Removed incorrect Quaternion to AngAxis conversion

use Float3 AngularAxis( const Quaternion &rotation ) in ::Oyster::Math3D
instead
This commit is contained in:
Dander7BD 2014-02-14 15:33:17 +01:00
parent 911700676c
commit 73e9629832
4 changed files with 3 additions and 55 deletions

View File

@ -420,7 +420,7 @@ void GameState::DataRecieved( NetEvent<NetworkClient*, NetworkClient::ClientEven
// if is this player. Remember to change camera
if( this->myId == decoded.object_ID )
camera.SetAngular( QuaternionToAngularAxis(rotation).xyz );
camera.SetAngular( AngularAxis(rotation) );
int i = FindObject( this->dynamicObjects, decoded.object_ID );
if( i > -1 )
@ -437,7 +437,7 @@ void GameState::DataRecieved( NetEvent<NetworkClient*, NetworkClient::ClientEven
if( this->myId == decoded.object_ID )
{
camera.SetPosition( position );
camera.SetAngular( QuaternionToAngularAxis(rotation).xyz );
camera.SetAngular( AngularAxis(rotation) );
}
int i = FindObject( this->dynamicObjects, decoded.object_ID );

View File

@ -375,7 +375,7 @@ namespace LinearAlgebra3D
template<typename ScalarType>
inline ::LinearAlgebra::Vector3<ScalarType> AngularAxis( const ::LinearAlgebra::Quaternion<ScalarType> &rotation )
{
{ // see http://www.euclideanspace.com/maths/geometry/rotations/conversions/quaternionToAngle/index.htm
ScalarType angle = ScalarType(2) * (ScalarType)::std::acos( rotation.real ),
multiplier = angle / (ScalarType)::std::sqrt( ScalarType(1) - rotation.real * rotation.real );
return multiplier * rotation.imaginary;

View File

@ -102,52 +102,6 @@ namespace Oyster { namespace Math3D
// return ::LinearAlgebra3D::ExtractAngularAxis( orientationMatrix );
//}
Float4 QuaternionToAngularAxis(Float4 quaternion)
{
Float4 axis = Float4::null;
Float s = sqrtf(1 - quaternion.w*quaternion.w);
axis.w = 2*acos(quaternion.w*quaternion.w);
if(1 - quaternion.w > 0.001f)
{
axis.x = quaternion.x/s;
axis.y = quaternion.y/s;
axis.z = quaternion.z/s;
}
else
{
axis.x = quaternion.x;
axis.y = quaternion.y;
axis.z = quaternion.z;
}
return axis;
}
Float4 QuaternionToAngularAxis(Quaternion quaternion)
{
Float4 axis = Float4::null;
Float s = sqrtf(1 - quaternion.real*quaternion.real);
axis.w = 2*acos(quaternion.real*quaternion.real);
if(1 - quaternion.real > 0.001f)
{
axis.x = quaternion.imaginary.x/s;
axis.y = quaternion.imaginary.y/s;
axis.z = quaternion.imaginary.z/s;
}
else
{
axis.x = quaternion.imaginary.x;
axis.y = quaternion.imaginary.y;
axis.z = quaternion.imaginary.z;
}
return axis;
}
Float4x4 & TranslationMatrix( const Float3 &position, Float4x4 &targetMem )
{
return ::LinearAlgebra3D::TranslationMatrix( position, targetMem );

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@ -152,12 +152,6 @@ namespace Oyster { namespace Math3D //! Oyster's native math library specialized
////! Extracts the angularAxis from orientationMatrix
//Float4 ExtractAngularAxis( const Float4x4 &orientationMatrix );
//! Converts a quaternion as Float4 to angular axis as Float4
Float4 QuaternionToAngularAxis(Float4 quaternion);
//! Converts a quaternion to angular axis as Float4
Float4 QuaternionToAngularAxis(Quaternion quaternion);
//! Sets and returns targetMem to a translationMatrix with position as translation.
Float4x4 & TranslationMatrix( const Float3 &position, Float4x4 &targetMem = Float4x4() );