// Copyright (c) FIRST and other WPILib contributors. // Open Source Software; you can modify and/or share it under the terms of // the WPILib BSD license file in the root directory of this project. #include "frc/AnalogTrigger.h" #include #include #include "frc/AnalogInput.h" #include "frc/Base.h" #include "frc/DutyCycle.h" #include "frc/WPIErrors.h" #include "frc/smartdashboard/SendableRegistry.h" using namespace frc; AnalogTrigger::AnalogTrigger(int channel) : AnalogTrigger(new AnalogInput(channel)) { m_ownsAnalog = true; SendableRegistry::GetInstance().AddChild(this, m_analogInput); } AnalogTrigger::AnalogTrigger(AnalogInput* input) { m_analogInput = input; int32_t status = 0; m_trigger = HAL_InitializeAnalogTrigger(input->m_port, &status); if (status != 0) { wpi_setHALError(status); m_trigger = HAL_kInvalidHandle; return; } int index = GetIndex(); HAL_Report(HALUsageReporting::kResourceType_AnalogTrigger, index + 1); SendableRegistry::GetInstance().AddLW(this, "AnalogTrigger", index); } AnalogTrigger::AnalogTrigger(DutyCycle* input) { m_dutyCycle = input; int32_t status = 0; m_trigger = HAL_InitializeAnalogTriggerDutyCycle(input->m_handle, &status); if (status != 0) { wpi_setHALError(status); m_trigger = HAL_kInvalidHandle; return; } int index = GetIndex(); HAL_Report(HALUsageReporting::kResourceType_AnalogTrigger, index + 1); SendableRegistry::GetInstance().AddLW(this, "AnalogTrigger", index); } AnalogTrigger::~AnalogTrigger() { int32_t status = 0; HAL_CleanAnalogTrigger(m_trigger, &status); if (m_ownsAnalog) { delete m_analogInput; } } AnalogTrigger::AnalogTrigger(AnalogTrigger&& rhs) : ErrorBase(std::move(rhs)), SendableHelper(std::move(rhs)), m_trigger(std::move(rhs.m_trigger)) { std::swap(m_analogInput, rhs.m_analogInput); std::swap(m_dutyCycle, rhs.m_dutyCycle); std::swap(m_ownsAnalog, rhs.m_ownsAnalog); } AnalogTrigger& AnalogTrigger::operator=(AnalogTrigger&& rhs) { ErrorBase::operator=(std::move(rhs)); SendableHelper::operator=(std::move(rhs)); m_trigger = std::move(rhs.m_trigger); std::swap(m_analogInput, rhs.m_analogInput); std::swap(m_dutyCycle, rhs.m_dutyCycle); std::swap(m_ownsAnalog, rhs.m_ownsAnalog); return *this; } void AnalogTrigger::SetLimitsVoltage(double lower, double upper) { if (StatusIsFatal()) { return; } int32_t status = 0; HAL_SetAnalogTriggerLimitsVoltage(m_trigger, lower, upper, &status); wpi_setHALError(status); } void AnalogTrigger::SetLimitsDutyCycle(double lower, double upper) { if (StatusIsFatal()) { return; } int32_t status = 0; HAL_SetAnalogTriggerLimitsDutyCycle(m_trigger, lower, upper, &status); wpi_setHALError(status); } void AnalogTrigger::SetLimitsRaw(int lower, int upper) { if (StatusIsFatal()) { return; } int32_t status = 0; HAL_SetAnalogTriggerLimitsRaw(m_trigger, lower, upper, &status); wpi_setHALError(status); } void AnalogTrigger::SetAveraged(bool useAveragedValue) { if (StatusIsFatal()) { return; } int32_t status = 0; HAL_SetAnalogTriggerAveraged(m_trigger, useAveragedValue, &status); wpi_setHALError(status); } void AnalogTrigger::SetFiltered(bool useFilteredValue) { if (StatusIsFatal()) { return; } int32_t status = 0; HAL_SetAnalogTriggerFiltered(m_trigger, useFilteredValue, &status); wpi_setHALError(status); } int AnalogTrigger::GetIndex() const { if (StatusIsFatal()) { return -1; } int32_t status = 0; auto ret = HAL_GetAnalogTriggerFPGAIndex(m_trigger, &status); wpi_setHALError(status); return ret; } bool AnalogTrigger::GetInWindow() { if (StatusIsFatal()) { return false; } int32_t status = 0; bool result = HAL_GetAnalogTriggerInWindow(m_trigger, &status); wpi_setHALError(status); return result; } bool AnalogTrigger::GetTriggerState() { if (StatusIsFatal()) { return false; } int32_t status = 0; bool result = HAL_GetAnalogTriggerTriggerState(m_trigger, &status); wpi_setHALError(status); return result; } std::shared_ptr AnalogTrigger::CreateOutput( AnalogTriggerType type) const { if (StatusIsFatal()) { return nullptr; } return std::shared_ptr( new AnalogTriggerOutput(*this, type), NullDeleter()); } void AnalogTrigger::InitSendable(SendableBuilder& builder) { if (m_ownsAnalog) { m_analogInput->InitSendable(builder); } }