(i) = 0.5d0 * (xtild(i-1) + xtild(i)) |
58 |
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59 |
! Compute fhyp: |
! Compute fhyp: |
60 |
fhyp(1:nmax - 1) = tanh_cautious(taux * (dzoom / 2. & |
fhyp(1:nmax - 1) = tanh_cautious(taux * (dzoom / 2d0 & |
61 |
- xtild(1:nmax - 1)), xtild(1:nmax - 1) & |
- xtild(1:nmax - 1)), xtild(1:nmax - 1) & |
62 |
* (pi_d - xtild(1:nmax - 1))) |
* (pi_d - xtild(1:nmax - 1))) |
63 |
fhyp(0) = 1d0 |
fhyp(0) = 1d0 |
64 |
fhyp(nmax) = -1d0 |
fhyp(nmax) = -1d0 |
65 |
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66 |
fxm = tanh_cautious(taux * (dzoom / 2. - xmoy), xmoy * (pi_d - xmoy)) |
fxm = tanh_cautious(taux * (dzoom / 2d0 - xmoy), xmoy * (pi_d - xmoy)) |
67 |
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68 |
! Calcul de beta |
! Compute \int_0 ^{\tilde x} F: |
69 |
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70 |
ffdx = 0. |
ffdx(0) = 0d0 |
71 |
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72 |
DO i = 1, nmax |
DO i = 1, nmax |
73 |
ffdx = ffdx + fxm(i) * (xtild(i) - xtild(i-1)) |
ffdx(i) = ffdx(i - 1) + fxm(i) * (xtild(i) - xtild(i-1)) |
74 |
END DO |
END DO |
75 |
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76 |
print *, "ffdx = ", ffdx |
print *, "ffdx(nmax) = ", ffdx(nmax) |
77 |
beta = (pi_d - grossismx * ffdx) / (pi_d - ffdx) |
beta = (pi_d - grossismx * ffdx(nmax)) / (pi_d - ffdx(nmax)) |
78 |
print *, "beta = ", beta |
print *, "beta = ", beta |
79 |
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80 |
IF (2. * beta - grossismx <= 0.) THEN |
IF (2d0 * beta - grossismx <= 0d0) THEN |
81 |
print *, 'Bad choice of grossismx, taux, dzoomx.' |
print *, 'Bad choice of grossismx, taux, dzoomx.' |
82 |
print *, 'Decrease dzoomx or grossismx.' |
print *, 'Decrease dzoomx or grossismx.' |
83 |
STOP 1 |
STOP 1 |
85 |
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86 |
G = beta + (grossismx - beta) * fhyp |
G = beta + (grossismx - beta) * fhyp |
87 |
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88 |
! Calcul de Xf |
Xf(:nmax - 1) = beta * xtild(:nmax - 1) + (grossismx - beta) & |
89 |
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* ffdx(:nmax - 1) |
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xxpr = beta + (grossismx - beta) * fxm(:nmax - 1) |
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Xf(0) = 0d0 |
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DO i = 1, nmax - 1 |
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Xf(i) = Xf(i-1) + xxpr(i) * (xtild(i) - xtild(i-1)) |
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END DO |
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90 |
Xf(nmax) = pi_d |
Xf(nmax) = pi_d |
91 |
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92 |
call invert_zoom_x(xf, xtild, G, rlonm025(:iim), xprimm025(:iim), & |
call invert_zoom_x(xf, xtild, G, rlonm025(:iim), xprimm025(:iim), & |