Index: /issm/trunk-jpl/src/m/model/mesh/bamg.m
===================================================================
--- /issm/trunk-jpl/src/m/model/mesh/bamg.m	(revision 11651)
+++ /issm/trunk-jpl/src/m/model/mesh/bamg.m	(revision 11652)
@@ -4,43 +4,43 @@
 %   Available options (for more details see ISSM website http://issm.jpl.nasa.gov/):
 %
-%   - domain: followed by an ARGUS file that prescribes the domain outline
-%   - hmin  : minimum edge length (default is 10^-100)
-%   - hmax  : maximum edge length (default is 10^100)
-%   - hVertices   : imposed edge length for each vertex (geometry or mesh)
-%   - hminVertices: minimum edge length for each vertex (mesh)
-%   - hmaxVertices: maximum edge length for each vertex (mesh)
-%
-%   - anisomax    : maximum ratio between the smallest and largest edges (default is 10^30)
-%   - coeff       : coefficient applied to the metric (2-> twice as many elements, default is 1)
-%   - cutoff      : scalar used to compute the metric when metric type 2 or 3 are applied
-%   - err         : error used to generate the metric from a field
-%   - errg        : geometric error (default is 0.1)
-%   - field       : field of the model that will be used to compute the metric
-%                   to apply several fields, use one column per field
-%   - gradation   : maximum ratio between two adjacent edges
-%   - Hessiantype : 0 -> use double P2 projection (default)
-%                   1 -> use Green formula
-%   - KeepVertices: try to keep initial vertices when adaptation is done on an existing mesh (default 1)
-%   - MaxCornerAngle: maximum angle of corners in degree (default is 10)
-%   - maxnbv      : maximum number of vertices used to allocate memory (default is 10^6)
-%   - maxsubdiv   : maximum subdivision of exisiting elements (default is 10)
-%   - metric      : matrix (numberofnodes x 3) used as a metric
-%   - Metrictype  : 1 -> absolute error          c/(err coeff^2) * Abs(H)        (default)
-%                   2 -> relative error          c/(err coeff^2) * Abs(H)/max(s,cutoff*max(s))
-%                   3 -> rescaled absolute error c/(err coeff^2) * Abs(H)/(smax-smin)
-%   - nbjacoby    : correction used by Hessiantype=1 (default is 1)
-%   - nbsmooth    : number of metric smoothing procedure (default is 3)
-%   - omega       : relaxation parameter of the smoothing procedure (default is 1.8)
-%   - power       : power applied to the metric (default is 1)
-%   - splitcorners : split triangles whuch have 3 vertices on the outline (default is 1)
+%   - domain :            followed by an ARGUS file that prescribes the domain outline
+%   - hmin :              minimum edge length (default is 10^-100)
+%   - hmax :              maximum edge length (default is 10^100)
+%   - hVertices :         imposed edge length for each vertex (geometry or mesh)
+%   - hminVertices :      minimum edge length for each vertex (mesh)
+%   - hmaxVertices :      maximum edge length for each vertex (mesh)
+%
+%   - anisomax :          maximum ratio between the smallest and largest edges (default is 10^30)
+%   - coeff :             coefficient applied to the metric (2-> twice as many elements, default is 1)
+%   - cutoff :            scalar used to compute the metric when metric type 2 or 3 are applied
+%   - err :               error used to generate the metric from a field
+%   - errg :              geometric error (default is 0.1)
+%   - field :             field of the model that will be used to compute the metric
+%                         to apply several fields, use one column per field
+%   - gradation :         maximum ratio between two adjacent edges
+%   - Hessiantype :       0 -> use double P2 projection (default)
+%                         1 -> use Green formula
+%   - KeepVertices :      try to keep initial vertices when adaptation is done on an existing mesh (default 1)
+%   - MaxCornerAngle :    maximum angle of corners in degree (default is 10)
+%   - maxnbv :            maximum number of vertices used to allocate memory (default is 10^6)
+%   - maxsubdiv :         maximum subdivision of exisiting elements (default is 10)
+%   - metric :            matrix (numberofnodes x 3) used as a metric
+%   - Metrictype :        1 -> absolute error          c/(err coeff^2) * Abs(H)        (default)
+%                         2 -> relative error          c/(err coeff^2) * Abs(H)/max(s,cutoff*max(s))
+%                         3 -> rescaled absolute error c/(err coeff^2) * Abs(H)/(smax-smin)
+%   - nbjacoby :          correction used by Hessiantype=1 (default is 1)
+%   - nbsmooth :          number of metric smoothing procedure (default is 3)
+%   - omega :             relaxation parameter of the smoothing procedure (default is 1.8)
+%   - power :             power applied to the metric (default is 1)
+%   - splitcorners :      split triangles whuch have 3 vertices on the outline (default is 1)
 %   - geometricalmetric : take the geometry into account to generate the metric (default is 0)
-%   - verbose     : level of verbosity (default is 1)
-%
-%   - rifts : followed by an ARGUS file that prescribes the rifts
-%   - toltip: tolerance to move tip on an existing point of the domain outline
-%   - tracks: followed by an ARGUS file that prescribes the tracks that the mesh will stick to
-%   - RequiredVertices: mesh vertices that are required. [x,y,ref]; ref is optional
-%   - tol:    if the distance between 2 points of the domain outline is less than tol, they
-%             will be merged
+%   - verbose :           level of verbosity (default is 1)
+%
+%   - rifts :             followed by an ARGUS file that prescribes the rifts
+%   - toltip :            tolerance to move tip on an existing point of the domain outline
+%   - tracks :            followed by an ARGUS file that prescribes the tracks that the mesh will stick to
+%   - RequiredVertices :  mesh vertices that are required. [x,y,ref]; ref is optional
+%   - tol :               if the distance between 2 points of the domain outline is less than tol, they
+%                         will be merged
 %
 %   Examples:
