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orange2022 / src / openslam_gmapping / include / gmapping / utils / dmatrix.h
#ifndef DMATRIX_HXX 
#define DMATRIX_HXX

#include <iostream>
#include <exception>
namespace GMapping {

class DNotInvertibleMatrixException: public std::exception {};
class DIncompatibleMatrixException: public std::exception {};
class DNotSquareMatrixException: public std::exception {};

template <class X> class DMatrix {
	public:
		DMatrix(int n=0,int m=0);
		~DMatrix();

		DMatrix(const DMatrix&);
		DMatrix& operator=(const DMatrix&);

		X * operator[](int i) {
			if ((*shares)>1) detach();
			return mrows[i];
		}

		const X * operator[](int i) const { return mrows[i]; }

		const X det() const;
		DMatrix inv() const;
		DMatrix transpose() const;
		DMatrix operator*(const DMatrix&) const;
		DMatrix operator+(const DMatrix&) const;
		DMatrix operator-(const DMatrix&) const;
		DMatrix operator*(const X&) const;

		int rows() const { return nrows; }
		int columns() const { return ncols; }

		void detach();

		static DMatrix I(int);

	protected:
		int nrows,ncols;
		X * elems;
		X ** mrows;

		int * shares;
};

template <class X> DMatrix<X>::DMatrix(int n,int m) {
	if (n<1) n=1;
	if (m<1) m=1;
	nrows=n;
	ncols=m;
	elems=new X[nrows*ncols];
	mrows=new X* [nrows];
	for (int i=0;i<nrows;i++) mrows[i]=elems+ncols*i;
	for (int i=0;i<nrows*ncols;i++) elems[i]=X(0);
	shares=new int;
	(*shares)=1;
}

template <class X> DMatrix<X>::~DMatrix() {
	if (--(*shares)) return;
	delete [] elems;
	delete [] mrows;
	delete shares;
}

template <class X> DMatrix<X>::DMatrix(const DMatrix& m) {
	shares=m.shares;
	elems=m.elems;
	nrows=m.nrows;
	ncols=m.ncols;
	mrows=m.mrows;
	(*shares)++;
}

template <class X> DMatrix<X>& DMatrix<X>::operator=(const DMatrix& m) {
	if (!--(*shares)) {
		delete [] elems;
		delete [] mrows;
		delete shares;
	}
	shares=m.shares;
	elems=m.elems;
	nrows=m.nrows;
	ncols=m.ncols;
	mrows=m.mrows;
	(*shares)++;
	return *this;
}

template <class X> DMatrix<X> DMatrix<X>::inv() const {
	if (nrows!=ncols) throw DNotInvertibleMatrixException();
	DMatrix<X> aux1(*this),aux2(I(nrows));
	aux1.detach();
	for (int i=0;i<nrows;i++) {
		int k=i;
		for (;k<nrows&&aux1.mrows[k][i]==X(0);k++);
		if (k>=nrows) throw DNotInvertibleMatrixException();
		X val=aux1.mrows[k][i];
		for (int j=0;j<nrows;j++) {
			aux1.mrows[k][j]=aux1.mrows[k][j]/val;
			aux2.mrows[k][j]=aux2.mrows[k][j]/val;
		}
		if (k!=i) {
			for (int j=0;j<nrows;j++) {
				X tmp=aux1.mrows[k][j];
				aux1.mrows[k][j]=aux1.mrows[i][j];
				aux1.mrows[i][j]=tmp;
				tmp=aux2.mrows[k][j];
				aux2.mrows[k][j]=aux2.mrows[i][j];
				aux2.mrows[i][j]=tmp;
			}
		}
		for (int j=0;j<nrows;j++)
			if (j!=i) {
				X tmp=aux1.mrows[j][i];
				for (int l=0;l<nrows;l++) {
					aux1.mrows[j][l]=aux1.mrows[j][l]-tmp*aux1.mrows[i][l];
					aux2.mrows[j][l]=aux2.mrows[j][l]-tmp*aux2.mrows[i][l];
				}
			}
	}
	return aux2;
}

template <class X> const X DMatrix<X>::det() const {
	if (nrows!=ncols) throw DNotSquareMatrixException();
	DMatrix<X> aux(*this);
	X d=X(1);
	aux.detach();
	for (int i=0;i<nrows;i++) {
		int k=i;
		for (;k<nrows&&aux.mrows[k][i]==X(0);k++);
		if (k>=nrows) return X(0);
		X val=aux.mrows[k][i];
		for (int j=0;j<nrows;j++) {
			aux.mrows[k][j]/=val;
		}
		d=d*val;
		if (k!=i) {
			for (int j=0;j<nrows;j++) {
				X tmp=aux.mrows[k][j];
				aux.mrows[k][j]=aux.mrows[i][j];
				aux.mrows[i][j]=tmp;
			}
			d=-d;	
		}
		for (int j=i+1;j<nrows;j++){
			X tmp=aux.mrows[j][i];
			if (!(tmp==X(0)) ){
				for (int l=0;l<nrows;l++) {
					aux.mrows[j][l]=aux.mrows[j][l]-tmp*aux.mrows[i][l];
				}
				//d=d*tmp;
			}		
		}
	}
	return d;
}

template <class X> DMatrix<X> DMatrix<X>::transpose() const {
	DMatrix<X> aux(ncols, nrows);
	for (int i=0; i<nrows; i++)
		for (int j=0; j<ncols; j++)
			aux[j][i]=mrows[i][j];
	return aux;
}

template <class X> DMatrix<X> DMatrix<X>::operator*(const DMatrix<X>& m) const {
	if (ncols!=m.nrows) throw DIncompatibleMatrixException();
	DMatrix<X> aux(nrows,m.ncols);
	for (int i=0;i<nrows;i++)
		for (int j=0;j<m.ncols;j++){
			X a=0;
			for (int k=0;k<ncols;k++)
				a+=mrows[i][k]*m.mrows[k][j];
			aux.mrows[i][j]=a;
		}
	return aux;
}

template <class X> DMatrix<X> DMatrix<X>::operator+(const DMatrix<X>& m) const {
	if (ncols!=m.ncols||nrows!=m.nrows) throw DIncompatibleMatrixException();
	DMatrix<X> aux(nrows,ncols);
	for (int i=0;i<nrows*ncols;i++) aux.elems[i]=elems[i]+m.elems[i];
	return aux;
}

template <class X> DMatrix<X> DMatrix<X>::operator-(const DMatrix<X>& m) const {
	if (ncols!=m.ncols||nrows!=m.nrows) throw DIncompatibleMatrixException();
	DMatrix<X> aux(nrows,ncols);
	for (int i=0;i<nrows*ncols;i++) aux.elems[i]=elems[i]-m.elems[i];
	return aux;
}

template <class X> DMatrix<X> DMatrix<X>::operator*(const X& e) const {
	DMatrix<X> aux(nrows,ncols);
	for (int i=0;i<nrows*ncols;i++) aux.elems[i]=elems[i]*e;
	return aux;
}

template <class X> void DMatrix<X>::detach() {
	DMatrix<X> aux(nrows,ncols);
	for (int i=0;i<nrows*ncols;i++) aux.elems[i]=elems[i];
	operator=(aux);
}

template <class X> DMatrix<X> DMatrix<X>::I(int n) {
	DMatrix<X> aux(n,n);
	for (int i=0;i<n;i++) aux[i][i]=X(1);
	return aux;
}

template <class X> std::ostream& operator<<(std::ostream& os, const DMatrix<X> &m) {
	os << "{";
	for (int i=0;i<m.rows();i++) {
		if (i>0) os << ",";
		os << "{";
		for (int j=0;j<m.columns();j++) {
			if (j>0) os << ",";
			os << m[i][j];
		}
		os << "}";
	}
	return os << "}";
}

}; //namespace GMapping 
#endif