/*----------------------------------------------------------------------------*/ /* Copyright (c) 2008-2018 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. */ /*----------------------------------------------------------------------------*/ #pragma once #include #include "frc/AnalogTriggerType.h" #include "frc/ErrorBase.h" #include "frc/smartdashboard/SendableBase.h" namespace frc { class InterruptableSensorBase : public ErrorBase, public SendableBase { public: enum WaitResult { kTimeout = 0x0, kRisingEdge = 0x1, kFallingEdge = 0x100, kBoth = 0x101, }; InterruptableSensorBase() = default; virtual HAL_Handle GetPortHandleForRouting() const = 0; virtual AnalogTriggerType GetAnalogTriggerTypeForRouting() const = 0; /** * Request one of the 8 interrupts asynchronously on this digital input. * * Request interrupts in asynchronous mode where the user's interrupt handler * will be called when the interrupt fires. Users that want control over the * thread priority should use the synchronous method with their own spawned * thread. The default is interrupt on rising edges only. */ virtual void RequestInterrupts(HAL_InterruptHandlerFunction handler, void* param); /** * Request one of the 8 interrupts synchronously on this digital input. * * Request interrupts in synchronous mode where the user program will have to * explicitly wait for the interrupt to occur using WaitForInterrupt. * The default is interrupt on rising edges only. */ virtual void RequestInterrupts(); /** * Cancel interrupts on this device. * * This deallocates all the chipobject structures and disables any interrupts. */ virtual void CancelInterrupts(); /** * In synchronous mode, wait for the defined interrupt to occur. * * You should NOT attempt to read the sensor from another thread while * waiting for an interrupt. This is not threadsafe, and can cause memory * corruption * * @param timeout Timeout in seconds * @param ignorePrevious If true, ignore interrupts that happened before * WaitForInterrupt was called. * @return What interrupts fired */ virtual WaitResult WaitForInterrupt(double timeout, bool ignorePrevious = true); /** * Enable interrupts to occur on this input. * * Interrupts are disabled when the RequestInterrupt call is made. This gives * time to do the setup of the other options before starting to field * interrupts. */ virtual void EnableInterrupts(); /** * Disable Interrupts without without deallocating structures. */ virtual void DisableInterrupts(); /** * Return the timestamp for the rising interrupt that occurred most recently. * * This is in the same time domain as GetClock(). * The rising-edge interrupt should be enabled with * {@link #DigitalInput.SetUpSourceEdge} * * @return Timestamp in seconds since boot. */ virtual double ReadRisingTimestamp(); /** * Return the timestamp for the falling interrupt that occurred most recently. * * This is in the same time domain as GetClock(). * The falling-edge interrupt should be enabled with * {@link #DigitalInput.SetUpSourceEdge} * * @return Timestamp in seconds since boot. */ virtual double ReadFallingTimestamp(); /** * Set which edge to trigger interrupts on * * @param risingEdge true to interrupt on rising edge * @param fallingEdge true to interrupt on falling edge */ virtual void SetUpSourceEdge(bool risingEdge, bool fallingEdge); protected: HAL_InterruptHandle m_interrupt = HAL_kInvalidHandle; void AllocateInterrupts(bool watcher); }; } // namespace frc