I found this piece of C++ code on a forum that I can't fully understand. Since I don't have their library that performs matrix/vector math, I need to manually figure it out and replicate the functionality.
Calculate Euler rotation angles between 2 vectors .. we use Rodrigues formula
vector $V1 = << my first vector >>; vector $V2 = << my second vector >>; vector $axis; float $angle; $angle = acos($V1*$V2); $axis = normalizeVector((cross($V1,$V2))); matrix $axis_skewed = << 0, (-$axis.z), ($axis.y) ; ($axis.z), 0, (-$axis.x) ; (-$axis.y), ($axis.x), 0 >>; matrix $eye3 = << 1, 0, 0; 0, 1, 0; 0, 0, 1 >>;
From here onwards things get tricky:
// here's Rodrigues $R = $eye3 + sin($angle)*$axis_skewed + (1-cos($angle))*$axis_skewed*$axis_skewed;
do you add all the properties of the eye3 matrix?
do you multiply with all the properties of the axis_skewed matrix?
and what is R? a vector or matrix? or number?
This is simple.
matrix $vectorMatr; $vectorMatr = ($V1.x); $vectorMatr = ($V1.y); $vectorMatr = ($V1.z);
Again, this is tricky:
// $result is the resulting vector $result = ($R * $vectorMatr);
do you multiply the vector with the matrix to get the resultant vector using standard matrix multiplying?
do you multiply the two matrix's and then transform the point using the matrix?