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author | jthorn <jthorn@f88db872-0e4f-0410-b76b-b9085cfa78c5> | 2003-05-14 11:56:13 +0000 |
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committer | jthorn <jthorn@f88db872-0e4f-0410-b76b-b9085cfa78c5> | 2003-05-14 11:56:13 +0000 |
commit | 2c3638ab8a8bc303bf5a83b6a33137045e31fba9 (patch) | |
tree | 2b3a21919970a88d2e8e03abf5bd03761d7e4199 | |
parent | 61a425b274a27464a41a76297054aedf7870f4d9 (diff) |
allow searching for up to 10 horizons in a slice
git-svn-id: http://svn.einsteintoolkit.org/cactus/EinsteinAnalysis/AHFinderDirect/trunk@1059 f88db872-0e4f-0410-b76b-b9085cfa78c5
-rw-r--r-- | param.ccl | 56 |
1 files changed, 28 insertions, 28 deletions
@@ -74,7 +74,7 @@ keyword method "what should this thorn do for each apparent horizon?" int N_horizons "number of apparent horizons to search for" { 0 :: "turn this thorn into a fancy no-op :)" -1:4 :: "search for this many apparent horizons" +1:10 :: "search for this many apparent horizons" } 1 # @@ -122,7 +122,7 @@ boolean print_timing_stats \ # next attempting to find this horizon.) # -keyword initial_guess_method[5] \ +keyword initial_guess_method[11] \ "method used to set up initial guess for apparent horizon shape" { "read from named file" :: "read from explicitly-named input file" @@ -138,105 +138,105 @@ keyword initial_guess_method[5] \ } "coordinate sphere" # parameters for initial_guess_method = "read from named file" -string initial_guess__read_from_named_file__file_name[5] \ +string initial_guess__read_from_named_file__file_name[11] \ "file name to read initial guess from" { .+ :: "file name to read initial guess from" } "h.gp" # parameters for initial_guess_method = "Kerr/Kerr" -real initial_guess__Kerr_Kerr__x_posn[5] "x coordinate of Kerr BH" +real initial_guess__Kerr_Kerr__x_posn[11] "x coordinate of Kerr BH" { *:* :: "any real number" } 0.0 -real initial_guess__Kerr_Kerr__y_posn[5] "y coordinate of Kerr BH" +real initial_guess__Kerr_Kerr__y_posn[11] "y coordinate of Kerr BH" { *:* :: "any real number" } 0.0 -real initial_guess__Kerr_Kerr__z_posn[5] "z coordinate of Kerr BH" +real initial_guess__Kerr_Kerr__z_posn[11] "z coordinate of Kerr BH" { *:* :: "any real number" } 0.0 -real initial_guess__Kerr_Kerr__mass[5] "mass of Kerr BH" +real initial_guess__Kerr_Kerr__mass[11] "mass of Kerr BH" { (0.0:* :: "BH mass = any real number > 0" } 1.0 # n.b. my convention is that a=J/m^2 is dimensionless, # while MTW take a=J/m=m * (my a) -real initial_guess__Kerr_Kerr__spin[5] "dimensionless spin a=J/m^2 of Kerr BH" +real initial_guess__Kerr_Kerr__spin[11] "dimensionless spin a=J/m^2 of Kerr BH" { (-1.0:1.0) :: \ "dimensionless BH spin = J/m^2 = any real number with absolute value < 1" } 0.6 # parameters for initial_guess_method = "Kerr/Kerr-Schild" -real initial_guess__Kerr_KerrSchild__x_posn[5] "x coordinate of Kerr BH" +real initial_guess__Kerr_KerrSchild__x_posn[11] "x coordinate of Kerr BH" { *:* :: "any real number" } 0.0 -real initial_guess__Kerr_KerrSchild__y_posn[5] "y coordinate of Kerr BH" +real initial_guess__Kerr_KerrSchild__y_posn[11] "y coordinate of Kerr BH" { *:* :: "any real number" } 0.0 -real initial_guess__Kerr_KerrSchild__z_posn[5] "z coordinate of Kerr BH" +real initial_guess__Kerr_KerrSchild__z_posn[11] "z coordinate of Kerr BH" { *:* :: "any real number" } 0.0 -real initial_guess__Kerr_KerrSchild__mass[5] "mass of Kerr BH" +real initial_guess__Kerr_KerrSchild__mass[11] "mass of Kerr BH" { (0.0:* :: "BH mass = any real number > 0" } 1.0 # n.b. my convention is that a=J/m^2 is dimensionless, # while MTW take a=J/m=m * (my a) -real initial_guess__Kerr_KerrSchild__spin[5] "dimensionless spin a=J/m^2 of Kerr BH" +real initial_guess__Kerr_KerrSchild__spin[11] "dimensionless spin a=J/m^2 of Kerr BH" { (-1.0:1.0) :: \ "dimensionless BH spin = J/m^2 = any real number with absolute value < 1" } 0.6 # parameters for initial_guess_method = "sphere" -real initial_guess__coord_sphere__x_center[5] "x coordinate of sphere center" +real initial_guess__coord_sphere__x_center[11] "x coordinate of sphere center" { *:* :: "any real number" } 0.0 -real initial_guess__coord_sphere__y_center[5] "y coordinate of sphere center" +real initial_guess__coord_sphere__y_center[11] "y coordinate of sphere center" { *:* :: "any real number" } 0.0 -real initial_guess__coord_sphere__z_center[5] "z coordinate of sphere center" +real initial_guess__coord_sphere__z_center[11] "z coordinate of sphere center" { *:* :: "any real number" } 0.0 -real initial_guess__coord_sphere__radius[5] "radius of sphere" +real initial_guess__coord_sphere__radius[11] "radius of sphere" { (0.0:* :: "any real number > 0.0" } 2.0 # parameters for initial_guess_method = "ellipsoid" -real initial_guess__coord_ellipsoid__x_center[5] \ +real initial_guess__coord_ellipsoid__x_center[11] \ "x coordinate of ellipsoid center" { *:* :: "any real number" } 0.0 -real initial_guess__coord_ellipsoid__y_center[5] \ +real initial_guess__coord_ellipsoid__y_center[11] \ "y coordinate of ellipsoid center" { *:* :: "any real number" } 0.0 -real initial_guess__coord_ellipsoid__z_center[5] \ +real initial_guess__coord_ellipsoid__z_center[11] \ "z coordinate of ellipsoid center" { *:* :: "any real number" } 0.0 -real initial_guess__coord_ellipsoid__x_radius[5] "x radius of ellipsoid" +real initial_guess__coord_ellipsoid__x_radius[11] "x radius of ellipsoid" { (0.0:* :: "any real number > 0.0" } 2.0 -real initial_guess__coord_ellipsoid__y_radius[5] "y radius of ellipsoid" +real initial_guess__coord_ellipsoid__y_radius[11] "y radius of ellipsoid" { (0.0:* :: "any real number > 0.0" } 2.0 -real initial_guess__coord_ellipsoid__z_radius[5] "z radius of ellipsoid" +real initial_guess__coord_ellipsoid__z_radius[11] "z radius of ellipsoid" { (0.0:* :: "any real number > 0.0" } 2.0 @@ -683,15 +683,15 @@ real Theta_norm_for_convergence \ # of the horizon radius is no problem, and even 1/2 the horizon radius # only slows the convergence by an extra iteration or two. # -real origin_x[5] "global x coordinate of patch system origin" +real origin_x[11] "global x coordinate of patch system origin" { *:* :: "any real number" } 0.0 -real origin_y[5] "global y coordinate of patch system origin" +real origin_y[11] "global y coordinate of patch system origin" { *:* :: "any real number" } 0.0 -real origin_z[5] "global z coordinate of patch system origin" +real origin_z[11] "global z coordinate of patch system origin" { *:* :: "any real number" } 0.0 @@ -701,7 +701,7 @@ real origin_z[5] "global z coordinate of patch system origin" # but don't work yet for apparent horizon finding # (the Jacobian computation doesn't yet grok the nonlocal rotation BCs). # -keyword patch_system_type[5] "what type of patch system should we use?" +keyword patch_system_type[11] "what type of patch system should we use?" { # choose this for normal use "match Cactus grid symmetry" :: \ @@ -753,7 +753,7 @@ keyword patch_system_type[5] "what type of patch system should we use?" # ... 3rd power of this parameter # if Jacobian_store_solve_method = "row-oriented sparse matrix/ILUCG" # -int N_zones_per_right_angle[5] "sets angular resolution of patch systems" +int N_zones_per_right_angle[11] "sets angular resolution of patch systems" { 1:* :: "any integer >= 1; must be even for patch systems other than full-sphere" } 18 |