本文整理汇总了C++中osg::Matrix::preMultRotate方法的典型用法代码示例。如果您正苦于以下问题:C++ Matrix::preMultRotate方法的具体用法?C++ Matrix::preMultRotate怎么用?C++ Matrix::preMultRotate使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类osg::Matrix的用法示例。
在下文中一共展示了Matrix::preMultRotate方法的5个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: readRotationElement
void readRotationElement(KFbxTypedProperty<fbxDouble3>& prop,
ERotationOrder fbxRotOrder,
bool quatInterpolate,
osgAnimation::UpdateMatrixTransform* pUpdate,
osg::Matrix& staticTransform)
{
if (prop.GetKFCurve(KFCURVENODE_R_X) ||
prop.GetKFCurve(KFCURVENODE_R_Y) ||
prop.GetKFCurve(KFCURVENODE_R_Z))
{
if (quatInterpolate)
{
if (!staticTransform.isIdentity())
{
pUpdate->getStackedTransforms().push_back(
new osgAnimation::StackedMatrixElement(staticTransform));
staticTransform.makeIdentity();
}
pUpdate->getStackedTransforms().push_back(new osgAnimation::StackedQuaternionElement(
"quaternion", makeQuat(prop.Get(), fbxRotOrder)));
}
else
{
char* curveNames[3] = {KFCURVENODE_R_X, KFCURVENODE_R_Y, KFCURVENODE_R_Z};
osg::Vec3 axes[3] = {osg::Vec3(1,0,0), osg::Vec3(0,1,0), osg::Vec3(0,0,1)};
fbxDouble3 fbxPropValue = prop.Get();
fbxPropValue[0] = osg::DegreesToRadians(fbxPropValue[0]);
fbxPropValue[1] = osg::DegreesToRadians(fbxPropValue[1]);
fbxPropValue[2] = osg::DegreesToRadians(fbxPropValue[2]);
int order[3] = {0, 1, 2};
getRotationOrder(fbxRotOrder, order);
for (int i = 0; i < 3; ++i)
{
int j = order[2-i];
if (prop.GetKFCurve(curveNames[j]))
{
if (!staticTransform.isIdentity())
{
pUpdate->getStackedTransforms().push_back(new osgAnimation::StackedMatrixElement(staticTransform));
staticTransform.makeIdentity();
}
pUpdate->getStackedTransforms().push_back(new osgAnimation::StackedRotateAxisElement(
std::string("rotate") + curveNames[j], axes[j], fbxPropValue[j]));
}
else
{
staticTransform.preMultRotate(osg::Quat(fbxPropValue[j], axes[j]));
}
}
}
}
else
{
staticTransform.preMultRotate(makeQuat(prop.Get(), fbxRotOrder));
}
}示例2: computeLocalToWorldMatrix
bool computeLocalToWorldMatrix(osg::Matrix& matrix,osg::NodeVisitor* nv) const
{
osg::Quat billboardRotation;
osgUtil::CullVisitor* cullvisitor = dynamic_cast<osgUtil::CullVisitor*>(nv);
if (cullvisitor)
{
osg::Vec3 eyevector = cullvisitor->getEyeLocal()-_position;
eyevector.normalize();
osg::Vec3 side = _axis^_normal;
side.normalize();
float angle = atan2(eyevector*_normal,eyevector*side);
billboardRotation.makeRotate(osg::PI_2-angle,_axis);
}
matrix.preMultTranslate(_position);
matrix.preMultRotate(billboardRotation);
matrix.preMultRotate(_attitude);
matrix.preMultTranslate(-_pivotPoint);
return true;
}示例3: makeLocalMatrix
void makeLocalMatrix(const FbxNode* pNode, osg::Matrix& m)
{
/*From http://area.autodesk.com/forum/autodesk-fbx/fbx-sdk/the-makeup-of-the-local-matrix-of-an-kfbxnode/
Local Matrix = LclTranslation * RotationOffset * RotationPivot *
PreRotation * LclRotation * PostRotation * RotationPivotInverse *
ScalingOffset * ScalingPivot * LclScaling * ScalingPivotInverse
LocalTranslation : translate (xform -query -translation)
RotationOffset: translation compensates for the change in the rotate pivot point (xform -q -rotateTranslation)
RotationPivot: current rotate pivot position (xform -q -rotatePivot)
PreRotation : joint orientation(pre rotation)
LocalRotation: rotate transform (xform -q -rotation & xform -q -rotateOrder)
PostRotation : rotate axis (xform -q -rotateAxis)
RotationPivotInverse: inverse of RotationPivot
ScalingOffset: translation compensates for the change in the scale pivot point (xform -q -scaleTranslation)
ScalingPivot: current scale pivot position (xform -q -scalePivot)
LocalScaling: scale transform (xform -q -scale)
ScalingPivotInverse: inverse of ScalingPivot
*/
// When this flag is set to false, the RotationOrder, the Pre/Post rotation
// values and the rotation limits should be ignored.
bool rotationActive = pNode->RotationActive.Get();
EFbxRotationOrder fbxRotOrder = rotationActive ? pNode->RotationOrder.Get() : eEulerXYZ;
FbxDouble3 fbxLclPos = pNode->LclTranslation.Get();
FbxDouble3 fbxRotOff = pNode->RotationOffset.Get();
FbxDouble3 fbxRotPiv = pNode->RotationPivot.Get();
FbxDouble3 fbxPreRot = pNode->PreRotation.Get();
FbxDouble3 fbxLclRot = pNode->LclRotation.Get();
FbxDouble3 fbxPostRot = pNode->PostRotation.Get();
FbxDouble3 fbxSclOff = pNode->ScalingOffset.Get();
FbxDouble3 fbxSclPiv = pNode->ScalingPivot.Get();
FbxDouble3 fbxLclScl = pNode->LclScaling.Get();
m.makeTranslate(osg::Vec3d(
fbxLclPos[0] + fbxRotOff[0] + fbxRotPiv[0],
fbxLclPos[1] + fbxRotOff[1] + fbxRotPiv[1],
fbxLclPos[2] + fbxRotOff[2] + fbxRotPiv[2]));
if (rotationActive)
{
m.preMultRotate(
makeQuat(fbxPostRot, fbxRotOrder) *
makeQuat(fbxLclRot, fbxRotOrder) *
makeQuat(fbxPreRot, fbxRotOrder));
}
else
{
m.preMultRotate(makeQuat(fbxLclRot, fbxRotOrder));
}
m.preMultTranslate(osg::Vec3d(
fbxSclOff[0] + fbxSclPiv[0] - fbxRotPiv[0],
fbxSclOff[1] + fbxSclPiv[1] - fbxRotPiv[1],
fbxSclOff[2] + fbxSclPiv[2] - fbxRotPiv[2]));
m.preMultScale(osg::Vec3d(fbxLclScl[0], fbxLclScl[1], fbxLclScl[2]));
m.preMultTranslate(osg::Vec3d(
-fbxSclPiv[0],
-fbxSclPiv[1],
-fbxSclPiv[2]));
}示例4: applyToMatrix
void StackedQuaternionElement::applyToMatrix(osg::Matrix &matrix) const
{
matrix.preMultRotate(_quaternion);
}示例5: applyToMatrix
void StackedRotateAxisElement::applyToMatrix(osg::Matrix& matrix) const { matrix.preMultRotate(osg::Quat(_angle, _axis)); }