prompt stringlengths 174 59.5k | completion stringlengths 7 228 | api stringlengths 12 64 |
|---|---|---|
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 |
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... | set_defaults(values, defaults) | sfepy.base.base.set_defaults |
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... | output(ii, gmin[0], gmax[0], '%.8f' % f0, '%.8f' % f1) | sfepy.base.base.output |
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... | output(' -> %s\n %s' %(kind_desc, ranges)) | sfepy.base.base.output |
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.tight_layout() | sfepy.base.plotutils.plt.tight_layout |
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.tight_layout() | sfepy.base.plotutils.plt.tight_layout |
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.tight_layout() | sfepy.base.plotutils.plt.tight_layout |
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... | set_defaults(val, defaults) | sfepy.base.base.set_defaults |
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... | output(ii, gmin[0], gmax[0], '%.8f' % f0, '%.8f' % f1) | sfepy.base.base.output |
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... | output(' -> %s\n %s' %(kind_desc, ranges[ig])) | sfepy.base.base.output |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Mesh.from_file(data_dir + '/meshes/2d/rectangle_tri.mesh') | sfepy.discrete.fem.Mesh.from_file |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | FEDomain('domain', mesh) | sfepy.discrete.fem.FEDomain |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | FieldVariable('u', 'unknown', field) | sfepy.discrete.FieldVariable |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | FieldVariable('v', 'test', field, primary_var_name='u') | sfepy.discrete.FieldVariable |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Material('f', val=[[0.02], [0.01]]) | sfepy.discrete.Material |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Integral('i', order=3) | sfepy.discrete.Integral |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Term.new('dw_volume_lvf(f.val, v)', integral, omega, f=f, v=v) | sfepy.terms.Term.new |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Equation('balance', t1 + t2) | sfepy.discrete.Equation |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Equations([eq]) | sfepy.discrete.Equations |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | ScipyDirect({}) | sfepy.solvers.ls.ScipyDirect |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | IndexedStruct() | sfepy.base.base.IndexedStruct |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Newton({}, lin_solver=ls, status=nls_status) | sfepy.solvers.nls.Newton |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Problem('elasticity', equations=eqs, nls=nls, ls=ls) | sfepy.discrete.Problem |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Viewer('linear_elasticity.vtk') | sfepy.postprocess.viewer.Viewer |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | stiffness_from_lame(dim=2, lam=1.0, mu=1.0) | sfepy.mechanics.matcoefs.stiffness_from_lame |
#!/usr/bin/env python
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
from sfepy.discrete import (FieldVariable, Material, Integral, Function,
... | Conditions([fix_u, shift_u]) | sfepy.discrete.conditions.Conditions |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('opt: iter: %d, of: %e (||ofg||: %e)' % (it, of, ofg_norm)) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | Timer() | sfepy.base.timing.Timer |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output(aux) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | pause('gradient checking done') | sfepy.base.base.pause |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('**********', ii, aofg[ii], dofg[ii]) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | OptimizationSolver.__init__(self, conf, **kwargs) | sfepy.solvers.solvers.OptimizationSolver.__init__ |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_logging_conf(conf) | sfepy.base.log.get_logging_conf |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | Struct(name='log_conf', **log) | sfepy.base.base.Struct |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(conf, self.conf) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(obj_fun, self.obj_fun) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(obj_fun_grad, self.obj_fun_grad) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(status, self.status) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(obj_args, self.obj_args) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('entering optimization loop...') | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | Timer() | sfepy.base.timing.Timer |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('status: %d' % ret) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('initial value: %.8e' % of0) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('current value: %.8e' % of) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('iterations: %d' % it) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | OptimizationSolver.__init__(self, conf, **kwargs) | sfepy.solvers.solvers.OptimizationSolver.__init__ |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(obj_fun, self.obj_fun) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(obj_fun_grad, self.obj_fun_grad) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(status, self.status) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | get_default(obj_args, self.obj_args) | sfepy.base.base.get_default |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | Timer(start=True) | sfepy.base.timing.Timer |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('full linesearch...') | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output(' -> alpha: %.8e' % alpha) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('warp: reducing step (%f)' % alpha) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('linesearch failed, continuing anyway') | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('%10s: %7.2f [s]' % (key, val[-1])) | sfepy.base.base.output |
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import output, get_default, pause, Struct
from sfepy.base.log import Log, get_logging_conf
from sfepy.base.timing import Timer
from sfepy.solvers.solvers import OptimizationSolver
import scipy.optimize as sopt
i... | output('backtracking: reducing step (%f)' % alpha) | sfepy.base.base.output |
"""
Module for handling state variables.
"""
import numpy as nm
from sfepy.base.base import Struct
class State(Struct):
"""
Class holding/manipulating the state variables and corresponding DOF
vectors.
Manipulating the state class changes the underlying variables, and
hence also the corresponding... | Struct.__init__(self, variables=variables, vec=vec, r_vec=None) | sfepy.base.base.Struct.__init__ |
from sfepy.terms.extmods import terms
from sfepy.terms.cache import DataCache
from sfepy.base.base import nm, pause, debug
class ExpHistoryDataCache(DataCache):
"""History for exponential decay convolution kernels.
The decay argument is F(\Delta t), F(t_0=0) is assumed to be 1.0.
"""
name = 'exp_histo... | DataCache.init_datas(self, ckey, self.shapes, zero=True) | sfepy.terms.cache.DataCache.init_datas |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | VolumeMapping(seq_coors, seq_conn, gel=gel, order=1) | sfepy.discrete.fem.mappings.VolumeMapping |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | PolySpace.any_from_args(None, gel, field.approx_order) | sfepy.discrete.fem.poly_spaces.PolySpace.any_from_args |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dim2sym(dim-1) | sfepy.mechanics.tensors.dim2sym |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | insert_strided_axis(el_disps, 1, bfg.shape[1]) | sfepy.linalg.insert_strided_axis |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dot_sequences(bfg, el_disps_qp) | sfepy.linalg.dot_sequences |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dot_sequences(mtx_f, mtx_f, 'ABT') | sfepy.linalg.dot_sequences |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dot_sequences(bfg[..., 0:1, :], bfg[..., 0:1, :], 'ATB') | sfepy.linalg.dot_sequences |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dot_sequences(bfg[..., 0:1, :], bfg[..., 1:2, :], 'ATB') | sfepy.linalg.dot_sequences |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dot_sequences(bfg[..., 1:2, :], bfg[..., 0:1, :], 'ATB') | sfepy.linalg.dot_sequences |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dot_sequences(bfg[..., 1:2, :], bfg[..., 1:2, :], 'ATB') | sfepy.linalg.dot_sequences |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dim2sym(dim) | sfepy.mechanics.tensors.dim2sym |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dot_sequences(mtx_t, fn, 'AB') | sfepy.linalg.dot_sequences |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | norm(t1) | sfepy.linalg.norm_l2_along_axis |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | norm(t2) | sfepy.linalg.norm_l2_along_axis |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | norm(n) | sfepy.linalg.norm_l2_along_axis |
from __future__ import absolute_import
import numpy as nm
from sfepy.base.base import assert_
from sfepy.linalg import norm_l2_along_axis as norm
from sfepy.linalg import dot_sequences, insert_strided_axis
from sfepy.discrete.fem.poly_spaces import PolySpace
from sfepy.discrete.fem.mappings import VolumeMapping
from s... | dot_sequences(mtx_t, fn, 'AB') | sfepy.linalg.dot_sequences |
import os.path as op
import numpy as nm
import sfepy
from sfepy.discrete.common import Field
import sfepy.discrete.common.global_interp as gi
from sfepy.base.testing import TestCommon
class Test(TestCommon):
@staticmethod
def from_conf(conf, options):
test = Test(conf=conf, options=options)
... | FEDomain('domain', mesh) | sfepy.discrete.fem.FEDomain |
"""Classes for probing values of Variables, for example, along a line."""
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import get_default, basestr, Struct
from sfepy.linalg import make_axis_rotation_matrix, norm_l2_along_axis
import six
def write_results(fi... | get_default(only_names, []) | sfepy.base.base.get_default |
"""Classes for probing values of Variables, for example, along a line."""
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import get_default, basestr, Struct
from sfepy.linalg import make_axis_rotation_matrix, norm_l2_along_axis
import six
def write_results(fi... | Struct(name='probe_data_header') | sfepy.base.base.Struct |
"""Classes for probing values of Variables, for example, along a line."""
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import get_default, basestr, Struct
from sfepy.linalg import make_axis_rotation_matrix, norm_l2_along_axis
import six
def write_results(fi... | Struct(name='probe_shared_evaluate_cache') | sfepy.base.base.Struct |
"""Classes for probing values of Variables, for example, along a line."""
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import get_default, basestr, Struct
from sfepy.linalg import make_axis_rotation_matrix, norm_l2_along_axis
import six
def write_results(fi... | read_array(fd, header.n_point, nc + 1, nm.float64) | sfepy.base.ioutils.read_array |
"""Classes for probing values of Variables, for example, along a line."""
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import get_default, basestr, Struct
from sfepy.linalg import make_axis_rotation_matrix, norm_l2_along_axis
import six
def write_results(fi... | Struct(close_limit=0.1, size_hint=None) | sfepy.base.base.Struct |
"""Classes for probing values of Variables, for example, along a line."""
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import get_default, basestr, Struct
from sfepy.linalg import make_axis_rotation_matrix, norm_l2_along_axis
import six
def write_results(fi... | Struct(name='probe_local_evaluate_cache') | sfepy.base.base.Struct |
"""Classes for probing values of Variables, for example, along a line."""
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import get_default, basestr, Struct
from sfepy.linalg import make_axis_rotation_matrix, norm_l2_along_axis
import six
def write_results(fi... | norm_l2_along_axis(points[1:] - points[:-1]) | sfepy.linalg.norm_l2_along_axis |
"""Classes for probing values of Variables, for example, along a line."""
from __future__ import absolute_import
import numpy as nm
import numpy.linalg as nla
from sfepy.base.base import get_default, basestr, Struct
from sfepy.linalg import make_axis_rotation_matrix, norm_l2_along_axis
import six
def write_results(fi... | make_axis_rotation_matrix(axis, angle) | sfepy.linalg.make_axis_rotation_matrix |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | UserMeshIO(mesh_hook) | sfepy.discrete.fem.meshio.UserMeshIO |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | get_standard_keywords() | sfepy.base.conf.get_standard_keywords |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | ProblemConf.from_file(__file__, required, other) | sfepy.base.conf.ProblemConf.from_file |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | Problem.from_conf(conf, init_equations=False) | sfepy.discrete.Problem.from_conf |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | output('matplotlib cannot be imported, printing raw data!') | sfepy.base.base.output |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | output(displacements) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | output(load) | sfepy.base.base.output |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | plt.xlabel('tension [kPa]') | sfepy.base.plotutils.plt.xlabel |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | plt.ylabel('displacement [mm]') | sfepy.base.plotutils.plt.ylabel |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | plt.grid(True) | sfepy.base.plotutils.plt.grid |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | plt.plot(load, val) | sfepy.base.plotutils.plt.plot |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | plt.show() | sfepy.base.plotutils.plt.show |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | stiffness_from_lame(dim=3, lam=5.769, mu=3.846) | sfepy.mechanics.matcoefs.stiffness_from_lame |
#!/usr/bin/env python
"""
Compare various elastic materials w.r.t. uniaxial tension/compression test.
Requires Matplotlib.
"""
from optparse import OptionParser
import sys
sys.path.append('.')
import numpy as nm
def define():
"""Define the problem to solve."""
from sfepy.discrete.fem.meshio import UserMeshIO... | plt.gcf() | sfepy.base.plotutils.plt.gcf |
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