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TrackerData.h
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TrackerData.h
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// -*- c++ -*-
// Copyright 2008 Isis Innovation Limited
#ifndef __TRACKERDATA_H
#define __TRACKERDATA_H
#include "PatchFinder.h"
#include "ATANCamera.h"
// This class contains all the intermediate results associated with
// a map-point that the tracker keeps up-to-date. TrackerData
// basically handles all the tracker's point-projection jobs,
// and also contains the PatchFinder which does the image search.
// It's very code-heavy for an h-file (it's a bunch of methods really)
// but it's only included from Tracker.cc!
struct TrackerData
{
TrackerData(MapPoint *pMapPoint)
: Point(*pMapPoint)
{};
MapPoint &Point;
PatchFinder Finder;
// Projection itermediates:
Vector<3> v3Cam; // Coords in current cam frame
Vector<2> v2ImPlane; // Coords in current cam z=1 plane
Vector<2> v2Image; // Pixel coords in LEVEL0
Matrix<2> m2CamDerivs; // Camera projection derivs
bool bInImage;
bool bPotentiallyVisible;
int nSearchLevel;
bool bSearched;
bool bFound;
bool bDidSubPix;
Vector<2> v2Found; // Pixel coords of found patch (L0)
double dSqrtInvNoise; // Only depends on search level..
// Stuff for pose update:
Vector<2> v2Error_CovScaled;
Matrix<2,6> m26Jacobian; // Jacobian wrt camera position
// Project point into image given certain pose and camera.
// This can bail out at several stages if the point
// will not be properly in the image.
inline void Project(const SE3<> &se3CFromW, ATANCamera &Cam)
{
bInImage = bPotentiallyVisible = false;
v3Cam = se3CFromW * Point.v3WorldPos;
if(v3Cam[2] < 0.001)
return;
v2ImPlane = project(v3Cam);
if(v2ImPlane*v2ImPlane > Cam.LargestRadiusInImage() * Cam.LargestRadiusInImage())
return;
v2Image = Cam.Project(v2ImPlane);
if(Cam.Invalid())
return;
if(v2Image[0] < 0 || v2Image[1] < 0 || v2Image[0] > irImageSize[0] || v2Image[1] > irImageSize[1])
return;
bInImage = true;
}
// Get the projection derivatives (depend only on the camera.)
// This is called Unsafe because it depends on the camera caching
// results from the previous projection:
// Only do this right after the same point has been projected!
inline void GetDerivsUnsafe(ATANCamera &Cam)
{
m2CamDerivs = Cam.GetProjectionDerivs();
}
// Does projection and gets camera derivs all in one.
inline void ProjectAndDerivs(SE3<> &se3, ATANCamera &Cam)
{
Project(se3, Cam);
if(bFound)
GetDerivsUnsafe(Cam);
}
// Jacobian of projection W.R.T. the camera position
// I.e. if p_cam = SE3Old * p_world,
// SE3New = SE3Motion * SE3Old
inline void CalcJacobian()
{
double dOneOverCameraZ = 1.0 / v3Cam[2];
for(int m=0; m<6; m++)
{
const Vector<4> v4Motion = SE3<>::generator_field(m, unproject(v3Cam));
Vector<2> v2CamFrameMotion;
v2CamFrameMotion[0] = (v4Motion[0] - v3Cam[0] * v4Motion[2] * dOneOverCameraZ) * dOneOverCameraZ;
v2CamFrameMotion[1] = (v4Motion[1] - v3Cam[1] * v4Motion[2] * dOneOverCameraZ) * dOneOverCameraZ;
m26Jacobian.T()[m] = m2CamDerivs * v2CamFrameMotion;
};
}
// Sometimes in tracker instead of reprojecting, just update the error linearly!
inline void LinearUpdate(const Vector<6> &v6)
{
v2Image += m26Jacobian * v6;
}
// This static member is filled in by the tracker and allows in-image checks in this class above.
static CVD::ImageRef irImageSize;
};
#endif