/*========================================================================= * * Copyright Insight Software Consortium * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0.txt * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *=========================================================================*/ #ifndef itkEuler3DTransform_h #define itkEuler3DTransform_h #include #include "itkRigid3DTransform.h" namespace itk { /** \class Euler3DTransform * * \brief Euler3DTransform of a vector space (e.g. space coordinates) * * This transform applies a rotation and translation to the space given 3 euler * angles and a 3D translation. Rotation is about a user specified center. * * The parameters for this transform can be set either using individual Set * methods or in serialized form using SetParameters() and SetFixedParameters(). * * The serialization of the optimizable parameters is an array of 6 elements. * The first 3 represents three euler angle of rotation respectively about * the X, Y and Z axis. The last 3 parameters defines the translation in each * dimension. * * The serialization of the fixed parameters is an array of 3 elements defining * the center of rotation. * * \ingroup ITKTransform */ template class ITK_TEMPLATE_EXPORT Euler3DTransform : public Rigid3DTransform { public: /** Standard class typedefs. */ typedef Euler3DTransform Self; typedef Rigid3DTransform Superclass; typedef SmartPointer Pointer; typedef SmartPointer ConstPointer; /** New macro for creation of through a Smart Pointer. */ itkNewMacro(Self); /** Run-time type information (and related methods). */ itkTypeMacro(Euler3DTransform, Rigid3DTransform); /** Dimension of the space. */ itkStaticConstMacro(SpaceDimension, unsigned int, 3); itkStaticConstMacro(InputSpaceDimension, unsigned int, 3); itkStaticConstMacro(OutputSpaceDimension, unsigned int, 3); itkStaticConstMacro(ParametersDimension, unsigned int, 6); typedef typename Superclass::ParametersType ParametersType; typedef typename Superclass::ParametersValueType ParametersValueType; typedef typename Superclass::FixedParametersType FixedParametersType; typedef typename Superclass::FixedParametersValueType FixedParametersValueType; typedef typename Superclass::JacobianType JacobianType; typedef typename Superclass::ScalarType ScalarType; typedef typename Superclass::InputVectorType InputVectorType; typedef typename Superclass::OutputVectorType OutputVectorType; typedef typename Superclass::InputCovariantVectorType InputCovariantVectorType; typedef typename Superclass::OutputCovariantVectorType OutputCovariantVectorType; typedef typename Superclass::InputVnlVectorType InputVnlVectorType; typedef typename Superclass::OutputVnlVectorType OutputVnlVectorType; typedef typename Superclass::InputPointType InputPointType; typedef typename Superclass::OutputPointType OutputPointType; typedef typename Superclass::MatrixType MatrixType; typedef typename Superclass::InverseMatrixType InverseMatrixType; typedef typename Superclass::CenterType CenterType; typedef typename Superclass::TranslationType TranslationType; typedef typename Superclass::OffsetType OffsetType; typedef typename Superclass::ScalarType AngleType; /** Set/Get the transformation from a container of parameters * This is typically used by optimizers. There are 6 parameters. The first * three represent the angles to rotate around the coordinate axis, and the * last three represents the offset. */ void SetParameters(const ParametersType & parameters) ITK_OVERRIDE; const ParametersType & GetParameters(void) const ITK_OVERRIDE; const FixedParametersType & GetFixedParameters() const ITK_OVERRIDE; virtual void SetFixedParameters(const FixedParametersType & parameters) ITK_OVERRIDE; /** Set the rotational part of the transform. */ void SetRotation(ScalarType angleX, ScalarType angleY, ScalarType angleZ); itkGetConstMacro(AngleX, ScalarType); itkGetConstMacro(AngleY, ScalarType); itkGetConstMacro(AngleZ, ScalarType); /** This method computes the Jacobian matrix of the transformation. * given point or vector, returning the transformed point or * vector. The rank of the Jacobian will also indicate if the * transform is invertible at this point. */ virtual void ComputeJacobianWithRespectToParameters( const InputPointType & p, JacobianType & jacobian) const ITK_OVERRIDE; /** The Euler angle representation of a rotation is not unique and * depends on the order of rotations. In general there are 12 * options. This class supports two of them, ZXY and ZYX. The * default is ZXY. These functions set and get the value which * indicates whether the rotation is ZYX or ZXY. */ virtual void SetComputeZYX (const bool flag); itkGetConstMacro(ComputeZYX, bool); virtual void SetIdentity(void) ITK_OVERRIDE; protected: Euler3DTransform(const MatrixType & matrix, const OutputPointType & offset); Euler3DTransform(unsigned int paramsSpaceDims); Euler3DTransform(); ~Euler3DTransform() ITK_OVERRIDE {} void PrintSelf(std::ostream & os, Indent indent) const ITK_OVERRIDE; /** Set values of angles directly without recomputing other parameters. */ void SetVarRotation(ScalarType angleX, ScalarType angleY, ScalarType angleZ); /** Compute the components of the rotation matrix in the superclass. */ void ComputeMatrix(void) ITK_OVERRIDE; void ComputeMatrixParameters(void) ITK_OVERRIDE; private: ITK_DISALLOW_COPY_AND_ASSIGN(Euler3DTransform); ScalarType m_AngleX; ScalarType m_AngleY; ScalarType m_AngleZ; bool m_ComputeZYX; }; // class Euler3DTransform } // namespace itk #ifndef ITK_MANUAL_INSTANTIATION #include "itkEuler3DTransform.hxx" #endif #endif /* itkEuler3DTransform_h */