def __init__(self, doflocs, t, **kwargs):
warnings.warn("MeshTri2 is an experimental feature and "
"not governed by the semantic versioning. "
"Several features of MeshTri are still "
"missing.")
if t.shape[0] == 6:
dofs, ix = np.unique(t[:3], return_inverse=True)
super(MeshTri2, self).__init__(
doflocs[:, dofs],
np.arange(len(dofs), dtype=np.int)[ix].reshape(t[:3].shape),
sort_t=False,
**kwargs)
else:
# fallback for refinterp
super(MeshTri2, self).__init__(doflocs, t, **kwargs)
from skfem.element import ElementTriP2
from skfem.assembly import InteriorBasis
from skfem.mapping import MappingAffine
self._elem = ElementTriP2()
self._basis = InteriorBasis(self, self._elem, MappingAffine(self))
self._mesh = MeshTri.from_basis(self._basis)
if t.shape[0] == 6:
self._mesh.p = doflocs
self._mesh.t = t
def _mapping(self):
"""Return a default reference mapping for the mesh."""
from skfem.mapping import MappingAffine, MappingIsoparametric
if not hasattr(self, '_cached_mapping'):
if self.affine:
self._cached_mapping = MappingAffine(self)
else:
self._cached_mapping = MappingIsoparametric(
self,
self.elem(),
self.bndelem,
)
return self._cached_mapping
def check_equivalence(self, ec, ev):
X = np.array([[0.125, 0.1111], [0.0555, 0.6]])
m = MeshTri.init_refdom()
mapping = MappingAffine(m)
for k in range(6):
for i in [0, 1]:
# accessing i'th component looks slightly different
assert_array_equal(
ev.gbasis(mapping, X, k)[0].f[i],
ec.gbasis(mapping, X, k)[i].f)
for j in [0, 1]:
assert_array_equal(
ev.gbasis(mapping, X, k)[0].df[i][j],
ec.gbasis(mapping, X, k)[i].df[j])
def mapping(self):
return MappingAffine(self)
def mapping(self):
from skfem.mapping import MappingAffine
return MappingAffine(self)
