frc971/wpilib/wpilib_interface.cc - RealtimeRoboticsGroup/test - Gitiles

 #include <stdio.h>
 #include <string.h>
 #include <unistd.h>
 #include <inttypes.h>

 #include <thread>
 #include <mutex>
 #include <functional>

 #include "aos/common/controls/output_check.q.h"
 #include "aos/common/controls/sensor_generation.q.h"
 #include "aos/common/logging/logging.h"
 #include "aos/common/logging/queue_logging.h"
 #include "aos/common/messages/robot_state.q.h"
 #include "aos/common/time.h"
 #include "aos/common/util/log_interval.h"
 #include "aos/common/util/phased_loop.h"
 #include "aos/common/util/wrapping_counter.h"
 #include "aos/common/stl_mutex.h"
 #include "aos/linux_code/init.h"

 #include "frc971/control_loops/drivetrain/drivetrain.q.h"
 #include "frc971/constants.h"
 #include "frc971/shifter_hall_effect.h"

 #include "frc971/wpilib/hall_effect.h"
 #include "frc971/wpilib/joystick_sender.h"
 #include "frc971/wpilib/loop_output_handler.h"
 #include "frc971/wpilib/buffered_solenoid.h"
 #include "frc971/wpilib/buffered_pcm.h"
 #include "frc971/wpilib/gyro_sender.h"
 #include "frc971/wpilib/dma_edge_counting.h"
 #include "frc971/wpilib/interrupt_edge_counting.h"

 #include "Encoder.h"
 #include "Talon.h"
 #include "DriverStation.h"
 #include "AnalogInput.h"
 #include "Compressor.h"
 #include "RobotBase.h"

 #ifndef M_PI
 #define M_PI 3.14159265358979323846
 #endif

 using ::aos::util::SimpleLogInterval;
 using ::frc971::control_loops::drivetrain_queue;
 using ::aos::util::WrappingCounter;

 namespace frc971 {
 namespace wpilib {

 double drivetrain_translate(int32_t in) {
   return static_cast<double>(in) /
          (256.0 /*cpr*/ * 2.0 /*2x.  Stupid WPILib*/) *
          (18.0 / 50.0 /*output stage*/) * (56.0 / 30.0 /*encoder gears*/)
          // * constants::GetValues().drivetrain_encoder_ratio
          *
          (3.5 /*wheel diameter*/ * 2.54 / 100.0 * M_PI);
 }

 class SensorReader {
  public:
   SensorReader() {
     filter_.SetPeriodNanoSeconds(100000);
   }

   void set_left_encoder(::std::unique_ptr<Encoder> left_encoder) {
     left_encoder_ = ::std::move(left_encoder);
   }

   void set_right_encoder(::std::unique_ptr<Encoder> right_encoder) {
     right_encoder_ = ::std::move(right_encoder);
   }

   void operator()() {
     ::aos::SetCurrentThreadName("SensorReader");

     static const int kPriority = 30;
     //static const int kInterruptPriority = 55;

     ::aos::SetCurrentThreadRealtimePriority(kPriority);
     while (run_) {
       ::aos::time::PhasedLoopXMS(5, 9000);
       RunIteration();
     }
   }

   void RunIteration() {
     DriverStation *ds = DriverStation::GetInstance();

     if (ds->IsSysActive()) {
       auto message = ::aos::controls::output_check_received.MakeMessage();
       // TODO(brians): Actually read a pulse value from the roboRIO.
       message->pwm_value = 0;
       message->pulse_length = -1;
       LOG_STRUCT(DEBUG, "received", *message);
       message.Send();
     }

     drivetrain_queue.position.MakeWithBuilder()
         .right_encoder(drivetrain_translate(right_encoder_->GetRaw()))
         .left_encoder(-drivetrain_translate(left_encoder_->GetRaw()))
         .battery_voltage(ds->GetBatteryVoltage())
         .Send();

     // Signal that we are alive.
     ::aos::controls::sensor_generation.MakeWithBuilder()
         .reader_pid(getpid())
         .cape_resets(0)
         .Send();
   }

   void Quit() { run_ = false; }

  private:
   ::std::unique_ptr<Encoder> left_encoder_;
   ::std::unique_ptr<Encoder> right_encoder_;

   ::std::atomic<bool> run_{true};
   DigitalGlitchFilter filter_;
 };

 class SolenoidWriter {
  public:
   SolenoidWriter(const ::std::unique_ptr<BufferedPcm> &pcm)
       : pcm_(pcm), drivetrain_(".frc971.control_loops.drivetrain_queue.output") {}

   void set_drivetrain_left(::std::unique_ptr<BufferedSolenoid> s) {
     drivetrain_left_ = ::std::move(s);
   }

   void set_drivetrain_right(::std::unique_ptr<BufferedSolenoid> s) {
     drivetrain_right_ = ::std::move(s);
   }

   void operator()() {
     ::aos::SetCurrentThreadName("Solenoids");
     ::aos::SetCurrentThreadRealtimePriority(30);

     while (run_) {
       ::aos::time::PhasedLoopXMS(20, 1000);

       {
         drivetrain_.FetchLatest();
         if (drivetrain_.get()) {
           LOG_STRUCT(DEBUG, "solenoids", *drivetrain_);
           drivetrain_left_->Set(drivetrain_->left_high);
           drivetrain_right_->Set(drivetrain_->right_high);
         }
       }

       pcm_->Flush();
     }
   }

   void Quit() { run_ = false; }

  private:
   const ::std::unique_ptr<BufferedPcm> &pcm_;
   ::std::unique_ptr<BufferedSolenoid> drivetrain_left_;
   ::std::unique_ptr<BufferedSolenoid> drivetrain_right_;

   ::aos::Queue<::frc971::control_loops::DrivetrainQueue::Output> drivetrain_;

   ::std::atomic<bool> run_{true};
 };

 class DrivetrainWriter : public LoopOutputHandler {
  public:
   void set_left_drivetrain_talon(::std::unique_ptr<Talon> t) {
     left_drivetrain_talon_ = ::std::move(t);
   }

   void set_right_drivetrain_talon(::std::unique_ptr<Talon> t) {
     right_drivetrain_talon_ = ::std::move(t);
   }

  private:
   virtual void Read() override {
     ::frc971::control_loops::drivetrain_queue.output.FetchAnother();
   }

   virtual void Write() override {
     auto &queue = ::frc971::control_loops::drivetrain_queue.output;
     LOG_STRUCT(DEBUG, "will output", *queue);
     left_drivetrain_talon_->Set(-queue->left_voltage / 12.0);
     right_drivetrain_talon_->Set(queue->right_voltage / 12.0);
   }

   virtual void Stop() override {
     LOG(WARNING, "drivetrain output too old\n");
     left_drivetrain_talon_->Disable();
     right_drivetrain_talon_->Disable();
   }

   ::std::unique_ptr<Talon> left_drivetrain_talon_;
   ::std::unique_ptr<Talon> right_drivetrain_talon_;
 };

 // TODO(brian): Replace this with ::std::make_unique once all our toolchains
 // have support.
 template <class T, class... U>
 std::unique_ptr<T> make_unique(U &&... u) {
   return std::unique_ptr<T>(new T(std::forward<U>(u)...));
 }

 class WPILibRobot : public RobotBase {
  public:
   virtual void StartCompetition() {
     ::aos::InitNRT();
     ::aos::SetCurrentThreadName("StartCompetition");

     JoystickSender joystick_sender;
     ::std::thread joystick_thread(::std::ref(joystick_sender));
     ::std::unique_ptr<Compressor> compressor(new Compressor());
     compressor->SetClosedLoopControl(true);

     SensorReader reader;
     // TODO(sensors): Replace all the 99s with real port numbers.
     reader.set_left_encoder(make_unique<Encoder>(99, 99, false, Encoder::k4X));
     reader.set_right_encoder(make_unique<Encoder>(99, 99, false, Encoder::k4X));
     ::std::thread reader_thread(::std::ref(reader));
     GyroSender gyro_sender;
     ::std::thread gyro_thread(::std::ref(gyro_sender));

     DrivetrainWriter drivetrain_writer;
     drivetrain_writer.set_left_drivetrain_talon(
         ::std::unique_ptr<Talon>(new Talon(5)));
     drivetrain_writer.set_right_drivetrain_talon(
         ::std::unique_ptr<Talon>(new Talon(2)));
     ::std::thread drivetrain_writer_thread(::std::ref(drivetrain_writer));

     ::std::unique_ptr<BufferedPcm> pcm(new BufferedPcm());
     SolenoidWriter solenoid_writer(pcm);
     solenoid_writer.set_drivetrain_left(pcm->MakeSolenoid(6));
     solenoid_writer.set_drivetrain_right(pcm->MakeSolenoid(7));
     ::std::thread solenoid_thread(::std::ref(solenoid_writer));

     // Wait forever. Not much else to do...
     PCHECK(select(0, nullptr, nullptr, nullptr, nullptr));

     LOG(ERROR, "Exiting WPILibRobot\n");

     joystick_sender.Quit();
     joystick_thread.join();
     reader.Quit();
     reader_thread.join();
     gyro_sender.Quit();
     gyro_thread.join();

     drivetrain_writer.Quit();
     drivetrain_writer_thread.join();
     solenoid_writer.Quit();
     solenoid_thread.join();

     ::aos::Cleanup();
   }
 };

 }  // namespace wpilib
 }  // namespace frc971


 START_ROBOT_CLASS(::frc971::wpilib::WPILibRobot);
	#include <stdio.h>
	#include <string.h>
	#include <unistd.h>
	#include <inttypes.h>

	#include <thread>
	#include <mutex>
	#include <functional>

	#include "aos/common/controls/output_check.q.h"
	#include "aos/common/controls/sensor_generation.q.h"
	#include "aos/common/logging/logging.h"
	#include "aos/common/logging/queue_logging.h"
	#include "aos/common/messages/robot_state.q.h"
	#include "aos/common/time.h"
	#include "aos/common/util/log_interval.h"
	#include "aos/common/util/phased_loop.h"
	#include "aos/common/util/wrapping_counter.h"
	#include "aos/common/stl_mutex.h"
	#include "aos/linux_code/init.h"

	#include "frc971/control_loops/drivetrain/drivetrain.q.h"
	#include "frc971/constants.h"
	#include "frc971/shifter_hall_effect.h"

	#include "frc971/wpilib/hall_effect.h"
	#include "frc971/wpilib/joystick_sender.h"
	#include "frc971/wpilib/loop_output_handler.h"
	#include "frc971/wpilib/buffered_solenoid.h"
	#include "frc971/wpilib/buffered_pcm.h"
	#include "frc971/wpilib/gyro_sender.h"
	#include "frc971/wpilib/dma_edge_counting.h"
	#include "frc971/wpilib/interrupt_edge_counting.h"

	#include "Encoder.h"
	#include "Talon.h"
	#include "DriverStation.h"
	#include "AnalogInput.h"
	#include "Compressor.h"
	#include "RobotBase.h"

	#ifndef M_PI
	#define M_PI 3.14159265358979323846
	#endif

	using ::aos::util::SimpleLogInterval;
	using ::frc971::control_loops::drivetrain_queue;
	using ::aos::util::WrappingCounter;

	namespace frc971 {
	namespace wpilib {

	double drivetrain_translate(int32_t in) {
	return static_cast<double>(in) /
	(256.0 /cpr/ * 2.0 /2x. Stupid WPILib/) *
	(18.0 / 50.0 /output stage/) * (56.0 / 30.0 /encoder gears/)
	// * constants::GetValues().drivetrain_encoder_ratio
	*
	(3.5 /wheel diameter/ * 2.54 / 100.0 * M_PI);
	}

	class SensorReader {
	public:
	SensorReader() {
	filter_.SetPeriodNanoSeconds(100000);
	}

	void set_left_encoder(::std::unique_ptr<Encoder> left_encoder) {
	left_encoder_ = ::std::move(left_encoder);
	}

	void set_right_encoder(::std::unique_ptr<Encoder> right_encoder) {
	right_encoder_ = ::std::move(right_encoder);
	}

	void operator()() {
	::aos::SetCurrentThreadName("SensorReader");

	static const int kPriority = 30;
	//static const int kInterruptPriority = 55;

	::aos::SetCurrentThreadRealtimePriority(kPriority);
	while (run_) {
	::aos::time::PhasedLoopXMS(5, 9000);
	RunIteration();
	}
	}

	void RunIteration() {
	DriverStation *ds = DriverStation::GetInstance();

	if (ds->IsSysActive()) {
	auto message = ::aos::controls::output_check_received.MakeMessage();
	// TODO(brians): Actually read a pulse value from the roboRIO.
	message->pwm_value = 0;
	message->pulse_length = -1;
	LOG_STRUCT(DEBUG, "received", *message);
	message.Send();
	}

	drivetrain_queue.position.MakeWithBuilder()
	.right_encoder(drivetrain_translate(right_encoder_->GetRaw()))
	.left_encoder(-drivetrain_translate(left_encoder_->GetRaw()))
	.battery_voltage(ds->GetBatteryVoltage())
	.Send();

	// Signal that we are alive.
	::aos::controls::sensor_generation.MakeWithBuilder()
	.reader_pid(getpid())
	.cape_resets(0)
	.Send();
	}

	void Quit() { run_ = false; }

	private:
	::std::unique_ptr<Encoder> left_encoder_;
	::std::unique_ptr<Encoder> right_encoder_;

	::std::atomic<bool> run_{true};
	DigitalGlitchFilter filter_;
	};

	class SolenoidWriter {
	public:
	SolenoidWriter(const ::std::unique_ptr<BufferedPcm> &pcm)
	: pcm_(pcm), drivetrain_(".frc971.control_loops.drivetrain_queue.output") {}

	void set_drivetrain_left(::std::unique_ptr<BufferedSolenoid> s) {
	drivetrain_left_ = ::std::move(s);
	}

	void set_drivetrain_right(::std::unique_ptr<BufferedSolenoid> s) {
	drivetrain_right_ = ::std::move(s);
	}

	void operator()() {
	::aos::SetCurrentThreadName("Solenoids");
	::aos::SetCurrentThreadRealtimePriority(30);

	while (run_) {
	::aos::time::PhasedLoopXMS(20, 1000);

	{
	drivetrain_.FetchLatest();
	if (drivetrain_.get()) {
	LOG_STRUCT(DEBUG, "solenoids", *drivetrain_);
	drivetrain_left_->Set(drivetrain_->left_high);
	drivetrain_right_->Set(drivetrain_->right_high);
	}
	}

	pcm_->Flush();
	}
	}

	void Quit() { run_ = false; }

	private:
	const ::std::unique_ptr<BufferedPcm> &pcm_;
	::std::unique_ptr<BufferedSolenoid> drivetrain_left_;
	::std::unique_ptr<BufferedSolenoid> drivetrain_right_;

	::aos::Queue<::frc971::control_loops::DrivetrainQueue::Output> drivetrain_;

	::std::atomic<bool> run_{true};
	};

	class DrivetrainWriter : public LoopOutputHandler {
	public:
	void set_left_drivetrain_talon(::std::unique_ptr<Talon> t) {
	left_drivetrain_talon_ = ::std::move(t);
	}

	void set_right_drivetrain_talon(::std::unique_ptr<Talon> t) {
	right_drivetrain_talon_ = ::std::move(t);
	}

	private:
	virtual void Read() override {
	::frc971::control_loops::drivetrain_queue.output.FetchAnother();
	}

	virtual void Write() override {
	auto &queue = ::frc971::control_loops::drivetrain_queue.output;
	LOG_STRUCT(DEBUG, "will output", *queue);
	left_drivetrain_talon_->Set(-queue->left_voltage / 12.0);
	right_drivetrain_talon_->Set(queue->right_voltage / 12.0);
	}

	virtual void Stop() override {
	LOG(WARNING, "drivetrain output too old\n");
	left_drivetrain_talon_->Disable();
	right_drivetrain_talon_->Disable();
	}

	::std::unique_ptr<Talon> left_drivetrain_talon_;
	::std::unique_ptr<Talon> right_drivetrain_talon_;
	};

	// TODO(brian): Replace this with ::std::make_unique once all our toolchains
	// have support.
	template <class T, class... U>
	std::unique_ptr<T> make_unique(U &&... u) {
	return std::unique_ptr<T>(new T(std::forward<U>(u)...));
	}

	class WPILibRobot : public RobotBase {
	public:
	virtual void StartCompetition() {
	::aos::InitNRT();
	::aos::SetCurrentThreadName("StartCompetition");

	JoystickSender joystick_sender;
	::std::thread joystick_thread(::std::ref(joystick_sender));
	::std::unique_ptr<Compressor> compressor(new Compressor());
	compressor->SetClosedLoopControl(true);

	SensorReader reader;
	// TODO(sensors): Replace all the 99s with real port numbers.
	reader.set_left_encoder(make_unique<Encoder>(99, 99, false, Encoder::k4X));
	reader.set_right_encoder(make_unique<Encoder>(99, 99, false, Encoder::k4X));
	::std::thread reader_thread(::std::ref(reader));
	GyroSender gyro_sender;
	::std::thread gyro_thread(::std::ref(gyro_sender));

	DrivetrainWriter drivetrain_writer;
	drivetrain_writer.set_left_drivetrain_talon(
	::std::unique_ptr<Talon>(new Talon(5)));
	drivetrain_writer.set_right_drivetrain_talon(
	::std::unique_ptr<Talon>(new Talon(2)));
	::std::thread drivetrain_writer_thread(::std::ref(drivetrain_writer));

	::std::unique_ptr<BufferedPcm> pcm(new BufferedPcm());
	SolenoidWriter solenoid_writer(pcm);
	solenoid_writer.set_drivetrain_left(pcm->MakeSolenoid(6));
	solenoid_writer.set_drivetrain_right(pcm->MakeSolenoid(7));
	::std::thread solenoid_thread(::std::ref(solenoid_writer));

	// Wait forever. Not much else to do...
	PCHECK(select(0, nullptr, nullptr, nullptr, nullptr));

	LOG(ERROR, "Exiting WPILibRobot\n");

	joystick_sender.Quit();
	joystick_thread.join();
	reader.Quit();
	reader_thread.join();
	gyro_sender.Quit();
	gyro_thread.join();

	drivetrain_writer.Quit();
	drivetrain_writer_thread.join();
	solenoid_writer.Quit();
	solenoid_thread.join();

	::aos::Cleanup();
	}
	};

	} // namespace wpilib
	} // namespace frc971


	START_ROBOT_CLASS(::frc971::wpilib::WPILibRobot);