prompt stringlengths 174 59.5k | completion stringlengths 7 228 | api stringlengths 12 64 |
|---|---|---|
#!/usr/bin/env python
r"""
This example shows the use of the `dw_tl_he_genyeoh` hyperelastic term, whose
contribution to the deformation energy density per unit reference volume is
given by
.. math::
W = K \, \left( \overline I_1 - 3 \right)^{p}
where :math:`\overline I_1` is the first main invariant of the devia... | Conditions([]) | sfepy.discrete.conditions.Conditions |
#!/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... | 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... | 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.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... | 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('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 |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | Struct(name=name) | sfepy.base.base.Struct |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | dict_to_struct(adict, flag=(1,)) | sfepy.base.base.dict_to_struct |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | dict_to_struct(adict, flag=(1,), constructor=IndexedStruct) | sfepy.base.base.dict_to_struct |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | dict_to_struct(adict, flag=(0,1)) | sfepy.base.base.dict_to_struct |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | dict_to_struct(adict, flag=(1,0)) | sfepy.base.base.dict_to_struct |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | create_bnf(allow_tuple=allow_tuple, free_word=free_word) | sfepy.base.parse_conf.create_bnf |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | copy(_required) | sfepy.base.base.copy |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | copy(_other) | sfepy.base.base.copy |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | import_file(filename, package_name=False) | sfepy.base.base.import_file |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | get_default(define_dict, self.__dict__) | sfepy.base.base.get_default |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | assert_(required_left_over == other_left_over) | sfepy.base.base.assert_ |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | Struct(name=key, select=conf) | sfepy.base.base.Struct |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | Struct(name=key, order=conf) | sfepy.base.base.Struct |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | Struct(name=key, function=conf) | sfepy.base.base.Struct |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | update_dict_recursively(define_dict, override, True) | sfepy.base.base.update_dict_recursively |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | output('left over:', other_left_over) | sfepy.base.base.output |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | copy(val) | sfepy.base.base.copy |
"""
Problem description file handling.
Notes
-----
Short syntax: key is suffixed with '__<number>' to prevent collisions with long
syntax keys -> both cases can be used in a single input.
"""
from __future__ import absolute_import
import re
import numpy as nm
from sfepy.base.base import (Struct, IndexedStruct, dict_... | Struct(name=key, order=conf) | sfepy.base.base.Struct |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output(mtx_a, '.. analytical') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output(mtx_d, '.. difference') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('nls: iter: %d, residual: %e (rel: %e)' % (it, err, err_r)) | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | NonlinearSolver.__init__(self, conf, **kwargs) | sfepy.solvers.solvers.NonlinearSolver.__init__ |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_logging_conf(conf) | sfepy.base.log.get_logging_conf |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | Struct(name='log_conf', **log) | sfepy.base.base.Struct |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(conf, self.conf) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(fun, self.fun) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(fun_grad, self.fun_grad) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(lin_solver, self.lin_solver) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(iter_hook, self.iter_hook) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(status, self.status) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(ls_eps_a, 1.0) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(ls_eps_r, 1.0) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | NonlinearSolver.__init__(self, conf, **kwargs) | sfepy.solvers.solvers.NonlinearSolver.__init__ |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(fun, self.fun) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(status, self.status) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(fun, self.fun) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(fun_grad, self.fun_grad) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(lin_solver, self.lin_solver) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(iter_hook, self.iter_hook) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(status, self.status) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(pmtx, self.pmtx) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(prhs, self.prhs) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | get_default(comm, self.comm) | sfepy.base.base.get_default |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('solving linear system...') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('...done') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('%10s: %7.2f [s]' % kv) | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('warning: linear system solution precision is lower') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('scipy solver %s does not exist!' % conf.method) | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('using broyden3 instead') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('linesearch failed, continuing anyway') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('giving up!') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('giving up!') | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | output('infs or nans in the residual:', vec_r) | sfepy.base.base.output |
"""
Nonlinear solvers.
"""
import time
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, debug, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.solvers.solvers import SolverMeta, NonlinearSolver
def check_tangent_matrix(conf, vec_x0, fun, fun_grad):
... | debug() | sfepy.base.base.debug |
from __future__ import absolute_import
from sfepy import data_dir
import six
filename_mesh = data_dir + '/meshes/3d/special/cube_cylinder.mesh'
if 0:
from sfepy.discrete.fem.utils import refine_mesh
refinement_level = 1
filename_mesh = | refine_mesh(filename_mesh, refinement_level) | sfepy.discrete.fem.utils.refine_mesh |
from __future__ import absolute_import
from sfepy import data_dir
import six
filename_mesh = data_dir + '/meshes/3d/special/cube_cylinder.mesh'
if 0:
from sfepy.discrete.fem.utils import refine_mesh
refinement_level = 1
filename_mesh = refine_mesh(filename_mesh, refinement_level)
material_2 = {
'name... | Problem.from_conf(conf) | sfepy.discrete.Problem.from_conf |
from __future__ import absolute_import
from sfepy import data_dir
import six
filename_mesh = data_dir + '/meshes/3d/special/cube_cylinder.mesh'
if 0:
from sfepy.discrete.fem.utils import refine_mesh
refinement_level = 1
filename_mesh = refine_mesh(filename_mesh, refinement_level)
material_2 = {
'name... | State(self.problem.equations.variables) | sfepy.discrete.state.State |
from __future__ import absolute_import
from sfepy import data_dir
import six
filename_mesh = data_dir + '/meshes/3d/special/cube_cylinder.mesh'
if 0:
from sfepy.discrete.fem.utils import refine_mesh
refinement_level = 1
filename_mesh = refine_mesh(filename_mesh, refinement_level)
material_2 = {
'name... | IndexedStruct() | sfepy.base.base.IndexedStruct |
from __future__ import absolute_import
from sfepy import data_dir
import six
filename_mesh = data_dir + '/meshes/3d/special/cube_cylinder.mesh'
if 0:
from sfepy.discrete.fem.utils import refine_mesh
refinement_level = 1
filename_mesh = refine_mesh(filename_mesh, refinement_level)
material_2 = {
'name... | Solver.any_from_conf(solver_conf) | sfepy.solvers.Solver.any_from_conf |
"""
Quantum oscillator.
See :ref:`quantum-quantum_common`.
"""
from __future__ import absolute_import
from sfepy.linalg import norm_l2_along_axis
from examples.quantum.quantum_common import common
def get_exact(n_eigs, box_size, dim):
if dim == 2:
eigs = [1] + [2]*2 + [3]*3 + [4]*4 + [5]*5 + [6]*6
e... | norm_l2_along_axis(coor, axis=1, squared=True) | sfepy.linalg.norm_l2_along_axis |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | prepare_remap(facets, cmesh.num[dim]) | sfepy.discrete.fem.utils.prepare_remap |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | output('evaluating in %d points...' % coors.shape[0], verbose=verbose) | sfepy.base.base.output |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | output('...done',verbose=verbose) | sfepy.base.base.output |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | FEField.extend_dofs(self, dofs) | sfepy.discrete.fem.fields_base.FEField.extend_dofs |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | FEField.remove_extra_dofs(self, dofs) | sfepy.discrete.fem.fields_base.FEField.remove_extra_dofs |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | expand_nodes_to_dofs(ii, n_dof_per_facet) | sfepy.discrete.common.dof_info.expand_nodes_to_dofs |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | prepare_remap(ii, group.shape.n_el) | sfepy.discrete.fem.utils.prepare_remap |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | prepare_remap(ii, group.shape.n_el) | sfepy.discrete.fem.utils.prepare_remap |
"""
Notes
-----
Important attributes of continuous (order > 0) :class:`Field` and
:class:`SurfaceField` instances:
- `vertex_remap` : `econn[:, :n_vertex] = vertex_remap[conn]`
- `vertex_remap_i` : `conn = vertex_remap_i[econn[:, :n_vertex]]`
where `conn` is the mesh vertex connectivity, `econn` is the
region-local ... | proceed_methods(val, self.eval_method[1:]) | sfepy.terms.terms_general.proceed_methods |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | output('Supported writable mesh formats are:') | sfepy.base.base.output |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | supported_capabilities.iteritems() | sfepy.fem.meshio.supported_capabilities.iteritems |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | Mesh.from_file(filename_in) | sfepy.fem.Mesh.from_file |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | output('writing %s...' % filename_out) | sfepy.base.base.output |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | output('...done') | sfepy.base.base.output |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | output(key) | sfepy.base.base.output |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | nm.array(scale, dtype=nm.float64, ndmin=1) | sfepy.base.base.nm.array |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | output('bad scale! (%s)' % scale) | sfepy.base.base.output |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | nm.eye(mesh.dim, dtype=nm.float64) | sfepy.base.base.nm.eye |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | nm.diag(scale) | sfepy.base.base.nm.diag |
#!/usr/bin/env python
import sys
sys.path.append('.')
from optparse import OptionParser
from sfepy.base.base import nm, output
from sfepy.fem import Mesh
from sfepy.fem.meshio import io_table, supported_capabilities
usage = """%prog [options] filename_in filename_out
Convert a mesh file from one SfePy-supported form... | output('unknown output mesh format! (%s)' % options.format) | sfepy.base.base.output |
#!/usr/bin/env python
# This code was adapted from http://sfepy.org/doc-devel/mat_optim.html.
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from __future__ import absolute_import
from argparse import ArgumentParser, RawDescriptionHelpFormatter
import sys
impo... | UserMeshIO(mesh_hook) | sfepy.discrete.fem.meshio.UserMeshIO |
#!/usr/bin/env python
# This code was adapted from http://sfepy.org/doc-devel/mat_optim.html.
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from __future__ import absolute_import
from argparse import ArgumentParser, RawDescriptionHelpFormatter
import sys
impo... | plt.figure(figsize=(5,6)) | sfepy.base.plotutils.plt.figure |
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