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expression(3rheolef) expression(3rheolef)

NAME

expression - involved by interpolate and integrate (rheolef-7.2)

SYNOPSIS

template <class Expression>
field interpolate (const space& Xh, const Expression& expr);
template <class Expression>
Result integrate (const Expression& expr);

DESCRIPTION

The expressions involved by interpolate(3) and integrate(3) functions base on several predefined operators and functions that are reviewed here. Let phi, psi be two scalar-valued field(2) or test(2) objects. Similarly, let u, v be two vector-valued objects and sigma and tau be two tensor-valued objects. In the following table, the indexes i and j are summed from 0 to d-1 where d is the dimension of the physical geometry, as described by the geo(2) class.

c++ code                | mathematics          
------------------------+----------------------------------------------
dot(u,v)                | u.v = sum_i u_i v_i   
ddot(sigma,tau)         | sigma:tau = sum_ij sigma_ij tau_ij   
dddot(sigma,tau)        | A:.B = sum_ijk A_ijk B_ijk   
tr(sigma)               | sum_i sigma_ii
trans(sigma)            | sigma^T the transpose
sqr(phi), norm2(phi)    | phi^2
norm2(u)                | sum_i u_i^2
norm2(sigma)            | sum_ij sigma_ij^2
abs(phi), norm(phi)     | absolute value
norm(u)                 | sqrt(norm2(u))
norm(sigma)             | sqrt(norm2(sigma))
------------------------+----------------------------------------------
grad(phi)               | (d phi/d x_i)_i
grad(u)                 | (d u_i/d x_j)_ij
D(u)                    | (grad(u) + grad(u)^T)/2
div(u)                  | sum_i d u_i/d x_i = tr(D(u))
curl(phi)               | (d phi/d x_1, - d phi/d x_0) when d=2
curl(u)                 | grad^u when d=3
------------------------+----------------------------------------------
normal()                | n, the outward unit normal
grad_s(phi)             | P*grad(phi) where P = I - n otimes n
grad_s(u)               | grad(u)*P
Ds(u)                   | P*D(u)*P
div_s(u)                | tr(Ds(u))
------------------------+----------------------------------------------
grad_h(phi)             | grad(phi|K) broken gradient, piecewise
div_h(u)                | div(u|K)
Dh(u)                   | D(u|K)
------------------------+----------------------------------------------
jump(phi)               | [phi] = phi|K0 - phi|K1

| on an oriented side S = dK0 inter dK1 average(phi) | {phi} = (phi|K0 + phi|K1)/2 inner(phi) | phi|K0 outer(phi) | phi|K1 h_local() | meas(K)^(1/d) penalty() | max(meas(dK0)/meas(K0), meas(dK1)/meas(K1)) ------------------------+---------------------------------------------- sin, cos, tan, acos, | standard math function extended to field asin, atan, cosh, sinh, | and test functions tanh, log, log10, floor | ceil | pow(phi,psi) | atan2(phi,psi) | atan(psi/phi) fmod(phi,psi) | phi - floor(phi/psi+0.5)*psi min(phi,psi) | max(phi,psi) | ------------------------+---------------------------------------------- compose(f,phi) | f(phi), for a given function f compose(f,phi1,..,phin) | f(phi0,...,phin) compose(phi,X) | phi(X) for a characteristic X


See also compose(3) and characteristic(2) for details.

IMPLEMENTATION

The practical implementation of expressions involved by interpolate(3) and integrate(3) functions bases on two very classical C++ idioms: the expression template and the Substitution failure is not an error (SFINAE). These C++ idioms are described in the following book:

D. Vandevoorde and N. M. Josuttis, C++ templates: the complete guide, Addison-Wesley, 2002

AUTHOR

Pierre Saramito <Pierre.Saramito@imag.fr>

COPYRIGHT

Copyright (C) 2000-2018 Pierre Saramito <Pierre.Saramito@imag.fr> GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html>. This is free software: you are free to change and redistribute it. There is NO WARRANTY, to the extent permitted by law.

Version 7.2 rheolef