// Copyright 2021 DeepMind Technologies Limited // // 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 // // 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 MUJOCO_SRC_ENGINE_ENGINE_CORE_SMOOTH_H_ #define MUJOCO_SRC_ENGINE_ENGINE_CORE_SMOOTH_H_ #include #include #include #ifdef __cplusplus extern "C" { #endif //-------------------------- position -------------------------------------------------------------- // forward kinematics MJAPI void mj_kinematics(const mjModel* m, mjData* d); // map inertias and motion dofs to global frame centered at CoM MJAPI void mj_comPos(const mjModel* m, mjData* d); // compute camera and light positions and orientations MJAPI void mj_camlight(const mjModel* m, mjData* d); // compute flex-related quantities MJAPI void mj_flex(const mjModel* m, mjData* d); // compute tendon lengths, velocities and moment arms MJAPI void mj_tendon(const mjModel* m, mjData* d); // compute time derivative of dense tendon Jacobian for one tendon MJAPI void mj_tendonDot(const mjModel* m, mjData* d, int id, mjtNum* Jdot); // compute actuator transmission lengths and moments MJAPI void mj_transmission(const mjModel* m, mjData* d); //-------------------------- inertia --------------------------------------------------------------- // composite rigid body inertia algorithm MJAPI void mj_crb(const mjModel* m, mjData* d); // add tendon armature to qM MJAPI void mj_tendonArmature(const mjModel* m, mjData* d); // make inertia matrix MJAPI void mj_makeM(const mjModel* m, mjData* d); // sparse L'*D*L factorizaton of inertia-like matrix M, assumed spd (legacy implementation) MJAPI void mj_factorI_legacy(const mjModel* m, mjData* d, const mjtNum* M, mjtNum* qLD, mjtNum* qLDiagInv); // sparse L'*D*L factorizaton of inertia-like matrix MJAPI void mj_factorI(mjtNum* mat, mjtNum* diaginv, int nv, const int* rownnz, const int* rowadr, const int* colind); // sparse L'*D*L factorizaton of the inertia matrix M, assumed spd MJAPI void mj_factorM(const mjModel* m, mjData* d); // sparse backsubstitution: x = inv(L'*D*L)*x (legacy implementation) MJAPI void mj_solveLD_legacy(const mjModel* m, mjtNum* x, int n, const mjtNum* qLD, const mjtNum* qLDiagInv); // in-place sparse backsubstitution: x = inv(L'*D*L)*x // handle n vectors at once MJAPI void mj_solveLD(mjtNum* x, const mjtNum* qLD, const mjtNum* qLDiagInv, int nv, int n, const int* rownnz, const int* rowadr, const int* colind); // sparse backsubstitution: x = inv(L'*D*L)*y, use factorization in d MJAPI void mj_solveM(const mjModel* m, mjData* d, mjtNum* x, const mjtNum* y, int n); // half of sparse backsubstitution: x = sqrt(inv(D))*inv(L')*y MJAPI void mj_solveM2(const mjModel* m, mjData* d, mjtNum* x, const mjtNum* y, const mjtNum* sqrtInvD, int n); //-------------------------- velocity -------------------------------------------------------------- // compute cvel, cdof_dot MJAPI void mj_comVel(const mjModel* m, mjData* d); // subtree linear velocity and angular momentum MJAPI void mj_subtreeVel(const mjModel* m, mjData* d); //-------------------------- RNE ------------------------------------------------------------------- // RNE: compute M(qpos)*qacc + C(qpos,qvel); flg_acc=0 removes inertial term MJAPI void mj_rne(const mjModel* m, mjData* d, int flg_acc, mjtNum* result); // RNE with complete data: compute cacc, cfrc_ext, cfrc_int MJAPI void mj_rnePostConstraint(const mjModel* m, mjData* d); //-------------------------- tendon bias ----------------------------------------------------------- // add bias force due to tendon armature MJAPI void mj_tendonBias(const mjModel* m, mjData* d, mjtNum* qfrc); #ifdef __cplusplus } #endif #endif // MUJOCO_SRC_ENGINE_ENGINE_CORE_SMOOTH_H_