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CalibCornerPatch.cc
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CalibCornerPatch.cc
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// Copyright 2008 Isis Innovation Limited
#include "CalibCornerPatch.h"
#include "OpenGL.h"
#include <TooN/helpers.h>
#include <cvd/vector_image_ref.h>
#include <cvd/vision.h>
#include <cvd/utility.h>
#include <cvd/convolution.h>
#include <cvd/image_interpolate.h>
#include <TooN/Cholesky.h>
#include "SmallMatrixOpts.h"
using namespace std;
using namespace CVD;
Image<float> CalibCornerPatch::mimSharedSourceTemplate;
CalibCornerPatch::CalibCornerPatch(int nSideSize)
{
mimTemplate.resize(ImageRef(nSideSize, nSideSize));
mimGradients.resize(ImageRef(nSideSize, nSideSize));
mimAngleJacs.resize(ImageRef(nSideSize, nSideSize));
if(mimSharedSourceTemplate.size().x == 0)
{
MakeSharedTemplate();
}
}
void CalibCornerPatch::MakeTemplateWithCurrentParams()
{
double dBlurSigma = 2.0;
int nExtraPixels = (int) (dBlurSigma * 6.0) + 2;
Image<float> imToBlur(mimTemplate.size() + ImageRef(nExtraPixels, nExtraPixels));
Image<float> imTwiceToBlur(imToBlur.size() * 2);
// Make actual template:
int nOffset;
{
Matrix<2> m2Warp = mParams.m2Warp();
CVD::transform(mimSharedSourceTemplate, imTwiceToBlur,
M2Inverse(m2Warp),
vec(mimSharedSourceTemplate.size() - ImageRef(1,1)) * 0.5,
vec(imTwiceToBlur.size() - ImageRef(1,1)) * 0.5);
halfSample(imTwiceToBlur, imToBlur);
convolveGaussian(imToBlur, dBlurSigma);
nOffset = (imToBlur.size().x - mimTemplate.size().x) / 2;
copy(imToBlur, mimTemplate, mimTemplate.size(), ImageRef(nOffset, nOffset));
};
// Make numerical angle jac images:
for(int dof=0; dof<2; dof++)
{
Matrix<2> m2Warp;
for(int i=0; i<2; i++)
{
double dAngle = mParams.v2Angles[i];
if(dof == i)
dAngle += 0.01;
m2Warp[0][i] = cos(dAngle);
m2Warp[1][i] = sin(dAngle);
};
CVD::transform(mimSharedSourceTemplate, imTwiceToBlur,
M2Inverse(m2Warp),
vec(mimSharedSourceTemplate.size() - ImageRef(1,1)) * 0.5,
vec(imTwiceToBlur.size() - ImageRef(1,1)) * 0.5);
halfSample(imTwiceToBlur, imToBlur);
convolveGaussian(imToBlur, dBlurSigma);
ImageRef ir;
do
mimAngleJacs[ir][dof] = (imToBlur[ir + ImageRef(nOffset, nOffset)] - mimTemplate[ir]) / 0.01;
while(ir.next(mimTemplate.size()));
};
// Make the image of image gradients here too (while we have the bigger template to work from)
ImageRef ir;
do
{
mimGradients[ir][0] = 0.5 *
(imToBlur[ir + ImageRef(nOffset + 1, nOffset)] -
imToBlur[ir + ImageRef(nOffset - 1, nOffset)]);
mimGradients[ir][1] = 0.5 *
(imToBlur[ir + ImageRef(nOffset, nOffset + 1 )] -
imToBlur[ir + ImageRef(nOffset, nOffset - 1 )]);
}
while(ir.next(mimGradients.size()));
}
bool CalibCornerPatch::IterateOnImageWithDrawing(CalibCornerPatch::Params ¶ms, Image<byte> &im)
{
bool bReturn = IterateOnImage(params, im);
if(!bReturn)
{
glPointSize(3);
glColor3f(1,0,0);
glBegin(GL_POINTS);
glVertex(params.v2Pos);
glEnd();
}
return bReturn;
}
bool CalibCornerPatch::IterateOnImage(CalibCornerPatch::Params ¶ms, Image<byte> &im)
{
mParams = params;
double dLastUpdate = 0.0;
for(int i=0; i<20; i++)
{
MakeTemplateWithCurrentParams();
dLastUpdate = Iterate(im);
if(dLastUpdate < 0)
return false;
if(dLastUpdate < 0.00001)
break;
}
if(dLastUpdate > 0.001)
return false;
if(fabs(sin(mParams.v2Angles[0] - mParams.v2Angles[1])) < sin(M_PI / 6.0))
return false;
if(fabs(mParams.dGain) < 20.0)
return false;
if(mdLastError > 25.0)
return false;
params = mParams;
return true;
}
double CalibCornerPatch::Iterate(Image<byte> &im)
{
Vector<2> v2TL = mParams.v2Pos - vec(mimTemplate.size() - ImageRef(1,1)) / 2.0;
if(!(v2TL[0] >= 0.0 && v2TL[1] >= 0.0))
return -1.0;
Vector<2> v2BR = v2TL + vec(mimTemplate.size() - ImageRef(1,1));
if(!(v2BR[0] < (im.size().x - 1.0) && v2BR[1] < (im.size().y - 1.0)))
return -1.0;
image_interpolate<Interpolate::Bilinear, byte> imInterp(im);
Matrix<6> m6JTJ = Zeros;
Vector<6> v6JTD = Zeros;
ImageRef ir;
double dSum = 0.0;
do
{
Vector<2> v2Pos_Template = vec(ir) - vec(mimTemplate.size() - ImageRef(1,1)) / 2.0;
Vector<2> v2Pos_Image = mParams.v2Pos + v2Pos_Template;
double dDiff = imInterp[v2Pos_Image] - (mParams.dGain * mimTemplate[ir] + mParams.dMean);
dSum += fabs(dDiff);
Vector<6> v6Jac;
// Jac for center pos: Minus sign because +pos equates to sliding template -
v6Jac.slice<0,2>() = -1.0 * mParams.dGain * mimGradients[ir];
// Jac for angles: dPos/dAngle needs finishing by multiplying by pos..
v6Jac[2] = mimAngleJacs[ir][0] * mParams.dGain;
v6Jac[3] = mimAngleJacs[ir][1] * mParams.dGain;
// Jac for mean:
v6Jac[4] = 1.0;
// Jac for gain:
v6Jac[5] = mimTemplate[ir];
m6JTJ += v6Jac.as_col() * v6Jac.as_row();
v6JTD += dDiff * v6Jac;
}
while(ir.next(mimTemplate.size()));
Cholesky<6> chol(m6JTJ);
Vector<6> v6Update = 0.7 * chol.backsub(v6JTD);
mParams.v2Pos += v6Update.slice<0,2>();
mParams.v2Angles += v6Update.slice<2,2>();
mParams.dMean += v6Update[4];
mParams.dGain += v6Update[5];
mdLastError = dSum / mimTemplate.size().area();
return sqrt(v6Update.slice<0,2>() * v6Update.slice<0,2>());
}
void CalibCornerPatch::MakeSharedTemplate()
{
const int nSideSize = 100;
const int nHalf = nSideSize / 2;
mimSharedSourceTemplate.resize(ImageRef(nSideSize, nSideSize));
ImageRef ir;
do
{
float fX = (ir.x < nHalf) ? 1.0 : -1.0;
float fY = (ir.y < nHalf) ? 1.0 : -1.0;
mimSharedSourceTemplate[ir] = fX * fY;
}
while(ir.next(mimSharedSourceTemplate.size()));
}
CalibCornerPatch::Params::Params()
{
v2Angles[0] = 0.0;
v2Angles[1] = M_PI / 2.0;
dMean = 0.0;
dGain = 1.0;
}
Matrix<2> CalibCornerPatch::Params::m2Warp()
{
Matrix<2> m2Warp;
for(int i=0; i<2; i++)
{
m2Warp[0][i] = cos(v2Angles[i]);
m2Warp[1][i] = sin(v2Angles[i]);
};
return m2Warp;
}