prompt stringlengths 174 59.5k | completion stringlengths 7 228 | api stringlengths 12 64 |
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"""
Functions to visualize quadrature points in reference elements.
"""
import numpy as nm
import matplotlib.pyplot as plt
from sfepy.base.base import output
from sfepy.postprocess.plot_dofs import _get_axes, _to2d
from sfepy.postprocess.plot_facets import plot_geometry
def _get_qp(geometry, order):
from sfepy.d... | _get_axes(ax, dim) | sfepy.postprocess.plot_dofs._get_axes |
"""
Functions to visualize quadrature points in reference elements.
"""
import numpy as nm
import matplotlib.pyplot as plt
from sfepy.base.base import output
from sfepy.postprocess.plot_dofs import _get_axes, _to2d
from sfepy.postprocess.plot_facets import plot_geometry
def _get_qp(geometry, order):
from sfepy.d... | _to2d(coors) | sfepy.postprocess.plot_dofs._to2d |
"""
Functions to visualize quadrature points in reference elements.
"""
import numpy as nm
import matplotlib.pyplot as plt
from sfepy.base.base import output
from sfepy.postprocess.plot_dofs import _get_axes, _to2d
from sfepy.postprocess.plot_facets import plot_geometry
def _get_qp(geometry, order):
from sfepy.d... | _get_axes(ax, dim) | sfepy.postprocess.plot_dofs._get_axes |
"""
Functions to visualize quadrature points in reference elements.
"""
import numpy as nm
import matplotlib.pyplot as plt
from sfepy.base.base import output
from sfepy.postprocess.plot_dofs import _get_axes, _to2d
from sfepy.postprocess.plot_facets import plot_geometry
def _get_qp(geometry, order):
from sfepy.d... | _get_axes(ax, dim) | sfepy.postprocess.plot_dofs._get_axes |
"""
Functions to visualize quadrature points in reference elements.
"""
import numpy as nm
import matplotlib.pyplot as plt
from sfepy.base.base import output
from sfepy.postprocess.plot_dofs import _get_axes, _to2d
from sfepy.postprocess.plot_facets import plot_geometry
def _get_qp(geometry, order):
from sfepy.d... | plot_geometry(ax, gel) | sfepy.postprocess.plot_facets.plot_geometry |
"""
Functions to visualize quadrature points in reference elements.
"""
import numpy as nm
import matplotlib.pyplot as plt
from sfepy.base.base import output
from sfepy.postprocess.plot_dofs import _get_axes, _to2d
from sfepy.postprocess.plot_facets import plot_geometry
def _get_qp(geometry, order):
from sfepy.d... | GeometryElement(geometry) | sfepy.discrete.fem.geometry_element.GeometryElement |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | output.set_output(quiet=True) | sfepy.base.base.output.set_output |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function('material_func', _material_func_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Material('m', function=material_func) | sfepy.discrete.Material |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function('fix_x_points', fix_x_points_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | EssentialBC('fix_points_BC', region_fix_points, fix_points_dict) | sfepy.discrete.conditions.EssentialBC |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function('shift_x_points', shift_x_points_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Conditions([fix_points_BC, shift_points_BC]) | sfepy.discrete.conditions.Conditions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function('xplus', xplus_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function('xminus', xminus_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function('match_x_plane', per.match_x_plane) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function('shift', shift_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Conditions([lcbc]) | sfepy.discrete.conditions.Conditions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function(plus_string, plus_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function(minus_string, minus_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function(plus_string, plus_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Function(minus_string, minus_) | sfepy.discrete.Function |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Domain('domain', mesh) | sfepy.discrete.fem.Domain |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | FieldVariable('u', 'unknown', field) | sfepy.discrete.FieldVariable |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | FieldVariable('v', 'test', field, primary_var_name='u') | sfepy.discrete.FieldVariable |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Integral('i', order=4) | sfepy.discrete.Integral |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Equation('balance_of_forces', t1) | sfepy.discrete.Equation |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Equations([eq]) | sfepy.discrete.Equations |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | ScipyDirect({}) | sfepy.solvers.ls.ScipyDirect |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Problem('elasticity', equations=eqs, auto_solvers=None) | sfepy.discrete.Problem |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | ElasticConstants(young=E, poisson=nu) | sfepy.mechanics.matcoefs.ElasticConstants |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions(func_list_YZ + func_list_X) | sfepy.discrete.Functions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | stiffness_from_lame(dims, lam=lam, mu=mu) | sfepy.mechanics.matcoefs.stiffness_from_lame |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions([fix_x_points]) | sfepy.discrete.Functions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions([shift_x_points]) | sfepy.discrete.Functions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions([xplus]) | sfepy.discrete.Functions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions([xminus]) | sfepy.discrete.Functions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions([plus]) | sfepy.discrete.Functions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions([minus]) | sfepy.discrete.Functions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions([plus]) | sfepy.discrete.Functions |
import numpy as np
from sfepy.base.goptions import goptions
from sfepy.discrete.fem import Field
try:
from sfepy.discrete.fem import FEDomain as Domain
except ImportError:
from sfepy.discrete.fem import Domain
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
E... | Functions([minus]) | sfepy.discrete.Functions |
"""
Utility functions based on igakit.
"""
import numpy as nm
from sfepy.base.base import Struct
from sfepy.discrete.fem import Mesh
from sfepy.mesh.mesh_generators import get_tensor_product_conn
def create_linear_fe_mesh(nurbs, pars=None):
"""
Convert a NURBS object into a nD-linear tensor product FE mesh.
... | Mesh.from_data('nurbs', coors, None, [conn], [mat_id], [desc]) | sfepy.discrete.fem.Mesh.from_data |
"""
Utility functions based on igakit.
"""
import numpy as nm
from sfepy.base.base import Struct
from sfepy.discrete.fem import Mesh
from sfepy.mesh.mesh_generators import get_tensor_product_conn
def create_linear_fe_mesh(nurbs, pars=None):
"""
Convert a NURBS object into a nD-linear tensor product FE mesh.
... | Mesh.from_data('nurbs', coors, None, [conn], [mat_id], [desc]) | sfepy.discrete.fem.Mesh.from_data |
#!/usr/bin/env python
# 12.01.2007, c
from __future__ import absolute_import
from argparse import ArgumentParser
import sfepy
from sfepy.base.base import output
from sfepy.base.conf import ProblemConf, get_standard_keywords
from sfepy.homogenization.band_gaps_app import AcousticBandGapsApp
from sfepy.base.plotutils im... | get_standard_keywords() | sfepy.base.conf.get_standard_keywords |
#!/usr/bin/env python
# 12.01.2007, c
from __future__ import absolute_import
from argparse import ArgumentParser
import sfepy
from sfepy.base.base import output
from sfepy.base.conf import ProblemConf, get_standard_keywords
from sfepy.homogenization.band_gaps_app import AcousticBandGapsApp
from sfepy.base.plotutils im... | ProblemConf.from_file(options.filename_in, required, other) | sfepy.base.conf.ProblemConf.from_file |
#!/usr/bin/env python
# 12.01.2007, c
from __future__ import absolute_import
from argparse import ArgumentParser
import sfepy
from sfepy.base.base import output
from sfepy.base.conf import ProblemConf, get_standard_keywords
from sfepy.homogenization.band_gaps_app import AcousticBandGapsApp
from sfepy.base.plotutils im... | AcousticBandGapsApp(conf, options, 'phonon:') | sfepy.homogenization.band_gaps_app.AcousticBandGapsApp |
#!/usr/bin/env python
# 12.01.2007, c
from __future__ import absolute_import
from argparse import ArgumentParser
import sfepy
from sfepy.base.base import output
from sfepy.base.conf import ProblemConf, get_standard_keywords
from sfepy.homogenization.band_gaps_app import AcousticBandGapsApp
from sfepy.base.plotutils im... | debug_on_error() | sfepy.base.base.debug_on_error |
#!/usr/bin/env python
# 12.01.2007, c
from __future__ import absolute_import
from argparse import ArgumentParser
import sfepy
from sfepy.base.base import output
from sfepy.base.conf import ProblemConf, get_standard_keywords
from sfepy.homogenization.band_gaps_app import AcousticBandGapsApp
from sfepy.base.plotutils im... | output('matplotlib.pyplot cannot be imported, ignoring option -p!') | sfepy.base.base.output |
"""
This module is not a test file. It contains classes grouping some common
functionality, that is used in several test files.
"""
from __future__ import absolute_import
from sfepy.base.base import IndexedStruct
from sfepy.base.testing import TestCommon
import os.path as op
class NLSStatus(IndexedStruct):
"""
... | IndexedStruct.__setitem__(self, key, val) | sfepy.base.base.IndexedStruct.__setitem__ |
"""
This module is not a test file. It contains classes grouping some common
functionality, that is used in several test files.
"""
from __future__ import absolute_import
from sfepy.base.base import IndexedStruct
from sfepy.base.testing import TestCommon
import os.path as op
class NLSStatus(IndexedStruct):
"""
... | get_standard_keywords() | sfepy.base.conf.get_standard_keywords |
"""
This module is not a test file. It contains classes grouping some common
functionality, that is used in several test files.
"""
from __future__ import absolute_import
from sfepy.base.base import IndexedStruct
from sfepy.base.testing import TestCommon
import os.path as op
class NLSStatus(IndexedStruct):
"""
... | ProblemConf.from_file(input_name, required, other) | sfepy.base.conf.ProblemConf.from_file |
"""
This module is not a test file. It contains classes grouping some common
functionality, that is used in several test files.
"""
from __future__ import absolute_import
from sfepy.base.base import IndexedStruct
from sfepy.base.testing import TestCommon
import os.path as op
class NLSStatus(IndexedStruct):
"""
... | assign_standard_hooks(test, test_conf.options.get, test_conf) | sfepy.applications.assign_standard_hooks |
"""
This module is not a test file. It contains classes grouping some common
functionality, that is used in several test files.
"""
from __future__ import absolute_import
from sfepy.base.base import IndexedStruct
from sfepy.base.testing import TestCommon
import os.path as op
class NLSStatus(IndexedStruct):
"""
... | IndexedStruct() | sfepy.base.base.IndexedStruct |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | output('generating NURBS...', verbose=verbose) | sfepy.base.base.output |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | output('...done', verbose=verbose) | sfepy.base.base.output |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | output('computing Bezier mesh...', verbose=verbose) | sfepy.base.base.output |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | iga.compute_bezier_extraction(block.knots, block.degree) | sfepy.discrete.iga.compute_bezier_extraction |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | iga.create_connectivity(n_els, block.knots, block.degree) | sfepy.discrete.iga.create_connectivity |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | iga.combine_bezier_extraction(cs) | sfepy.discrete.iga.combine_bezier_extraction |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | Struct(name='bmesh', cps=bcps, weights=bweights, conn=bconn) | sfepy.base.base.Struct |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | output('...done', verbose=verbose) | sfepy.base.base.output |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | output('defining regions...', verbose=verbose) | sfepy.base.base.output |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | iga.get_patch_box_regions(n_els, block.degree) | sfepy.discrete.iga.get_patch_box_regions |
"""
IGA domain generators.
"""
import numpy as nm
from sfepy.base.base import output, Struct
import sfepy.discrete.iga as iga
from sfepy.discrete.iga.domain import NurbsPatch
def gen_patch_block_domain(dims, shape, centre, degrees, continuity=None,
name='block', verbose=True):
"""
G... | 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 ... | get_eval_coors(vertex_coors, vertex_conn, gps) | sfepy.discrete.fem.linearizer.get_eval_coors |
"""
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 ... | convert_complex_output(out) | sfepy.discrete.fem.meshio.convert_complex_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 ... | parse_shape(shape, region.domain.shape.dim) | sfepy.discrete.common.fields.parse_shape |
"""
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 ... | invert_remap(self.vertex_remap) | sfepy.discrete.fem.utils.invert_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 ... | assert_(dofs.ndim == 2) | sfepy.base.base.assert_ |
"""
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 ... | assert_(n_nod == self.n_nod) | sfepy.base.base.assert_ |
"""
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 ... | assert_(dpn == self.shape[0]) | sfepy.base.base.assert_ |
"""
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 ... | get_eval_dofs(dofs, self.econn, ps, ori=self.ori) | sfepy.discrete.fem.linearizer.get_eval_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 ... | get_eval_coors(vertex_coors, vertex_conn, gps) | sfepy.discrete.fem.linearizer.get_eval_coors |
"""
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 ... | convert_complex_output(out) | sfepy.discrete.fem.meshio.convert_complex_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 ... | Integral('i', order=self.approx_order) | sfepy.discrete.integrals.Integral |
"""
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(vertices, region.n_v_max) | 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(region.vertices, region.n_v_max) | 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 ... | FESurface('aux', region, faces, conn) | sfepy.discrete.fem.fe_surface.FESurface |
"""
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 ... | Struct(vals=vals, weights=weights) | sfepy.base.base.Struct |
"""
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 ... | Struct(kind='strip') | sfepy.base.base.Struct |
"""
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 ... | Struct(name='evaluate_cache') | sfepy.base.base.Struct |
"""
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 ... | create_geometry_elements() | sfepy.discrete.fem.geometry_element.create_geometry_elements |
"""
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 ... | VolumeMapping(coors, conn, poly_space=geo_ps) | sfepy.discrete.fem.mappings.VolumeMapping |
"""
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('%d region facets are not on the domain surface!' % n_ns) | 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 ... | get_min_value(dofs) | sfepy.discrete.fem.utils.get_min_value |
"""
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 ... | get_min_value(dofs.real) | sfepy.discrete.fem.utils.get_min_value |
"""
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 ... | assert_(self.approx_order > 0) | sfepy.base.base.assert_ |
"""
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 ... | SurfaceMapping(coors, conn, poly_space=geo_ps) | sfepy.discrete.fem.mappings.SurfaceMapping |
"""
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 ... | get_min_value(dofs.imag) | sfepy.discrete.fem.utils.get_min_value |
"""
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 ... | Struct(n_nod=bf.shape[-1]) | sfepy.base.base.Struct |
"""
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 ... | Struct(n_nod=bf.shape[-1]) | sfepy.base.base.Struct |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | plt.figure(fig_num) | sfepy.base.plotutils.plt.figure |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | plt.figure(fig_num) | sfepy.base.plotutils.plt.figure |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | plt.figure(fig_num) | sfepy.base.plotutils.plt.figure |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | plt.show() | sfepy.base.plotutils.plt.show |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | plt.show() | sfepy.base.plotutils.plt.show |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | plt.show() | sfepy.base.plotutils.plt.show |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | Struct(incident_wave_dir=incident_wave_dir) | sfepy.base.base.Struct |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | HomogenizationApp.setup_options(self) | sfepy.homogenization.homogen_app.HomogenizationApp.setup_options |
from __future__ import absolute_import
import os.path as op
import shutil
import numpy as nm
from sfepy.base.base import ordered_iteritems, output, set_defaults, assert_
from sfepy.base.base import Struct
from sfepy.homogenization.engine import HomogenizationEngine
from sfepy.homogenization.homogen_app import Homogen... | plt.rcParams.update(plot_rsc['params']) | sfepy.base.plotutils.plt.rcParams.update |
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