Reverted recent changes so the set(Matrix&) method.
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@ -284,8 +284,6 @@ class SG_EXPORT Quat
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protected:
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void _set(const Matrix& m );
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}; // end of class prototype
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inline std::ostream& operator << (std::ostream& output, const Quat& vec)
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@ -198,68 +198,54 @@ void Quat::slerp( float t, const Quat& from, const Quat& to )
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void Quat::set( const Matrix& m )
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{
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// Source:
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// Source: Gamasutra, Rotating Objects Using Quaternions
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//
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// http://mccammon.ucsd.edu/~adcock/matrixfaq.html#Q55
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float x_scale = sqrtf(osg::square(m(0,0))+osg::square(m(1,0))+osg::square(m(2,0)));
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if (osg::absolute(x_scale-1.0f)>1e-5)
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{
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osg::Matrix new_m(m*osg::Matrix::scale(1.0f/x_scale,1.0f/x_scale,1.0f/x_scale));
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_set(new_m);
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}
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else
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{
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_set(m);
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}
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}
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void Quat::_set(const Matrix& m )
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{
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//std::cout<<"Matrix scaled "<<m<<std::endl;
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//http://www.gamasutra.com/features/programming/19980703/quaternions_01.htm
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double S;
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double tr = m(0,0) + m(1,1) + m(2,2) + 1.0;
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float tr, s;
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float tq[4];
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int i, j, k;
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//cout << "tr="<<tr<<endl;
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int nxt[3] = {1, 2, 0};
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tr = m(0,0) + m(1,1) + m(2,2);
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// check the diagonal
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if (tr > 2e-5/*0.00000001*/)
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if (tr > 0.0)
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{
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//cout << "path one"<<endl;
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S = 0.5/sqrt (tr);
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QW = 0.25 / S;
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QX = (m(1,2) - m(2,1)) * S;
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QY = (m(2,0) - m(0,2)) * S;
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QZ = (m(0,1) - m(1,0)) * S;
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s = (float)sqrt (tr + 1.0);
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QW = s / 2.0f;
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s = 0.5f / s;
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QX = (m(1,2) - m(2,1)) * s;
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QY = (m(2,0) - m(0,2)) * s;
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QZ = (m(0,1) - m(1,0)) * s;
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}
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else
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{
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//cout << "path two"<<endl;
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// diagonal is negative
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i = 0;
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if (m(1,1) > m(0,0))
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i = 1;
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if (m(2,2) > m(i,i))
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i = 2;
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j = nxt[i];
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k = nxt[j];
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if ( m(0,0) > m(1,1) && m(0,0) > m(2,2) ) { // Column 0:
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S = sqrt( 1.0 + m(0,0) - m(1,1) - m(2,2) ) * 2.0;
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QX = 0.25 * S;
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QY = (m(1,0) + m(0,1) ) / S;
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QZ = (m(0,2) + m(2,0) ) / S;
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QW = (m(2,1) - m(1,2) ) / S;
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s = (float)sqrt ((m(i,i) - (m(j,j) + m(k,k))) + 1.0);
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} else if ( m(1,1) > m(2,2) ) { // Column 1:
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S = sqrt( 1.0 + m(1,1) - m(0,0) - m(2,2) ) * 2.0;
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QX = (m(1,0) + m(0,1) ) / S;
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QY = 0.25 * S;
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QZ = (m(2,1) + m(1,2) ) / S;
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QW = (m(0,2) - m(2,0) ) / S;
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tq[i] = s * 0.5f;
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} else { // Column 2:
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S = sqrt( 1.0 + m(2,2) - m(0,0) - m(1,1) ) * 2.0;
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QX = (m(0,2) + m(2,0) ) / S;
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QY = (m(2,1) + m(1,2) ) / S;
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QZ = 0.25f * S;
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QW = (m(1,0) - m(0,1) ) / S;
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}
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if (s != 0.0f)
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s = 0.5f / s;
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tq[3] = (m(j,k) - m(k,j)) * s;
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tq[j] = (m(i,j) + m(j,i)) * s;
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tq[k] = (m(i,k) + m(k,i)) * s;
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QX = tq[0];
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QY = tq[1];
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QZ = tq[2];
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QW = tq[3];
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}
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}
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