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OPAL (Object Oriented Parallel Accelerator Library)
2.2.0
OPAL
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Classes | |
| class | DifferentialOperator |
| class | DifferentialOperatorTwo |
| class | Polynomial |
| class | PolynomialSum |
| class | RecursionRelation |
| class | RecursionRelationTwo |
Functions | |
| bool | operator< (const TwoPolynomial &left, const TwoPolynomial &right) |
| bool | operator== (const TwoPolynomial &left, const TwoPolynomial &right) |
DifferentialOperator describes a differential operator in terms of
polynomial coefficients.
Class category: AbsBeamline
Author: Martin Duy Tat
A differential operator is a linear sum of operators in the form
\[p(x)\frac{\partial^n}{\partial x^n}\frac{\partial^m}{\partial s^m}\]
,
and the polynomials p(x) are stored in a n by m list.
DifferentialOperatorTwo describes a differential operator in terms of
polynomial coefficients. The polynomials have two variables x and S(s).
Class category: AbsBeamline
Author: Martin Duy Tat
A differential operator is a linear sum of operators in the form
\[p(x, S(s))\frac{\partial^n}{\partial x^n} \frac{\partial^m}{\partial s^m}\]
,
and the polynomials p(x, S(s)) are stored in a n by m list.
Polynomial describes a polynomial of one variable.
Class category: AbsBeamline
Author: Martin Duy Tat
The polynomial
\[p(x) = a_0 + a_1x + ... + a_nx^n \]
is stored as a
list (a_0, a_1, ..., a_n).
BUG: For large n the integer type might overflow. If you need this many
terms change all int to long int.
PolynomialSum describes a sum of TwoPolynomial objects.
Class category: AbsBeamline
Author: Martin Duy Tat
The polynomial of two variables
\[p(x) = a_{00} + a_{10}x + a_{11}xS(s) + ... + a_{nm}x^nS(s)^m \]
cannot be summed with other polynomials
unless all the powers of S(s)-derivatives are identical.
Instead all terms are just stored seperately in a list.
RecursionRelation describes the differential operator used to find the
coefficients in the expansion of the magnetic scalar potential
It contains member functions for extracting all information required to
reconstruct the differential operator and evaluate its terms.
Class category: AbsBeamline
Author: Martin Duy Tat
The operator of interest is
\begin{eqnarray*} { \Big(\frac{1}{\rho(1 &+& x/\rho)}\frac{\partial}{\partial x} + \frac{\partial^2}{\partial x^2} &+& \frac{1}{(1 + x/\rho)^2}\frac{\partial^2}{\partial s^2}\Big)^n \end{eqnarray*}
and it can be initialised to any power of x and up to any n.
RecursionRelationTwo describes the differential operator used to find
the coefficients in the expansion of the magnetic scalar potential. It
contains member functions for extracting all information required to
reconstruct the differential operator and evaluate its terms.
Class category: AbsBeamline
Author: Martin Duy Tat
The operator of interest is
\begin{eqnarray*} { \Big(\frac{1}{\rho(s)(1 &+& x/\rho(s))}\frac{\partial}{\partial x} + \frac{\partial^2}{\partial x^2} &+& \frac{1}{1 + x/\rho(s)}\frac{\partial}{\partial s}\Big(\frac{1}{1 + x/\rho(s)}\frac{\partial}{\partial s}\Big)\Big)^n \end{eqnarray*}
and it can be initialised to any power of x and up to any n.
| bool polynomial::operator< | ( | const TwoPolynomial & | left, |
| const TwoPolynomial & | right | ||
| ) |
Definition at line 375 of file TwoPolynomial.cpp.
References Hypervolume::n.
| bool polynomial::operator== | ( | const TwoPolynomial & | left, |
| const TwoPolynomial & | right | ||
| ) |
Definition at line 396 of file TwoPolynomial.cpp.
1.8.5