Difference between revisions of "User:LindaB Helendale/rot2roll pitch yaw"
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Roll, pitch and yaw are commonly used object related rotations (intrinsic Tait-Bryan angles) in avionics, sailing and navigation. Here are conversion functions between LSL rotation and roll, pitch and yaw angles. | Roll, pitch and yaw are commonly used object related rotations (intrinsic Tait-Bryan angles) in avionics, sailing and navigation. Here are conversion functions between LSL rotation and roll, pitch and yaw angles. | ||
Note that in [http://http://wiki.secondlife.com/wiki/LlRot2Euler http://wiki.secondlife.com/wiki/LlRot2Euler llRot2Euler] it is (somewhat) imprecisely stated that it returns roll, pitch and yaw angles. However, LSL Euler angles are extrinsic Tait-Bryan angles, in Z Y X order. With extrinsic rotations after the Z-rotation the Y-rotation is done in world coordinates, rotating the rotated vertices around world Y-axis, and similarly with X. In order X Y Z the LSL Euler angles would be proper nautical angles. | Note that in [http://http://wiki.secondlife.com/wiki/LlRot2Euler http://wiki.secondlife.com/wiki/LlRot2Euler llRot2Euler] it is (somewhat) imprecisely stated that it returns roll, pitch and yaw angles. However, LSL Euler angles are extrinsic Tait-Bryan angles, in Z Y X order. With extrinsic rotations after the Z-rotation the Y-rotation is done in world coordinates, rotating the rotated vertices around world Y-axis, and similarly with X. In order X Y Z the LSL Euler angles would be proper nautical angles but the order is built-in in the llRot2Euler and llEuler2Rot functions. | ||
<source lang="lsl2"> | <source lang="lsl2"> | ||
Revision as of 01:09, 8 August 2015
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Roll, pitch and yaw are commonly used object related rotations (intrinsic Tait-Bryan angles) in avionics, sailing and navigation. Here are conversion functions between LSL rotation and roll, pitch and yaw angles.
Note that in http://wiki.secondlife.com/wiki/LlRot2Euler llRot2Euler it is (somewhat) imprecisely stated that it returns roll, pitch and yaw angles. However, LSL Euler angles are extrinsic Tait-Bryan angles, in Z Y X order. With extrinsic rotations after the Z-rotation the Y-rotation is done in world coordinates, rotating the rotated vertices around world Y-axis, and similarly with X. In order X Y Z the LSL Euler angles would be proper nautical angles but the order is built-in in the llRot2Euler and llEuler2Rot functions.
vector rot2roll_pitch_yaw(rotation R)
{
/*
Convert rotation to roll, pitch and yaw angles
(c) LindaB Helendale
Permission to use this code in any way granted
Input: rotation (quaternion) R
Output: vector <roll,pitch,yaw>
Roll, pitch and yaw are body-related rotations (intrinsic Tait-Bryan angles):
first yaw to the heading, then pitch around the local Y-axis and then roll
around the local X-axis (nose direction). This is equivalent to world coordinate
rotations (extrinsic Tait-Bryan angles, or LSL Euler angles) in order roll, pitch and yaw.
Thus the rotation R is recovered from the roll, pitch and yaw angles by inverting
the order of the rotations (since in LSL they are in Z Y X or yaw, pitch, roll order):
rotation R = llEuler2Rot(<roll,0,0>) * llEuler2Rot(<0,pitch,0>) * llEuler2Rot(<0,0,yaw>);
Reference: http://en.wikipedia.org/wiki/Conversion_between_quaternions_and_Euler_angles
*/
vector eulerXYZ = < llAtan2(2*(R.s*R.x+R.y*R.z),1-2*(R.x*R.x+R.y*R.y)),
llAsin(2*(R.s*R.y-R.z*R.x)),
llAtan2(2*(R.s*R.z+R.x*R.y), 1-2*(R.y*R.y+R.z*R.z)) >;
return(eulerXYZ);
}
rotation roll_pitch_yaw2rot(vector R)
{
// convert vector <roll,pitch,yaw> to LSL rotation
return llEuler2Rot(<R.x,0,0>) * llEuler2Rot(<0,R.y,0>) * llEuler2Rot(<0,0,R.z>);
}