frc971/wpilib/ahal/InterruptableSensorBase.cc - RealtimeRoboticsGroup/test - Gitiles

 /*----------------------------------------------------------------------------*/
 /* Copyright (c) FIRST 2008-2017. 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 "frc971/wpilib/ahal/InterruptableSensorBase.h"

 #include "glog/logging.h"

 #include "frc971/wpilib/ahal/WPIErrors.h"
 #include "hal/HAL.h"

 using namespace frc;

 InterruptableSensorBase::InterruptableSensorBase() {}

 void InterruptableSensorBase::RequestInterrupts() {
   if (StatusIsFatal()) return;

   CHECK_EQ(m_interrupt, HAL_kInvalidHandle);
   AllocateInterrupts();
   if (StatusIsFatal()) return;  // if allocate failed, out of interrupts

   int32_t status = 0;
   HAL_RequestInterrupts(
       m_interrupt, GetPortHandleForRouting(),
       static_cast<HAL_AnalogTriggerType>(GetAnalogTriggerTypeForRouting()),
       &status);
   wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
   SetUpSourceEdge(true, false);
 }

 void InterruptableSensorBase::AllocateInterrupts() {
   CHECK_EQ(m_interrupt, HAL_kInvalidHandle);
   // Expects the calling leaf class to allocate an interrupt index.
   int32_t status = 0;
   m_interrupt = HAL_InitializeInterrupts(&status);
   wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
 }

 void InterruptableSensorBase::CancelInterrupts() {
   if (StatusIsFatal()) return;
   CHECK_NE(m_interrupt, HAL_kInvalidHandle);
   HAL_CleanInterrupts(m_interrupt);
   // ignore status, as an invalid handle just needs to be ignored.
   m_interrupt = HAL_kInvalidHandle;
 }

 InterruptableSensorBase::WaitResult InterruptableSensorBase::WaitForInterrupt(
     double timeout, bool ignorePrevious) {
   if (StatusIsFatal()) return InterruptableSensorBase::kTimeout;
   CHECK_NE(m_interrupt, HAL_kInvalidHandle);
   int32_t status = 0;
   int result;

   result = HAL_WaitForInterrupt(m_interrupt, timeout, ignorePrevious, &status);
   wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));

   // Rising edge result is the interrupt bit set in the byte 0xFF
   // Falling edge result is the interrupt bit set in the byte 0xFF00
   // Set any bit set to be true for that edge, and AND the 2 results
   // together to match the existing enum for all interrupts
   int32_t rising = (result & 0xFF) ? 0x1 : 0x0;
   int32_t falling = ((result & 0xFF00) ? 0x0100 : 0x0);
   return static_cast<WaitResult>(falling | rising);
 }

 hal::fpga_clock::time_point InterruptableSensorBase::ReadRisingTimestamp() {
   if (StatusIsFatal()) return hal::fpga_clock::min_time;
   CHECK_NE(m_interrupt, HAL_kInvalidHandle);
   int32_t status = 0;
   uint64_t timestamp = HAL_ReadInterruptRisingTimestamp(m_interrupt, &status);
   timestamp = HAL_ExpandFPGATime(timestamp, &status);
   wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
   return hal::fpga_clock::time_point(hal::fpga_clock::duration(timestamp));
 }

 hal::fpga_clock::time_point InterruptableSensorBase::ReadFallingTimestamp() {
   if (StatusIsFatal()) return hal::fpga_clock::min_time;
   CHECK_NE(m_interrupt, HAL_kInvalidHandle);
   int32_t status = 0;
   uint64_t timestamp = HAL_ReadInterruptFallingTimestamp(m_interrupt, &status);
   timestamp = HAL_ExpandFPGATime(timestamp, &status);
   wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
   return hal::fpga_clock::time_point(hal::fpga_clock::duration(timestamp));
 }

 void InterruptableSensorBase::SetUpSourceEdge(bool risingEdge,
                                               bool fallingEdge) {
   if (StatusIsFatal()) return;
   if (m_interrupt == HAL_kInvalidHandle) {
     wpi_setWPIErrorWithContext(
         NullParameter,
         "You must call RequestInterrupts before SetUpSourceEdge");
     return;
   }
   if (m_interrupt != HAL_kInvalidHandle) {
     int32_t status = 0;
     HAL_SetInterruptUpSourceEdge(m_interrupt, risingEdge, fallingEdge, &status);
     wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
   }
 }
	/----------------------------------------------------------------------------/
	/* Copyright (c) FIRST 2008-2017. 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 "frc971/wpilib/ahal/InterruptableSensorBase.h"

	#include "glog/logging.h"

	#include "frc971/wpilib/ahal/WPIErrors.h"
	#include "hal/HAL.h"

	using namespace frc;

	InterruptableSensorBase::InterruptableSensorBase() {}

	void InterruptableSensorBase::RequestInterrupts() {
	if (StatusIsFatal()) return;

	CHECK_EQ(m_interrupt, HAL_kInvalidHandle);
	AllocateInterrupts();
	if (StatusIsFatal()) return; // if allocate failed, out of interrupts

	int32_t status = 0;
	HAL_RequestInterrupts(
	m_interrupt, GetPortHandleForRouting(),
	static_cast<HAL_AnalogTriggerType>(GetAnalogTriggerTypeForRouting()),
	&status);
	wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
	SetUpSourceEdge(true, false);
	}

	void InterruptableSensorBase::AllocateInterrupts() {
	CHECK_EQ(m_interrupt, HAL_kInvalidHandle);
	// Expects the calling leaf class to allocate an interrupt index.
	int32_t status = 0;
	m_interrupt = HAL_InitializeInterrupts(&status);
	wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
	}

	void InterruptableSensorBase::CancelInterrupts() {
	if (StatusIsFatal()) return;
	CHECK_NE(m_interrupt, HAL_kInvalidHandle);
	HAL_CleanInterrupts(m_interrupt);
	// ignore status, as an invalid handle just needs to be ignored.
	m_interrupt = HAL_kInvalidHandle;
	}

	InterruptableSensorBase::WaitResult InterruptableSensorBase::WaitForInterrupt(
	double timeout, bool ignorePrevious) {
	if (StatusIsFatal()) return InterruptableSensorBase::kTimeout;
	CHECK_NE(m_interrupt, HAL_kInvalidHandle);
	int32_t status = 0;
	int result;

	result = HAL_WaitForInterrupt(m_interrupt, timeout, ignorePrevious, &status);
	wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));

	// Rising edge result is the interrupt bit set in the byte 0xFF
	// Falling edge result is the interrupt bit set in the byte 0xFF00
	// Set any bit set to be true for that edge, and AND the 2 results
	// together to match the existing enum for all interrupts
	int32_t rising = (result & 0xFF) ? 0x1 : 0x0;
	int32_t falling = ((result & 0xFF00) ? 0x0100 : 0x0);
	return static_cast<WaitResult>(falling \| rising);
	}

	hal::fpga_clock::time_point InterruptableSensorBase::ReadRisingTimestamp() {
	if (StatusIsFatal()) return hal::fpga_clock::min_time;
	CHECK_NE(m_interrupt, HAL_kInvalidHandle);
	int32_t status = 0;
	uint64_t timestamp = HAL_ReadInterruptRisingTimestamp(m_interrupt, &status);
	timestamp = HAL_ExpandFPGATime(timestamp, &status);
	wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
	return hal::fpga_clock::time_point(hal::fpga_clock::duration(timestamp));
	}

	hal::fpga_clock::time_point InterruptableSensorBase::ReadFallingTimestamp() {
	if (StatusIsFatal()) return hal::fpga_clock::min_time;
	CHECK_NE(m_interrupt, HAL_kInvalidHandle);
	int32_t status = 0;
	uint64_t timestamp = HAL_ReadInterruptFallingTimestamp(m_interrupt, &status);
	timestamp = HAL_ExpandFPGATime(timestamp, &status);
	wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
	return hal::fpga_clock::time_point(hal::fpga_clock::duration(timestamp));
	}

	void InterruptableSensorBase::SetUpSourceEdge(bool risingEdge,
	bool fallingEdge) {
	if (StatusIsFatal()) return;
	if (m_interrupt == HAL_kInvalidHandle) {
	wpi_setWPIErrorWithContext(
	NullParameter,
	"You must call RequestInterrupts before SetUpSourceEdge");
	return;
	}
	if (m_interrupt != HAL_kInvalidHandle) {
	int32_t status = 0;
	HAL_SetInterruptUpSourceEdge(m_interrupt, risingEdge, fallingEdge, &status);
	wpi_setErrorWithContext(status, HAL_GetErrorMessage(status));
	}
	}