wpilibc/src/main/native/cpp/AnalogGyro.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/AnalogGyro.h"

 #include <climits>
 #include <utility>

 #include <hal/AnalogGyro.h>
 #include <hal/Errors.h>
 #include <hal/FRCUsageReporting.h>

 #include "frc/AnalogInput.h"
 #include "frc/Timer.h"
 #include "frc/WPIErrors.h"
 #include "frc/smartdashboard/SendableRegistry.h"

 using namespace frc;

 AnalogGyro::AnalogGyro(int channel)
     : AnalogGyro(std::make_shared<AnalogInput>(channel)) {
   SendableRegistry::GetInstance().AddChild(this, m_analog.get());
 }

 AnalogGyro::AnalogGyro(AnalogInput* channel)
     : AnalogGyro(
           std::shared_ptr<AnalogInput>(channel, NullDeleter<AnalogInput>())) {}

 AnalogGyro::AnalogGyro(std::shared_ptr<AnalogInput> channel)
     : m_analog(channel) {
   if (channel == nullptr) {
     wpi_setWPIError(NullParameter);
   } else {
     InitGyro();
     Calibrate();
   }
 }

 AnalogGyro::AnalogGyro(int channel, int center, double offset)
     : AnalogGyro(std::make_shared<AnalogInput>(channel), center, offset) {
   SendableRegistry::GetInstance().AddChild(this, m_analog.get());
 }

 AnalogGyro::AnalogGyro(std::shared_ptr<AnalogInput> channel, int center,
                        double offset)
     : m_analog(channel) {
   if (channel == nullptr) {
     wpi_setWPIError(NullParameter);
   } else {
     InitGyro();
     int32_t status = 0;
     HAL_SetAnalogGyroParameters(m_gyroHandle, kDefaultVoltsPerDegreePerSecond,
                                 offset, center, &status);
     if (status != 0) {
       wpi_setHALError(status);
       m_gyroHandle = HAL_kInvalidHandle;
       return;
     }
     Reset();
   }
 }

 AnalogGyro::~AnalogGyro() { HAL_FreeAnalogGyro(m_gyroHandle); }

 double AnalogGyro::GetAngle() const {
   if (StatusIsFatal()) return 0.0;
   int32_t status = 0;
   double value = HAL_GetAnalogGyroAngle(m_gyroHandle, &status);
   wpi_setHALError(status);
   return value;
 }

 double AnalogGyro::GetRate() const {
   if (StatusIsFatal()) return 0.0;
   int32_t status = 0;
   double value = HAL_GetAnalogGyroRate(m_gyroHandle, &status);
   wpi_setHALError(status);
   return value;
 }

 int AnalogGyro::GetCenter() const {
   if (StatusIsFatal()) return 0;
   int32_t status = 0;
   int value = HAL_GetAnalogGyroCenter(m_gyroHandle, &status);
   wpi_setHALError(status);
   return value;
 }

 double AnalogGyro::GetOffset() const {
   if (StatusIsFatal()) return 0.0;
   int32_t status = 0;
   double value = HAL_GetAnalogGyroOffset(m_gyroHandle, &status);
   wpi_setHALError(status);
   return value;
 }

 void AnalogGyro::SetSensitivity(double voltsPerDegreePerSecond) {
   int32_t status = 0;
   HAL_SetAnalogGyroVoltsPerDegreePerSecond(m_gyroHandle,
                                            voltsPerDegreePerSecond, &status);
   wpi_setHALError(status);
 }

 void AnalogGyro::SetDeadband(double volts) {
   if (StatusIsFatal()) return;
   int32_t status = 0;
   HAL_SetAnalogGyroDeadband(m_gyroHandle, volts, &status);
   wpi_setHALError(status);
 }

 void AnalogGyro::Reset() {
   if (StatusIsFatal()) return;
   int32_t status = 0;
   HAL_ResetAnalogGyro(m_gyroHandle, &status);
   wpi_setHALError(status);
 }

 void AnalogGyro::InitGyro() {
   if (StatusIsFatal()) return;
   if (m_gyroHandle == HAL_kInvalidHandle) {
     int32_t status = 0;
     m_gyroHandle = HAL_InitializeAnalogGyro(m_analog->m_port, &status);
     if (status == PARAMETER_OUT_OF_RANGE) {
       wpi_setWPIErrorWithContext(ParameterOutOfRange,
                                  " channel (must be accumulator channel)");
       m_analog = nullptr;
       m_gyroHandle = HAL_kInvalidHandle;
       return;
     }
     if (status != 0) {
       wpi_setHALError(status);
       m_analog = nullptr;
       m_gyroHandle = HAL_kInvalidHandle;
       return;
     }
   }

   int32_t status = 0;
   HAL_SetupAnalogGyro(m_gyroHandle, &status);
   if (status != 0) {
     wpi_setHALError(status);
     m_analog = nullptr;
     m_gyroHandle = HAL_kInvalidHandle;
     return;
   }

   HAL_Report(HALUsageReporting::kResourceType_Gyro, m_analog->GetChannel() + 1);

   SendableRegistry::GetInstance().AddLW(this, "AnalogGyro",
                                         m_analog->GetChannel());
 }

 void AnalogGyro::Calibrate() {
   if (StatusIsFatal()) return;
   int32_t status = 0;
   HAL_CalibrateAnalogGyro(m_gyroHandle, &status);
   wpi_setHALError(status);
 }
	/----------------------------------------------------------------------------/
	/* 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/AnalogGyro.h"

	#include <climits>
	#include <utility>

	#include <hal/AnalogGyro.h>
	#include <hal/Errors.h>
	#include <hal/FRCUsageReporting.h>

	#include "frc/AnalogInput.h"
	#include "frc/Timer.h"
	#include "frc/WPIErrors.h"
	#include "frc/smartdashboard/SendableRegistry.h"

	using namespace frc;

	AnalogGyro::AnalogGyro(int channel)
	: AnalogGyro(std::make_shared<AnalogInput>(channel)) {
	SendableRegistry::GetInstance().AddChild(this, m_analog.get());
	}

	AnalogGyro::AnalogGyro(AnalogInput* channel)
	: AnalogGyro(
	std::shared_ptr<AnalogInput>(channel, NullDeleter<AnalogInput>())) {}

	AnalogGyro::AnalogGyro(std::shared_ptr<AnalogInput> channel)
	: m_analog(channel) {
	if (channel == nullptr) {
	wpi_setWPIError(NullParameter);
	} else {
	InitGyro();
	Calibrate();
	}
	}

	AnalogGyro::AnalogGyro(int channel, int center, double offset)
	: AnalogGyro(std::make_shared<AnalogInput>(channel), center, offset) {
	SendableRegistry::GetInstance().AddChild(this, m_analog.get());
	}

	AnalogGyro::AnalogGyro(std::shared_ptr<AnalogInput> channel, int center,
	double offset)
	: m_analog(channel) {
	if (channel == nullptr) {
	wpi_setWPIError(NullParameter);
	} else {
	InitGyro();
	int32_t status = 0;
	HAL_SetAnalogGyroParameters(m_gyroHandle, kDefaultVoltsPerDegreePerSecond,
	offset, center, &status);
	if (status != 0) {
	wpi_setHALError(status);
	m_gyroHandle = HAL_kInvalidHandle;
	return;
	}
	Reset();
	}
	}

	AnalogGyro::~AnalogGyro() { HAL_FreeAnalogGyro(m_gyroHandle); }

	double AnalogGyro::GetAngle() const {
	if (StatusIsFatal()) return 0.0;
	int32_t status = 0;
	double value = HAL_GetAnalogGyroAngle(m_gyroHandle, &status);
	wpi_setHALError(status);
	return value;
	}

	double AnalogGyro::GetRate() const {
	if (StatusIsFatal()) return 0.0;
	int32_t status = 0;
	double value = HAL_GetAnalogGyroRate(m_gyroHandle, &status);
	wpi_setHALError(status);
	return value;
	}

	int AnalogGyro::GetCenter() const {
	if (StatusIsFatal()) return 0;
	int32_t status = 0;
	int value = HAL_GetAnalogGyroCenter(m_gyroHandle, &status);
	wpi_setHALError(status);
	return value;
	}

	double AnalogGyro::GetOffset() const {
	if (StatusIsFatal()) return 0.0;
	int32_t status = 0;
	double value = HAL_GetAnalogGyroOffset(m_gyroHandle, &status);
	wpi_setHALError(status);
	return value;
	}

	void AnalogGyro::SetSensitivity(double voltsPerDegreePerSecond) {
	int32_t status = 0;
	HAL_SetAnalogGyroVoltsPerDegreePerSecond(m_gyroHandle,
	voltsPerDegreePerSecond, &status);
	wpi_setHALError(status);
	}

	void AnalogGyro::SetDeadband(double volts) {
	if (StatusIsFatal()) return;
	int32_t status = 0;
	HAL_SetAnalogGyroDeadband(m_gyroHandle, volts, &status);
	wpi_setHALError(status);
	}

	void AnalogGyro::Reset() {
	if (StatusIsFatal()) return;
	int32_t status = 0;
	HAL_ResetAnalogGyro(m_gyroHandle, &status);
	wpi_setHALError(status);
	}

	void AnalogGyro::InitGyro() {
	if (StatusIsFatal()) return;
	if (m_gyroHandle == HAL_kInvalidHandle) {
	int32_t status = 0;
	m_gyroHandle = HAL_InitializeAnalogGyro(m_analog->m_port, &status);
	if (status == PARAMETER_OUT_OF_RANGE) {
	wpi_setWPIErrorWithContext(ParameterOutOfRange,
	" channel (must be accumulator channel)");
	m_analog = nullptr;
	m_gyroHandle = HAL_kInvalidHandle;
	return;
	}
	if (status != 0) {
	wpi_setHALError(status);
	m_analog = nullptr;
	m_gyroHandle = HAL_kInvalidHandle;
	return;
	}
	}

	int32_t status = 0;
	HAL_SetupAnalogGyro(m_gyroHandle, &status);
	if (status != 0) {
	wpi_setHALError(status);
	m_analog = nullptr;
	m_gyroHandle = HAL_kInvalidHandle;
	return;
	}

	HAL_Report(HALUsageReporting::kResourceType_Gyro, m_analog->GetChannel() + 1);

	SendableRegistry::GetInstance().AddLW(this, "AnalogGyro",
	m_analog->GetChannel());
	}

	void AnalogGyro::Calibrate() {
	if (StatusIsFatal()) return;
	int32_t status = 0;
	HAL_CalibrateAnalogGyro(m_gyroHandle, &status);
	wpi_setHALError(status);
	}