Reference documentation for deal.II version 9.3.0

#include <deal.II/base/polynomial.h>
Public Member Functions  
HermiteInterpolation (const unsigned int p)  
double  value (const double x) const 
void  value (const double x, std::vector< double > &values) const 
void  value (const Number2 x, const unsigned int n_derivatives, Number2 *values) const 
unsigned int  degree () const 
void  scale (const double factor) 
void  shift (const number2 offset) 
Polynomial< double >  derivative () const 
Polynomial< double >  primitive () const 
Polynomial< double > &  operator*= (const double s) 
Polynomial< double > &  operator*= (const Polynomial< double > &p) 
Polynomial< double > &  operator+= (const Polynomial< double > &p) 
Polynomial< double > &  operator= (const Polynomial< double > &p) 
bool  operator== (const Polynomial< double > &p) const 
void  print (std::ostream &out) const 
void  serialize (Archive &ar, const unsigned int version) 
virtual std::size_t  memory_consumption () const 
Subscriptor functionality  
Classes derived from Subscriptor provide a facility to subscribe to this object. This is mostly used by the SmartPointer class.  
void  subscribe (std::atomic< bool > *const validity, const std::string &identifier="") const 
void  unsubscribe (std::atomic< bool > *const validity, const std::string &identifier="") const 
unsigned int  n_subscriptions () const 
template<typename StreamType >  
void  list_subscribers (StreamType &stream) const 
void  list_subscribers () const 
Static Public Member Functions  
static std::vector< Polynomial< double > >  generate_complete_basis (const unsigned int p) 
static ::ExceptionBase &  ExcInUse (int arg1, std::string arg2, std::string arg3) 
static ::ExceptionBase &  ExcNoSubscriber (std::string arg1, std::string arg2) 
Protected Member Functions  
void  transform_into_standard_form () 
Static Protected Member Functions  
static void  scale (std::vector< double > &coefficients, const double factor) 
static void  shift (std::vector< double > &coefficients, const number2 shift) 
static void  multiply (std::vector< double > &coefficients, const double factor) 
Protected Attributes  
std::vector< double >  coefficients 
bool  in_lagrange_product_form 
std::vector< double >  lagrange_support_points 
double  lagrange_weight 
Polynomials for Hermite interpolation condition.
This is the set of polynomials of degree at least three, such that the following interpolation conditions are met: the polynomials and their first derivatives vanish at the values x=0 and x=1, with the exceptions p_{0}(0)=1, p_{1}(1)=1, p'_{2}(0)=1, p'_{3}(1)=1.
For degree three, we obtain the standard four Hermitian interpolation polynomials, see for instance Wikipedia. For higher degrees, these are augmented first, by the polynomial of degree four with vanishing values and derivatives at x=0 and x=1, then by the product of this fourth order polynomial with Legendre polynomials of increasing order. The implementation is
\begin{align*} p_0(x) &= 2x^33x^2+1 \\ p_1(x) &= 2x^3+3x^2 \\ p_2(x) &= x^32x^2+x \\ p_3(x) &= x^3x^2 \\ p_4(x) &= 16x^2(x1)^2 \\ \ldots & \ldots \\ p_k(x) &= x^2(x1)^2 L_{k4}(x) \end{align*}
Definition at line 586 of file polynomial.h.
Polynomials::HermiteInterpolation::HermiteInterpolation  (  const unsigned int  p  ) 
Constructor for polynomial with index p
. See the class documentation on the definition of the sequence of polynomials.
Definition at line 1056 of file polynomial.cc.

static 
Return the polynomials with index 0
up to p+1
in a space of degree up to p
. Here, p
has to be at least 3.
Definition at line 1108 of file polynomial.cc.

inlineinherited 
Return the value of this polynomial at the given point.
This function uses the most numerically stable evaluation algorithm for the provided form of the polynomial. If the polynomial is in the product form of roots, the evaluation is based on products of the form (x  x_i), whereas the Horner scheme is used for polynomials in the coefficient form.
Definition at line 797 of file polynomial.h.

inherited 
Return the values and the derivatives of the Polynomial at point x
. values[i], i=0,...,values.size()1
includes the i
th derivative. The number of derivatives to be computed is thus determined by the size of the array passed.
This function uses the Horner scheme for numerical stability of the evaluation for polynomials in the coefficient form or the product of terms involving the roots if that representation is used.
Definition at line 100 of file polynomial.cc.

inlineinherited 
Return the values and the derivatives of the Polynomial at point x
. values[i], i=0,...,n_derivatives
includes the i
th derivative. The number of derivatives to be computed is determined by n_derivatives
and values
has to provide sufficient space for n_derivatives
+ 1 values.
This function uses the most numerically stable evaluation algorithm for the provided form of the polynomial. If the polynomial is in the product form of roots, the evaluation is based on products of the form (x  x_i), whereas the Horner scheme is used for polynomials in the coefficient form.
The template type Number2
must implement arithmetic operations such as additions or multiplication with the type number
of the polynomial, and must be convertible from number
by operator=
.
Definition at line 827 of file polynomial.h.

inlineinherited 
Degree of the polynomial. This is the degree reflected by the number of coefficients provided by the constructor. Leading nonzero coefficients are not treated separately.
Definition at line 780 of file polynomial.h.

inherited 
Scale the abscissa of the polynomial. Given the polynomial p(t) and the scaling t = ax, then the result of this operation is the polynomial q, such that q(x) = p(t).
The operation is performed in place.
Definition at line 165 of file polynomial.cc.

staticprotectedinherited 
This function performs the actual scaling.
Definition at line 148 of file polynomial.cc.

inherited 
Shift the abscissa oft the polynomial. Given the polynomial p(t) and the shift t = x + a, then the result of this operation is the polynomial q, such that q(x) = p(t).
The template parameter allows to compute the new coefficients with higher accuracy, since all computations are performed with type number2
. This may be necessary, since this operation involves a big number of additions. On a Sun Sparc Ultra with Solaris 2.8, the difference between double
and long double
was not significant, though.
The operation is performed in place, i.e. the coefficients of the present object are changed.
Definition at line 439 of file polynomial.cc.

staticprotectedinherited 
This function performs the actual shift
Definition at line 377 of file polynomial.cc.

inherited 
Compute the derivative of a polynomial.
Definition at line 458 of file polynomial.cc.

inherited 
Compute the primitive of a polynomial. the coefficient of the zero order term of the polynomial is zero.
Definition at line 487 of file polynomial.cc.

inherited 
Multiply with a scalar.
Definition at line 203 of file polynomial.cc.

inherited 
Multiply with another polynomial.
Definition at line 221 of file polynomial.cc.

inherited 
Add a second polynomial.
Definition at line 268 of file polynomial.cc.

inherited 
Subtract a second polynomial.
Definition at line 310 of file polynomial.cc.

inherited 
Test for equality of two polynomials.
Definition at line 346 of file polynomial.cc.

inherited 
Print coefficients.
Definition at line 514 of file polynomial.cc.

inlineinherited 
Write or read the data of this object to or from a stream for the purpose of serialization using the BOOST serialization library.
Definition at line 962 of file polynomial.h.

virtualinherited 
Return an estimate (in bytes) for the memory consumption of this object.
Definition at line 533 of file polynomial.cc.

staticprotectedinherited 
Multiply polynomial by a factor.
Definition at line 190 of file polynomial.cc.

protectedinherited 
Transform polynomial form of product of linear factors into standard form, \(\sum_i a_i x^i\). Deletes all data structures related to the product form.
Definition at line 111 of file polynomial.cc.

inherited 
Subscribes a user of the object by storing the pointer validity
. The subscriber may be identified by text supplied as identifier
.
Definition at line 136 of file subscriptor.cc.

inherited 
Unsubscribes a user from the object.
identifier
and the validity
pointer must be the same as the one supplied to subscribe(). Definition at line 156 of file subscriptor.cc.

inlineinherited 
Return the present number of subscriptions to this object. This allows to use this class for reference counted lifetime determination where the last one to unsubscribe also deletes the object.
Definition at line 301 of file subscriptor.h.

inlineinherited 
List the subscribers to the input stream
.
Definition at line 318 of file subscriptor.h.

inherited 
List the subscribers to deallog
.
Definition at line 204 of file subscriptor.cc.

protectedinherited 
Coefficients of the polynomial \(\sum_i a_i x^i\). This vector is filled by the constructor of this class and may be passed down by derived classes.
This vector cannot be constant since we want to allow copying of polynomials.
Definition at line 282 of file polynomial.h.

protectedinherited 
Stores whether the polynomial is in Lagrange product form, i.e., constructed as a product \((xx_0) (xx_1) \ldots (xx_n)/c\), or not.
Definition at line 288 of file polynomial.h.

protectedinherited 
If the polynomial is in Lagrange product form, i.e., constructed as a product \((xx_0) (xx_1) \ldots (xx_n)/c\), store the shifts \(x_i\).
Definition at line 294 of file polynomial.h.

protectedinherited 
If the polynomial is in Lagrange product form, i.e., constructed as a product \((xx_0) (xx_1) \ldots (xx_n)/c\), store the weight c.
Definition at line 300 of file polynomial.h.