gf_mesh_im¶
Synopsis
MIM = gf_mesh_im('load', string fname[, mesh m])
MIM = gf_mesh_im('from string', string s[, mesh m])
MIM = gf_mesh_im('clone', mesh_im mim)
MIM = gf_mesh_im('levelset', mesh_levelset mls, string where, integ im[, integ im_tip[, integ im_set]])
MIM = gf_mesh_im(mesh m, [{integ im|int im_degree}])
Description :
General constructor for mesh_im objects.
This object represents an integration method defined on a whole mesh (an potentially on its boundaries).
Command list :
MIM = gf_mesh_im('load', string fname[, mesh m])
Load a mesh_im from a file.
If the mesh <literal>m</literal> is not supplied (this kind of file does not store the mesh), then it is read from the file and its descriptor is returned as the second output argument.
MIM = gf_mesh_im('from string', string s[, mesh m])
Create a mesh_im object from its string description.
See also <literal></literal>gf_mesh_im_get(mesh_im MI, ‘char’)<literal></literal>
MIM = gf_mesh_im('clone', mesh_im mim)
Create a copy of a mesh_im.
MIM = gf_mesh_im('levelset', mesh_levelset mls, string where, integ im[, integ im_tip[, integ im_set]])
Build an integration method conformal to a partition defined implicitly by a levelset.
The <literal>where</literal> argument define the domain of integration with respect to the levelset, it has to be chosen among ‘ALL’, ‘INSIDE’, ‘OUTSIDE’ and ‘BOUNDARY’.
it can be completed by a string defining the boolean operation to define the integration domain when there is more than one levelset.
the syntax is very simple, for example if there are 3 different levelset,
“a*b*c” is the intersection of the domains defined by each levelset (this is the default behaviour if this function is not called).
“a+b+c” is the union of their domains.
“c-(a+b)” is the domain of the third levelset minus the union of the domains of the two others.
“!a” is the complementary of the domain of a (i.e. it is the domain where a(x)>0)
The first levelset is always referred to with “a”, the second with “b”, and so on.
for intance INSIDE(a*b*c)
CAUTION: this integration method will be defined only on the element cut by the level-set. For the ‘ALL’, ‘INSIDE’ and ‘OUTSIDE’ options it is mandatory to use the method <literal></literal>gf_mesh_im_set(mesh_im MI, ‘integ’)<literal></literal> to define the integration method on the remaining elements.
MIM = gf_mesh_im(mesh m, [{integ im|int im_degree}])
Build a new mesh_im object.
For convenience, optional arguments (<literal>im</literal> or <literal>im_degree</literal>) can be provided, in that case a call to <literal></literal>gf_mesh_im_get(mesh_im MI, ‘integ’)<literal></literal> is issued with these arguments.