def _integrate_exact(f, quadrilateral):
xi = sympy.DeferredVector('xi')
pxi = quadrilateral[0] * 0.25*(1.0 + xi[0])*(1.0 + xi[1]) \
+ quadrilateral[1] * 0.25*(1.0 - xi[0])*(1.0 + xi[1]) \
+ quadrilateral[2] * 0.25*(1.0 - xi[0])*(1.0 - xi[1]) \
+ quadrilateral[3] * 0.25*(1.0 + xi[0])*(1.0 - xi[1])
pxi = [
sympy.expand(pxi[0]),
sympy.expand(pxi[1]),
]
# determinant of the transformation matrix
det_J = \
+ sympy.diff(pxi[0], xi[0]) * sympy.diff(pxi[1], xi[1]) \
- sympy.diff(pxi[1], xi[0]) * sympy.diff(pxi[0], xi[1])
# we cannot use abs(), see <https://github.com/sympy/sympy/issues/4212>.
abs_det_J = sympy.Piecewise((det_J, det_J >= 0), (-det_J, det_J < 0))
g_xi = f(pxi)
exact = sympy.integrate(
sympy.integrate(abs_det_J * g_xi, (xi[1], -1, 1)),
(xi[0], -1, 1)
)
return float(exact)
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