コード例 #1
0
ElMatrix<double> cOriFromBundle::CalculRot(const cOFB_Sol1S1T & aSol,bool Show)
{
   // R [mDir1B ...] = [mV1 ...]

    ElMatrix<double>  aMatB =     MatFromCol(mDir1B,mDir2B,mDir3B);
    ElMatrix<double> aMatBinA =   MatFromCol(aSol.mV1,aSol.mV2,aSol.mV3);
    ElMatrix<double> aMat = aMatBinA * gaussj(aMatB);

// std::cout << mDir1B << mDir2B << mDir3B << "\n";
// std::cout << aSol.mV1 << aSol.mV2 << aSol.mV3 << "\n";
// std::cout << "xxxxxxxxxxxx\n";
/*
    for (int anY=0 ; anY<3 ; anY++)
    {
        for (int anX=0 ; anX<3 ; anX++)
        {
            std::cout << aMat(anX,anY) << " ";
        }
        std::cout << "\n";
    }
*/
// getchar();




    ElMatrix<double> aR = NearestRotation(aMat);
// std::cout << "yyyyyyyyyyyyyy\n";


    if (Show)
    {
        std::cout << "DET " << aR.Det() -1.0  << " Eucl " << ElMatrix<double>(3,true).L2(aR*aR.transpose())<< "\n";
        std::cout  << " SCAL " << scal(mBase^mDir1A,aR*mDir1B)  << " "
                               << scal(mBase^mDir2A,aR*mDir2B)  << " "
                               << scal(mBase^mDir3A,aR*mDir3B)  << "\n";
            
    }
    
    return aR;
}
コード例 #2
0
ファイル: CPP_TestJB.cpp プロジェクト: archeos/micmac-archeos
void correctPlanarPolygon( vector<Pt3dr> &aPolygon )
{
	if (aPolygon.size() < 3) ELISE_ERROR_EXIT("aPolygon.size() = " << aPolygon.size() << " < 3");
	Pt3dr u = vunit(aPolygon[1] - aPolygon[0]), minV = vunit(aPolygon[2] - aPolygon[0]);
	size_t minI = 2;
	REAL minScal = ElAbs(scal(u, minV));
	for (size_t i = 3; i < aPolygon.size(); i++)
	{
		Pt3dr v = vunit(aPolygon[i] - aPolygon[0]);
		REAL d = ElAbs(scal(u, v));
		if (d < minScal)
		{
			minScal = d;
			minI = i;
			minV = v;
		}
	}
	cout << "minI = " << minI << endl;
	cout << "minScal = " << minScal << endl;
	cout << "minV = " << minV << endl;
	Pt3dr n = u ^ minV;
	cout << "minV = " << minV << endl;
	ElMatrix<REAL> planToGlobalMatrix = MatFromCol(u, minV, n);
	if (planToGlobalMatrix.Det() < 1e-10) ELISE_ERROR_EXIT("matrix is not inversible");

	ElRotation3D planToGlobalRot(aPolygon[0], planToGlobalMatrix, true);
	ElRotation3D globalToPlanRot = planToGlobalRot.inv();

	//~ const size_t nbVertices = aPolygon.size();
	//~ ostringstream ss;
	//~ static int ii = 0;
	//~ const REAL extrudSize = 1e4;
	//~ ss << "polygon_" << (ii++) << ".ply";
	//~ ofstream f(ss.str().c_str());
	//~ f << "ply" << endl;
	//~ f << "format ascii 1.0" << endl;
	//~ f << "element vertex " << 4 * nbVertices << endl;
	//~ f << "property float x" << endl;
	//~ f << "property float y" << endl;
	//~ f << "property float z" << endl;
	//~ f << "property uchar red" << endl;
	//~ f << "property uchar green" << endl;
	//~ f << "property uchar blue" << endl;
	//~ f << "element face " << nbVertices << endl;
	//~ f << "property list uchar int vertex_indices" << endl;
	//~ f << "end_header" << endl;

	REAL zDiffSum = 0.;
	for (size_t i = 0; i < aPolygon.size(); i++)
	{
		Pt3dr p = globalToPlanRot.ImAff(aPolygon[i]);
		zDiffSum += ElAbs(p.z);
		aPolygon[i] = planToGlobalRot.ImAff(Pt3dr(p.x, p.y, 0.));

		//~ Pt3dr p0 = (i == 0) ? aPolygon[aPolygon.size() - 1] : aPolygon[i - 1], p1 = aPolygon[i], p2 = p1 + n * extrudSize, p3 = p0 + n * extrudSize;
		//~ f << p0.x << ' ' << p0.y << ' ' << p0.z << " 128 128 128" << endl;
		//~ f << p1.x << ' ' << p1.y << ' ' << p1.z << " 128 128 128" << endl;
		//~ f << p2.x << ' ' << p2.y << ' ' << p2.z << " 128 128 128" << endl;
		//~ f << p3.x << ' ' << p3.y << ' ' << p3.z << " 128 128 128" << endl;
	}

	//~ for (size_t i = 0; i < aPolygon.size(); i++)
		//~ f << 4 << ' ' << i * 4 << ' ' << i * 4 + 1 << ' ' << i * 4 + 2 << ' ' << i* 4 + 3 << endl;
	//~ f.close();
	cout << "zDiffSum = " << zDiffSum << endl;
}