opencv/modules/optim/test/test_conjugate_gradient.cpp

#include "test_precomp.hpp"
#include <cstdlib>

static void mytest(cv::Ptr<cv::optim::ConjGradSolver> solver,cv::Ptr<cv::optim::Solver::Function> ptr_F,cv::Mat& x,
        cv::Mat& etalon_x,double etalon_res){
    solver->setFunction(ptr_F);
    //int ndim=MAX(step.cols,step.rows);
    double res=solver->minimize(x);
    std::cout<<"res:\n\t"<<res<<std::endl;
    std::cout<<"x:\n\t"<<x<<std::endl;
    std::cout<<"etalon_res:\n\t"<<etalon_res<<std::endl;
    std::cout<<"etalon_x:\n\t"<<etalon_x<<std::endl;
    double tol=solver->getTermCriteria().epsilon;
    ASSERT_TRUE(std::abs(res-etalon_res)<tol);
    /*for(cv::Mat_<double>::iterator it1=x.begin<double>(),it2=etalon_x.begin<double>();it1!=x.end<double>();it1++,it2++){
        ASSERT_TRUE(std::abs((*it1)-(*it2))<tol);
    }*/
    std::cout<<"--------------------------\n";
}

class SphereF:public cv::optim::Solver::Function{
public:
    double calc(const double* x)const{
        return x[0]*x[0]+x[1]*x[1]+x[2]*x[2]+x[3]*x[3];
    }
    void getGradient(const double* x,double* grad){
        for(int i=0;i<4;i++){
            grad[i]=2*x[i];
        }
    }
};
class RosenbrockF:public cv::optim::Solver::Function{
    double calc(const double* x)const{
        return 100*(x[1]-x[0]*x[0])*(x[1]-x[0]*x[0])+(1-x[0])*(1-x[0]);
    }
    void getGradient(const double* x,double* grad){
            grad[0]=-2*(1-x[0])-400*(x[1]-x[0]*x[0])*x[0];
            grad[1]=200*(x[1]-x[0]*x[0]);
    }
};

TEST(Optim_ConjGrad, regression_basic){
    cv::Ptr<cv::optim::ConjGradSolver> solver=cv::optim::createConjGradSolver();
#if 1
    {
        cv::Ptr<cv::optim::Solver::Function> ptr_F(new SphereF());
        cv::Mat x=(cv::Mat_<double>(4,1)<<50.0,10.0,1.0,-10.0),
            etalon_x=(cv::Mat_<double>(1,4)<<0.0,0.0,0.0,0.0);
        double etalon_res=0.0;
        mytest(solver,ptr_F,x,etalon_x,etalon_res);
    }
#endif
#if 1
    {
        cv::Ptr<cv::optim::Solver::Function> ptr_F(new RosenbrockF());
        cv::Mat x=(cv::Mat_<double>(2,1)<<0.0,0.0),
            etalon_x=(cv::Mat_<double>(2,1)<<1.0,1.0);
        double etalon_res=0.0;
        mytest(solver,ptr_F,x,etalon_x,etalon_res);
    }
#endif
}
Refined interface for Conjugate Gradient Some interface was refined (most notably, the method for returning Hessian was removed and the method for getting gradient was added as optional to base Solver::Function class) and basic code for setters/getters was added. Now is the time for the real work on an algorithm. 11 years ago			`#include "test_precomp.hpp"`
			`#include <cstdlib>`

			`static void mytest(cv::Ptr<cv::optim::ConjGradSolver> solver,cv::Ptr<cv::optim::Solver::Function> ptr_F,cv::Mat& x,`
			`cv::Mat& etalon_x,double etalon_res){`
			`solver->setFunction(ptr_F);`
			`//int ndim=MAX(step.cols,step.rows);`
			`double res=solver->minimize(x);`
			`std::cout<<"res:\n\t"<<res<<std::endl;`
			`std::cout<<"x:\n\t"<<x<<std::endl;`
			`std::cout<<"etalon_res:\n\t"<<etalon_res<<std::endl;`
			`std::cout<<"etalon_x:\n\t"<<etalon_x<<std::endl;`
			`double tol=solver->getTermCriteria().epsilon;`
			`ASSERT_TRUE(std::abs(res-etalon_res)<tol);`
			`/*for(cv::Mat_<double>::iterator it1=x.begin<double>(),it2=etalon_x.begin<double>();it1!=x.end<double>();it1++,it2++){`
			`ASSERT_TRUE(std::abs((it1)-(it2))<tol);`
			`}*/`
			`std::cout<<"--------------------------\n";`
			`}`

			`class SphereF:public cv::optim::Solver::Function{`
			`public:`
			`double calc(const double* x)const{`
			`return x[0]x[0]+x[1]x[1]+x[2]x[2]+x[3]x[3];`
			`}`
			`void getGradient(const double* x,double* grad){`
Finish implementing the Nonlinear Conjugate Gradient Now everything is prepared for the pull request. 11 years ago			`for(int i=0;i<4;i++){`
			`grad[i]=2*x[i];`
Refined interface for Conjugate Gradient Some interface was refined (most notably, the method for returning Hessian was removed and the method for getting gradient was added as optional to base Solver::Function class) and basic code for setters/getters was added. Now is the time for the real work on an algorithm. 11 years ago			`}`
			`}`
			`};`
Finish implementing the Nonlinear Conjugate Gradient Now everything is prepared for the pull request. 11 years ago			`class RosenbrockF:public cv::optim::Solver::Function{`
Refined interface for Conjugate Gradient Some interface was refined (most notably, the method for returning Hessian was removed and the method for getting gradient was added as optional to base Solver::Function class) and basic code for setters/getters was added. Now is the time for the real work on an algorithm. 11 years ago			`double calc(const double* x)const{`
			`return 100(x[1]-x[0]x[0])(x[1]-x[0]x[0])+(1-x[0])*(1-x[0]);`
			`}`
Finish implementing the Nonlinear Conjugate Gradient Now everything is prepared for the pull request. 11 years ago			`void getGradient(const double* x,double* grad){`
			`grad[0]=-2(1-x[0])-400(x[1]-x[0]x[0])x[0];`
			`grad[1]=200(x[1]-x[0]x[0]);`
			`}`
			`};`
Refined interface for Conjugate Gradient Some interface was refined (most notably, the method for returning Hessian was removed and the method for getting gradient was added as optional to base Solver::Function class) and basic code for setters/getters was added. Now is the time for the real work on an algorithm. 11 years ago
			`TEST(Optim_ConjGrad, regression_basic){`
			`cv::Ptr<cv::optim::ConjGradSolver> solver=cv::optim::createConjGradSolver();`
			`#if 1`
			`{`
			`cv::Ptr<cv::optim::Solver::Function> ptr_F(new SphereF());`
Finish implementing the Nonlinear Conjugate Gradient Now everything is prepared for the pull request. 11 years ago			`cv::Mat x=(cv::Mat_<double>(4,1)<<50.0,10.0,1.0,-10.0),`
			`etalon_x=(cv::Mat_<double>(1,4)<<0.0,0.0,0.0,0.0);`
Refined interface for Conjugate Gradient Some interface was refined (most notably, the method for returning Hessian was removed and the method for getting gradient was added as optional to base Solver::Function class) and basic code for setters/getters was added. Now is the time for the real work on an algorithm. 11 years ago			`double etalon_res=0.0;`
			`mytest(solver,ptr_F,x,etalon_x,etalon_res);`
			`}`
			`#endif`
Finish implementing the Nonlinear Conjugate Gradient Now everything is prepared for the pull request. 11 years ago			`#if 1`
Refined interface for Conjugate Gradient Some interface was refined (most notably, the method for returning Hessian was removed and the method for getting gradient was added as optional to base Solver::Function class) and basic code for setters/getters was added. Now is the time for the real work on an algorithm. 11 years ago			`{`
			`cv::Ptr<cv::optim::Solver::Function> ptr_F(new RosenbrockF());`
			`cv::Mat x=(cv::Mat_<double>(2,1)<<0.0,0.0),`
			`etalon_x=(cv::Mat_<double>(2,1)<<1.0,1.0);`
			`double etalon_res=0.0;`
Finish implementing the Nonlinear Conjugate Gradient Now everything is prepared for the pull request. 11 years ago			`mytest(solver,ptr_F,x,etalon_x,etalon_res);`
Refined interface for Conjugate Gradient Some interface was refined (most notably, the method for returning Hessian was removed and the method for getting gradient was added as optional to base Solver::Function class) and basic code for setters/getters was added. Now is the time for the real work on an algorithm. 11 years ago			`}`
			`#endif`
			`}`