|
subroutine, public | fv_grid_utils_mod::grid_utils_init (Atm, npx, npy, npz, non_ortho, grid_type, c2l_order) |
|
subroutine, public | fv_grid_utils_mod::grid_utils_end |
|
subroutine, public | fv_grid_utils_mod::direct_transform (c, i1, i2, j1, j2, lon_p, lat_p, n, lon, lat) |
| The subroutine 'direct_transform' performs a direct transformation of the standard (symmetrical) cubic grid to a locally enhanced high-res grid on the sphere. More...
|
|
real function, public | fv_grid_utils_mod::inner_prod (v1, v2) |
|
subroutine | fv_grid_utils_mod::efactor_a2c_v (edge_vect_s, edge_vect_n, edge_vect_w, edge_vect_e, non_ortho, grid, agrid, npx, npy, nested, bd, regional) |
| The subroutine 'efactor_a2c_v' initializes interpolation factors at face edges for interpolating vectors from A to C grid. More...
|
|
subroutine | fv_grid_utils_mod::edge_factors (edge_s, edge_n, edge_w, edge_e, non_ortho, grid, agrid, npx, npy, bd) |
| The subroutine 'edge_factors' initializes interpolation factors at face edges for interpolation from A to B grid. More...
|
|
subroutine, public | fv_grid_utils_mod::gnomonic_grids (grid_type, im, lon, lat) |
|
subroutine | fv_grid_utils_mod::gnomonic_ed (im, lamda, theta) |
| The subroutine 'gnomonic_ed' computes the equal distances along the 4 edges of the cubed sphere. More...
|
|
subroutine | fv_grid_utils_mod::gnomonic_ed_limited (im, in, nghost, lL, lR, uL, uR, lamda, theta) |
| The subroutine 'gnomonic_ed_limited' creates a limited-area equidistant gnomonic grid with corners given by lL (lower-left), lR (lower-right), uL (upper-left),and uR (upper-right) with im by in cells. More...
|
|
subroutine | fv_grid_utils_mod::gnomonic_angl (im, lamda, theta) |
|
subroutine | fv_grid_utils_mod::gnomonic_dist (im, lamda, theta) |
|
subroutine | fv_grid_utils_mod::symm_ed (im, lamda, theta) |
|
subroutine | fv_grid_utils_mod::latlon2xyz2 (lon, lat, p3) |
|
subroutine, public | fv_grid_utils_mod::latlon2xyz (p, e, id) |
| The subroutine 'latlon2xyz' maps (lon, lat) to (x,y,z) More...
|
|
subroutine | fv_grid_utils_mod::mirror_xyz (p1, p2, p0, p) |
| The subroutine 'mirror_xyz' computes the mirror image of p0(x0, y0, z0) as p(x, y, z) given the "mirror" as defined by p1(x1, y1, z1), p2(x2, y2, z2), and the center of the sphere. More...
|
|
subroutine | fv_grid_utils_mod::mirror_latlon (lon1, lat1, lon2, lat2, lon0, lat0, lon3, lat3) |
| The subroutine 'mirror_latlon' computes the mirror image of (lon0, lat0) as (lon3, lat3) given the "mirror" as defined by (lon1, lat1), (lon2, lat2), and center of the sphere. More...
|
|
subroutine, public | fv_grid_utils_mod::cart_to_latlon (np, q, xs, ys) |
|
subroutine, public | fv_grid_utils_mod::vect_cross (e, p1, p2) |
| The subroutine 'vect_cross performs cross products of 3D vectors: e = P1 X P2. More...
|
|
subroutine | fv_grid_utils_mod::get_center_vect (npx, npy, pp, u1, u2, bd) |
|
subroutine, public | fv_grid_utils_mod::get_unit_vect2 (e1, e2, uc) |
|
subroutine | fv_grid_utils_mod::get_unit_vect3 (p1, p2, uc) |
|
subroutine, public | fv_grid_utils_mod::normalize_vect (e) |
| The subroutine 'normalize_vect' makes 'e' a unit vector. More...
|
|
subroutine, public | fv_grid_utils_mod::intp_great_circle (beta, p1, p2, x_o, y_o) |
|
subroutine, public | fv_grid_utils_mod::spherical_linear_interpolation (beta, p1, p2, pb) |
| The subroutine 'spherical_linear_interpolation' interpolates along the great circle connecting points p1 and p2. More...
|
|
subroutine, public | fv_grid_utils_mod::mid_pt_sphere (p1, p2, pm) |
|
subroutine | fv_grid_utils_mod::mid_pt3_cart (p1, p2, e) |
|
subroutine, public | fv_grid_utils_mod::mid_pt_cart (p1, p2, e3) |
|
real function, public | fv_grid_utils_mod::great_circle_dist (q1, q2, radius) |
|
real(kind=r_grid) function | fv_grid_utils_mod::great_circle_dist_cart (v1, v2, radius) |
| The function 'great_circle_dist_cart' calculates the normalized great circle distance between 'v1' and 'v2'. More...
|
|
subroutine | fv_grid_utils_mod::intersect (a1, a2, b1, b2, radius, x_inter, local_a, local_b) |
| The subroutine 'intersect' calculates the intersection of two great circles. More...
|
|
subroutine | get_nearest () |
|
subroutine | check_local (x1, x2, local) |
|
subroutine | fv_grid_utils_mod::intersect_cross (a1, a2, b1, b2, radius, x_inter, local_a, local_b) |
| The subroutine 'intersect_cross' calculates the intersection of two great circles. More...
|
|
subroutine, public | fv_grid_utils_mod::unit_vect_latlon (pp, elon, elat) |
|
real(kind=r_grid) function, public | fv_grid_utils_mod::v_prod (v1, v2) |
|
subroutine | fv_grid_utils_mod::init_cubed_to_latlon (gridstruct, hydrostatic, agrid, grid_type, ord, bd) |
|
subroutine, public | fv_grid_utils_mod::cubed_to_latlon (u, v, ua, va, gridstruct, npx, npy, km, mode, grid_type, domain, nested, c2l_ord, bd) |
|
subroutine | fv_grid_utils_mod::c2l_ord4 (u, v, ua, va, gridstruct, npx, npy, km, grid_type, domain, nested, mode, bd) |
|
subroutine, public | fv_grid_utils_mod::c2l_ord2 (u, v, ua, va, gridstruct, km, grid_type, bd, do_halo) |
|
subroutine, public | fv_grid_utils_mod::expand_cell (q1, q2, q3, q4, a1, a2, a3, a4, fac) |
|
subroutine, public | fv_grid_utils_mod::cell_center2 (q1, q2, q3, q4, e2) |
|
subroutine | fv_grid_utils_mod::cell_center3 (p1, p2, p3, p4, ec) |
| The subroutine 'cell_center3' gets the center position of a cell. More...
|
|
real(kind=r_grid) function, public | fv_grid_utils_mod::get_area (p1, p4, p2, p3, radius) |
|
real(kind=r_grid) function | fv_grid_utils_mod::dist2side (v1, v2, point) |
| The function 'dist2side' calculates the shortest normalized distance on a sphere from point to straight line defined by 'v1' and 'v2'. More...
|
|
real(kind=r_grid) function, public | fv_grid_utils_mod::dist2side_latlon (v1, v2, point) |
| The function 'dist2side_latlon' is the version of 'dist2side' that takes points in latitude-longitude coordinates. More...
|
|
real(kind=r_grid) function, public | fv_grid_utils_mod::spherical_angle (p1, p2, p3) |
|
real(kind=r_grid) function, public | fv_grid_utils_mod::cos_angle (p1, p2, p3) |
|
real function, public | fv_grid_utils_mod::g_sum (domain, p, ifirst, ilast, jfirst, jlast, ngc, area, mode, reproduce) |
| The function 'g_sum' is the fast version of 'globalsum'. More...
|
|
real function, public | fv_grid_utils_mod::global_qsum (p, ifirst, ilast, jfirst, jlast) |
| The function 'global_qsum' computes the quick global sum without area weighting. More...
|
|
subroutine, public | fv_grid_utils_mod::global_mx (q, n_g, qmin, qmax, bd) |
|
subroutine | fv_grid_utils_mod::global_mx_c (q, i1, i2, j1, j2, qmin, qmax) |
| The subroutine 'global_mx_c' computes the global max and min at the cell corners. More...
|
|
subroutine | fv_grid_utils_mod::fill_ghost_r4 (q, npx, npy, value, bd) |
|
subroutine | fv_grid_utils_mod::fill_ghost_r8 (q, npx, npy, value, bd) |
|
subroutine, public | fv_grid_utils_mod::make_eta_level (km, pe, area, kks, ak, bk, ptop, domain, bd) |
|
subroutine | fv_grid_utils_mod::invert_matrix (n, a, x) |
|
subroutine | fv_grid_utils_mod::elgs (a, n, indx) |
| The subroutine 'elgs' performs the partial-pivoting gaussian elimination. More...
|
|
subroutine, public | fv_grid_utils_mod::get_latlon_vector (pp, elon, elat) |
|
subroutine, public | fv_grid_utils_mod::project_sphere_v (np, f, e) |
|
subroutine | fv_grid_utils_mod::init_mq (phis, gridstruct, npx, npy, is, ie, js, je, ng) |
|