29 void reset(
const geo& omega,
string approx);
31 idiststream&
get (idiststream& is,
field& uh);
32 odiststream&
put (odiststream& os,
const field& uh)
const;
36 bool stop (
const field& xh)
const {
return xh.max_abs() > 10; }
see the Float page for the full documentation
see the branch page for the full documentation
see the field page for the full documentation
see the geo page for the full documentation
see the problem page for the full documentation
see the space page for the full documentation
The combustion problem: class body for the Newton method.
The combustion problem: class body for the Newton method.
field derivative_trans_mult(const field &mrh) const
field derivative_solve(const field &mrh) const
field unmassify(const field &uh) const
bool stop(const field &xh) const
float_type space_dot(const field &xh, const field &yh) const
float_type dual_space_dot(const field &mrh, const field &msh) const
float_type parameter() const
field massify(const field &uh) const
field derivative_versus_parameter(const field &uh) const
odiststream & put(odiststream &os, const field &uh) const
form derivative(const field &uh) const
field initial(std::string restart="")
void set_parameter(float_type lambda1)
problem::determinant_type update_derivative(const field &uh) const
void reset(const geo &omega, string approx)
idiststream & get(idiststream &is, field &uh)
field residue(const field &uh) const
string parameter_name() const