apollo6.0-doxygen/html/distance__approach__ipopt__relax__end__interface_8h_source.html

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  *
  * 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
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  *
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  * 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
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 /*
  * @file
  */

 #pragma once

 #include <algorithm>
 #include <limits>
 #include <vector>

 #include <omp.h>

 #include <adolc/adolc.h>
 #include <adolc/adolc_openmp.h>
 #include <adolc/adolc_sparse.h>
 #include <adolc/adouble.h>

 #include <coin/IpTNLP.hpp>
 #include <coin/IpTypes.hpp>

 #include "Eigen/Dense"

 #include "cyber/common/log.h"
 #include "cyber/common/macros.h"
 #include "modules/common/configs/proto/vehicle_config.pb.h"
 #include "modules/common/configs/vehicle_config_helper.h"
 #include "modules/common/math/math_utils.h"
 #include "modules/common/util/util.h"
 #include "modules/planning/common/planning_gflags.h"
 #include "modules/planning/open_space/trajectory_smoother/distance_approach_interface.h"
 #include "modules/planning/proto/planner_open_space_config.pb.h"

 #define tag_f 1
 #define tag_g 2
 #define tag_L 3
 #define HPOFF 30

 namespace apollo {
 namespace planning {

 class DistanceApproachIPOPTRelaxEndInterface
     : public DistanceApproachInterface {
  public:
   DistanceApproachIPOPTRelaxEndInterface(
       const size_t horizon, const double ts, const Eigen::MatrixXd& ego,
       const Eigen::MatrixXd& xWS, const Eigen::MatrixXd& uWS,
       const Eigen::MatrixXd& l_warm_up, const Eigen::MatrixXd& n_warm_up,
       const Eigen::MatrixXd& x0, const Eigen::MatrixXd& xf,
       const Eigen::MatrixXd& last_time_u, const std::vector<double>& XYbounds,
       const Eigen::MatrixXi& obstacles_edges_num, const size_t obstacles_num,
       const Eigen::MatrixXd& obstacles_A, const Eigen::MatrixXd& obstacles_b,
       const PlannerOpenSpaceConfig& planner_open_space_config);

   virtual ~DistanceApproachIPOPTRelaxEndInterface() = default;

   bool get_nlp_info(int& n, int& m, int& nnz_jac_g, int& nnz_h_lag,  // NOLINT
                     IndexStyleEnum& index_style) override;           // NOLINT

   bool get_bounds_info(int n, double* x_l, double* x_u, int m, double* g_l,
                        double* g_u) override;

   bool get_starting_point(int n, bool init_x, double* x, bool init_z,
                           double* z_L, double* z_U, int m, bool init_lambda,
                           double* lambda) override;

   bool eval_f(int n, const double* x, bool new_x, double& obj_value) override;

   bool eval_grad_f(int n, const double* x, bool new_x, double* grad_f) override;

   bool eval_g(int n, const double* x, bool new_x, int m, double* g) override;

   bool check_g(int n, const double* x, int m, const double* g);

   bool eval_jac_g(int n, const double* x, bool new_x, int m, int nele_jac,
                   int* iRow, int* jCol, double* values) override;

   // sequential implementation to jac_g
   bool eval_jac_g_ser(int n, const double* x, bool new_x, int m, int nele_jac,
                       int* iRow, int* jCol, double* values) override;

   bool eval_h(int n, const double* x, bool new_x, double obj_factor, int m,
               const double* lambda, bool new_lambda, int nele_hess, int* iRow,
               int* jCol, double* values) override;

   void finalize_solution(Ipopt::SolverReturn status, int n, const double* x,
                          const double* z_L, const double* z_U, int m,
                          const double* g, const double* lambda,
                          double obj_value, const Ipopt::IpoptData* ip_data,
                          Ipopt::IpoptCalculatedQuantities* ip_cq) override;

   void get_optimization_results(Eigen::MatrixXd* state_result,
                                 Eigen::MatrixXd* control_result,
                                 Eigen::MatrixXd* time_result,
                                 Eigen::MatrixXd* dual_l_result,
                                 Eigen::MatrixXd* dual_n_result) const override;

   //***************    start ADOL-C part ***********************************
   template <class T>
   void eval_obj(int n, const T* x, T* obj_value);

   template <class T>
   void eval_constraints(int n, const T* x, int m, T* g);

   void generate_tapes(int n, int m, int* nnz_jac_g, int* nnz_h_lag);
   //***************    end   ADOL-C part ***********************************

  private:
   int num_of_variables_ = 0;
   int num_of_constraints_ = 0;
   int horizon_ = 0;
   int lambda_horizon_ = 0;
   int miu_horizon_ = 0;
   double ts_ = 0.0;
   Eigen::MatrixXd ego_;
   Eigen::MatrixXd xWS_;
   Eigen::MatrixXd uWS_;
   Eigen::MatrixXd l_warm_up_;
   Eigen::MatrixXd n_warm_up_;
   Eigen::MatrixXd x0_;
   Eigen::MatrixXd xf_;
   Eigen::MatrixXd last_time_u_;
   std::vector<double> XYbounds_;

   // debug flag
   bool enable_constraint_check_;

   // penalty
   double weight_state_x_ = 0.0;
   double weight_state_y_ = 0.0;
   double weight_state_phi_ = 0.0;
   double weight_state_v_ = 0.0;
   double weight_input_steer_ = 0.0;
   double weight_input_a_ = 0.0;
   double weight_rate_steer_ = 0.0;
   double weight_rate_a_ = 0.0;
   double weight_stitching_steer_ = 0.0;
   double weight_stitching_a_ = 0.0;
   double weight_first_order_time_ = 0.0;
   double weight_second_order_time_ = 0.0;
   double weight_end_state_ = 0.0;

   double w_ev_ = 0.0;
   double l_ev_ = 0.0;
   std::vector<double> g_;
   double offset_ = 0.0;
   Eigen::MatrixXi obstacles_edges_num_;
   int obstacles_num_ = 0;
   int obstacles_edges_sum_ = 0;
   double wheelbase_ = 0.0;

   Eigen::MatrixXd state_result_;
   Eigen::MatrixXd dual_l_result_;
   Eigen::MatrixXd dual_n_result_;
   Eigen::MatrixXd control_result_;
   Eigen::MatrixXd time_result_;

   // obstacles_A
   Eigen::MatrixXd obstacles_A_;

   // obstacles_b
   Eigen::MatrixXd obstacles_b_;

   // whether to use fix time
   bool use_fix_time_ = false;

   // state start index
   int state_start_index_ = 0;

   // control start index.
   int control_start_index_ = 0;

   // time start index
   int time_start_index_ = 0;

   // lagrangian l start index
   int l_start_index_ = 0;

   // lagrangian n start index
   int n_start_index_ = 0;

   double min_safety_distance_ = 0.0;

   double max_safety_distance_ = 0.0;

   double max_steer_angle_ = 0.0;

   double max_speed_forward_ = 0.0;

   double max_speed_reverse_ = 0.0;

   double max_acceleration_forward_ = 0.0;

   double max_acceleration_reverse_ = 0.0;

   double min_time_sample_scaling_ = 0.0;

   double max_time_sample_scaling_ = 0.0;

   double max_steer_rate_ = 0.0;

   double max_lambda_ = 0.0;

   double max_miu_ = 0.0;

   bool enable_jacobian_ad_ = false;

  private:
   DistanceApproachConfig distance_approach_config_;
   const common::VehicleParam vehicle_param_ =
       common::VehicleConfigHelper::GetConfig().vehicle_param();

  private:
   //***************    start ADOL-C part ***********************************
   double* obj_lam;
   //** variables for sparsity exploitation
   unsigned int* rind_g; /* row indices    */
   unsigned int* cind_g; /* column indices */
   double* jacval;       /* values         */
   unsigned int* rind_L; /* row indices    */
   unsigned int* cind_L; /* column indices */
   double* hessval;      /* values */
   int nnz_jac;
   int nnz_L;
   int options_g[4];
   int options_L[4];
   //***************    end   ADOL-C part ***********************************
 };

 }  // namespace planning
 }  // namespace apollo
apollo::planning::DistanceApproachIPOPTRelaxEndInterface::eval_constraints
void eval_constraints(int n, const T *x, int m, T *g)

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::eval_grad_f
bool eval_grad_f(int n, const double *x, bool new_x, double *grad_f) override

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::get_bounds_info
bool get_bounds_info(int n, double *x_l, double *x_u, int m, double *g_l, double *g_u) override

apollo
PlanningContext is the runtime context in planning. It is persistent across multiple frames...
Definition: atomic_hash_map.h:25

vehicle_config_helper.h

planning
Planning module main class. It processes GPS and IMU as input, to generate planning info...

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::generate_tapes
void generate_tapes(int n, int m, int *nnz_jac_g, int *nnz_h_lag)

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::eval_h
bool eval_h(int n, const double *x, bool new_x, double obj_factor, int m, const double *lambda, bool new_lambda, int nele_hess, int *iRow, int *jCol, double *values) override

apollo::planning::DistanceApproachInterface
Definition: distance_approach_interface.h:50

macros.h

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::get_starting_point
bool get_starting_point(int n, bool init_x, double *x, bool init_z, double *z_L, double *z_U, int m, bool init_lambda, double *lambda) override

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::check_g
bool check_g(int n, const double *x, int m, const double *g)

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::get_nlp_info
bool get_nlp_info(int &n, int &m, int &nnz_jac_g, int &nnz_h_lag, IndexStyleEnum &index_style) override

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::eval_f
bool eval_f(int n, const double *x, bool new_x, double &obj_value) override

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::~DistanceApproachIPOPTRelaxEndInterface
virtual ~DistanceApproachIPOPTRelaxEndInterface()=default

apollo::common::VehicleConfigHelper::GetConfig
static const VehicleConfig & GetConfig()
Get the current vehicle configuration.

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::DistanceApproachIPOPTRelaxEndInterface
DistanceApproachIPOPTRelaxEndInterface(const size_t horizon, const double ts, const Eigen::MatrixXd &ego, const Eigen::MatrixXd &xWS, const Eigen::MatrixXd &uWS, const Eigen::MatrixXd &l_warm_up, const Eigen::MatrixXd &n_warm_up, const Eigen::MatrixXd &x0, const Eigen::MatrixXd &xf, const Eigen::MatrixXd &last_time_u, const std::vector< double > &XYbounds, const Eigen::MatrixXi &obstacles_edges_num, const size_t obstacles_num, const Eigen::MatrixXd &obstacles_A, const Eigen::MatrixXd &obstacles_b, const PlannerOpenSpaceConfig &planner_open_space_config)

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::get_optimization_results
void get_optimization_results(Eigen::MatrixXd *state_result, Eigen::MatrixXd *control_result, Eigen::MatrixXd *time_result, Eigen::MatrixXd *dual_l_result, Eigen::MatrixXd *dual_n_result) const override

math_utils.h
Math-related util functions.

distance_approach_interface.h

planning_gflags.h

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::eval_jac_g_ser
bool eval_jac_g_ser(int n, const double *x, bool new_x, int m, int nele_jac, int *iRow, int *jCol, double *values) override

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::eval_jac_g
bool eval_jac_g(int n, const double *x, bool new_x, int m, int nele_jac, int *iRow, int *jCol, double *values) override

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::finalize_solution
void finalize_solution(Ipopt::SolverReturn status, int n, const double *x, const double *z_L, const double *z_U, int m, const double *g, const double *lambda, double obj_value, const Ipopt::IpoptData *ip_data, Ipopt::IpoptCalculatedQuantities *ip_cq) override

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::eval_g
bool eval_g(int n, const double *x, bool new_x, int m, double *g) override

log.h

util.h
Some util functions.

apollo::planning::DistanceApproachIPOPTRelaxEndInterface
Definition: distance_approach_ipopt_relax_end_interface.h:57

apollo::planning::DistanceApproachIPOPTRelaxEndInterface::eval_obj
void eval_obj(int n, const T *x, T *obj_value)