【源代码】Image Deformation Using Moving Least Squares算法的实现

在参考https://code.google.com/p/imgwarp-opencv/的基础上，把mls图像变形算法进行了实现，但感觉效果不是很好。在此贴出源代码，希望有人其同探讨与对其改进。

原图像变形后图像

     关于像素值的复原：mls只讲变形后新坐标的位置，未谈到像素值如何还原（因为一般为整数坐标到实数的坐标）。前向映射与逆向映射2种方法我都试过，效果一般，网格明显。有没有更好的像素值复原办法呢？

关于本代码：对于控制点8个以上变形就会出错（有一点在轮廓内），如此图。不知是什么原因。

 

附代码（依赖于opencv）

/*****************************************************************************************头文件*******************************************************************/

#ifndef MLS_DEFORMATION_H

#define MLS_DEFORMATION_H

 

#include <vector>

#include <opencv2/core/core.hpp>

#include <opencv2/imgproc/imgproc.hpp>

#include <opencv2/highgui/highgui.hpp>

 

 

class MLSDeformation

{

public:

virtual bool InitMLSD(const cv::Mat& oriImg,const std::vector<cv::Point2i>& src_pt,int alpha=1, int gridsize=5);

virtual cv::Mat Deformation(const std::vector<cv::Point2i> &dst_pt)=0;

explicit MLSDeformation();

virtual ~MLSDeformation();

protected:

cv::Mat getDeformationImg();

void meanMat(cv::Mat& mat, int i, int j);//对mat(i,j)进行gridsize的中值（当mean为空时），不包括像素为空的坐标

void repairMat(cv::Mat& mat);//变形后的mat有些位置没有像素点，使用中值滤波填补

int gridsize_;

int alpha_;///weight_计算相关

int n_point_;///控制点数

cv::Mat src_img_;//原图像

int src_width_;

int src_height_;

std::vector<cv::Point2d> pi_point_;//原控制点

std::vector<cv::Point2d> qi_point_;//变形后的控制点

///参数信息

double *weight_;//权重 w*h*pt

double *sum_weight_;//w*h

cv::Point2d *deformation_pt_;//对应目标坐标

cv::Point2d pstart_, qstart_;

std::vector<cv::Point2d> pdiff_, qdiff_;

};

 

class MLSDAffine :public MLSDeformation

{

public:

virtual bool InitMLSD(const cv::Mat& oriImg,const std::vector<cv::Point2i>& src_pt,int alpha=1, int gridsize=5);

virtual cv::Mat Deformation(const std::vector<cv::Point2i> &dst_pt);

explicit MLSDAffine();

virtual ~MLSDAffine();

private:

double *a_affine_;///affine A参数

};

 

class MLSDSimilarity :public MLSDeformation

{

public:

virtual bool InitMLSD(const cv::Mat& oriImg,const std::vector<cv::Point2i>& src_pt,int alpha=1, int gridsize=5);

virtual cv::Mat Deformation(const std::vector<cv::Point2i> &dst_pt);

explicit MLSDSimilarity();

virtual ~MLSDSimilarity();

private:

double *us_;//us参数

cv::Matx22d *a_similarity_;///similarity A参数

};

 

class MLSDRigid :public MLSDeformation

{

public:

virtual bool InitMLSD(const cv::Mat& oriImg,const std::vector<cv::Point2i>& src_pt,int alpha=1, int gridsize=5);

virtual cv::Mat Deformation(const std::vector<cv::Point2i> &dst_pt);

explicit MLSDRigid();

virtual ~MLSDRigid();

private:

double *ur_;//us参数

cv::Point2d *pstart_rigid_;//

cv::Matx22d *a_rigid_;///similarity A参数

};

#endif // MLS_DEFORMATION_H

 

/*****************************************************************************************源文件***************************************************************/

#include "MLSDeformation.h"

#include "../imageMLSwrap_gui/UseConsole.h"

 

#define Weight(i,j,point) (weight_[(i)*src_height_+(j)*n_point_ + (point)])

#define SumWeight(i,j) (sum_weight_[(i)*src_height_+(j)])

#define DefPT(i,j) (deformation_pt_[(i)*src_height_+(j)])

#define US(i,j) (us_[(i)*src_height_+(j)])

#define UR(i,j) (ur_[(i)*src_height_+(j)])

 

#define Affine(i,j,point) (a_affine_[(i)*src_height_+(j)*n_point_ + (point)])

#define Similarity(i,j,point) (a_similarity_[(i)*src_height_+(j)*n_point_ + (point)])

#define Rigid(i,j,point) (a_rigid_[(i)*src_height_+(j)*n_point_ + (point)])

#define RigidPStart(i,j) (pstart_rigid_[(i)*src_height_+(j)])

 

inline double bilinear_interp(double x, double y,

double v11, double v12, double v21, double v22) ///双线性插值

{

return (v11*(1-y) + v12*y) * (1-x) + (v21*(1-y) + v22*y) * x;

}

 

MLSDeformation::MLSDeformation()

:weight_(NULL),sum_weight_(NULL),deformation_pt_(NULL)

{

 

}

 

MLSDeformation::~MLSDeformation()

{

if(weight_) {

delete []weight_;

weight_=NULL;

}

if(sum_weight_) {

delete []sum_weight_;

sum_weight_=NULL;

}

if(deformation_pt_) {

delete []deformation_pt_;

deformation_pt_=NULL;

}

}

 

bool MLSDeformation::InitMLSD(const cv::Mat& oriImg, const std::vector<cv::Point2i>& src_pt, int alpha, int gridsize)

{

n_point_ = src_pt.size();

if(n_point_<2) {

return false; ///点太少

}

src_img_=oriImg.clone();

src_width_=oriImg.cols;

src_height_=oriImg.rows;

alpha_=alpha;

gridsize_=gridsize;

if(weight_) {

delete []weight_;

}

weight_=new double[src_width_ * src_height_ * n_point_];

if(sum_weight_) {

delete []sum_weight_;

}

sum_weight_=new double[src_width_ * src_height_];

if(deformation_pt_) {

delete []deformation_pt_;

}

deformation_pt_=new cv::Point2d[src_width_ * src_height_];

pi_point_.resize(n_point_);

for (int i = 0; i<n_point_; ++i) {

pi_point_[i]=src_pt[i];

}

return true;

}

 

void MLSDeformation::meanMat(cv::Mat& mat, int i, int j)

{

cv::Rect matrc(0,0,mat.cols,mat.rows);

cv::Rect rc(0,0,gridsize_,gridsize_);

rc+=cv::Point2i(i*0.5,j*0.5);

rc&=matrc;

cv::Mat mean_mat(mat,rc);

cv::Mat mask;

cv::cvtColor(mean_mat,mask,CV_BGR2GRAY);

cv::Scalar piex=cv::mean(mean_mat,mask);

mat.at<cv::Vec3b>(j,i)[0]=piex[0];

mat.at<cv::Vec3b>(j,i)[1]=piex[1];

mat.at<cv::Vec3b>(j,i)[2]=piex[2];

}

void MLSDeformation::repairMat(cv::Mat& mat)

{

for(int i=0; i<src_width_; ++i) {

for(int j=0; j<src_height_; ++j) {

cv::Vec3b piex=mat.at<cv::Vec3b>(j,i);

if(piex[0]==0 && piex[1]==0 && piex[2]==0) {

meanMat(mat,i,j);

}

}

}

}

cv::Mat MLSDeformation::getDeformationImg()

{

cv::Mat dstImg=cv::Mat::zeros(src_height_,src_width_,src_img_.type());

int nleft,ntop,nbottom,nright;//grid四个点的坐标信息

cv::Point2d lt,rt,lb,rb;//相对应于DefPT的坐标

cv::Vec3d piex;//像素值

for(int i=0; i<src_width_; i+=gridsize_) {

for(int j=0; j<src_height_; j+=gridsize_) {

////gridsize操作

nleft=i,ntop=j,nright=i+gridsize_,nbottom=j+gridsize_;

if(nright>src_width_-1) {

nright=src_width_-1;

}

if(nbottom>src_height_-1) {

nbottom=src_height_-1;

}

lt=DefPT(nleft,ntop);

lb=DefPT(nleft,nbottom);

rt=DefPT(nright,ntop);

rb=DefPT(nright,nbottom);

for(int di=nleft; di<nright; ++di) {

for(int dj=ntop; dj<nbottom; ++dj) {

double deltax=bilinear_interp(1.*(di-nleft)/(nright-nleft),1.*(dj-ntop)/(nbottom-ntop),lt.x,rt.x,lb.x,rb.x);

double deltay=bilinear_interp(1.*(di-nleft)/(nright-nleft),1.*(dj-ntop)/(nbottom-ntop),lt.y,rt.y,lb.y,rb.y);

cv::Point2i pt[2];

deltax=di-deltax;

deltay=dj-deltay;

 

pt[0].x=floor(deltax);

pt[0].y=floor(deltay);

pt[1].x=ceil(deltax);

pt[1].y=ceil(deltay);

for(int i=0; i<2; ++i) {

if(pt[i].x<0) {

pt[i].x=0;

} else if(pt[i].x>src_width_-1) {

pt[i].x=src_width_-1;

}

if(pt[i].y<0) {

pt[i].y=0;

} else if(pt[i].y>src_height_-1) {

pt[i].y=src_height_-1;

}

}

//

for (int ll=0; ll<3; ll++)

dstImg.at<cv::Vec3b>(dj, di)[ll] =bilinear_interp(pt[1].x-deltax,pt[1].y-deltay,

src_img_.at<cv::Vec3b>(pt[0].y, pt[0].x)[ll],

src_img_.at<cv::Vec3b>(pt[1].y, pt[0].x)[ll],

src_img_.at<cv::Vec3b>(pt[0].y, pt[1].x)[ll],

src_img_.at<cv::Vec3b>(pt[1].y, pt[1].x)[ll]);

 

//

// for(int i=0; i<2; ++i) {

// for(int j=0; j<2; ++j) {

// piex=dstImg.at<cv::Vec3b>(pt[i].y,pt[j].x);

// if(piex[0]==0 && piex[1]==0 && piex[2]==0) {

// dstImg.at<cv::Vec3b>(pt[i].y,pt[j].x)=src_img_.at<cv::Vec3b>(dj,di);

// } else {

// piex+=src_img_.at<cv::Vec3b>(dj,di);

// dstImg.at<cv::Vec3b>(pt[i].y,pt[j].x)=piex*0.5;

// }

// }

// }

}

}

}

}

return dstImg;

}

 

//////////////////////////////////////////////////////////////////////MLSDAffine class/////////////////////////////////////////////////////

/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

MLSDAffine::MLSDAffine()

:a_affine_(NULL)

{

 

}

 

MLSDAffine::~MLSDAffine()

{

if(a_affine_) {

delete []a_affine_;

a_affine_=NULL;

}

}

 

bool MLSDAffine::InitMLSD(const cv::Mat& oriImg, const std::vector<cv::Point2i>& src_pt, int alpha, int gridsize)

{

if(!MLSDeformation::InitMLSD(oriImg,src_pt,alpha,gridsize)) {

return false;

}

if(a_affine_) {

delete []a_affine_;

}

a_affine_=new double[src_width_ * src_height_ * n_point_];

 

pdiff_.resize(n_point_);

cv::Point2d tmp_pt2d;

for(int i=0; i<src_width_; i+=gridsize_) {

for(int j=0; j<src_height_; j+=gridsize_) {

///由pi计算pstart,pdiff

cv::Point2d piex_pt(i,j);

SumWeight(i,j)=0.;

pstart_=cv::Point2d(0.,0.);

for(int index=0; index<n_point_; ++index) {

if(src_pt[index].x ==i && src_pt[index].y == j) {

Weight(i,j,index)=0.;

continue;

}

tmp_pt2d=pi_point_[index]-piex_pt;

if(alpha_ ==1) {

Weight(i,j,index)=1/tmp_pt2d.ddot(tmp_pt2d);

} else {

Weight(i,j,index)=pow(tmp_pt2d.ddot(tmp_pt2d),-alpha_);

}

SumWeight(i,j)+=Weight(i,j,index);

pstart_+=Weight(i,j,index)*pi_point_[index];

}

pstart_*=(1/SumWeight(i,j));

for(int index=0; index<n_point_; ++index) {

pdiff_[index]=pi_point_[index]-pstart_;

}

 

///aj=(piex-pstart)*sum(pdifftwipdiff).inv()*wj*pjt

cv::Mat summat=cv::Mat::zeros(2,2,CV_64F);

for(int index=0; index<n_point_; ++index) {//

cv::Mat pointMat(pdiff_[index]);

summat+=Weight(i,j,index)*pointMat*pointMat.t();

}

summat=summat.inv();

tmp_pt2d=piex_pt-pstart_;//v-p*

for(int index=0; index<n_point_; ++index) {//sum()

cv::Mat pointMat(tmp_pt2d);

pointMat=pointMat.t() * summat;

pointMat=Weight(i,j,index)*pointMat*cv::Mat(pdiff_[index]);

Affine(i,j,index)=pointMat.at<double>(0,0);//只有一个元素

}

}

}

return true;

}

 

cv::Mat MLSDAffine::Deformation(const std::vector<cv::Point2i>& dst_pt)

{

if(n_point_ != dst_pt.size()) {

return cv::Mat();

}

qi_point_.resize(n_point_);

qdiff_.resize(n_point_);

for (int i = 0; i<n_point_; ++i) {

qi_point_[i]=dst_pt[i];

}

for(int i=0;; i+=gridsize_) {

if (i>=src_width_ && i<src_width_+gridsize_ - 1) { //计算最后一行一列

i=src_width_-1;

} else if (i>=src_width_) {

break;

}

for (int j = 0; ; j+=gridsize_) {

if (j>=src_height_ && j<src_height_+gridsize_ - 1) { //计算最后一行一列

j = src_height_ - 1;

} else if (j>=src_height_) {

break;

}

///由qi计算qstart,qdiff

bool isequalpi=false;

cv::Point2d piex_pt(i,j);

qstart_=cv::Point2d(0.,0.);

for(int index=0; index<n_point_; ++index) {

if(pi_point_[index].x == i && pi_point_[index].y ==j ) {

isequalpi=true;

break;

}

qstart_+=Weight(i,j,index)*qi_point_[index];

}

if(isequalpi) {

DefPT(i,j)=cv::Point2d(0,0);

} else {

qstart_*=(1/SumWeight(i,j));

for(int index=0; index<n_point_; ++index) {

qdiff_[index]=qi_point_[index]-qstart_;

}

///fj=sum(aj*qdiffj)+qstart

cv::Mat summat=cv::Mat::zeros(2,1,CV_64F);

for(int index=0; index<n_point_; ++index) {

cv::Mat pointMat(qdiff_[index]);

summat+=Affine(i,j,index)*pointMat;

}

summat+=cv::Mat(qstart_);

DefPT(i,j).x=summat.at<double>(0,0)-i;

DefPT(i,j).y=summat.at<double>(1,0)-j;

}

}

}

return getDeformationImg();

}

 

//////////////////////////////////////////////////MLSDSimilarity class/////////////////////////////////////////////////////

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

MLSDSimilarity::MLSDSimilarity()

: a_similarity_(NULL),us_(NULL)

{

 

}

 

MLSDSimilarity::~MLSDSimilarity()

{

if(a_similarity_) {

delete []a_similarity_;

a_similarity_=NULL;

}

if(us_) {

delete []us_;

us_=NULL;

}

}

 

bool MLSDSimilarity::InitMLSD(const cv::Mat& oriImg, const std::vector<cv::Point2i>& src_pt, int alpha, int gridsize)

{

if(!MLSDeformation::InitMLSD(oriImg,src_pt,alpha,gridsize)) {

return false;

}

if(a_similarity_) {

delete []a_similarity_;

}

a_similarity_=new cv::Matx22d[src_width_ * src_height_ * n_point_];

if(us_) {

delete []us_;

}

us_=new double[src_width_ * src_height_];

 

pdiff_.resize(n_point_);

cv::Point2d tmp_pt2d;

for(int i=0; i<src_width_; i+=gridsize_) {

for(int j=0; j<src_height_; j+=gridsize_) {

///由pi计算pstart,pdiff

cv::Point2d piex_pt(i,j);

SumWeight(i,j)=0.;

pstart_=cv::Point2d(0.,0.);

for(int index=0; index<n_point_; ++index) {

if(src_pt[index].x ==i && src_pt[index].y == j) {

Weight(i,j,index)=0.;

continue;

}

tmp_pt2d=pi_point_[index]-piex_pt;

if(alpha_ ==1) {

Weight(i,j,index)=1/tmp_pt2d.ddot(tmp_pt2d);

} else {

Weight(i,j,index)=pow(tmp_pt2d.ddot(tmp_pt2d),-alpha_);

}

SumWeight(i,j)+=Weight(i,j,index);

pstart_+=Weight(i,j,index)*pi_point_[index];

}

pstart_*=(1/SumWeight(i,j));

US(i,j)=0.;

for(int index=0; index<n_point_; ++index) {

pdiff_[index]=pi_point_[index]-pstart_;

US(i,j)+=Weight(i,j,index)*pdiff_[index].ddot(pdiff_[index]);

}

 

///ai=wi * (pi -pi`)T(v-pstart -(v-pstart)`)

cv::Matx22d leftmat=cv::Matx22d::zeros();

cv::Matx22d rightmat=cv::Matx22d::zeros();

cv::Point2d pdiff_plus,vpstart,vpstart_plus;

for(int index=0; index<n_point_; ++index) {

pdiff_plus.x=-pdiff_[index].y;

pdiff_plus.y=pdiff_[index].x;

vpstart=piex_pt-pstart_;

vpstart_plus.x=vpstart.y;

vpstart_plus.y=-vpstart.x;

leftmat(0,0)=pdiff_[index].x;

leftmat(1,0)=pdiff_[index].y;

leftmat(0,1)=pdiff_plus.x;

leftmat(1,1)=pdiff_plus.y;

rightmat(0,0)=vpstart.x;

rightmat(1,0)=vpstart.y;

rightmat(0,1)=vpstart_plus.x;

rightmat(1,1)=vpstart_plus.y;

Similarity(i,j,index)=Weight(i,j,index)*leftmat*rightmat.t();

}

}

}

return true;

}

 

cv::Mat MLSDSimilarity::Deformation(const std::vector<cv::Point2i>& dst_pt)

{

if(n_point_ != dst_pt.size()) {

return cv::Mat();

}

qi_point_.resize(n_point_);

qdiff_.resize(n_point_);

for (int i = 0; i<n_point_; ++i) {

qi_point_[i]=dst_pt[i];

}

for(int i=0;; i+=gridsize_) {

if (i>=src_width_ && i<src_width_+gridsize_ - 1) { //计算最后一行一列

i=src_width_-1;

} else if (i>=src_width_) {

break;

}

for (int j = 0; ; j+=gridsize_) {

if (j>=src_height_ && j<src_height_+gridsize_ - 1) { //计算最后一行一列

j = src_height_ - 1;

} else if (j>=src_height_) {

break;

}

///由qi计算qstart,qdiff

bool isequalpi=false;

cv::Point2d piex_pt(i,j);

qstart_=cv::Point2d(0.,0.);

for(int index=0; index<n_point_; ++index) {

if(pi_point_[index].x == i && pi_point_[index].y ==j ) {

isequalpi=true;

break;

}

qstart_+=Weight(i,j,index)*qi_point_[index];

}

if(isequalpi) {

DefPT(i,j)=cv::Point2d(0,0);

} else {

qstart_*=(1/SumWeight(i,j));

for(int index=0; index<n_point_; ++index) {

qdiff_[index]=qi_point_[index]-qstart_;

}

///fj=sum(qi*Ai/us)+qstart

cv::Mat summat=cv::Mat::zeros(1,2,CV_64F);

for(int index=0; index<n_point_; ++index) {

cv::Mat pointMat(qdiff_[index]);

summat+=pointMat.t()*cv::Mat(Similarity(i,j,index))*(1./US(i,j));

}

summat+=cv::Mat(qstart_).t();

DefPT(i,j).x=summat.at<double>(0,0)-i;

DefPT(i,j).y=summat.at<double>(0,1)-j;

}

}

}

return getDeformationImg();

}

 

//////////////////////////////////////////////////MLSDRigid class/////////////////////////////////////////////////////

///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

MLSDRigid::MLSDRigid()

:a_rigid_(NULL),ur_(NULL)

,pstart_rigid_(NULL)

{

 

}

 

MLSDRigid::~MLSDRigid()

{

if(a_rigid_) {

delete []a_rigid_;

a_rigid_=NULL;

}

if(ur_) {

delete []ur_;

ur_=NULL;

}

if(pstart_rigid_) {

delete []pstart_rigid_;

pstart_rigid_=NULL;

}

}

 

bool MLSDRigid::InitMLSD(const cv::Mat& oriImg, const std::vector<cv::Point2i>& src_pt, int alpha, int gridsize)

{

if(!MLSDeformation::InitMLSD(oriImg,src_pt,alpha,gridsize)) {

return false;

}

if(a_rigid_) {

delete []a_rigid_;

}

 

a_rigid_=new cv::Matx22d[src_width_ * src_height_ * n_point_];

if(ur_) {

delete []ur_;

}

ur_=new double[src_width_ * src_height_];

if(pstart_rigid_) {

delete []pstart_rigid_;

}

pstart_rigid_=new cv::Point2d[src_width_ * src_height_];

 

pdiff_.resize(n_point_);

cv::Point2d tmp_pt2d;

for(int i=0; i<src_width_; i+=gridsize_) {

for(int j=0; j<src_height_; j+=gridsize_) {

///由pi计算pstart,pdiff

cv::Point2d piex_pt(i,j);

SumWeight(i,j)=0.;

RigidPStart(i,j)=cv::Point2d(0.,0.);

for(int index=0; index<n_point_; ++index) {

if(src_pt[index].x ==i && src_pt[index].y == j) {

Weight(i,j,index)=0.;

continue;

}

tmp_pt2d=pi_point_[index]-piex_pt;

if(alpha_ ==1) {

Weight(i,j,index)=1/tmp_pt2d.ddot(tmp_pt2d);

} else {

Weight(i,j,index)=pow(tmp_pt2d.ddot(tmp_pt2d),-alpha_);

}

SumWeight(i,j)+=Weight(i,j,index);

pstart_+=Weight(i,j,index)*pi_point_[index];

RigidPStart(i,j)+=Weight(i,j,index)*pi_point_[index];

}

RigidPStart(i,j)*=(1/SumWeight(i,j));

for(int index=0; index<n_point_; ++index) {

pdiff_[index]=pi_point_[index]-RigidPStart(i,j);

}

 

///ai=wi * (pi -pi`)T(v-pstart -(v-pstart)`)

cv::Matx22d leftmat=cv::Matx22d::zeros();

cv::Matx22d rightmat=cv::Matx22d::zeros();

cv::Point2d pdiff_plus,vpstart,vpstart_plus;

for(int index=0; index<n_point_; ++index) {

pdiff_plus.x=-pdiff_[index].y;

pdiff_plus.y=pdiff_[index].x;

vpstart=piex_pt-RigidPStart(i,j);

vpstart_plus.x=vpstart.y;

vpstart_plus.y=-vpstart.x;

leftmat(0,0)=pdiff_[index].x;

leftmat(1,0)=pdiff_[index].y;

leftmat(0,1)=pdiff_plus.x;

leftmat(1,1)=pdiff_plus.y;

rightmat(0,0)=vpstart.x;

rightmat(1,0)=vpstart.y;

rightmat(0,1)=vpstart_plus.x;

rightmat(1,1)=vpstart_plus.y;

Rigid(i,j,index)=Weight(i,j,index)*leftmat*rightmat.t();

}

}

}

return true;

}

 

cv::Mat MLSDRigid::Deformation(const std::vector<cv::Point2i>& dst_pt)

{

if(n_point_ != dst_pt.size()) {

return cv::Mat();

}

qi_point_.resize(n_point_);

qdiff_.resize(n_point_);

for (int i = 0; i<n_point_; ++i) {

qi_point_[i]=dst_pt[i];

}

for(int i=0;; i+=gridsize_) {

if (i>=src_width_ && i<src_width_+gridsize_ - 1) { //计算最后一行一列

i=src_width_-1;

} else if (i>=src_width_) {

break;

}

for (int j = 0; ; j+=gridsize_) {

if (j>=src_height_ && j<src_height_+gridsize_ - 1) { //计算最后一行一列

j = src_height_ - 1;

} else if (j>=src_height_) {

break;

}

///由qi计算qstart,qdiff

bool isequalpi=false;

cv::Point2d piex_pt(i,j);

qstart_=cv::Point2d(0.,0.);

for(int index=0; index<n_point_; ++index) {

if(pi_point_[index].x == i && pi_point_[index].y ==j ) {

isequalpi=true;

break;

}

qstart_+=Weight(i,j,index)*qi_point_[index];

}

if(isequalpi) {

DefPT(i,j)=cv::Point2d(0,0);

} else {

qstart_*=(1/SumWeight(i,j));

for(int index=0; index<n_point_; ++index) {

qdiff_[index]=qi_point_[index]-qstart_;

}

///fj=|v-pstart|*sum(qi*ai)/|sum(qi*ai|+qstart

cv::Mat summat=cv::Mat::zeros(1,2,CV_64F);

cv::Mat pointMat(cv::Point2d(i,j)-RigidPStart(i,j));

for(int index=0; index<n_point_; ++index) {

summat+=cv::Mat(qdiff_[index]).t()*cv::Mat(Rigid(i,j,index));

}

summat*=cv::norm(pointMat)/cv::norm(cv::Mat(summat));

summat+=cv::Mat(qstart_).t();

DefPT(i,j).x=summat.at<double>(0,0)-i;

DefPT(i,j).y=summat.at<double>(0,1)-j;

}

}

}

return getDeformationImg();

}