y2020/constants.h - RealtimeRoboticsGroup/test - Gitiles

 #ifndef y2020_CONSTANTS_H_
 #define y2020_CONSTANTS_H_

 #include <math.h>
 #include <stdint.h>

 #include <array>

 #include "frc971/constants.h"
 #include "frc971/control_loops/static_zeroing_single_dof_profiled_subsystem.h"
 #include "y2020/control_loops/drivetrain/drivetrain_dog_motor_plant.h"
 #include "y2020/control_loops/superstructure/accelerator/accelerator_plant.h"
 #include "y2020/control_loops/superstructure/control_panel/control_panel_plant.h"
 #include "y2020/control_loops/superstructure/finisher/finisher_plant.h"
 #include "y2020/control_loops/superstructure/hood/hood_plant.h"
 #include "y2020/control_loops/superstructure/intake/intake_plant.h"
 #include "y2020/control_loops/superstructure/turret/turret_plant.h"

 namespace y2020 {
 namespace constants {

 struct Values {
   static const uint16_t kCodingRobotTeamNumber = 7971;

   static const int kZeroingSampleSize = 200;

   static constexpr double kDrivetrainCyclesPerRevolution() { return 512.0; }
   static constexpr double kDrivetrainEncoderCountsPerRevolution() {
     return kDrivetrainCyclesPerRevolution() * 4;
   }
   static constexpr double kDrivetrainEncoderRatio() { return 1.0; }
   static constexpr double kMaxDrivetrainEncoderPulsesPerSecond() {
     return control_loops::drivetrain::kFreeSpeed / (2.0 * M_PI) *
            control_loops::drivetrain::kHighGearRatio /
            constants::Values::kDrivetrainEncoderRatio() *
            kDrivetrainEncoderCountsPerRevolution();
   }

   // Hood
   static constexpr double kHoodEncoderCountsPerRevolution() { return 4096.0; }

   static constexpr double kHoodEncoderRatio() { return 8.0 / 72.0; }

   static constexpr double kMaxHoodEncoderPulsesPerSecond() {
     return control_loops::superstructure::hood::kFreeSpeed / (2.0 * M_PI) *
            control_loops::superstructure::hood::kOutputRatio /
            kHoodEncoderRatio() * kHoodEncoderCountsPerRevolution();
   }

   static constexpr ::frc971::constants::Range kHoodRange() {
     return ::frc971::constants::Range{
         0.00,  // Back Hard
         0.64,   // Front Hard
         0.01,    // Back Soft
         0.63    // Front Soft
     };
   }

   ::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
       ::frc971::zeroing::AbsoluteEncoderZeroingEstimator>
       hood;

   // Intake
   static constexpr double kIntakeEncoderCountsPerRevolution() { return 4096.0; }

   static constexpr double kIntakeEncoderRatio() { return (16.0 / 32.0); }

   static constexpr double kMaxIntakeEncoderPulsesPerSecond() {
     return control_loops::superstructure::intake::kFreeSpeed / (2.0 * M_PI) *
            control_loops::superstructure::intake::kOutputRatio /
            kIntakeEncoderRatio() * kIntakeEncoderCountsPerRevolution();
   }

   static constexpr ::frc971::constants::Range kIntakeRange() {
     return ::frc971::constants::Range{
         -1.05,  // Back Hard
         1.44,   // Front Hard
         -0.89,  // Back Soft
         1.26    // Front Soft
     };
   }

   static constexpr double kIntakeZero() { return -57 * M_PI / 180.0; }

   ::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
       ::frc971::zeroing::AbsoluteEncoderZeroingEstimator>
       intake;

   static constexpr double kIntakeRollerSupplyCurrentLimit() { return 30.0; }
   static constexpr double kIntakeRollerStatorCurrentLimit() { return 40.0; }

   // Turret
   static constexpr double kTurretEncoderCountsPerRevolution() { return 4096.0; }

   static constexpr double kTurretEncoderRatio() {
     return (26.0 / 150.0) * (130.0 / 26.0);
   }

   static constexpr double kMaxTurretEncoderPulsesPerSecond() {
     return control_loops::superstructure::turret::kFreeSpeed / (2.0 * M_PI) *
            control_loops::superstructure::turret::kOutputRatio /
            kTurretEncoderRatio() * kTurretEncoderCountsPerRevolution();
   }

   static constexpr double kTurretPotRatio() { return (26.0 / 150.0); }

   static constexpr ::frc971::constants::Range kTurretRange() {
     return ::frc971::constants::Range{
         -4.6,   // Back Hard
         4.85,   // Front Hard
         -4.3,   // Back Soft
         4.7123  // Front Soft
     };
   }

   struct PotAndAbsEncoderConstants {
     ::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
         ::frc971::zeroing::PotAndAbsoluteEncoderZeroingEstimator>
         subsystem_params;
     double potentiometer_offset;
   };

   PotAndAbsEncoderConstants turret;

   // Control Panel

   // Mag encoder
   static constexpr double kControlPanelEncoderCountsPerRevolution() {
     return 4096.0;
   }

   // Ratio is encoder to output
   static constexpr double kControlPanelEncoderRatio() { return (56.0 / 28.0); }

   static constexpr double kMaxControlPanelEncoderPulsesPerSecond() {
     return control_loops::superstructure::control_panel::kFreeSpeed /
            (2.0 * M_PI) *
            control_loops::superstructure::control_panel::kOutputRatio /
            kControlPanelEncoderRatio() *
            kControlPanelEncoderCountsPerRevolution();
   }

   // Shooter
   static constexpr double kFinisherEncoderCountsPerRevolution() {
     return 2048.0;
   }
   static constexpr double kFinisherEncoderRatio() { return 30.0 / 40.0; }

   static constexpr double kMaxFinisherEncoderPulsesPerSecond() {
     return control_loops::superstructure::finisher::kFreeSpeed / (2.0 * M_PI) *
            control_loops::superstructure::finisher::kOutputRatio /
            kFinisherEncoderRatio() * kFinisherEncoderCountsPerRevolution();
   }


   static constexpr double kAcceleratorEncoderCountsPerRevolution() {
     return 2048.0;
   }
   static constexpr double kAcceleratorEncoderRatio() {
     return (1.2 * 1.2 * 1.2) * (30.0 / 40.0);
   }

   static constexpr double kMaxAcceleratorEncoderPulsesPerSecond() {
     return control_loops::superstructure::accelerator::kFreeSpeed /
            (2.0 * M_PI) *
            control_loops::superstructure::accelerator::kOutputRatio /
            kAcceleratorEncoderRatio() *
            kAcceleratorEncoderCountsPerRevolution();
   }

   // Climber
   static constexpr double kClimberSupplyCurrentLimit() { return 60.0; }
 };

 // Creates (once) a Values instance for ::aos::network::GetTeamNumber() and
 // returns a reference to it.
 const Values &GetValues();

 // Creates Values instances for each team number it is called with and
 // returns them.
 const Values &GetValuesForTeam(uint16_t team_number);

 }  // namespace constants
 }  // namespace y2020

 #endif  // y2020_CONSTANTS_H_
	#ifndef y2020_CONSTANTS_H_
	#define y2020_CONSTANTS_H_

	#include <math.h>
	#include <stdint.h>

	#include <array>

	#include "frc971/constants.h"
	#include "frc971/control_loops/static_zeroing_single_dof_profiled_subsystem.h"
	#include "y2020/control_loops/drivetrain/drivetrain_dog_motor_plant.h"
	#include "y2020/control_loops/superstructure/accelerator/accelerator_plant.h"
	#include "y2020/control_loops/superstructure/control_panel/control_panel_plant.h"
	#include "y2020/control_loops/superstructure/finisher/finisher_plant.h"
	#include "y2020/control_loops/superstructure/hood/hood_plant.h"
	#include "y2020/control_loops/superstructure/intake/intake_plant.h"
	#include "y2020/control_loops/superstructure/turret/turret_plant.h"

	namespace y2020 {
	namespace constants {

	struct Values {
	static const uint16_t kCodingRobotTeamNumber = 7971;

	static const int kZeroingSampleSize = 200;

	static constexpr double kDrivetrainCyclesPerRevolution() { return 512.0; }
	static constexpr double kDrivetrainEncoderCountsPerRevolution() {
	return kDrivetrainCyclesPerRevolution() * 4;
	}
	static constexpr double kDrivetrainEncoderRatio() { return 1.0; }
	static constexpr double kMaxDrivetrainEncoderPulsesPerSecond() {
	return control_loops::drivetrain::kFreeSpeed / (2.0 * M_PI) *
	control_loops::drivetrain::kHighGearRatio /
	constants::Values::kDrivetrainEncoderRatio() *
	kDrivetrainEncoderCountsPerRevolution();
	}

	// Hood
	static constexpr double kHoodEncoderCountsPerRevolution() { return 4096.0; }

	static constexpr double kHoodEncoderRatio() { return 8.0 / 72.0; }

	static constexpr double kMaxHoodEncoderPulsesPerSecond() {
	return control_loops::superstructure::hood::kFreeSpeed / (2.0 * M_PI) *
	control_loops::superstructure::hood::kOutputRatio /
	kHoodEncoderRatio() * kHoodEncoderCountsPerRevolution();
	}

	static constexpr ::frc971::constants::Range kHoodRange() {
	return ::frc971::constants::Range{
	0.00, // Back Hard
	0.64, // Front Hard
	0.01, // Back Soft
	0.63 // Front Soft
	};
	}

	::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
	::frc971::zeroing::AbsoluteEncoderZeroingEstimator>
	hood;

	// Intake
	static constexpr double kIntakeEncoderCountsPerRevolution() { return 4096.0; }

	static constexpr double kIntakeEncoderRatio() { return (16.0 / 32.0); }

	static constexpr double kMaxIntakeEncoderPulsesPerSecond() {
	return control_loops::superstructure::intake::kFreeSpeed / (2.0 * M_PI) *
	control_loops::superstructure::intake::kOutputRatio /
	kIntakeEncoderRatio() * kIntakeEncoderCountsPerRevolution();
	}

	static constexpr ::frc971::constants::Range kIntakeRange() {
	return ::frc971::constants::Range{
	-1.05, // Back Hard
	1.44, // Front Hard
	-0.89, // Back Soft
	1.26 // Front Soft
	};
	}

	static constexpr double kIntakeZero() { return -57 * M_PI / 180.0; }

	::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
	::frc971::zeroing::AbsoluteEncoderZeroingEstimator>
	intake;

	static constexpr double kIntakeRollerSupplyCurrentLimit() { return 30.0; }
	static constexpr double kIntakeRollerStatorCurrentLimit() { return 40.0; }

	// Turret
	static constexpr double kTurretEncoderCountsPerRevolution() { return 4096.0; }

	static constexpr double kTurretEncoderRatio() {
	return (26.0 / 150.0) * (130.0 / 26.0);
	}

	static constexpr double kMaxTurretEncoderPulsesPerSecond() {
	return control_loops::superstructure::turret::kFreeSpeed / (2.0 * M_PI) *
	control_loops::superstructure::turret::kOutputRatio /
	kTurretEncoderRatio() * kTurretEncoderCountsPerRevolution();
	}

	static constexpr double kTurretPotRatio() { return (26.0 / 150.0); }

	static constexpr ::frc971::constants::Range kTurretRange() {
	return ::frc971::constants::Range{
	-4.6, // Back Hard
	4.85, // Front Hard
	-4.3, // Back Soft
	4.7123 // Front Soft
	};
	}

	struct PotAndAbsEncoderConstants {
	::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
	::frc971::zeroing::PotAndAbsoluteEncoderZeroingEstimator>
	subsystem_params;
	double potentiometer_offset;
	};

	PotAndAbsEncoderConstants turret;

	// Control Panel

	// Mag encoder
	static constexpr double kControlPanelEncoderCountsPerRevolution() {
	return 4096.0;
	}

	// Ratio is encoder to output
	static constexpr double kControlPanelEncoderRatio() { return (56.0 / 28.0); }

	static constexpr double kMaxControlPanelEncoderPulsesPerSecond() {
	return control_loops::superstructure::control_panel::kFreeSpeed /
	(2.0 * M_PI) *
	control_loops::superstructure::control_panel::kOutputRatio /
	kControlPanelEncoderRatio() *
	kControlPanelEncoderCountsPerRevolution();
	}

	// Shooter
	static constexpr double kFinisherEncoderCountsPerRevolution() {
	return 2048.0;
	}
	static constexpr double kFinisherEncoderRatio() { return 30.0 / 40.0; }

	static constexpr double kMaxFinisherEncoderPulsesPerSecond() {
	return control_loops::superstructure::finisher::kFreeSpeed / (2.0 * M_PI) *
	control_loops::superstructure::finisher::kOutputRatio /
	kFinisherEncoderRatio() * kFinisherEncoderCountsPerRevolution();
	}


	static constexpr double kAcceleratorEncoderCountsPerRevolution() {
	return 2048.0;
	}
	static constexpr double kAcceleratorEncoderRatio() {
	return (1.2 * 1.2 * 1.2) * (30.0 / 40.0);
	}

	static constexpr double kMaxAcceleratorEncoderPulsesPerSecond() {
	return control_loops::superstructure::accelerator::kFreeSpeed /
	(2.0 * M_PI) *
	control_loops::superstructure::accelerator::kOutputRatio /
	kAcceleratorEncoderRatio() *
	kAcceleratorEncoderCountsPerRevolution();
	}

	// Climber
	static constexpr double kClimberSupplyCurrentLimit() { return 60.0; }
	};

	// Creates (once) a Values instance for ::aos::network::GetTeamNumber() and
	// returns a reference to it.
	const Values &GetValues();

	// Creates Values instances for each team number it is called with and
	// returns them.
	const Values &GetValuesForTeam(uint16_t team_number);

	} // namespace constants
	} // namespace y2020

	#endif // y2020_CONSTANTS_H_