c2_quadratic_p< float_type > Class Template Reference

create a quadratic mapping of another functionfor example, given a c2_function f More...

#include <c2_function.hh>

Inheritance diagram for c2_quadratic_p< float_type >:

Public Member Functions
	c2_quadratic_p (float_type x0, float_type y0, float_type xcoef, float_type x2coef)
	Construct the operator. More...
void	reset (float_type x0, float_type y0, float_type xcoef, float_type x2coef)
	Modify the coefficients after construction. More...
virtual float_type	value_with_derivatives (float_type x, float_type *yprime, float_type *yprime2) const throw (c2_exception)
	get the value and derivatives. More...
Public Member Functions inherited from c2_function< float_type >
const std::string	cvs_header_vers () const
	get versioning information for the header file More...
const std::string	cvs_file_vers () const
	get versioning information for the source file More...
virtual	~c2_function ()
	destructor More...
float_type	operator() (float_type x) const throw (c2_exception)
	evaluate the function in the classic way, ignoring derivatives. More...
float_type	operator() (float_type x, float_type *yprime, float_type *yprime2) const throw (c2_exception)
	get the value and derivatives. More...
float_type	find_root (float_type lower_bracket, float_type upper_bracket, float_type start, float_type value, int *error=0, float_type *final_yprime=0, float_type *final_yprime2=0) const throw (c2_exception)
	solve f(x)==value very efficiently, with explicit knowledge of derivatives of the function More...
float_type	partial_integrals (std::vector< float_type > xgrid, std::vector< float_type > *partials=0, float_type abs_tol=1e-12, float_type rel_tol=1e-12, int derivs=2, bool adapt=true, bool extrapolate=true) const throw (c2_exception)
	for points in xgrid, adaptively return Integral[f(x),{x,xgrid[i],xgrid[i+1]}] and return in vector, along with sum More...
float_type	integral (float_type amin, float_type amax, std::vector< float_type > *partials=0, float_type abs_tol=1e-12, float_type rel_tol=1e-12, int derivs=2, bool adapt=true, bool extrapolate=true) const throw (c2_exception)
	a fully-automated integrator which uses the information provided by the get_sampling_grid() function to figure out what to do. More...
c2_piecewise_function_p < float_type > *	adaptively_sample (float_type amin, float_type amax, float_type abs_tol=1e-12, float_type rel_tol=1e-12, int derivs=2, std::vector< float_type > *xvals=0, std::vector< float_type > *yvals=0) const throw (c2_exception)
	create a c2_piecewise_function_p from c2_connector_function_p segments which is a representation of the parent function to the specified accuracy, but maybe much cheaper to evaluate More...
float_type	xmin () const
	return the lower bound of the domain for this function as set by set_domain() More...
float_type	xmax () const
	return the upper bound of the domain for this function as set by set_domain() More...
void	set_domain (float_type amin, float_type amax)
	set the domain for this function. More...
size_t	get_evaluations () const
	this is a counter owned by the function but which can be used to monitor efficiency of algorithms. More...
void	reset_evaluations () const
	reset the counter More...
void	increment_evaluations () const
	count evaluations More...
bool	check_monotonicity (const std::vector< float_type > &data, const char message[]) const throw (c2_exception)
	check that a vector is monotonic, throw an exception if not, and return a flag if it is reversed More...
virtual void	set_sampling_grid (const std::vector< float_type > &grid) throw (c2_exception)
	establish a grid of 'interesting' points on the function. More...
std::vector< float_type > *	get_sampling_grid_pointer () const
	get the sampling grid, which may be a null pointer More...
virtual void	get_sampling_grid (float_type amin, float_type amax, std::vector< float_type > &grid) const
	return the grid of 'interesting' points along this function which lie in the region requested More...
void	preen_sampling_grid (std::vector< float_type > *result) const
	clean up endpoints on a grid of points More...
void	refine_sampling_grid (std::vector< float_type > &grid, size_t refinement) const
	refine a grid by splitting each interval into more intervals More...
c2_function< float_type > &	normalized_function (float_type amin, float_type amax, float_type norm=1.0) const throw (c2_exception)
	create a new c2_function from this one which is normalized on the interval More...
c2_function< float_type > &	square_normalized_function (float_type amin, float_type amax, float_type norm=1.0) const throw (c2_exception)
	create a new c2_function from this one which is square-normalized on the interval More...
c2_function< float_type > &	square_normalized_function (float_type amin, float_type amax, const c2_function< float_type > &weight, float_type norm=1.0) const throw (c2_exception)
	create a new c2_function from this one which is square-normalized with the provided weight on the interval More...
c2_sum_p< float_type > &	operator+ (const c2_function< float_type > &rhs) const
	factory function to create a c2_sum_p from a regular algebraic expression. More...
c2_diff_p< float_type > &	operator- (const c2_function< float_type > &rhs) const
	factory function to create a c2_diff_p from a regular algebraic expression. More...
c2_product_p< float_type > &	operator* (const c2_function< float_type > &rhs) const
	factory function to create a c2_product_p from a regular algebraic expression. More...
c2_ratio_p< float_type > &	operator/ (const c2_function< float_type > &rhs) const
	factory function to create a c2_ratio_p from a regular algebraic expression. More...
c2_composed_function_p < float_type > &	operator() (const c2_function< float_type > &inner) const
	compose this function outside another. More...
float_type	get_trouble_point () const
	Find out where a calculation ran into trouble, if it got a nan. If the most recent computation did not return a nan, this is undefined. More...
void	claim_ownership () const
	increment our reference count. Destruction is only legal if the count is zero. More...
size_t	release_ownership_for_return () const throw (c2_exception)
	decrement our reference count. Do not destroy at zero. More...
void	release_ownership () const throw (c2_exception)
	decrement our reference count. If the count reaches zero, destroy ourself. More...
size_t	count_owners () const
	get the reference count, mostly for debugging More...
void	fill_fblock (c2_fblock< float_type > &fb) const throw (c2_exception)
	fill in a c2_fblock<float_type>... a shortcut for the integrator & sampler More...

Protected Member Functions
	c2_quadratic_p ()
Protected Member Functions inherited from c2_function< float_type >
	c2_function (const c2_function< float_type > &src)
	c2_function ()
virtual void	set_sampling_grid_pointer (std::vector< float_type > &grid)

Additional Inherited Members
Protected Attributes inherited from c2_function< float_type >
std::vector< float_type > *	sampling_grid
bool	no_overwrite_grid
float_type	fXMin
float_type	fXMax
size_t	evaluations
float_type	bad_x_point
	this point may be used to record where a calculation ran into trouble More...

Detailed Description

template<typename float_type>
class c2_quadratic_p< float_type >

create a quadratic mapping of another function

for example, given a c2_function f

c2_function<double> &F=c2_quadratic<double>(1.2, 2.0, 3.0, 4.0)(f);

produces a new c2_function F=2.0 + 3.0*(f-1.2) + 4.0*(f-1.2)^2

note that the parameters are overdetermined, but allows the flexibility of two different representations

The factory function c2_factory::quadratic() creates *new c2_quadratic_p

Definition at line 85 of file c2_function.hh.

Constructor & Destructor Documentation

template<typename float_type>

c2_quadratic_p< float_type >::c2_quadratic_p ( float_type  x0, float_type  y0, float_type  xcoef, float_type  x2coef  )

inline

Construct the operator.

Parameters

x0	the center around which the powers are computed
y0	the value of the function at x = x0
xcoef	the scale on the (x - x0) term
x2coef	the scale on the (x - x0)^2 term

Definition at line 1840 of file c2_function.hh.

                                                                                          : 
                c2_function<float_type>(), intercept(y0), center(x0), a(x2coef), b(xcoef) {}

template<typename float_type>

c2_quadratic_p< float_type >::c2_quadratic_p ( )

inlineprotected

Definition at line 1854 of file c2_function.hh.

{} // do not allow naked construction... it is usually an accident.

Member Function Documentation

template<typename float_type>

void c2_quadratic_p< float_type >::reset ( float_type  x0, float_type  y0, float_type  xcoef, float_type  x2coef  )

inline

Modify the coefficients after construction.

Parameters

x0	the new center around which the powers are computed
y0	the new value of the function at x = x0
xcoef	the new scale on the (x - x0) term
x2coef	the new scale on the (x - x0)^2 term

Definition at line 1847 of file c2_function.hh.

{ intercept=y0; center=x0; a=x2coef; b=xcoef; } 

template<typename float_type>

virtual float_type c2_quadratic_p< float_type >::value_with_derivatives ( float_type  x, float_type *  yprime, float_type *  yprime2  ) const throw ( c2_exception )

inlinevirtual

get the value and derivatives.

There is required checking for null pointers on the derivatives, and most implementations should operate faster if derivatives are not needed.

Parameters

[in]	x	the point at which to evaluate the function
[out]	yprime	the first derivative (if pointer is non-null)
[out]	yprime2	the second derivative (if pointer is non-null)

Returns

the value of the function

Implements c2_function< float_type >.

Definition at line 1848 of file c2_function.hh.

References test::x.

        { float_type dx=x-center; if(yprime) *yprime=2*a*dx+b; if(yprime2) *yprime2=2*a; return a*dx*dx+b*dx+intercept; }

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The documentation for this class was generated from the following file:

• c2_function.hh