/usr/lib/python2.7/dist-packages/ufl/coefficient.py is in python-ufl 2016.2.0-2.
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"""This module defines the Coefficient class and a number
of related classes, including Constant."""
# Copyright (C) 2008-2016 Martin Sandve Alnæs
#
# This file is part of UFL.
#
# UFL is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# UFL is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with UFL. If not, see <http://www.gnu.org/licenses/>.
#
# Modified by Anders Logg, 2008-2009.
# Modified by Massimiliano Leoni, 2016.
from ufl.utils.py23 import as_native_str
from ufl.log import error
from ufl.core.ufl_type import ufl_type
from ufl.core.terminal import FormArgument
from ufl.finiteelement import FiniteElementBase, FiniteElement, VectorElement, TensorElement
from ufl.domain import as_domain, default_domain
from ufl.functionspace import AbstractFunctionSpace, FunctionSpace
from ufl.split_functions import split
from ufl.utils.counted import counted_init
# --- The Coefficient class represents a coefficient in a form ---
@ufl_type()
class Coefficient(FormArgument):
"""UFL form argument type: Representation of a form coefficient."""
# Slots are disabled here because they cause trouble in PyDOLFIN
# multiple inheritance pattern:
# __slots__ = ("_count", "_ufl_function_space", "_repr", "_ufl_shape")
_ufl_noslots_ = True
_globalcount = 0
def __init__(self, function_space, count=None):
FormArgument.__init__(self)
counted_init(self, count, Coefficient)
if isinstance(function_space, FiniteElementBase):
# For legacy support for .ufl files using cells, we map
# the cell to The Default Mesh
element = function_space
domain = default_domain(element.cell())
function_space = FunctionSpace(domain, element)
elif not isinstance(function_space, AbstractFunctionSpace):
error("Expecting a FunctionSpace or FiniteElement.")
self._ufl_function_space = function_space
self._ufl_shape = function_space.ufl_element().value_shape()
self._repr = as_native_str("Coefficient(%s, %s)" % (
repr(self._ufl_function_space), repr(self._count)))
def count(self):
return self._count
@property
def ufl_shape(self):
"Return the associated UFL shape."
return self._ufl_shape
def ufl_function_space(self):
"Get the function space of this coefficient."
return self._ufl_function_space
def ufl_domain(self):
"Shortcut to get the domain of the function space of this coefficient."
return self._ufl_function_space.ufl_domain()
def ufl_element(self):
"Shortcut to get the finite element of the function space of this coefficient."
return self._ufl_function_space.ufl_element()
# def element(self):
# "Deprecated, please use Coefficient.ufl_element() instead."
# deprecate("Coefficient.element() is deprecated, please use Coefficient.ufl_element() instead.")
# return self.ufl_element()
def is_cellwise_constant(self):
"Return whether this expression is spatially constant over each cell."
return self.ufl_element().is_cellwise_constant()
def ufl_domains(self):
"Return tuple of domains related to this terminal object."
return self._ufl_function_space.ufl_domains()
def _ufl_signature_data_(self, renumbering):
"Signature data for form arguments depend on the global numbering of the form arguments and domains."
count = renumbering[self]
fsdata = self._ufl_function_space._ufl_signature_data_(renumbering)
return ("Coefficient", count, fsdata)
def __str__(self):
count = str(self._count)
if len(count) == 1:
return "w_%s" % count
else:
return "w_{%s}" % count
def __repr__(self):
return self._repr
def __eq__(self, other):
if not isinstance(other, Coefficient):
return False
if self is other:
return True
return (self._count == other._count and
self._ufl_function_space == other._ufl_function_space)
# --- Helper functions for defining constant coefficients without
# --- specifying element ---
def Constant(domain, count=None):
"""UFL value: Represents a globally constant scalar valued coefficient."""
domain = as_domain(domain)
element = FiniteElement("Real", domain.ufl_cell(), 0)
fs = FunctionSpace(domain, element)
return Coefficient(fs, count=count)
def VectorConstant(domain, dim=None, count=None):
"""UFL value: Represents a globally constant vector valued coefficient."""
domain = as_domain(domain)
element = VectorElement("Real", domain.ufl_cell(), 0, dim)
fs = FunctionSpace(domain, element)
return Coefficient(fs, count=count)
def TensorConstant(domain, shape=None, symmetry=None, count=None):
"""UFL value: Represents a globally constant tensor valued coefficient."""
domain = as_domain(domain)
element = TensorElement("Real", domain.ufl_cell(), 0, shape=shape,
symmetry=symmetry)
fs = FunctionSpace(domain, element)
return Coefficient(fs, count=count)
# --- Helper functions for subfunctions on mixed elements ---
def Coefficients(function_space):
"""UFL value: Create a Coefficient in a mixed space, and return a
tuple with the function components corresponding to the subelements."""
return split(Coefficient(function_space))
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