y2023/control_loops/superstructure/arm/arm.h - RealtimeRoboticsGroup/test - Gitiles

 #ifndef Y2023_CONTROL_LOOPS_SUPERSTRUCTURE_ARM_ARM_H_
 #define Y2023_CONTROL_LOOPS_SUPERSTRUCTURE_ARM_ARM_H_

 #include "aos/time/time.h"
 #include "frc971/control_loops/double_jointed_arm/dynamics.h"
 #include "frc971/control_loops/double_jointed_arm/ekf.h"
 #include "frc971/control_loops/double_jointed_arm/graph.h"
 #include "frc971/control_loops/double_jointed_arm/trajectory.h"
 #include "frc971/zeroing/zeroing.h"
 #include "y2023/constants.h"
 #include "y2023/control_loops/superstructure/arm/generated_graph.h"
 #include "y2023/control_loops/superstructure/superstructure_position_generated.h"
 #include "y2023/control_loops/superstructure/superstructure_status_generated.h"

 using frc971::control_loops::arm::EKF;
 using frc971::control_loops::arm::TrajectoryFollower;

 namespace y2023 {
 namespace control_loops {
 namespace superstructure {
 namespace arm {

 class Arm {
  public:
   Arm(std::shared_ptr<const constants::Values> values);

   // if true, tune down all the constants for testing.
   static constexpr bool kGrannyMode() { return false; }
   // the operating voltage.
   static constexpr double kOperatingVoltage() {
     return kGrannyMode() ? 5.0 : 12.0;
   }

   static constexpr double kDt() { return 0.00505; }

   static constexpr double kAlpha0Max() { return kGrannyMode() ? 5.0 : 15.0; }
   static constexpr double kAlpha1Max() { return kGrannyMode() ? 5.0 : 15.0; }

   static constexpr double kVMax() { return kGrannyMode() ? 5.0 : 11.5; }

   static constexpr double kPathlessVMax() { return 5.0; }
   static constexpr double kGotoPathVMax() { return 6.0; }

   flatbuffers::Offset<superstructure::ArmStatus> Iterate(
       const ::aos::monotonic_clock::time_point /*monotonic_now*/,
       const uint32_t *unsafe_goal, const superstructure::ArmPosition *position,
       bool trajectory_override, double *proximal_output, double *distal_output,
       bool /*intake*/, bool /*spit*/, flatbuffers::FlatBufferBuilder *fbb);

   void Reset();

   ArmState state() const { return state_; }
   bool estopped() const { return state_ == ArmState::ESTOP; }

   bool zeroed() const {
     return (proximal_zeroing_estimator_.zeroed() &&
             distal_zeroing_estimator_.zeroed());
   }
   // Returns the maximum position for the intake.  This is used to override the
   // intake position to release the box when the state machine is lifting.
   double max_intake_override() const { return max_intake_override_; }
   uint32_t current_node() const { return current_node_; }
   double path_distance_to_go() { return follower_.path_distance_to_go(); }

  private:
   bool AtState(uint32_t state) const { return current_node_ == state; }
   bool NearEnd(double threshold = 0.03) const {
     return ::std::abs(arm_ekf_.X_hat(0) - follower_.theta(0)) <= threshold &&
            ::std::abs(arm_ekf_.X_hat(2) - follower_.theta(1)) <= threshold &&
            follower_.path_distance_to_go() < 1e-3;
   }

   std::shared_ptr<const constants::Values> values_;
   ArmState state_;

   ::frc971::zeroing::PotAndAbsoluteEncoderZeroingEstimator
       proximal_zeroing_estimator_;
   ::frc971::zeroing::PotAndAbsoluteEncoderZeroingEstimator
       distal_zeroing_estimator_;

   double proximal_offset_;
   double distal_offset_;
   double max_intake_override_;

   const ::Eigen::Matrix<double, 2, 2> alpha_unitizer_;
   double vmax_ = kVMax();

   frc971::control_loops::arm::Dynamics dynamics_;

   ::std::vector<TrajectoryAndParams> trajectories_;

   SearchGraph search_graph_;

   bool close_enough_for_full_power_;

   size_t brownout_count_;

   EKF arm_ekf_;

   TrajectoryFollower follower_;

   const ::std::vector<::Eigen::Matrix<double, 2, 1>> points_;

   // Start at the 0th index.
   uint32_t current_node_;

   EIGEN_MAKE_ALIGNED_OPERATOR_NEW;
 };
 }  // namespace arm
 }  // namespace superstructure
 }  // namespace control_loops
 }  // namespace y2023

 #endif  // Y2023_CONTROL_LOOPS_SUPERSTRUCTURE_ARM_ARM_H_
	#ifndef Y2023_CONTROL_LOOPS_SUPERSTRUCTURE_ARM_ARM_H_
	#define Y2023_CONTROL_LOOPS_SUPERSTRUCTURE_ARM_ARM_H_

	#include "aos/time/time.h"
	#include "frc971/control_loops/double_jointed_arm/dynamics.h"
	#include "frc971/control_loops/double_jointed_arm/ekf.h"
	#include "frc971/control_loops/double_jointed_arm/graph.h"
	#include "frc971/control_loops/double_jointed_arm/trajectory.h"
	#include "frc971/zeroing/zeroing.h"
	#include "y2023/constants.h"
	#include "y2023/control_loops/superstructure/arm/generated_graph.h"
	#include "y2023/control_loops/superstructure/superstructure_position_generated.h"
	#include "y2023/control_loops/superstructure/superstructure_status_generated.h"

	using frc971::control_loops::arm::EKF;
	using frc971::control_loops::arm::TrajectoryFollower;

	namespace y2023 {
	namespace control_loops {
	namespace superstructure {
	namespace arm {

	class Arm {
	public:
	Arm(std::shared_ptr<const constants::Values> values);

	// if true, tune down all the constants for testing.
	static constexpr bool kGrannyMode() { return false; }
	// the operating voltage.
	static constexpr double kOperatingVoltage() {
	return kGrannyMode() ? 5.0 : 12.0;
	}

	static constexpr double kDt() { return 0.00505; }

	static constexpr double kAlpha0Max() { return kGrannyMode() ? 5.0 : 15.0; }
	static constexpr double kAlpha1Max() { return kGrannyMode() ? 5.0 : 15.0; }

	static constexpr double kVMax() { return kGrannyMode() ? 5.0 : 11.5; }

	static constexpr double kPathlessVMax() { return 5.0; }
	static constexpr double kGotoPathVMax() { return 6.0; }

	flatbuffers::Offset<superstructure::ArmStatus> Iterate(
	const ::aos::monotonic_clock::time_point /monotonic_now/,
	const uint32_t unsafe_goal, const superstructure::ArmPosition position,
	bool trajectory_override, double proximal_output, double distal_output,
	bool /intake/, bool /spit/, flatbuffers::FlatBufferBuilder *fbb);

	void Reset();

	ArmState state() const { return state_; }
	bool estopped() const { return state_ == ArmState::ESTOP; }

	bool zeroed() const {
	return (proximal_zeroing_estimator_.zeroed() &&
	distal_zeroing_estimator_.zeroed());
	}
	// Returns the maximum position for the intake. This is used to override the
	// intake position to release the box when the state machine is lifting.
	double max_intake_override() const { return max_intake_override_; }
	uint32_t current_node() const { return current_node_; }
	double path_distance_to_go() { return follower_.path_distance_to_go(); }

	private:
	bool AtState(uint32_t state) const { return current_node_ == state; }
	bool NearEnd(double threshold = 0.03) const {
	return ::std::abs(arm_ekf_.X_hat(0) - follower_.theta(0)) <= threshold &&
	::std::abs(arm_ekf_.X_hat(2) - follower_.theta(1)) <= threshold &&
	follower_.path_distance_to_go() < 1e-3;
	}

	std::shared_ptr<const constants::Values> values_;
	ArmState state_;

	::frc971::zeroing::PotAndAbsoluteEncoderZeroingEstimator
	proximal_zeroing_estimator_;
	::frc971::zeroing::PotAndAbsoluteEncoderZeroingEstimator
	distal_zeroing_estimator_;

	double proximal_offset_;
	double distal_offset_;
	double max_intake_override_;

	const ::Eigen::Matrix<double, 2, 2> alpha_unitizer_;
	double vmax_ = kVMax();

	frc971::control_loops::arm::Dynamics dynamics_;

	::std::vector<TrajectoryAndParams> trajectories_;

	SearchGraph search_graph_;

	bool close_enough_for_full_power_;

	size_t brownout_count_;

	EKF arm_ekf_;

	TrajectoryFollower follower_;

	const ::std::vector<::Eigen::Matrix<double, 2, 1>> points_;

	// Start at the 0th index.
	uint32_t current_node_;

	EIGEN_MAKE_ALIGNED_OPERATOR_NEW;
	};
	} // namespace arm
	} // namespace superstructure
	} // namespace control_loops
	} // namespace y2023

	#endif // Y2023_CONTROL_LOOPS_SUPERSTRUCTURE_ARM_ARM_H_