def __init__(self, name, nurbs, bmesh, regions=None, **kwargs):
"""
Create an IGA domain.
Parameters
----------
name : str
The domain name.
"""
Domain.__init__(self, name, nurbs=nurbs, bmesh=bmesh, regions=regions,
**kwargs)
from sfepy.discrete.fem.geometry_element import create_geometry_elements
from sfepy.discrete.fem import Mesh
from sfepy.discrete.fem.extmods.cmesh import CMesh
from sfepy.discrete.fem.utils import prepare_remap
ac = nm.ascontiguousarray
self.nurbs.cs = [ac(nm.array(cc, dtype=nm.float64)[:, None, ...])
for cc in self.nurbs.cs]
self.nurbs.degrees = self.nurbs.degrees.astype(nm.int32)
self.facets = iga.get_bezier_element_entities(nurbs.degrees)
tconn = iga.get_bezier_topology(bmesh.conn, nurbs.degrees)
itc = nm.unique(tconn)
remap = prepare_remap(itc, bmesh.conn.max() + 1)
ltcoors = bmesh.cps[itc]
ltconn = remap[tconn]
n_nod, dim = ltcoors.shape
n_el = ltconn.shape[0]
self.shape = Struct(n_nod=n_nod, dim=dim, tdim=0, n_el=n_el, n_gr=1)
desc = '%d_%d' % (dim, 2**dim)
mat_id = nm.zeros(ltconn.shape[0], dtype=nm.int32)
self.mesh = Mesh.from_data(self.name + '_topo', ltcoors, None, [ltconn],
[mat_id], [desc])
self.cmesh = CMesh.from_mesh(self.mesh)
gels = create_geometry_elements()
self.cmesh.set_local_entities(gels)
self.cmesh.setup_entities()
self.shape.tdim = self.cmesh.tdim
self.gel = gels[desc]
if regions is not None:
self.vertex_set_bcs = {}
for key, val in self.regions.iteritems():
self.vertex_set_bcs[key] = remap[val]
self.cell_offsets = {0 : 0}
self.reset_regions()
def __init__(self, name, nurbs, bmesh, regions=None, **kwargs):
"""
Create an IGA domain.
Parameters
----------
name : str
The domain name.
"""
Domain.__init__(self,
name,
nurbs=nurbs,
bmesh=bmesh,
regions=regions,
**kwargs)
from sfepy.discrete.fem.geometry_element import create_geometry_elements
from sfepy.discrete.fem import Mesh
from sfepy.discrete.fem.utils import prepare_remap
tconn = iga.get_bezier_topology(bmesh.conn, nurbs.degrees)
itc = nm.unique(tconn)
remap = prepare_remap(itc, bmesh.conn.max() + 1)
ltcoors = bmesh.cps[itc]
ltconn = remap[tconn]
n_nod, dim = ltcoors.shape
n_el = ltconn.shape[0]
self.shape = Struct(n_nod=n_nod, dim=dim, tdim=0, n_el=n_el)
desc = '%d_%d' % (dim, bmesh.conn.shape[1])
mat_id = nm.zeros(bmesh.conn.shape[0], dtype=nm.int32)
eval_mesh = Mesh.from_data(self.name + '_eval', nurbs.cps, None,
[nurbs.conn], [mat_id], [desc])
self.eval_mesh = eval_mesh
desc = '%d_%d' % (dim, 2**dim)
mat_id = nm.zeros(ltconn.shape[0], dtype=nm.int32)
self.mesh = Mesh.from_data(self.name + '_topo', ltcoors, None,
[ltconn], [mat_id], [desc])
self.cmesh = self.mesh.cmesh
gels = create_geometry_elements()
self.cmesh.set_local_entities(gels)
self.cmesh.setup_entities()
self.shape.tdim = self.cmesh.tdim
self.gel = gels[desc]
if regions is not None:
self.vertex_set_bcs = {}
for key, val in six.iteritems(self.regions):
self.vertex_set_bcs[key] = remap[val]
self.reset_regions()
def __init__(self, name, mesh, verbose=False, **kwargs):
"""Create a Domain.
Parameters
----------
name : str
Object name.
mesh : Mesh
A mesh defining the domain.
"""
Domain.__init__(self, name, mesh=mesh, verbose=verbose, **kwargs)
self.geom_els = geom_els = {}
for ig, desc in enumerate(mesh.descs):
gel = GeometryElement(desc)
if gel.dim > 1:
# Create geometry elements of dimension - 1.
gel.create_surface_facet()
geom_els[desc] = gel
self.geom_interps = interps = {}
for gel in geom_els.itervalues():
key = gel.get_interpolation_name()
gel.interp = interps.setdefault(key, fea.Interpolant(key, gel))
gel = gel.surface_facet
if gel is not None:
key = gel.get_interpolation_name()
gel.interp = interps.setdefault(key, fea.Interpolant(key, gel))
self.vertex_set_bcs = self.mesh.nodal_bcs
self.mat_ids_to_i_gs = {}
for ig, mat_id in enumerate(mesh.mat_ids):
self.mat_ids_to_i_gs[mat_id[0]] = ig
n_nod, dim = self.mesh.coors.shape
self.shape = Struct(n_nod=n_nod, dim=dim, tdim=0,
n_el=0,
n_gr=len(self.mesh.conns))
self.setup_groups()
self.fix_element_orientation()
self.reset_regions()
self.clear_surface_groups()
from sfepy.discrete.fem.geometry_element import create_geometry_elements
from sfepy.discrete.fem.extmods.cmesh import CMesh
self.cmesh = CMesh.from_mesh(mesh)
gels = create_geometry_elements()
self.cmesh.set_local_entities(gels)
self.cmesh.setup_entities()
self.shape.tdim = self.cmesh.tdim
self.cell_offsets = self.mesh.el_offsets
def __init__(self, name, mesh, verbose=False, **kwargs):
"""Create a Domain.
Parameters
----------
name : str
Object name.
mesh : Mesh
A mesh defining the domain.
"""
Domain.__init__(self, name, mesh=mesh, verbose=verbose, **kwargs)
if len(mesh.descs) > 1:
msg = 'meshes with several cell kinds are not supported!'
raise NotImplementedError(msg)
self.geom_els = geom_els = {}
for ig, desc in enumerate(mesh.descs):
gel = GeometryElement(desc)
if gel.dim > 1:
# Create geometry elements of dimension - 1.
gel.create_surface_facet()
geom_els[desc] = gel
for gel in six.itervalues(geom_els):
key = gel.get_interpolation_name()
gel.poly_space = PolySpace.any_from_args(key, gel, 1)
gel = gel.surface_facet
if gel is not None:
key = gel.get_interpolation_name()
gel.poly_space = PolySpace.any_from_args(key, gel, 1)
self.vertex_set_bcs = self.mesh.nodal_bcs
self.cmesh = self.mesh.cmesh
# Must be before creating derived connectivities.
self.fix_element_orientation()
from sfepy.discrete.fem.geometry_element import create_geometry_elements
gels = create_geometry_elements()
self.cmesh.set_local_entities(gels)
self.cmesh.setup_entities()
n_nod, dim = self.mesh.coors.shape
self.shape = Struct(n_nod=n_nod,
dim=dim,
tdim=self.cmesh.tdim,
n_el=self.cmesh.n_el,
n_gr=len(self.geom_els))
self.reset_regions()
self.clear_surface_groups()
def __init__(self, name, mesh, verbose=False, **kwargs):
"""Create a Domain.
Parameters
----------
name : str
Object name.
mesh : Mesh
A mesh defining the domain.
"""
Domain.__init__(self, name, mesh=mesh, verbose=verbose, **kwargs)
if len(mesh.descs) > 1:
msg = 'meshes with several cell kinds are not supported!'
raise NotImplementedError(msg)
self.geom_els = geom_els = {}
for ig, desc in enumerate(mesh.descs):
gel = GeometryElement(desc)
if gel.dim > 1:
# Create geometry elements of dimension - 1.
gel.create_surface_facet()
geom_els[desc] = gel
self.geom_interps = interps = {}
for gel in geom_els.itervalues():
key = gel.get_interpolation_name()
gel.interp = interps.setdefault(key, fea.Interpolant(key, gel))
gel = gel.surface_facet
if gel is not None:
key = gel.get_interpolation_name()
gel.interp = interps.setdefault(key, fea.Interpolant(key, gel))
self.vertex_set_bcs = self.mesh.nodal_bcs
self.cmesh = self.mesh.cmesh
# Must be before creating derived connectivities.
self.fix_element_orientation()
from sfepy.discrete.fem.geometry_element import create_geometry_elements
gels = create_geometry_elements()
self.cmesh.set_local_entities(gels)
self.cmesh.setup_entities()
n_nod, dim = self.mesh.coors.shape
self.shape = Struct(n_nod=n_nod, dim=dim, tdim=self.cmesh.tdim,
n_el=self.cmesh.n_el,
n_gr=len(self.geom_els))
self.reset_regions()
self.clear_surface_groups()
def __init__(self, name, mesh, verbose=False, **kwargs):
"""Create a Domain.
Parameters
----------
name : str
Object name.
mesh : Mesh
A mesh defining the domain.
"""
Domain.__init__(self, name, mesh=mesh, verbose=verbose, **kwargs)
self.geom_els = geom_els = {}
for ig, desc in enumerate(mesh.descs):
gel = GeometryElement(desc)
# Create geometry elements of dimension - 1.
gel.create_surface_facet()
geom_els[desc] = gel
self.geom_interps = interps = {}
for gel in geom_els.itervalues():
key = gel.get_interpolation_name()
gel.interp = interps.setdefault(key, fea.Interpolant(key, gel))
gel = gel.surface_facet
if gel is not None:
key = gel.get_interpolation_name()
gel.interp = interps.setdefault(key, fea.Interpolant(key, gel))
self.vertex_set_bcs = self.mesh.nodal_bcs
self.mat_ids_to_i_gs = {}
for ig, mat_id in enumerate(mesh.mat_ids):
self.mat_ids_to_i_gs[mat_id[0]] = ig
n_nod, dim = self.mesh.coors.shape
self.shape = Struct(n_nod=n_nod, dim=dim, tdim=0,
n_el=0,
n_gr=len(self.mesh.conns))
self.setup_groups()
self.fix_element_orientation()
self.reset_regions()
self.clear_surface_groups()
from sfepy.discrete.fem.geometry_element import create_geometry_elements
from sfepy.discrete.fem.extmods.cmesh import CMesh
self.cmesh = CMesh.from_mesh(mesh)
gels = create_geometry_elements()
self.cmesh.set_local_entities(gels)
self.cmesh.setup_entities()
self.shape.tdim = self.cmesh.tdim
self.cell_offsets = self.mesh.el_offsets
def __init__(self, name, nurbs, bmesh, regions=None, **kwargs):
"""
Create an IGA domain.
Parameters
----------
name : str
The domain name.
"""
Domain.__init__(self, name, nurbs=nurbs, bmesh=bmesh, regions=regions,
**kwargs)
from sfepy.discrete.fem.geometry_element import create_geometry_elements
from sfepy.discrete.fem import Mesh
from sfepy.discrete.fem.utils import prepare_remap
tconn = iga.get_bezier_topology(bmesh.conn, nurbs.degrees)
itc = nm.unique(tconn)
remap = prepare_remap(itc, bmesh.conn.max() + 1)
ltcoors = bmesh.cps[itc]
ltconn = remap[tconn]
n_nod, dim = ltcoors.shape
n_el = ltconn.shape[0]
self.shape = Struct(n_nod=n_nod, dim=dim, tdim=0, n_el=n_el)
desc = '%d_%d' % (dim, bmesh.conn.shape[1])
mat_id = nm.zeros(bmesh.conn.shape[0], dtype=nm.int32)
eval_mesh = Mesh.from_data(self.name + '_eval', nurbs.cps, None,
[nurbs.conn], [mat_id], [desc])
self.eval_mesh = eval_mesh
desc = '%d_%d' % (dim, 2**dim)
mat_id = nm.zeros(ltconn.shape[0], dtype=nm.int32)
self.mesh = Mesh.from_data(self.name + '_topo', ltcoors, None, [ltconn],
[mat_id], [desc])
self.cmesh = self.mesh.cmesh
gels = create_geometry_elements()
self.cmesh.set_local_entities(gels)
self.cmesh.setup_entities()
self.shape.tdim = self.cmesh.tdim
self.gel = gels[desc]
if regions is not None:
self.vertex_set_bcs = {}
for key, val in self.regions.iteritems():
self.vertex_set_bcs[key] = remap[val]
self.reset_regions()
