prompt stringlengths 174 59.5k | completion stringlengths 7 228 | api stringlengths 12 64 |
|---|---|---|
import numpy as nm
from sfepy.linalg import dot_sequences
from sfepy.terms.terms import Term, terms
class DivGradTerm(Term):
r"""
Diffusion term.
:Definition:
.. math::
\int_{\Omega} \nu\ \nabla \ul{v} : \nabla \ul{u} \mbox{ , }
\int_{\Omega} \nu\ \nabla \ul{u} : \nabla \ul{w} \\
... | dot_sequences(g1[..., None], g2, 'ATB') | sfepy.linalg.dot_sequences |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Mesh.from_file(data_dir + '/meshes/3d/fluid_mesh.inp') | sfepy.discrete.fem.Mesh.from_file |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | FEDomain('domain', mesh) | sfepy.discrete.fem.FEDomain |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Field.from_args(name='3_velocity', dtype=nm.float64, shape=3, region=omega, approx_order=1) | sfepy.discrete.fem.Field.from_args |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Field.from_args(name='pressure', dtype=nm.float64, shape=1, region=omega, approx_order=1) | sfepy.discrete.fem.Field.from_args |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | EssentialBC(name='Outlet', region=region_3, dofs={'p':0.0, 'u.[1,2]' : 0.0}) | sfepy.discrete.conditions.EssentialBC |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Material(name='viscosity', value=1.25e-3) | sfepy.discrete.Material |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | FieldVariable('u', 'unknown', field_1) | sfepy.discrete.FieldVariable |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | FieldVariable(name='v', kind='test', field=field_1, primary_var_name='u') | sfepy.discrete.FieldVariable |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | FieldVariable(name='p', kind='unknown', field=field_2) | sfepy.discrete.FieldVariable |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | FieldVariable(name='q', kind='test', field=field_2, primary_var_name='p') | sfepy.discrete.FieldVariable |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Integral('i1', order=2) | sfepy.discrete.Integral |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Integral('i2', order=3) | sfepy.discrete.Integral |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Equation('balance', t1+t2-t3) | sfepy.discrete.Equation |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Equation('incompressibility', t4) | sfepy.discrete.Equation |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Equations([eq1,eq2]) | sfepy.discrete.Equations |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | ScipyDirect({}) | sfepy.solvers.ls.ScipyDirect |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | IndexedStruct() | sfepy.base.base.IndexedStruct |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Newton({'i_max' : 20, 'eps_a' : 1e-8, 'eps_r' : 1.0, 'macheps' : 1e-16, 'lin_red' : 1e-2, 'ls_red' : 0.1, 'ls_red_warp' : 0.001, 'ls_on' : 0.99999, 'ls_min' : 1e-5, 'check' : 0, 'delta' : 1e-6}, lin_solver=ls, status=nls_status) | sfepy.solvers.nls.Newton |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Problem('Navier-Stokes', equations=eqs) | sfepy.discrete.Problem |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | IndexedStruct() | sfepy.base.base.IndexedStruct |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Viewer('Navier_Stokes.vtk') | sfepy.postprocess.viewer.Viewer |
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
"""
Created on Mon Dec 28 09:33:53 2020
@author: dhulls
"""
from __future__ import print_function
from __future__ import absolute_import
from argparse import ArgumentParser
import numpy as nm
import sys
sys.path.append('.')
from sfepy.base.base import IndexedStruct, St... | Conditions([ebc_1, ebc_2, ebc_3]) | sfepy.discrete.conditions.Conditions |
r"""
Piezo-elasticity problem - linear elastic material with piezoelectric
effects.
Find :math:`\ul{u}`, :math:`\phi` such that:
.. math::
- \omega^2 \int_{Y} \rho\ \ul{v} \cdot \ul{u}
+ \int_{Y} D_{ijkl}\ e_{ij}(\ul{v}) e_{kl}(\ul{u})
- \int_{Y_2} g_{kij}\ e_{ij}(\ul{v}) \nabla_k \phi
= 0
\;, \qu... | MeshIO.any_from_filename(filename_mesh, prefix_dir=conf_dir) | sfepy.discrete.fem.MeshIO.any_from_filename |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('writing [%s] %s...' % (cell_types, filename_out)) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('...done') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('Supported readable mesh formats:') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('--------------------------------') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output_mesh_formats('r') | sfepy.discrete.fem.meshio.output_mesh_formats |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('Supported writable mesh formats:') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('--------------------------------') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output_mesh_formats('w') | sfepy.discrete.fem.meshio.output_mesh_formats |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | Mesh.from_file(root + '.1.vtk') | sfepy.discrete.fem.Mesh.from_file |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | remove_files(dirname) | sfepy.base.ioutils.remove_files |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | Mesh.from_file(filename_in) | sfepy.discrete.fem.Mesh.from_file |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | Mesh.from_data(mesh.name, *data) | sfepy.discrete.fem.Mesh.from_data |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | FEDomain(mesh.name, mesh) | sfepy.discrete.fem.FEDomain |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | nm.unique(cgroups) | sfepy.base.base.nm.unique |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | nm.array(option, dtype=nm.float64, ndmin=1) | sfepy.base.base.nm.array |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | Mesh.from_file(filename_in) | sfepy.discrete.fem.Mesh.from_file |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | FEDomain(mesh.name, mesh) | sfepy.discrete.fem.FEDomain |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('refine %d...' % ii) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('initial mesh: %d elements' % nelo) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | elems_q2t(conns) | sfepy.mesh.mesh_tools.elems_q2t |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | nm.repeat(mesh.cmesh.cell_groups, nn) | sfepy.base.base.nm.repeat |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('new mesh: %d elements' % new_conns.shape[0]) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('writing %s...' % ifilename_out) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('...done') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | output('bad %s! (%s)' % (name, option)) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | nm.eye(mesh.dim, dtype=nm.float64) | sfepy.base.base.nm.eye |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | nm.diag(scale) | sfepy.base.base.nm.diag |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | nm.eye(mesh.dim, dtype=nm.float64) | sfepy.base.base.nm.eye |
#!/usr/bin/env python
"""
Convert a mesh file from one SfePy-supported format to another.
Examples::
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s2.5
$ ./script/convert_mesh.py meshes/3d/cylinder.mesh new.vtk -s0.5,2,1
$ ./script/conve... | nm.where(cgroups == mat_id) | sfepy.base.base.nm.where |
# This example implements macroscopic homogenized model of Biot-Darcy-Brinkman model of flow in deformable
# double porous media.
# The mathematical model is described in:
#
#<NAME>., <NAME>., <NAME>.
#The Biot-Darcy-Brinkman model of flow in deformable double porous media; homogenization and numerical modelling.
... | Mesh.from_file(filename_mesh) | sfepy.discrete.fem.mesh.Mesh.from_file |
# This example implements macroscopic homogenized model of Biot-Darcy-Brinkman model of flow in deformable
# double porous media.
# The mathematical model is described in:
#
#<NAME>., <NAME>., <NAME>.
#The Biot-Darcy-Brinkman model of flow in deformable double porous media; homogenization and numerical modelling.
... | define_box_regions(mesh.dim, bbox[0], bbox[1], eps=1e-6) | sfepy.homogenization.utils.define_box_regions |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | MeshIO.any_from_filename(filename_mesh) | sfepy.discrete.fem.MeshIO.any_from_filename |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | per.set_accuracy(mesh_eps) | sfepy.discrete.fem.periodic.set_accuracy |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | Struct(name='density', mode='cell', data=density) | sfepy.base.base.Struct |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('average p-wave speed:', cp) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('average shear wave speed:', cs) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | ProblemConf.from_dict(define_dict, mod) | sfepy.base.conf.ProblemConf.from_dict |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | Problem.from_conf(conf) | sfepy.discrete.Problem.from_conf |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('scaling factor of periodic cell mesh coordinates:', scaling) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('new mesh size with applied unit multipliers:', scaling * size) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('1. Brillouin zone size:', bzone * scaling0) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('1. Brillouin zone size with applied unit multipliers:', bzone) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | dict_from_string(options.solver_conf) | sfepy.base.conf.dict_from_string |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | dict_from_string(options.define_kwargs) | sfepy.base.conf.dict_from_string |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | ensure_path(filename) | sfepy.base.ioutils.ensure_path |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('material parameters with applied unit multipliers:') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output(pars) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | Solver.any_from_conf(conf) | sfepy.solvers.Solver.any_from_conf |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | TimeStepper(rng[0], rng[1], dt=None, n_step=rng[2]) | sfepy.solvers.ts.TimeStepper |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output_array_stats(mtx.data, 'nonzeros in %s' % key) | sfepy.linalg.utils.output_array_stats |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('symmetry checks:') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('eigs, omegas:') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | import_file(options.conf) | sfepy.base.base.import_file |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('wave number range with applied unit multipliers:', rng) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('frequency range with applied unit multipliers:', rng) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | Struct.__init__(self, t0=t0, t1=t1, dt=dt, n_step=n_step, step=step) | sfepy.base.base.Struct.__init__ |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | get_print_info(self.n_step) | sfepy.solvers.ts.get_print_info |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | TimeStepper(0, bzone[0], dt=None, n_step=num) | sfepy.solvers.ts.TimeStepper |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | TimeStepper(0, bzone[1], dt=None, n_step=num) | sfepy.solvers.ts.TimeStepper |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | TimeStepper(0, 1, dt=None, n_step=num) | sfepy.solvers.ts.TimeStepper |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | convert_complex_output(aux2) | sfepy.discrete.fem.meshio.convert_complex_output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | max_diff_csr(mtx, mtx.T) | sfepy.linalg.utils.max_diff_csr |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | max_diff_csr(mtx, mtx.H) | sfepy.linalg.utils.max_diff_csr |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | max_diff_csr(mtx_a, mtx_a.H) | sfepy.linalg.utils.max_diff_csr |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('step %d: wave vector %s' % (iv, wmag * wdir)) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Dispersion analysis of a heterogeneous finite scale periodic cell.
The periodic cell mesh has to contain two subdomains Y1 (with the cell ids 1),
Y2 (with the cell ids 2), so that different material properties can be defined
in each of the subdomains (see ``--pars`` option). The command line ... | output('step %d: frequency %s' % (io, omega)) | sfepy.base.base.output |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | dim2sym(dim) | sfepy.mechanics.tensors.dim2sym |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | Materials(materials) | sfepy.discrete.Materials |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | Variables(variables) | sfepy.discrete.Variables |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | Integral('i', order=3) | sfepy.discrete.Integral |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | Mesh.from_file(filename) | sfepy.discrete.fem.Mesh.from_file |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | ordered_iteritems(term_table) | sfepy.base.base.ordered_iteritems |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | Material('m%d' % ii, values=values) | sfepy.discrete.Material |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | get_arg_kinds(ats) | sfepy.terms.terms.get_arg_kinds |
from __future__ import absolute_import
from copy import copy
import numpy as nm
from sfepy.base.testing import TestCommon
from sfepy.base.base import ordered_iteritems
from sfepy import data_dir
filename_meshes = [data_dir + '/meshes/elements/%s_2.mesh' % geom
for geom in ['1_2', '2_3', '2_4', '3_... | Term.new(name, integral, domain.regions[rname], **args) | sfepy.terms.Term.new |
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