#include <generic.hpp>

Public Types
enum	{ Options = _Options }

typedef Eigen::Matrix< Scalar, 6, 10, Options >	BodyRegressorType
	The type of the body regressor. More...

typedef VectorXs	ConfigVectorType
	Dense vectorized version of a joint configuration vector. More...

typedef ForceTpl< Scalar, Options >	Force

typedef FrameTpl< Scalar, Options >	Frame

typedef pinocchio::FrameIndex	FrameIndex

typedef pinocchio::GeomIndex	GeomIndex

typedef pinocchio::Index	Index

typedef std::vector< Index >	IndexVector

typedef InertiaTpl< Scalar, Options >	Inertia

typedef JointCollectionTpl< Scalar, Options >	JointCollection

typedef JointDataTpl< Scalar, Options, JointCollectionTpl >	JointData

typedef pinocchio::JointIndex	JointIndex

typedef JointModelTpl< Scalar, Options, JointCollectionTpl >	JointModel

typedef Eigen::Matrix< Scalar, 3, Eigen::Dynamic, Options >	Matrix3x
	The 3d jacobian type (temporary) More...

typedef Eigen::Matrix< Scalar, 6, 6, Options >	Matrix6

typedef Eigen::Matrix< Scalar, 6, Eigen::Dynamic, Options >	Matrix6x
	The 6d jacobian type (temporary) More...

typedef Eigen::Matrix< Scalar, Eigen::Dynamic, Eigen::Dynamic, Options >	MatrixXs

typedef ModelTpl< Scalar, Options, JointCollectionTpl >	Model

typedef MotionTpl< Scalar, Options >	Motion

typedef Eigen::Matrix< Scalar, 6, 6, Eigen::RowMajor\|Options >	RowMatrix6

typedef Eigen::Matrix< Scalar, Eigen::Dynamic, Eigen::Dynamic, Eigen::RowMajor\|Options >	RowMatrixXs

typedef SE3Tpl< Scalar, Options >	SE3

typedef VectorXs	TangentVectorType
	Dense vectorized version of a joint tangent vector (e.g. velocity, acceleration, etc). It also handles the notion of co-tangent vector (e.g. torque, etc). More...

typedef Tensor< Scalar, 3, Options >	Tensor3x
	More...

typedef Eigen::Matrix< Scalar, 3, 1, Options >	Vector3

typedef Eigen::Matrix< Scalar, 6, 1, Options >	Vector6

typedef Eigen::Matrix< Scalar, 6, 1, Options >	Vector6c

typedef Eigen::Matrix< Scalar, 1, 6, Eigen::RowMajor\|Options >	Vector6r

typedef Eigen::Matrix< Scalar, Eigen::Dynamic, 1, Options >	VectorXs

Public Member Functions
	DataTpl ()
	Default constructor. More...

	DataTpl (const Model &model)
	Default constructor of pinocchio::Data from a pinocchio::Model. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Force) f
	Vector of body forces expressed in the local frame of the joint. For each body, the force represents the sum of all external forces acting on the body. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Force) h
	Vector of spatial momenta expressed in the local frame of the joint. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Force) of
	Vector of body forces expressed at the origin of the world. For each body, the force represents the sum of all external forces acting on the body. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Force) of_augmented
	Vector of body forces expressed in the world frame. For each body, the force represents the sum of all external forces acting on the body. These forces are used in the context of augmented Lagrangian algorithms. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Force) oh
	Vector of spatial momenta expressed at the origin of the world. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Inertia) oinertias
	Rigid Body Inertia supported by the joint expressed in the world frame. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Inertia) oYcrb
	Composite Rigid Body Inertia expressed in the world frame. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Inertia) Ycrb
	Vector of sub-tree composite rigid body inertias, i.e. the apparent inertia of the subtree supported by the joint and expressed in the local frame of the joint.. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (int) const raint_ind

	PINOCCHIO_ALIGNED_STD_VECTOR (int) const raints_supported_dim

	PINOCCHIO_ALIGNED_STD_VECTOR (int) par_cons_ind

typedef	PINOCCHIO_ALIGNED_STD_VECTOR (JointData) JointDataVector

typedef	PINOCCHIO_ALIGNED_STD_VECTOR (JointModel) JointModelVector

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) B
	Combined variations of the inertia matrix $B_i = \frac{1}{2} [(v_i\times∗)I_i + (I_i v_i)\times^{∗} − I_i(v_i\times)]$ consistent with Christoffel symbols. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) doYcrb
	Time variation of Composite Rigid Body Inertia expressed in the world frame. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) dYcrb
	Vector of sub-tree composite rigid body inertia time derivatives $\dot{Y}_{crb}$ . See Data::Ycrb for more details. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) extended_motion_propagator2

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) Ivx
	Left variation of the inertia matrix. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) oK
	Inverse articulated inertia. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) oL
	Acceleration propagator. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) oYaba
	Articulated Body Inertia matrix of the subtree expressed in the WORLD coordinate frame. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) spatial_inv_inertia

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) vxI
	Right variation of the inertia matrix. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6) Yaba
	Articulated Body Inertia matrix of the subtree expressed in the LOCAL coordinate frame of the joint. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6x) Fcrb
	Spatial forces set, used in CRBA and CCRBA. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Matrix6x) KA

	PINOCCHIO_ALIGNED_STD_VECTOR (MatrixXs) KAS

	PINOCCHIO_ALIGNED_STD_VECTOR (MatrixXs) LA

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) a
	Vector of joint accelerations expressed in the local frame of the joint. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) a_bias

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) a_gf
	Vector of joint accelerations due to the gravity field. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) oa
	Vector of joint accelerations expressed at the origin of the world. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) oa_augmented
	Vector of joint accelerations expressed at the origin of the world. These accelerations are used in the context of augmented Lagrangian algorithms. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) oa_drift
	Vector of joint accelerations expressed at the origin of the world. These accelerations are used in the context of augmented Lagrangian algorithms. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) oa_gf
	Vector of joint accelerations expressed at the origin of the world including the gravity contribution. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) ov
	Vector of joint velocities expressed at the origin of the world. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Motion) v
	Vector of joint velocities expressed in the local frame of the joint. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (SE3) iMf
	Vector of joint placements wrt to algorithm end effector. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (SE3) liMi
	Vector of relative joint placements (wrt the body parent). More...

	PINOCCHIO_ALIGNED_STD_VECTOR (SE3) oMf
	Vector of absolute operationnel frame placements (wrt the world). More...

	PINOCCHIO_ALIGNED_STD_VECTOR (SE3) oMi
	Vector of absolute joint placements (wrt the world). More...

	PINOCCHIO_ALIGNED_STD_VECTOR (size_t) accumulation_ancestor

	PINOCCHIO_ALIGNED_STD_VECTOR (size_t) accumulation_descendant

	PINOCCHIO_ALIGNED_STD_VECTOR (size_t) accumulation_joints

	PINOCCHIO_ALIGNED_STD_VECTOR (size_t) joints_supporting_constraints

	PINOCCHIO_ALIGNED_STD_VECTOR (std::set< size_t >) const raints_supported

	PINOCCHIO_ALIGNED_STD_VECTOR (std::vector< size_t >) const raints_on_joint

	PINOCCHIO_ALIGNED_STD_VECTOR (Vector3) acom
	Vector of subtree center of mass linear accelerations expressed in the root joint of the subtree. In other words, acom[j] is the CoM linear acceleration of the subtree supported by joint and expressed in the joint frame . The element acom[0] corresponds to the acceleration of the CoM of the whole model expressed in the global frame. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Vector3) com
	Vector of subtree center of mass positions expressed in the root joint of the subtree. In other words, com[j] is the CoM position of the subtree supported by joint and expressed in the joint frame . The element com[0] corresponds to the center of mass position of the whole model and expressed in the global frame. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (Vector3) vcom
	Vector of subtree center of mass linear velocities expressed in the root joint of the subtree. In other words, vcom[j] is the CoM linear velocity of the subtree supported by joint and expressed in the joint frame . The element vcom[0] corresponds to the velocity of the CoM of the whole model expressed in the global frame. More...

	PINOCCHIO_ALIGNED_STD_VECTOR (VectorXs) lA

	PINOCCHIO_ALIGNED_STD_VECTOR (VectorXs) lambdaA

Public Attributes
Matrix6x	Ag
	Centroidal Momentum Matrix. More...

BodyRegressorType	bodyRegressor
	Body regressor. More...

MatrixXs	C
	The Coriolis matrix (a square matrix of dim model.nv). More...

ContactCholeskyDecomposition	contact_chol
	Cholesky decomposition of the KKT contact matrix. More...

PINOCCHIO_COMPILER_DIAGNOSTIC_PUSH PINOCCHIO_COMPILER_DIAGNOSTIC_IGNORED_DEPRECECATED_DECLARATIONS typedef ContactCholeskyDecompositionTpl< Scalar, Options >	ContactCholeskyDecomposition

VectorXs	D
	Diagonal of the joint space intertia matrix obtained by a Cholesky Decomposition. More...

Tensor3x	d2tau_dadq
	SO Cross-Partial derivative of the joint torque vector with respect to the joint acceleration/configuration. This also equals to the first-order partial derivative of the Mass Matrix w.r.t joint configuration. More...

Tensor3x	d2tau_dqdq
	SO Partial derivative of the joint torque vector with respect to the joint configuration. More...

Tensor3x	d2tau_dqdv
	SO Cross-Partial derivative of the joint torque vector with respect to the joint configuration/velocity. More...

Tensor3x	d2tau_dvdv
	SO Partial derivative of the joint torque vector with respect to the joint velocity. More...

MatrixXs	dac_da

MatrixXs	dac_dq

MatrixXs	dac_dv

Matrix6x	dAdq
	Variation of the spatial acceleration set with respect to the joint configuration. More...

Matrix6x	dAdv
	Variation of the spatial acceleration set with respect to the joint velocity. More...

Matrix6x	dAg
	Centroidal Momentum Matrix Time Variation. More...

Matrix6x	ddJ
	Second derivative of the Jacobian with respect to the time. More...

TangentVectorType	ddq
	The joint accelerations computed from ABA. More...

RowMatrixXs	ddq_dq
	Partial derivative of the joint acceleration vector with respect to the joint configuration. More...

RowMatrixXs	ddq_dtau
	Partial derivative of the joint acceleration vector with respect to the joint torques. More...

RowMatrixXs	ddq_dv
	Partial derivative of the joint acceleration vector with respect to the joint velocity. More...

Matrix6x	dFda
	Variation of the forceset with respect to the joint acceleration. More...

Matrix6x	dFdq
	Variation of the forceset with respect to the joint configuration. More...

Matrix6x	dFdv
	Variation of the forceset with respect to the joint velocity. More...

Matrix6x	dHdq
	Variation of the spatial momenta set with respect to the joint configuration. More...

Force	dhg
	Centroidal momentum time derivative. More...

VectorXs	diff_lambda_c
	Difference between two consecutive iterations of the proxy algorithm. More...

VectorXs	Dinv
	Diagonal inverse of the joint space intertia matrix obtained by a Cholesky Decomposition. More...

Matrix6x	dJ
	Derivative of the Jacobian with respect to the time. More...

MatrixXs	dlambda_dq
	Partial derivatives of the constraints forces with respect to the joint configuration, velocity and torque;. More...

MatrixXs	dlambda_dtau

MatrixXs	dlambda_dv

MatrixXs	dlambda_dx_prox

TangentVectorType	dq_after
	Generalized velocity after impact. More...

MatrixXs	drhs_prox

RowMatrixXs	dtau_dq
	Partial derivative of the joint torque vector with respect to the joint configuration. More...

RowMatrixXs	dtau_dv
	Partial derivative of the joint torque vector with respect to the joint velocity. More...

MatrixXs	dvc_dq
	Stack of partial derivative of the contact frame acceleration with respect to the joint parameters. More...

Matrix6x	dVdq
	Variation of the spatial velocity set with respect to the joint configuration. More...

std::vector< int >	end_idx_v_fromRow
	End index of the Joint motion subspace. More...

	extended_motion_propagator

VectorXs	g
	Vector of generalized gravity (dim model.nv). More...

Force	hg
	Centroidal momentum quantity. More...

Inertia	Ig
	Centroidal Composite Rigid Body Inertia. More...

VectorXs	impulse_c
	Lagrange Multipliers corresponding to the contact impulses in pinocchio::impulseDynamics. More...

Matrix6x	IS
	Used in computeMinverse. More...

Matrix6	Itmp
	Temporary for derivative algorithms. More...

Matrix6x	J
	Jacobian of joint placements. More...

Matrix3x	Jcom
	Jacobian of center of mass. More...

MatrixXs	JMinvJt
	Inverse of the operational-space inertia matrix. More...

PINOCCHIO_COMPILER_DIAGNOSTIC_POP JointDataVector	joints
	Vector of pinocchio::JointData associated to the pinocchio::JointModel stored in model, encapsulated in JointDataAccessor. More...

MatrixXs	jointTorqueRegressor
	Matrix related to joint torque regressor. More...

Tensor3x	kinematic_hessians
	Tensor containing the kinematic Hessian of all the joints. More...

Scalar	kinetic_energy
	Kinetic energy of the system. More...

VectorXs	lambda_c
	Lagrange Multipliers corresponding to the contact forces in pinocchio::forwardDynamics. More...

VectorXs	lambda_c_prox
	Proximal Lagrange Multipliers used in the computation of the Forward Dynamics computations. More...

std::vector< int >	lastChild
	Index of the last child (for CRBA) More...

Eigen::LLT< MatrixXs >	llt_JMinvJt
	Cholesky decompostion of . More...

MatrixXs	M
	The joint space inertia matrix (a square matrix of dim model.nv). More...

Matrix6	M6tmp
	Temporary for derivative algorithms. More...

RowMatrix6	M6tmpR

RowMatrix6	M6tmpR2

std::vector< Scalar >	mass
	Vector of subtree mass. In other words, mass[j] is the mass of the subtree supported by joint . The element mass[0] corresponds to the total mass of the model. More...

Scalar	mechanical_energy
	Mechanical energy of the system. More...

RowMatrixXs	Minv
	The inverse of the joint space inertia matrix (a square matrix of dim model.nv). More...

VectorXs	nle
	Vector of Non Linear Effects (dim model.nv). It corresponds to concatenation of the Coriolis, centrifugal and gravitational effects. More...

std::vector< int >	nvSubtree
	Dimension of the subtree motion space (for CRBA) More...

std::vector< int >	nvSubtree_fromRow
	Subtree of the current row index (used in Cholesky Decomposition). More...

MatrixXs	osim
	Operational space inertia matrix;. More...

Eigen::LLT< MatrixXs >	osim_llt

	oYaba_contact
	Articulated Body Inertia matrix with contact apparent inertia, of a given the subtree and expressed in the WORLD coordinate frame. More...

std::vector< int >	parents_fromRow
	First previous non-zero row in M (used in Cholesky Decomposition). More...

Scalar	potential_energy
	Potential energy of the system. More...

VectorXs	primal_dual_contact_solution
	RHS vector when solving the contact dynamics KKT problem. More...

VectorXs	primal_rhs_contact
	Primal RHS in contact dynamic equations. More...

Matrix6x	psid
	psidot Derivative of Jacobian w.r.t to the parent body moving v(p(j)) x Sj More...

Matrix6x	psidd
	psiddot Second Derivative of Jacobian w.r.t to the parent body moving a(p(j)) x Sj + v(p(j)) x psidj More...

EIGEN_MAKE_ALIGNED_OPERATOR_NEW typedef _Scalar	Scalar

Matrix6x	SDinv
	Used in computeMinverse. More...

MatrixXs	sDUiJt
	Temporary corresponding to $\sqrt{D} U^{-1} J^{\top}$ . More...

std::vector< int >	start_idx_v_fromRow
	Starting index of the Joint motion subspace. More...

Matrix3x	staticRegressor
	Matrix related to static regressor. More...

std::vector< std::vector< int > >	supports_fromRow
	Each element of this vector corresponds to the ordered list of indexes belonging to the supporting tree of the given index at the row level. It may be helpful to retrieve the sparsity pattern through it. More...

TangentVectorType	tau
	Vector of joint torques (dim model.nv). More...

VectorXs	tmp
	Temporary of size NV used in Cholesky Decomposition. More...

VectorXs	torque_residual
	Temporary corresponding to the residual torque $\tau - b(q,\dot{q})$ . More...

TangentVectorType	u
	Intermediate quantity corresponding to apparent torque [ABA]. More...

MatrixXs	U
	Joint space intertia matrix square root (upper trianglular part) computed with a Cholesky Decomposition. More...

Matrix6x	UDinv
	Used in computeMinverse. More...

Private Member Functions
void	computeLastChild (const Model &model)

void	computeParents_fromRow (const Model &model)

void	computeSupports_fromRow (const Model &model)

Detailed Description

template<typename _Scalar, int _Options, template< typename, int > class JointCollectionTpl>
struct pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >

Definition at line 25 of file context/generic.hpp.

Member Typedef Documentation

◆ BodyRegressorType

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 6, 10, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::BodyRegressorType

The type of the body regressor.

Definition at line 101 of file multibody/data.hpp.

◆ ConfigVectorType

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::ConfigVectorType

Dense vectorized version of a joint configuration vector.

Definition at line 83 of file multibody/data.hpp.

◆ Force

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef ForceTpl<Scalar, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Force

Definition at line 58 of file multibody/data.hpp.

◆ Frame

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef FrameTpl<Scalar, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Frame

Definition at line 60 of file multibody/data.hpp.

◆ FrameIndex

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef pinocchio::FrameIndex pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::FrameIndex

Definition at line 65 of file multibody/data.hpp.

◆ GeomIndex

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef pinocchio::GeomIndex pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::GeomIndex

Definition at line 64 of file multibody/data.hpp.

◆ Index

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef pinocchio::Index pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Index

Definition at line 62 of file multibody/data.hpp.

◆ IndexVector

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef std::vector<Index> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::IndexVector

Definition at line 66 of file multibody/data.hpp.

◆ Inertia

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef InertiaTpl<Scalar, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Inertia

Definition at line 59 of file multibody/data.hpp.

◆ JointCollection

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef JointCollectionTpl<Scalar, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::JointCollection

Definition at line 52 of file multibody/data.hpp.

◆ JointData

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef JointDataTpl<Scalar, Options, JointCollectionTpl> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::JointData

Definition at line 69 of file multibody/data.hpp.

◆ JointIndex

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef pinocchio::JointIndex pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::JointIndex

Definition at line 63 of file multibody/data.hpp.

◆ JointModel

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef JointModelTpl<Scalar, Options, JointCollectionTpl> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::JointModel

Definition at line 68 of file multibody/data.hpp.

◆ Matrix3x

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 3, Eigen::Dynamic, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Matrix3x

The 3d jacobian type (temporary)

Definition at line 93 of file multibody/data.hpp.

◆ Matrix6

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 6, 6, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Matrix6

Definition at line 95 of file multibody/data.hpp.

◆ Matrix6x

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 6, Eigen::Dynamic, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Matrix6x

The 6d jacobian type (temporary)

Definition at line 91 of file multibody/data.hpp.

◆ MatrixXs

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, Eigen::Dynamic, Eigen::Dynamic, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::MatrixXs

Definition at line 74 of file multibody/data.hpp.

◆ Model

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef ModelTpl<Scalar, Options, JointCollectionTpl> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Model

Definition at line 54 of file multibody/data.hpp.

◆ Motion

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef MotionTpl<Scalar, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Motion

Definition at line 57 of file multibody/data.hpp.

◆ RowMatrix6

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 6, 6, Eigen::RowMajor | Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::RowMatrix6

Definition at line 96 of file multibody/data.hpp.

◆ RowMatrixXs

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, Eigen::Dynamic, Eigen::Dynamic, Eigen::RowMajor | Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::RowMatrixXs

Definition at line 98 of file multibody/data.hpp.

◆ SE3

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef SE3Tpl<Scalar, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::SE3

Definition at line 56 of file multibody/data.hpp.

◆ TangentVectorType

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::TangentVectorType

Dense vectorized version of a joint tangent vector (e.g. velocity, acceleration, etc). It also handles the notion of co-tangent vector (e.g. torque, etc).

Definition at line 88 of file multibody/data.hpp.

◆ Tensor3x

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Tensor<Scalar, 3, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Tensor3x

The type of Tensor for Kinematics and Dynamics second order derivatives

Definition at line 104 of file multibody/data.hpp.

◆ Vector3

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 3, 1, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Vector3

Definition at line 76 of file multibody/data.hpp.

◆ Vector6

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 6, 1, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Vector6

Definition at line 77 of file multibody/data.hpp.

◆ Vector6c

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 6, 1, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Vector6c

Definition at line 79 of file multibody/data.hpp.

◆ Vector6r

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, 1, 6, Eigen::RowMajor | Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Vector6r

Definition at line 80 of file multibody/data.hpp.

◆ VectorXs

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef Eigen::Matrix<Scalar, Eigen::Dynamic, 1, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::VectorXs

Definition at line 75 of file multibody/data.hpp.

Member Enumeration Documentation

◆ anonymous enum

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

anonymous enum

Enumerator
Options

Definition at line 47 of file multibody/data.hpp.

Constructor & Destructor Documentation

◆ DataTpl() [1/2]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::DataTpl ( const Model & model )

explicit

Default constructor of pinocchio::Data from a pinocchio::Model.

Parameters

[in] model The model structure of the rigid body system.

◆ DataTpl() [2/2]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

template PINOCCHIO_EXPLICIT_INSTANTIATION_DEFINITION_DLLAPI pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::DataTpl ( )

inline

Default constructor.

Definition at line 583 of file multibody/data.hpp.

Member Function Documentation

◆ computeLastChild()

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

void pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::computeLastChild ( const Model & model )

private

◆ computeParents_fromRow()

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

void pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::computeParents_fromRow ( const Model & model )

private

◆ computeSupports_fromRow()

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

void pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::computeSupports_fromRow ( const Model & model )

private

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [1/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Force )

Vector of body forces expressed in the local frame of the joint. For each body, the force represents the sum of all external forces acting on the body.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [2/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Force )

Vector of spatial momenta expressed in the local frame of the joint.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [3/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Force )

Vector of body forces expressed at the origin of the world. For each body, the force represents the sum of all external forces acting on the body.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [4/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Force )

Vector of body forces expressed in the world frame. For each body, the force represents the sum of all external forces acting on the body. These forces are used in the context of augmented Lagrangian algorithms.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [5/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Force )

Vector of spatial momenta expressed at the origin of the world.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [6/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Inertia )

Rigid Body Inertia supported by the joint expressed in the world frame.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [7/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Inertia )

Composite Rigid Body Inertia expressed in the world frame.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [8/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Inertia )

Vector of sub-tree composite rigid body inertias, i.e. the apparent inertia of the subtree supported by the joint and expressed in the local frame of the joint..

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [9/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( int ) const

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [10/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( int ) const

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [11/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( int )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [12/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( JointData )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [13/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

typedef pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( JointModel )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [14/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Combined variations of the inertia matrix $B_i = \frac{1}{2} [(v_i\times∗)I_i + (I_i v_i)\times^{∗} − I_i(v_i\times)]$ consistent with Christoffel symbols.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [15/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Time variation of Composite Rigid Body Inertia expressed in the world frame.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [16/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Vector of sub-tree composite rigid body inertia time derivatives $\dot{Y}_{crb}$ . See Data::Ycrb for more details.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [17/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [18/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Left variation of the inertia matrix.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [19/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Inverse articulated inertia.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [20/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Acceleration propagator.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [21/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Articulated Body Inertia matrix of the subtree expressed in the WORLD coordinate frame.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [22/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [23/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Right variation of the inertia matrix.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [24/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6 )

Articulated Body Inertia matrix of the subtree expressed in the LOCAL coordinate frame of the joint.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [25/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6x )

Spatial forces set, used in CRBA and CCRBA.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [26/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Matrix6x )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [27/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( MatrixXs )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [28/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( MatrixXs )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [29/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

Vector of joint accelerations expressed in the local frame of the joint.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [30/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [31/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

Vector of joint accelerations due to the gravity field.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [32/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

Vector of joint accelerations expressed at the origin of the world.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [33/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

Vector of joint accelerations expressed at the origin of the world. These accelerations are used in the context of augmented Lagrangian algorithms.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [34/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

Vector of joint accelerations expressed at the origin of the world. These accelerations are used in the context of augmented Lagrangian algorithms.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [35/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

Vector of joint accelerations expressed at the origin of the world including the gravity contribution.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [36/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

Vector of joint velocities expressed at the origin of the world.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [37/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Motion )

Vector of joint velocities expressed in the local frame of the joint.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [38/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( SE3 )

Vector of joint placements wrt to algorithm end effector.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [39/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( SE3 )

Vector of relative joint placements (wrt the body parent).

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [40/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( SE3 )

Vector of absolute operationnel frame placements (wrt the world).

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [41/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( SE3 )

Vector of absolute joint placements (wrt the world).

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [42/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( size_t )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [43/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( size_t )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [44/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( size_t )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [45/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( size_t ) const

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [46/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( std::set< size_t > ) const

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [47/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( std::vector< size_t > ) const

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [48/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Vector3 )

Vector of subtree center of mass linear accelerations expressed in the root joint of the subtree. In other words, acom[j] is the CoM linear acceleration of the subtree supported by joint $ j $ and expressed in the joint frame $ j $ . The element acom[0] corresponds to the acceleration of the CoM of the whole model expressed in the global frame.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [49/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Vector3 )

Vector of subtree center of mass positions expressed in the root joint of the subtree. In other words, com[j] is the CoM position of the subtree supported by joint $ j $ and expressed in the joint frame $ j $ . The element com[0] corresponds to the center of mass position of the whole model and expressed in the global frame.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [50/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( Vector3 )

Vector of subtree center of mass linear velocities expressed in the root joint of the subtree. In other words, vcom[j] is the CoM linear velocity of the subtree supported by joint $ j $ and expressed in the joint frame $ j $ . The element vcom[0] corresponds to the velocity of the CoM of the whole model expressed in the global frame.

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [51/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( VectorXs )

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [52/52]

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::PINOCCHIO_ALIGNED_STD_VECTOR ( VectorXs )

Member Data Documentation

◆ Ag

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Ag

Centroidal Momentum Matrix.

Note: $hg = A_g \dot{q}$ maps the joint velocity set to the centroidal momentum.

Definition at line 283 of file multibody/data.hpp.

◆ bodyRegressor

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

BodyRegressorType pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::bodyRegressor

Body regressor.

Definition at line 496 of file multibody/data.hpp.

◆ C

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::C

The Coriolis matrix (a square matrix of dim model.nv).

Definition at line 204 of file multibody/data.hpp.

◆ contact_chol

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

ContactCholeskyDecomposition pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::contact_chol

Cholesky decomposition of the KKT contact matrix.

Definition at line 525 of file multibody/data.hpp.

◆ ContactCholeskyDecomposition

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

PINOCCHIO_COMPILER_DIAGNOSTIC_PUSH PINOCCHIO_COMPILER_DIAGNOSTIC_IGNORED_DEPRECECATED_DECLARATIONS typedef ContactCholeskyDecompositionTpl<Scalar, Options> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::ContactCholeskyDecomposition

Definition at line 109 of file multibody/data.hpp.

◆ D

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::D

Diagonal of the joint space intertia matrix obtained by a Cholesky Decomposition.

Definition at line 331 of file multibody/data.hpp.

◆ d2tau_dadq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Tensor3x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::d2tau_dadq

SO Cross-Partial derivative of the joint torque vector with respect to the joint acceleration/configuration. This also equals to the first-order partial derivative of the Mass Matrix w.r.t joint configuration.

Definition at line 555 of file multibody/data.hpp.

◆ d2tau_dqdq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Tensor3x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::d2tau_dqdq

SO Partial derivative of the joint torque vector with respect to the joint configuration.

Definition at line 541 of file multibody/data.hpp.

◆ d2tau_dqdv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Tensor3x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::d2tau_dqdv

SO Cross-Partial derivative of the joint torque vector with respect to the joint configuration/velocity.

Definition at line 549 of file multibody/data.hpp.

◆ d2tau_dvdv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Tensor3x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::d2tau_dvdv

SO Partial derivative of the joint torque vector with respect to the joint velocity.

Definition at line 545 of file multibody/data.hpp.

◆ dac_da

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dac_da

Definition at line 408 of file multibody/data.hpp.

◆ dac_dq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dac_dq

Definition at line 406 of file multibody/data.hpp.

◆ dac_dv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dac_dv

Definition at line 407 of file multibody/data.hpp.

◆ dAdq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dAdq

Variation of the spatial acceleration set with respect to the joint configuration.

Definition at line 379 of file multibody/data.hpp.

◆ dAdv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dAdv

Variation of the spatial acceleration set with respect to the joint velocity.

Definition at line 382 of file multibody/data.hpp.

◆ dAg

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dAg

Centroidal Momentum Matrix Time Variation.

Note: $\dot{h_g} = A_g \ddot{q}\ + \dot{A_g}\dot{q}$ maps the joint velocity and acceleration vectors to the time variation of the centroidal momentum.

Definition at line 289 of file multibody/data.hpp.

◆ ddJ

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::ddJ

Second derivative of the Jacobian with respect to the time.

Definition at line 365 of file multibody/data.hpp.

◆ ddq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

TangentVectorType pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::ddq

The joint accelerations computed from ABA.

Definition at line 255 of file multibody/data.hpp.

◆ ddq_dq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

RowMatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::ddq_dq

Partial derivative of the joint acceleration vector with respect to the joint configuration.

Definition at line 393 of file multibody/data.hpp.

◆ ddq_dtau

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

RowMatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::ddq_dtau

Partial derivative of the joint acceleration vector with respect to the joint torques.

Definition at line 401 of file multibody/data.hpp.

◆ ddq_dv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

RowMatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::ddq_dv

Partial derivative of the joint acceleration vector with respect to the joint velocity.

Definition at line 397 of file multibody/data.hpp.

◆ dFda

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dFda

Variation of the forceset with respect to the joint acceleration.

Definition at line 216 of file multibody/data.hpp.

◆ dFdq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dFdq

Variation of the forceset with respect to the joint configuration.

Definition at line 210 of file multibody/data.hpp.

◆ dFdv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dFdv

Variation of the forceset with respect to the joint velocity.

Definition at line 213 of file multibody/data.hpp.

◆ dHdq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dHdq

Variation of the spatial momenta set with respect to the joint configuration.

Definition at line 207 of file multibody/data.hpp.

◆ dhg

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Force pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dhg

Centroidal momentum time derivative.

Note: The centroidal momentum time derivative is expressed in the frame centered at the CoM and aligned with the inertial frame (i.e. the world frame).; $\dot{h_g} = \left( m\ddot{c}, \dot{L}_{g} \right);$ . $\dot{h_g}$ is the stack of the linear momentum variation and the angular momemtum variation.

Definition at line 304 of file multibody/data.hpp.

◆ diff_lambda_c

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::diff_lambda_c

Difference between two consecutive iterations of the proxy algorithm.

Definition at line 477 of file multibody/data.hpp.

◆ Dinv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Dinv

Diagonal inverse of the joint space intertia matrix obtained by a Cholesky Decomposition.

Definition at line 335 of file multibody/data.hpp.

◆ dJ

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dJ

Derivative of the Jacobian with respect to the time.

Definition at line 362 of file multibody/data.hpp.

◆ dlambda_dq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dlambda_dq

Partial derivatives of the constraints forces with respect to the joint configuration, velocity and torque;.

Definition at line 415 of file multibody/data.hpp.

◆ dlambda_dtau

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dlambda_dtau

Definition at line 417 of file multibody/data.hpp.

◆ dlambda_dv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dlambda_dv

Definition at line 416 of file multibody/data.hpp.

◆ dlambda_dx_prox

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dlambda_dx_prox

Definition at line 418 of file multibody/data.hpp.

◆ dq_after

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

TangentVectorType pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dq_after

Generalized velocity after impact.

Definition at line 486 of file multibody/data.hpp.

◆ drhs_prox

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::drhs_prox

Definition at line 418 of file multibody/data.hpp.

◆ dtau_dq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

RowMatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dtau_dq

Partial derivative of the joint torque vector with respect to the joint configuration.

Definition at line 386 of file multibody/data.hpp.

◆ dtau_dv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

RowMatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dtau_dv

Partial derivative of the joint torque vector with respect to the joint velocity.

Definition at line 389 of file multibody/data.hpp.

◆ dvc_dq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dvc_dq

Stack of partial derivative of the contact frame acceleration with respect to the joint parameters.

Definition at line 405 of file multibody/data.hpp.

◆ dVdq

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::dVdq

Variation of the spatial velocity set with respect to the joint configuration.

Definition at line 376 of file multibody/data.hpp.

◆ end_idx_v_fromRow

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

std::vector<int> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::end_idx_v_fromRow

End index of the Joint motion subspace.

Definition at line 324 of file multibody/data.hpp.

◆ extended_motion_propagator

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::extended_motion_propagator

Definition at line 562 of file multibody/data.hpp.

◆ g

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::g

Vector of generalized gravity (dim model.nv).

Note: In the multibody dynamics equation $M\ddot{q} + c(q, \dot{q}) + g(q) = \tau$ , the gravity effect is associated to the term.

Definition at line 183 of file multibody/data.hpp.

◆ hg

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Force pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::hg

Centroidal momentum quantity.

Note: The centroidal momentum is expressed in the frame centered at the CoM and aligned with the inertial frame (i.e. the world frame).; $h_g = \left( m\dot{c}, L_{g} \right);$ . is the stack of the linear momentum and the angular momemtum vectors.

Definition at line 296 of file multibody/data.hpp.

◆ Ig

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Inertia pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Ig

Centroidal Composite Rigid Body Inertia.

Note: $hg = Ig v_{\text{mean}}$ map a mean velocity to the current centroidal momentum quantity.

Definition at line 309 of file multibody/data.hpp.

◆ impulse_c

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::impulse_c

Lagrange Multipliers corresponding to the contact impulses in pinocchio::impulseDynamics.

Definition at line 490 of file multibody/data.hpp.

◆ IS

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::IS

Used in computeMinverse.

Definition at line 225 of file multibody/data.hpp.

◆ Itmp

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6 pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Itmp

Temporary for derivative algorithms.

Definition at line 247 of file multibody/data.hpp.

◆ J

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::J

Jacobian of joint placements.

Note: The columns of J corresponds to the basis of the spatial velocities of each joint and expressed at the origin of the inertial frame. In other words, if $v_{J_{i}} = S_{i} \dot{q}_{i}$ is the relative velocity of the joint i regarding to its parent, then $J = \begin{bmatrix} ^{0}X_{1} S_{1} & \cdots & ^{0}X_{i} S_{i} & \cdots & ^{0}X_{\text{nj}} S_{\text{nj}} \end{bmatrix}$ . This Jacobian has no special meaning. To get the jacobian of a precise joint, you need to call pinocchio::getJointJacobian

Definition at line 359 of file multibody/data.hpp.

◆ Jcom

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix3x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Jcom

Jacobian of center of mass.

Note: This Jacobian maps the joint velocity vector to the velocity of the center of mass, expressed in the inertial frame. In other words, $v_{\text{CoM}} = J_{\text{CoM}} \dot{q}$ .

Definition at line 449 of file multibody/data.hpp.

◆ JMinvJt

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::JMinvJt

Inverse of the operational-space inertia matrix.

Definition at line 463 of file multibody/data.hpp.

◆ joints

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

PINOCCHIO_COMPILER_DIAGNOSTIC_POP JointDataVector pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::joints

Vector of pinocchio::JointData associated to the pinocchio::JointModel stored in model, encapsulated in JointDataAccessor.

Definition at line 114 of file multibody/data.hpp.

◆ jointTorqueRegressor

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::jointTorqueRegressor

Matrix related to joint torque regressor.

Definition at line 499 of file multibody/data.hpp.

◆ kinematic_hessians

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Tensor3x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::kinematic_hessians

Tensor containing the kinematic Hessian of all the joints.

Definition at line 518 of file multibody/data.hpp.

◆ kinetic_energy

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Scalar pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::kinetic_energy

Kinetic energy of the system.

Definition at line 452 of file multibody/data.hpp.

◆ lambda_c

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::lambda_c

Lagrange Multipliers corresponding to the contact forces in pinocchio::forwardDynamics.

Definition at line 470 of file multibody/data.hpp.

◆ lambda_c_prox

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::lambda_c_prox

Proximal Lagrange Multipliers used in the computation of the Forward Dynamics computations.

Definition at line 474 of file multibody/data.hpp.

◆ lastChild

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

std::vector<int> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::lastChild

Index of the last child (for CRBA)

Definition at line 315 of file multibody/data.hpp.

◆ llt_JMinvJt

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Eigen::LLT<MatrixXs> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::llt_JMinvJt

Cholesky decompostion of $JMinvJt$ .

Definition at line 466 of file multibody/data.hpp.

◆ M

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::M

The joint space inertia matrix (a square matrix of dim model.nv).

Definition at line 198 of file multibody/data.hpp.

◆ M6tmp

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6 pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::M6tmp

Temporary for derivative algorithms.

Definition at line 250 of file multibody/data.hpp.

◆ M6tmpR

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

RowMatrix6 pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::M6tmpR

Definition at line 251 of file multibody/data.hpp.

◆ M6tmpR2

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

RowMatrix6 pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::M6tmpR2

Definition at line 252 of file multibody/data.hpp.

◆ mass

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

std::vector<Scalar> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::mass

Vector of subtree mass. In other words, mass[j] is the mass of the subtree supported by joint $ j $ . The element mass[0] corresponds to the total mass of the model.

Definition at line 443 of file multibody/data.hpp.

◆ mechanical_energy

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Scalar pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::mechanical_energy

Mechanical energy of the system.

Definition at line 458 of file multibody/data.hpp.

◆ Minv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

RowMatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Minv

The inverse of the joint space inertia matrix (a square matrix of dim model.nv).

Definition at line 201 of file multibody/data.hpp.

◆ nle

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::nle

Vector of Non Linear Effects (dim model.nv). It corresponds to concatenation of the Coriolis, centrifugal and gravitational effects.

Note: In the multibody dynamics equation $M\ddot{q} + b(q, \dot{q}) = \tau$ , the non linear effects are associated to the term .

Definition at line 178 of file multibody/data.hpp.

◆ nvSubtree

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

std::vector<int> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::nvSubtree

Dimension of the subtree motion space (for CRBA)

Definition at line 318 of file multibody/data.hpp.

◆ nvSubtree_fromRow

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

std::vector<int> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::nvSubtree_fromRow

Subtree of the current row index (used in Cholesky Decomposition).

Definition at line 350 of file multibody/data.hpp.

◆ osim

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::osim

Operational space inertia matrix;.

Definition at line 411 of file multibody/data.hpp.

◆ osim_llt

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Eigen::LLT<MatrixXs> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::osim_llt

Definition at line 509 of file multibody/data.hpp.

◆ oYaba_contact

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::oYaba_contact

Articulated Body Inertia matrix with contact apparent inertia, of a given the subtree and expressed in the WORLD coordinate frame.

Definition at line 269 of file multibody/data.hpp.

◆ parents_fromRow

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

std::vector<int> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::parents_fromRow

First previous non-zero row in M (used in Cholesky Decomposition).

Definition at line 341 of file multibody/data.hpp.

◆ potential_energy

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Scalar pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::potential_energy

Potential energy of the system.

Definition at line 455 of file multibody/data.hpp.

◆ primal_dual_contact_solution

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::primal_dual_contact_solution

RHS vector when solving the contact dynamics KKT problem.

Definition at line 528 of file multibody/data.hpp.

◆ primal_rhs_contact

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::primal_rhs_contact

Primal RHS in contact dynamic equations.

Definition at line 531 of file multibody/data.hpp.

◆ psid

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::psid

psidot Derivative of Jacobian w.r.t to the parent body moving v(p(j)) x Sj

Definition at line 369 of file multibody/data.hpp.

◆ psidd

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::psidd

psiddot Second Derivative of Jacobian w.r.t to the parent body moving a(p(j)) x Sj + v(p(j)) x psidj

Definition at line 373 of file multibody/data.hpp.

◆ Scalar

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

EIGEN_MAKE_ALIGNED_OPERATOR_NEW typedef _Scalar pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::Scalar

Definition at line 46 of file multibody/data.hpp.

◆ SDinv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::SDinv

Used in computeMinverse.

Definition at line 219 of file multibody/data.hpp.

◆ sDUiJt

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::sDUiJt

Temporary corresponding to $\sqrt{D} U^{-1} J^{\top}$ .

Definition at line 480 of file multibody/data.hpp.

◆ start_idx_v_fromRow

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

std::vector<int> pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::start_idx_v_fromRow

Starting index of the Joint motion subspace.

Definition at line 321 of file multibody/data.hpp.

◆ staticRegressor

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix3x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::staticRegressor

Matrix related to static regressor.

Definition at line 493 of file multibody/data.hpp.

◆ supports_fromRow

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

std::vector<std::vector<int> > pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::supports_fromRow

Each element of this vector corresponds to the ordered list of indexes belonging to the supporting tree of the given index at the row level. It may be helpful to retrieve the sparsity pattern through it.

Definition at line 347 of file multibody/data.hpp.

◆ tau

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

TangentVectorType pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::tau

Vector of joint torques (dim model.nv).

Definition at line 172 of file multibody/data.hpp.

◆ tmp

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::tmp

Temporary of size NV used in Cholesky Decomposition.

Definition at line 338 of file multibody/data.hpp.

◆ torque_residual

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

VectorXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::torque_residual

Temporary corresponding to the residual torque $\tau - b(q,\dot{q})$ .

Definition at line 483 of file multibody/data.hpp.

◆ u

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

TangentVectorType pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::u

Intermediate quantity corresponding to apparent torque [ABA].

Definition at line 278 of file multibody/data.hpp.

◆ U

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

MatrixXs pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::U

Joint space intertia matrix square root (upper trianglular part) computed with a Cholesky Decomposition.

Definition at line 328 of file multibody/data.hpp.

◆ UDinv

template<typename _Scalar , int _Options, template< typename, int > class JointCollectionTpl>

Matrix6x pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >::UDinv

Used in computeMinverse.

Definition at line 222 of file multibody/data.hpp.

The documentation for this struct was generated from the following files:

Public Types

Public Member Functions

Public Attributes

Private Member Functions

Detailed Description

template<typename _Scalar, int _Options, template< typename, int > class JointCollectionTpl> struct pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >

Member Typedef Documentation

◆ BodyRegressorType

◆ ConfigVectorType

◆ Force

◆ Frame

◆ FrameIndex

◆ GeomIndex

◆ Index

◆ IndexVector

◆ Inertia

◆ JointCollection

◆ JointData

◆ JointIndex

◆ JointModel

◆ Matrix3x

◆ Matrix6

◆ Matrix6x

◆ MatrixXs

◆ Model

◆ Motion

◆ RowMatrix6

◆ RowMatrixXs

◆ SE3

◆ TangentVectorType

◆ Tensor3x

◆ Vector3

◆ Vector6

◆ Vector6c

◆ Vector6r

◆ VectorXs

Member Enumeration Documentation

◆ anonymous enum

Constructor & Destructor Documentation

◆ DataTpl() [1/2]

◆ DataTpl() [2/2]

Member Function Documentation

◆ computeLastChild()

◆ computeParents_fromRow()

◆ computeSupports_fromRow()

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [1/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [2/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [3/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [4/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [5/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [6/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [7/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [8/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [9/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [10/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [11/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [12/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [13/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [14/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [15/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [16/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [17/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [18/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [19/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [20/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [21/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [22/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [23/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [24/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [25/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [26/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [27/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [28/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [29/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [30/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [31/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [32/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [33/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [34/52]

◆ PINOCCHIO_ALIGNED_STD_VECTOR() [35/52]

template<typename _Scalar, int _Options, template< typename, int > class JointCollectionTpl>
struct pinocchio::DataTpl< _Scalar, _Options, JointCollectionTpl >