"""The Integral class."""
# Copyright (C) 2008-2016 Martin Sandve Alnæs
#
# This file is part of UFL (https://www.fenicsproject.org)
#
# SPDX-License-Identifier: LGPL-3.0-or-later
#
# Modified by Anders Logg, 2008-2009
# Modified by Massimiliano Leoni, 2016.
import ufl
from ufl.checks import is_python_scalar, is_scalar_constant_expression
from ufl.core.expr import Expr
from ufl.protocols import id_or_none
# Export list for ufl.classes
__all_classes__ = ["Integral"]
[docs]class Integral(object):
"""An integral over a single domain."""
__slots__ = (
"_integrand",
"_integral_type",
"_ufl_domain",
"_subdomain_id",
"_metadata",
"_subdomain_data",
)
def __init__(self, integrand, integral_type, domain, subdomain_id, metadata, subdomain_data):
"""Initialise."""
if not isinstance(integrand, Expr):
raise ValueError("Expecting integrand to be an Expr instance.")
self._integrand = integrand
self._integral_type = integral_type
self._ufl_domain = domain
self._subdomain_id = subdomain_id
self._metadata = metadata
self._subdomain_data = subdomain_data
[docs] def reconstruct(
self,
integrand=None,
integral_type=None,
domain=None,
subdomain_id=None,
metadata=None,
subdomain_data=None,
):
"""Construct a new Integral object with some properties replaced with new values.
Example:
<a = Integral instance>
b = a.reconstruct(expand_compounds(a.integrand()))
c = a.reconstruct(metadata={'quadrature_degree':2})
"""
if integrand is None:
integrand = self.integrand()
if integral_type is None:
integral_type = self.integral_type()
if domain is None:
domain = self.ufl_domain()
if subdomain_id is None:
subdomain_id = self.subdomain_id()
if metadata is None:
metadata = self.metadata()
if subdomain_data is None:
subdomain_data = self._subdomain_data
return Integral(integrand, integral_type, domain, subdomain_id, metadata, subdomain_data)
[docs] def integrand(self):
"""Return the integrand expression, which is an ``Expr`` instance."""
return self._integrand
[docs] def integral_type(self):
"""Return the domain type of this integral."""
return self._integral_type
[docs] def ufl_domain(self):
"""Return the integration domain of this integral."""
return self._ufl_domain
[docs] def subdomain_id(self):
"""Return the subdomain id of this integral."""
return self._subdomain_id
[docs] def subdomain_data(self):
"""Return the domain data of this integral."""
return self._subdomain_data
def __neg__(self):
"""Negate."""
return self.reconstruct(-self._integrand)
def __mul__(self, scalar):
"""Multiply."""
if not is_python_scalar(scalar):
raise ValueError("Cannot multiply an integral with non-constant values.")
return self.reconstruct(scalar * self._integrand)
def __rmul__(self, scalar):
"""Multiply."""
if not is_scalar_constant_expression(scalar):
raise ValueError(
"An integral can only be multiplied by a globally constant scalar expression."
)
return self.reconstruct(scalar * self._integrand)
def __str__(self):
"""Format as a string."""
fmt = "{ %s } * %s(%s[%s], %s)"
mname = ufl.measure.integral_type_to_measure_name[self._integral_type]
s = fmt % (self._integrand, mname, self._ufl_domain, self._subdomain_id, self._metadata)
return s
def __repr__(self):
"""Representation."""
return (
f"Integral({self._integrand!r}, {self._integral_type!r}, {self._ufl_domain!r}, "
f"{self._subdomain_id!r}, {self._metadata!r}, {self._subdomain_data!r})"
)
def __eq__(self, other):
"""Check equality."""
return (
isinstance(other, Integral)
and self._integral_type == other._integral_type
and self._ufl_domain == other._ufl_domain
and self._subdomain_id == other._subdomain_id
and self._integrand == other._integrand
and self._metadata == other._metadata
and id_or_none(self._subdomain_data) == id_or_none(other._subdomain_data)
)
def __hash__(self):
"""Hash."""
# Assuming few collisions by ignoring hash(self._metadata) (a
# dict is not hashable but we assume it is immutable in
# practice)
hashdata = (
hash(self._integrand),
self._integral_type,
hash(self._ufl_domain),
self._subdomain_id,
id_or_none(self._subdomain_data),
)
return hash(hashdata)