opencv/modules/optim/include/opencv2/optim.hpp
Alex Leontiev 0324932fb3 Added the copyright statements
Added the copyrights missing in all files that required so.
2013-09-30 18:53:32 +08:00

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4.9 KiB
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/*M///////////////////////////////////////////////////////////////////////////////////////
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#ifndef __OPENCV_OPTIM_HPP__
#define __OPENCV_OPTIM_HPP__
#include "opencv2/core.hpp"
namespace cv{namespace optim
{
class CV_EXPORTS Solver : public Algorithm
{
public:
class CV_EXPORTS Function
{
public:
virtual ~Function() {}
virtual double calc(const double* x) const = 0;
virtual void getGradient(const double* /*x*/,double* /*grad*/) {}
};
virtual Ptr<Function> getFunction() const = 0;
virtual void setFunction(const Ptr<Function>& f) = 0;
virtual TermCriteria getTermCriteria() const = 0;
virtual void setTermCriteria(const TermCriteria& termcrit) = 0;
// x contain the initial point before the call and the minima position (if algorithm converged) after. x is assumed to be (something that
// after getMat() will return) row-vector or column-vector. *It's size and should
// be consisted with previous dimensionality data given, if any (otherwise, it determines dimensionality)*
virtual double minimize(InputOutputArray x) = 0;
};
//! downhill simplex class
class CV_EXPORTS DownhillSolver : public Solver
{
public:
//! returns row-vector, even if the column-vector was given
virtual void getInitStep(OutputArray step) const=0;
//!This should be called at least once before the first call to minimize() and step is assumed to be (something that
//! after getMat() will return) row-vector or column-vector. *It's dimensionality determines the dimensionality of a problem.*
virtual void setInitStep(InputArray step)=0;
};
// both minRange & minError are specified by termcrit.epsilon; In addition, user may specify the number of iterations that the algorithm does.
CV_EXPORTS_W Ptr<DownhillSolver> createDownhillSolver(const Ptr<Solver::Function>& f=Ptr<Solver::Function>(),
InputArray initStep=Mat_<double>(1,1,0.0),
TermCriteria termcrit=TermCriteria(TermCriteria::MAX_ITER+TermCriteria::EPS,5000,0.000001));
//! conjugate gradient method
class CV_EXPORTS ConjGradSolver : public Solver{
};
CV_EXPORTS_W Ptr<ConjGradSolver> createConjGradSolver(const Ptr<Solver::Function>& f=Ptr<ConjGradSolver::Function>(),
TermCriteria termcrit=TermCriteria(TermCriteria::MAX_ITER+TermCriteria::EPS,5000,0.000001));
//!the return codes for solveLP() function
enum
{
SOLVELP_UNBOUNDED = -2, //problem is unbounded (target function can achieve arbitrary high values)
SOLVELP_UNFEASIBLE = -1, //problem is unfeasible (there are no points that satisfy all the constraints imposed)
SOLVELP_SINGLE = 0, //there is only one maximum for target function
SOLVELP_MULTI = 1 //there are multiple maxima for target function - the arbitrary one is returned
};
CV_EXPORTS_W int solveLP(const Mat& Func, const Mat& Constr, Mat& z);
CV_EXPORTS_W void denoise_TVL1(const std::vector<Mat>& observations,Mat& result, double lambda=1.0, int niters=30);
}}// cv
#endif