wpilibc/src/main/native/cpp/Ultrasonic.cpp - RealtimeRoboticsGroup/test - Gitiles

 /*----------------------------------------------------------------------------*/
 /* Copyright (c) 2008-2019 FIRST. All Rights Reserved.                        */
 /* Open Source Software - may be modified and shared by FRC teams. The code   */
 /* must be accompanied by the FIRST BSD license file in the root directory of */
 /* the project.                                                               */
 /*----------------------------------------------------------------------------*/

 #include "frc/Ultrasonic.h"

 #include <hal/FRCUsageReporting.h>

 #include "frc/Counter.h"
 #include "frc/DigitalInput.h"
 #include "frc/DigitalOutput.h"
 #include "frc/Timer.h"
 #include "frc/Utility.h"
 #include "frc/WPIErrors.h"
 #include "frc/smartdashboard/SendableBuilder.h"
 #include "frc/smartdashboard/SendableRegistry.h"

 using namespace frc;

 // Automatic round robin mode
 std::atomic<bool> Ultrasonic::m_automaticEnabled{false};

 std::vector<Ultrasonic*> Ultrasonic::m_sensors;
 std::thread Ultrasonic::m_thread;

 Ultrasonic::Ultrasonic(int pingChannel, int echoChannel, DistanceUnit units)
     : m_pingChannel(std::make_shared<DigitalOutput>(pingChannel)),
       m_echoChannel(std::make_shared<DigitalInput>(echoChannel)),
       m_counter(m_echoChannel) {
   m_units = units;
   Initialize();
   auto& registry = SendableRegistry::GetInstance();
   registry.AddChild(this, m_pingChannel.get());
   registry.AddChild(this, m_echoChannel.get());
 }

 Ultrasonic::Ultrasonic(DigitalOutput* pingChannel, DigitalInput* echoChannel,
                        DistanceUnit units)
     : m_pingChannel(pingChannel, NullDeleter<DigitalOutput>()),
       m_echoChannel(echoChannel, NullDeleter<DigitalInput>()),
       m_counter(m_echoChannel) {
   if (pingChannel == nullptr || echoChannel == nullptr) {
     wpi_setWPIError(NullParameter);
     m_units = units;
     return;
   }
   m_units = units;
   Initialize();
 }

 Ultrasonic::Ultrasonic(DigitalOutput& pingChannel, DigitalInput& echoChannel,
                        DistanceUnit units)
     : m_pingChannel(&pingChannel, NullDeleter<DigitalOutput>()),
       m_echoChannel(&echoChannel, NullDeleter<DigitalInput>()),
       m_counter(m_echoChannel) {
   m_units = units;
   Initialize();
 }

 Ultrasonic::Ultrasonic(std::shared_ptr<DigitalOutput> pingChannel,
                        std::shared_ptr<DigitalInput> echoChannel,
                        DistanceUnit units)
     : m_pingChannel(pingChannel),
       m_echoChannel(echoChannel),
       m_counter(m_echoChannel) {
   m_units = units;
   Initialize();
 }

 Ultrasonic::~Ultrasonic() {
   // Delete the instance of the ultrasonic sensor by freeing the allocated
   // digital channels. If the system was in automatic mode (round robin), then
   // it is stopped, then started again after this sensor is removed (provided
   // this wasn't the last sensor).

   bool wasAutomaticMode = m_automaticEnabled;
   SetAutomaticMode(false);

   // No synchronization needed because the background task is stopped.
   m_sensors.erase(std::remove(m_sensors.begin(), m_sensors.end(), this),
                   m_sensors.end());

   if (!m_sensors.empty() && wasAutomaticMode) {
     SetAutomaticMode(true);
   }
 }

 void Ultrasonic::Ping() {
   wpi_assert(!m_automaticEnabled);

   // Reset the counter to zero (invalid data now)
   m_counter.Reset();

   // Do the ping to start getting a single range
   m_pingChannel->Pulse(kPingTime);
 }

 bool Ultrasonic::IsRangeValid() const {
   if (m_simRangeValid) return m_simRangeValid.Get();
   return m_counter.Get() > 1;
 }

 void Ultrasonic::SetAutomaticMode(bool enabling) {
   if (enabling == m_automaticEnabled) return;  // ignore the case of no change

   m_automaticEnabled = enabling;

   if (enabling) {
     /* Clear all the counters so no data is valid. No synchronization is needed
      * because the background task is stopped.
      */
     for (auto& sensor : m_sensors) {
       sensor->m_counter.Reset();
     }

     m_thread = std::thread(&Ultrasonic::UltrasonicChecker);

     // TODO: Currently, lvuser does not have permissions to set task priorities.
     // Until that is the case, uncommenting this will break user code that calls
     // Ultrasonic::SetAutomicMode().
     // m_task.SetPriority(kPriority);
   } else {
     // Wait for background task to stop running
     if (m_thread.joinable()) {
       m_thread.join();
     }

     // Clear all the counters (data now invalid) since automatic mode is
     // disabled. No synchronization is needed because the background task is
     // stopped.
     for (auto& sensor : m_sensors) {
       sensor->m_counter.Reset();
     }
   }
 }

 double Ultrasonic::GetRangeInches() const {
   if (IsRangeValid()) {
     if (m_simRange) return m_simRange.Get();
     return m_counter.GetPeriod() * kSpeedOfSoundInchesPerSec / 2.0;
   } else {
     return 0;
   }
 }

 double Ultrasonic::GetRangeMM() const { return GetRangeInches() * 25.4; }

 bool Ultrasonic::IsEnabled() const { return m_enabled; }

 void Ultrasonic::SetEnabled(bool enable) { m_enabled = enable; }

 void Ultrasonic::SetDistanceUnits(DistanceUnit units) { m_units = units; }

 Ultrasonic::DistanceUnit Ultrasonic::GetDistanceUnits() const {
   return m_units;
 }

 double Ultrasonic::PIDGet() {
   switch (m_units) {
     case Ultrasonic::kInches:
       return GetRangeInches();
     case Ultrasonic::kMilliMeters:
       return GetRangeMM();
     default:
       return 0.0;
   }
 }

 void Ultrasonic::SetPIDSourceType(PIDSourceType pidSource) {
   if (wpi_assert(pidSource == PIDSourceType::kDisplacement)) {
     m_pidSource = pidSource;
   }
 }

 void Ultrasonic::InitSendable(SendableBuilder& builder) {
   builder.SetSmartDashboardType("Ultrasonic");
   builder.AddDoubleProperty("Value", [=]() { return GetRangeInches(); },
                             nullptr);
 }

 void Ultrasonic::Initialize() {
   m_simDevice = hal::SimDevice("Ultrasonic", m_echoChannel->GetChannel());
   if (m_simDevice) {
     m_simRangeValid = m_simDevice.CreateBoolean("Range Valid", false, true);
     m_simRange = m_simDevice.CreateDouble("Range (in)", false, 0.0);
     m_pingChannel->SetSimDevice(m_simDevice);
     m_echoChannel->SetSimDevice(m_simDevice);
   }

   bool originalMode = m_automaticEnabled;
   SetAutomaticMode(false);  // Kill task when adding a new sensor
   // Link this instance on the list
   m_sensors.emplace_back(this);

   m_counter.SetMaxPeriod(1.0);
   m_counter.SetSemiPeriodMode(true);
   m_counter.Reset();
   m_enabled = true;  // Make it available for round robin scheduling
   SetAutomaticMode(originalMode);

   static int instances = 0;
   instances++;
   HAL_Report(HALUsageReporting::kResourceType_Ultrasonic, instances);
   SendableRegistry::GetInstance().AddLW(this, "Ultrasonic",
                                         m_echoChannel->GetChannel());
 }

 void Ultrasonic::UltrasonicChecker() {
   while (m_automaticEnabled) {
     for (auto& sensor : m_sensors) {
       if (!m_automaticEnabled) break;

       if (sensor->IsEnabled()) {
         sensor->m_pingChannel->Pulse(kPingTime);  // do the ping
       }

       Wait(0.1);  // wait for ping to return
     }
   }
 }
	/----------------------------------------------------------------------------/
	/* Copyright (c) 2008-2019 FIRST. All Rights Reserved. */
	/* Open Source Software - may be modified and shared by FRC teams. The code */
	/* must be accompanied by the FIRST BSD license file in the root directory of */
	/* the project. */
	/----------------------------------------------------------------------------/

	#include "frc/Ultrasonic.h"

	#include <hal/FRCUsageReporting.h>

	#include "frc/Counter.h"
	#include "frc/DigitalInput.h"
	#include "frc/DigitalOutput.h"
	#include "frc/Timer.h"
	#include "frc/Utility.h"
	#include "frc/WPIErrors.h"
	#include "frc/smartdashboard/SendableBuilder.h"
	#include "frc/smartdashboard/SendableRegistry.h"

	using namespace frc;

	// Automatic round robin mode
	std::atomic<bool> Ultrasonic::m_automaticEnabled{false};

	std::vector<Ultrasonic*> Ultrasonic::m_sensors;
	std::thread Ultrasonic::m_thread;

	Ultrasonic::Ultrasonic(int pingChannel, int echoChannel, DistanceUnit units)
	: m_pingChannel(std::make_shared<DigitalOutput>(pingChannel)),
	m_echoChannel(std::make_shared<DigitalInput>(echoChannel)),
	m_counter(m_echoChannel) {
	m_units = units;
	Initialize();
	auto& registry = SendableRegistry::GetInstance();
	registry.AddChild(this, m_pingChannel.get());
	registry.AddChild(this, m_echoChannel.get());
	}

	Ultrasonic::Ultrasonic(DigitalOutput* pingChannel, DigitalInput* echoChannel,
	DistanceUnit units)
	: m_pingChannel(pingChannel, NullDeleter<DigitalOutput>()),
	m_echoChannel(echoChannel, NullDeleter<DigitalInput>()),
	m_counter(m_echoChannel) {
	if (pingChannel == nullptr \|\| echoChannel == nullptr) {
	wpi_setWPIError(NullParameter);
	m_units = units;
	return;
	}
	m_units = units;
	Initialize();
	}

	Ultrasonic::Ultrasonic(DigitalOutput& pingChannel, DigitalInput& echoChannel,
	DistanceUnit units)
	: m_pingChannel(&pingChannel, NullDeleter<DigitalOutput>()),
	m_echoChannel(&echoChannel, NullDeleter<DigitalInput>()),
	m_counter(m_echoChannel) {
	m_units = units;
	Initialize();
	}

	Ultrasonic::Ultrasonic(std::shared_ptr<DigitalOutput> pingChannel,
	std::shared_ptr<DigitalInput> echoChannel,
	DistanceUnit units)
	: m_pingChannel(pingChannel),
	m_echoChannel(echoChannel),
	m_counter(m_echoChannel) {
	m_units = units;
	Initialize();
	}

	Ultrasonic::~Ultrasonic() {
	// Delete the instance of the ultrasonic sensor by freeing the allocated
	// digital channels. If the system was in automatic mode (round robin), then
	// it is stopped, then started again after this sensor is removed (provided
	// this wasn't the last sensor).

	bool wasAutomaticMode = m_automaticEnabled;
	SetAutomaticMode(false);

	// No synchronization needed because the background task is stopped.
	m_sensors.erase(std::remove(m_sensors.begin(), m_sensors.end(), this),
	m_sensors.end());

	if (!m_sensors.empty() && wasAutomaticMode) {
	SetAutomaticMode(true);
	}
	}

	void Ultrasonic::Ping() {
	wpi_assert(!m_automaticEnabled);

	// Reset the counter to zero (invalid data now)
	m_counter.Reset();

	// Do the ping to start getting a single range
	m_pingChannel->Pulse(kPingTime);
	}

	bool Ultrasonic::IsRangeValid() const {
	if (m_simRangeValid) return m_simRangeValid.Get();
	return m_counter.Get() > 1;
	}

	void Ultrasonic::SetAutomaticMode(bool enabling) {
	if (enabling == m_automaticEnabled) return; // ignore the case of no change

	m_automaticEnabled = enabling;

	if (enabling) {
	/* Clear all the counters so no data is valid. No synchronization is needed
	* because the background task is stopped.
	*/
	for (auto& sensor : m_sensors) {
	sensor->m_counter.Reset();
	}

	m_thread = std::thread(&Ultrasonic::UltrasonicChecker);

	// TODO: Currently, lvuser does not have permissions to set task priorities.
	// Until that is the case, uncommenting this will break user code that calls
	// Ultrasonic::SetAutomicMode().
	// m_task.SetPriority(kPriority);
	} else {
	// Wait for background task to stop running
	if (m_thread.joinable()) {
	m_thread.join();
	}

	// Clear all the counters (data now invalid) since automatic mode is
	// disabled. No synchronization is needed because the background task is
	// stopped.
	for (auto& sensor : m_sensors) {
	sensor->m_counter.Reset();
	}
	}
	}

	double Ultrasonic::GetRangeInches() const {
	if (IsRangeValid()) {
	if (m_simRange) return m_simRange.Get();
	return m_counter.GetPeriod() * kSpeedOfSoundInchesPerSec / 2.0;
	} else {
	return 0;
	}
	}

	double Ultrasonic::GetRangeMM() const { return GetRangeInches() * 25.4; }

	bool Ultrasonic::IsEnabled() const { return m_enabled; }

	void Ultrasonic::SetEnabled(bool enable) { m_enabled = enable; }

	void Ultrasonic::SetDistanceUnits(DistanceUnit units) { m_units = units; }

	Ultrasonic::DistanceUnit Ultrasonic::GetDistanceUnits() const {
	return m_units;
	}

	double Ultrasonic::PIDGet() {
	switch (m_units) {
	case Ultrasonic::kInches:
	return GetRangeInches();
	case Ultrasonic::kMilliMeters:
	return GetRangeMM();
	default:
	return 0.0;
	}
	}

	void Ultrasonic::SetPIDSourceType(PIDSourceType pidSource) {
	if (wpi_assert(pidSource == PIDSourceType::kDisplacement)) {
	m_pidSource = pidSource;
	}
	}

	void Ultrasonic::InitSendable(SendableBuilder& builder) {
	builder.SetSmartDashboardType("Ultrasonic");
	builder.AddDoubleProperty("Value", [=]() { return GetRangeInches(); },
	nullptr);
	}

	void Ultrasonic::Initialize() {
	m_simDevice = hal::SimDevice("Ultrasonic", m_echoChannel->GetChannel());
	if (m_simDevice) {
	m_simRangeValid = m_simDevice.CreateBoolean("Range Valid", false, true);
	m_simRange = m_simDevice.CreateDouble("Range (in)", false, 0.0);
	m_pingChannel->SetSimDevice(m_simDevice);
	m_echoChannel->SetSimDevice(m_simDevice);
	}

	bool originalMode = m_automaticEnabled;
	SetAutomaticMode(false); // Kill task when adding a new sensor
	// Link this instance on the list
	m_sensors.emplace_back(this);

	m_counter.SetMaxPeriod(1.0);
	m_counter.SetSemiPeriodMode(true);
	m_counter.Reset();
	m_enabled = true; // Make it available for round robin scheduling
	SetAutomaticMode(originalMode);

	static int instances = 0;
	instances++;
	HAL_Report(HALUsageReporting::kResourceType_Ultrasonic, instances);
	SendableRegistry::GetInstance().AddLW(this, "Ultrasonic",
	m_echoChannel->GetChannel());
	}

	void Ultrasonic::UltrasonicChecker() {
	while (m_automaticEnabled) {
	for (auto& sensor : m_sensors) {
	if (!m_automaticEnabled) break;

	if (sensor->IsEnabled()) {
	sensor->m_pingChannel->Pulse(kPingTime); // do the ping
	}

	Wait(0.1); // wait for ping to return
	}
	}
	}