y2024/autonomous/autonomous_actor.cc - RealtimeRoboticsGroup/test - Gitiles

 #include "y2024/autonomous/autonomous_actor.h"

 #include <chrono>
 #include <cinttypes>
 #include <cmath>

 #include "aos/logging/logging.h"
 #include "aos/util/math.h"
 #include "frc971/control_loops/drivetrain/localizer_generated.h"
 #include "y2024/autonomous/auto_splines.h"
 #include "y2024/constants.h"
 #include "y2024/control_loops/drivetrain/drivetrain_base.h"

 DEFINE_bool(spline_auto, false, "Run simple test S-spline auto mode.");

 namespace y2024::autonomous {

 using ::frc971::ProfileParametersT;

 ProfileParametersT MakeProfileParameters(float max_velocity,
                                          float max_acceleration) {
   ProfileParametersT result;
   result.max_velocity = max_velocity;
   result.max_acceleration = max_acceleration;
   return result;
 }

 using ::aos::monotonic_clock;
 using frc971::CreateProfileParameters;
 using ::frc971::ProfileParametersT;
 using frc971::control_loops::CreateStaticZeroingSingleDOFProfiledSubsystemGoal;
 using frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemGoal;
 using frc971::control_loops::drivetrain::LocalizerControl;
 namespace chrono = ::std::chrono;

 AutonomousActor::AutonomousActor(::aos::EventLoop *event_loop)
     : frc971::autonomous::BaseAutonomousActor(
           event_loop, control_loops::drivetrain::GetDrivetrainConfig()),
       localizer_control_sender_(
           event_loop->MakeSender<
               ::frc971::control_loops::drivetrain::LocalizerControl>(
               "/drivetrain")),
       joystick_state_fetcher_(
           event_loop->MakeFetcher<aos::JoystickState>("/aos")),
       robot_state_fetcher_(event_loop->MakeFetcher<aos::RobotState>("/aos")),
       auto_splines_(),
       superstructure_goal_sender_(
           event_loop->MakeSender<::y2024::control_loops::superstructure::Goal>(
               "/superstructure")),
       superstructure_status_fetcher_(
           event_loop
               ->MakeFetcher<::y2024::control_loops::superstructure::Status>(
                   "/superstructure")) {
   drivetrain_status_fetcher_.Fetch();
   replan_timer_ = event_loop->AddTimer([this]() { Replan(); });

   event_loop->OnRun([this, event_loop]() {
     replan_timer_->Schedule(event_loop->monotonic_now());
     button_poll_->Schedule(event_loop->monotonic_now(),
                            chrono::milliseconds(50));
   });

   // TODO(james): Really need to refactor this code since we keep using it.
   button_poll_ = event_loop->AddTimer([this]() {
     const aos::monotonic_clock::time_point now =
         this->event_loop()->context().monotonic_event_time;
     if (robot_state_fetcher_.Fetch()) {
       if (robot_state_fetcher_->user_button()) {
         user_indicated_safe_to_reset_ = true;
         MaybeSendStartingPosition();
       }
     }
     if (joystick_state_fetcher_.Fetch()) {
       if (joystick_state_fetcher_->has_alliance() &&
           (joystick_state_fetcher_->alliance() != alliance_)) {
         alliance_ = joystick_state_fetcher_->alliance();
         is_planned_ = false;
         // Only kick the planning out by 2 seconds. If we end up enabled in
         // that second, then we will kick it out further based on the code
         // below.
         replan_timer_->Schedule(now + std::chrono::seconds(2));
       }
       if (joystick_state_fetcher_->enabled()) {
         if (!is_planned_) {
           // Only replan once we've been disabled for 5 seconds.
           replan_timer_->Schedule(now + std::chrono::seconds(5));
         }
       }
     }
   });
 }

 void AutonomousActor::Replan() {
   if (!drivetrain_status_fetcher_.Fetch()) {
     replan_timer_->Schedule(event_loop()->monotonic_now() + chrono::seconds(1));
     AOS_LOG(INFO, "Drivetrain not up, replanning in 1 second");
     return;
   }

   if (alliance_ == aos::Alliance::kInvalid) {
     return;
   }
   sent_starting_position_ = false;
   if (FLAGS_spline_auto) {
     test_spline_ =
         PlanSpline(std::bind(&AutonomousSplines::TestSpline, &auto_splines_,
                              std::placeholders::_1, alliance_),
                    SplineDirection::kForward);

     starting_position_ = test_spline_->starting_position();
   }

   is_planned_ = true;

   MaybeSendStartingPosition();
 }

 void AutonomousActor::MaybeSendStartingPosition() {
   if (is_planned_ && user_indicated_safe_to_reset_ &&
       !sent_starting_position_) {
     CHECK(starting_position_);
     SendStartingPosition(starting_position_.value());
   }
 }

 void AutonomousActor::Reset() {
   InitializeEncoders();
   ResetDrivetrain();

   joystick_state_fetcher_.Fetch();
   CHECK(joystick_state_fetcher_.get() != nullptr)
       << "Expect at least one JoystickState message before running auto...";
   alliance_ = joystick_state_fetcher_->alliance();
   preloaded_ = false;
 }

 bool AutonomousActor::RunAction(
     const ::frc971::autonomous::AutonomousActionParams *params) {
   Reset();

   AOS_LOG(INFO, "Params are %d\n", params->mode());

   if (!user_indicated_safe_to_reset_) {
     AOS_LOG(WARNING, "Didn't send starting position prior to starting auto.");
     CHECK(starting_position_);
     SendStartingPosition(starting_position_.value());
   }
   // Clear this so that we don't accidentally resend things as soon as we
   // replan later.
   user_indicated_safe_to_reset_ = false;
   is_planned_ = false;
   starting_position_.reset();

   AOS_LOG(INFO, "Params are %d\n", params->mode());
   if (alliance_ == aos::Alliance::kInvalid) {
     AOS_LOG(INFO, "Aborting autonomous due to invalid alliance selection.");
     return false;
   }
   if (FLAGS_spline_auto) {
     SplineAuto();
   } else {
     AOS_LOG(WARNING, "No auto mode selected.");
   }
   return true;
 }

 void AutonomousActor::SplineAuto() {
   CHECK(test_spline_);

   if (!test_spline_->WaitForPlan()) return;
   test_spline_->Start();

   if (!test_spline_->WaitForSplineDistanceRemaining(0.02)) return;
 }

 void AutonomousActor::SendStartingPosition(const Eigen::Vector3d &start) {
   // Set up the starting position for the blue alliance.

   auto builder = localizer_control_sender_.MakeBuilder();

   LocalizerControl::Builder localizer_control_builder =
       builder.MakeBuilder<LocalizerControl>();
   localizer_control_builder.add_x(start(0));
   localizer_control_builder.add_y(start(1));
   localizer_control_builder.add_theta(start(2));
   localizer_control_builder.add_theta_uncertainty(0.00001);
   AOS_LOG(INFO, "User button pressed, x: %f y: %f theta: %f", start(0),
           start(1), start(2));
   if (builder.Send(localizer_control_builder.Finish()) !=
       aos::RawSender::Error::kOk) {
     AOS_LOG(ERROR, "Failed to reset localizer.\n");
   }
 }
 }  // namespace y2024::autonomous
	#include "y2024/autonomous/autonomous_actor.h"

	#include <chrono>
	#include <cinttypes>
	#include <cmath>

	#include "aos/logging/logging.h"
	#include "aos/util/math.h"
	#include "frc971/control_loops/drivetrain/localizer_generated.h"
	#include "y2024/autonomous/auto_splines.h"
	#include "y2024/constants.h"
	#include "y2024/control_loops/drivetrain/drivetrain_base.h"

	DEFINE_bool(spline_auto, false, "Run simple test S-spline auto mode.");

	namespace y2024::autonomous {

	using ::frc971::ProfileParametersT;

	ProfileParametersT MakeProfileParameters(float max_velocity,
	float max_acceleration) {
	ProfileParametersT result;
	result.max_velocity = max_velocity;
	result.max_acceleration = max_acceleration;
	return result;
	}

	using ::aos::monotonic_clock;
	using frc971::CreateProfileParameters;
	using ::frc971::ProfileParametersT;
	using frc971::control_loops::CreateStaticZeroingSingleDOFProfiledSubsystemGoal;
	using frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemGoal;
	using frc971::control_loops::drivetrain::LocalizerControl;
	namespace chrono = ::std::chrono;

	AutonomousActor::AutonomousActor(::aos::EventLoop *event_loop)
	: frc971::autonomous::BaseAutonomousActor(
	event_loop, control_loops::drivetrain::GetDrivetrainConfig()),
	localizer_control_sender_(
	event_loop->MakeSender<
	::frc971::control_loops::drivetrain::LocalizerControl>(
	"/drivetrain")),
	joystick_state_fetcher_(
	event_loop->MakeFetcher<aos::JoystickState>("/aos")),
	robot_state_fetcher_(event_loop->MakeFetcher<aos::RobotState>("/aos")),
	auto_splines_(),
	superstructure_goal_sender_(
	event_loop->MakeSender<::y2024::control_loops::superstructure::Goal>(
	"/superstructure")),
	superstructure_status_fetcher_(
	event_loop
	->MakeFetcher<::y2024::control_loops::superstructure::Status>(
	"/superstructure")) {
	drivetrain_status_fetcher_.Fetch();
	replan_timer_ = event_loop->AddTimer([this]() { Replan(); });

	event_loop->OnRun([this, event_loop]() {
	replan_timer_->Schedule(event_loop->monotonic_now());
	button_poll_->Schedule(event_loop->monotonic_now(),
	chrono::milliseconds(50));
	});

	// TODO(james): Really need to refactor this code since we keep using it.
	button_poll_ = event_loop->AddTimer([this]() {
	const aos::monotonic_clock::time_point now =
	this->event_loop()->context().monotonic_event_time;
	if (robot_state_fetcher_.Fetch()) {
	if (robot_state_fetcher_->user_button()) {
	user_indicated_safe_to_reset_ = true;
	MaybeSendStartingPosition();
	}
	}
	if (joystick_state_fetcher_.Fetch()) {
	if (joystick_state_fetcher_->has_alliance() &&
	(joystick_state_fetcher_->alliance() != alliance_)) {
	alliance_ = joystick_state_fetcher_->alliance();
	is_planned_ = false;
	// Only kick the planning out by 2 seconds. If we end up enabled in
	// that second, then we will kick it out further based on the code
	// below.
	replan_timer_->Schedule(now + std::chrono::seconds(2));
	}
	if (joystick_state_fetcher_->enabled()) {
	if (!is_planned_) {
	// Only replan once we've been disabled for 5 seconds.
	replan_timer_->Schedule(now + std::chrono::seconds(5));
	}
	}
	}
	});
	}

	void AutonomousActor::Replan() {
	if (!drivetrain_status_fetcher_.Fetch()) {
	replan_timer_->Schedule(event_loop()->monotonic_now() + chrono::seconds(1));
	AOS_LOG(INFO, "Drivetrain not up, replanning in 1 second");
	return;
	}

	if (alliance_ == aos::Alliance::kInvalid) {
	return;
	}
	sent_starting_position_ = false;
	if (FLAGS_spline_auto) {
	test_spline_ =
	PlanSpline(std::bind(&AutonomousSplines::TestSpline, &auto_splines_,
	std::placeholders::_1, alliance_),
	SplineDirection::kForward);

	starting_position_ = test_spline_->starting_position();
	}

	is_planned_ = true;

	MaybeSendStartingPosition();
	}

	void AutonomousActor::MaybeSendStartingPosition() {
	if (is_planned_ && user_indicated_safe_to_reset_ &&
	!sent_starting_position_) {
	CHECK(starting_position_);
	SendStartingPosition(starting_position_.value());
	}
	}

	void AutonomousActor::Reset() {
	InitializeEncoders();
	ResetDrivetrain();

	joystick_state_fetcher_.Fetch();
	CHECK(joystick_state_fetcher_.get() != nullptr)
	<< "Expect at least one JoystickState message before running auto...";
	alliance_ = joystick_state_fetcher_->alliance();
	preloaded_ = false;
	}

	bool AutonomousActor::RunAction(
	const ::frc971::autonomous::AutonomousActionParams *params) {
	Reset();

	AOS_LOG(INFO, "Params are %d\n", params->mode());

	if (!user_indicated_safe_to_reset_) {
	AOS_LOG(WARNING, "Didn't send starting position prior to starting auto.");
	CHECK(starting_position_);
	SendStartingPosition(starting_position_.value());
	}
	// Clear this so that we don't accidentally resend things as soon as we
	// replan later.
	user_indicated_safe_to_reset_ = false;
	is_planned_ = false;
	starting_position_.reset();

	AOS_LOG(INFO, "Params are %d\n", params->mode());
	if (alliance_ == aos::Alliance::kInvalid) {
	AOS_LOG(INFO, "Aborting autonomous due to invalid alliance selection.");
	return false;
	}
	if (FLAGS_spline_auto) {
	SplineAuto();
	} else {
	AOS_LOG(WARNING, "No auto mode selected.");
	}
	return true;
	}

	void AutonomousActor::SplineAuto() {
	CHECK(test_spline_);

	if (!test_spline_->WaitForPlan()) return;
	test_spline_->Start();

	if (!test_spline_->WaitForSplineDistanceRemaining(0.02)) return;
	}

	void AutonomousActor::SendStartingPosition(const Eigen::Vector3d &start) {
	// Set up the starting position for the blue alliance.

	auto builder = localizer_control_sender_.MakeBuilder();

	LocalizerControl::Builder localizer_control_builder =
	builder.MakeBuilder<LocalizerControl>();
	localizer_control_builder.add_x(start(0));
	localizer_control_builder.add_y(start(1));
	localizer_control_builder.add_theta(start(2));
	localizer_control_builder.add_theta_uncertainty(0.00001);
	AOS_LOG(INFO, "User button pressed, x: %f y: %f theta: %f", start(0),
	start(1), start(2));
	if (builder.Send(localizer_control_builder.Finish()) !=
	aos::RawSender::Error::kOk) {
	AOS_LOG(ERROR, "Failed to reset localizer.\n");
	}
	}
	} // namespace y2024::autonomous