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allwpilib/wpilibc/src/main/native/cpp/DutyCycleEncoder.cpp
Peter Johnson 10b396b4c2 [sim] Various WebSockets fixes and enhancements (#2952) 
This is a breaking change to the WebSockets layer to align it with
recent specification documentation work.

To support this, HAL SimValue changed readonly to a direction enum.
This allows specifying bidirectional in addition to input and output.

The SimValue change is specifically designed to avoid API and ABI breakage.
This is completely transparent in C++; in Java a new callback class was added,
and the old readonly functions have been marked deprecated.

A new SimValue creation function for enums allows specifying double values
for each enum value, not just strings.  This allows mapping enum values to
doubles in the WebSockets layer.

A ":" in the SimDevice name now maps it to different WebSocket types (e.g.
"Accel:Name" becomes type "Accel", device "Name").  The type is hidden
in the GUI.

Other WebSockets changes:
* Implemented match_time and game_data
* Added joystick rumble data
* Added builtin accelerometer support
* SimValue enums are mapped to string and double value on WS interface
* Added WebSockets protocol specification
* Added READMEs
2020-12-23 15:54:11 -08:00

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/*----------------------------------------------------------------------------*/
/* Copyright (c) 2019-2020 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/DutyCycleEncoder.h"
#include "frc/Base.h"
#include "frc/Counter.h"
#include "frc/DigitalInput.h"
#include "frc/DigitalSource.h"
#include "frc/DriverStation.h"
#include "frc/DutyCycle.h"
#include "frc/smartdashboard/SendableBuilder.h"
using namespace frc;
DutyCycleEncoder::DutyCycleEncoder(int channel)
: m_dutyCycle{std::make_shared<DutyCycle>(
std::make_shared<DigitalInput>(channel))} {
Init();
}
DutyCycleEncoder::DutyCycleEncoder(DutyCycle& dutyCycle)
: m_dutyCycle{&dutyCycle, NullDeleter<DutyCycle>{}} {
Init();
}
DutyCycleEncoder::DutyCycleEncoder(DutyCycle* dutyCycle)
: m_dutyCycle{dutyCycle, NullDeleter<DutyCycle>{}} {
Init();
}
DutyCycleEncoder::DutyCycleEncoder(std::shared_ptr<DutyCycle> dutyCycle)
: m_dutyCycle{std::move(dutyCycle)} {
Init();
}
DutyCycleEncoder::DutyCycleEncoder(DigitalSource& digitalSource)
: m_dutyCycle{std::make_shared<DutyCycle>(digitalSource)} {
Init();
}
DutyCycleEncoder::DutyCycleEncoder(DigitalSource* digitalSource)
: m_dutyCycle{std::make_shared<DutyCycle>(digitalSource)} {
Init();
}
DutyCycleEncoder::DutyCycleEncoder(std::shared_ptr<DigitalSource> digitalSource)
: m_dutyCycle{std::make_shared<DutyCycle>(digitalSource)} {
Init();
}
void DutyCycleEncoder::Init() {
m_simDevice = hal::SimDevice{"DutyCycle:DutyCycleEncoder",
m_dutyCycle->GetSourceChannel()};
if (m_simDevice) {
m_simPosition =
m_simDevice.CreateDouble("position", hal::SimDevice::kInput, 0.0);
m_simIsConnected =
m_simDevice.CreateBoolean("connected", hal::SimDevice::kInput, true);
} else {
m_analogTrigger = std::make_unique<AnalogTrigger>(m_dutyCycle.get());
m_analogTrigger->SetLimitsDutyCycle(0.25, 0.75);
m_counter = std::make_unique<Counter>();
m_counter->SetUpSource(
m_analogTrigger->CreateOutput(AnalogTriggerType::kRisingPulse));
m_counter->SetDownSource(
m_analogTrigger->CreateOutput(AnalogTriggerType::kFallingPulse));
}
SendableRegistry::GetInstance().AddLW(this, "DutyCycle Encoder",
m_dutyCycle->GetSourceChannel());
}
units::turn_t DutyCycleEncoder::Get() const {
if (m_simPosition) return units::turn_t{m_simPosition.Get()};
// As the values are not atomic, keep trying until we get 2 reads of the same
// value If we don't within 10 attempts, error
for (int i = 0; i < 10; i++) {
auto counter = m_counter->Get();
auto pos = m_dutyCycle->GetOutput();
auto counter2 = m_counter->Get();
auto pos2 = m_dutyCycle->GetOutput();
if (counter == counter2 && pos == pos2) {
units::turn_t turns{counter + pos - m_positionOffset};
m_lastPosition = turns;
return turns;
}
}
frc::DriverStation::GetInstance().ReportWarning(
"Failed to read DutyCycle Encoder. Potential Speed Overrun. Returning "
"last value");
return m_lastPosition;
}
void DutyCycleEncoder::SetDistancePerRotation(double distancePerRotation) {
m_distancePerRotation = distancePerRotation;
}
double DutyCycleEncoder::GetDistancePerRotation() const {
return m_distancePerRotation;
}
double DutyCycleEncoder::GetDistance() const {
return Get().to<double>() * GetDistancePerRotation();
}
int DutyCycleEncoder::GetFrequency() const {
return m_dutyCycle->GetFrequency();
}
void DutyCycleEncoder::Reset() {
if (m_counter) m_counter->Reset();
m_positionOffset = m_dutyCycle->GetOutput();
}
bool DutyCycleEncoder::IsConnected() const {
if (m_simIsConnected) return m_simIsConnected.Get();
return GetFrequency() > m_frequencyThreshold;
}
void DutyCycleEncoder::SetConnectedFrequencyThreshold(int frequency) {
if (frequency < 0) {
frequency = 0;
}
m_frequencyThreshold = frequency;
}
int DutyCycleEncoder::GetFPGAIndex() const {
return m_dutyCycle->GetFPGAIndex();
}
int DutyCycleEncoder::GetSourceChannel() const {
return m_dutyCycle->GetSourceChannel();
}
void DutyCycleEncoder::InitSendable(SendableBuilder& builder) {
builder.SetSmartDashboardType("AbsoluteEncoder");
builder.AddDoubleProperty(
"Distance", [this] { return this->GetDistance(); }, nullptr);
builder.AddDoubleProperty(
"Distance Per Rotation",
[this] { return this->GetDistancePerRotation(); }, nullptr);
builder.AddDoubleProperty(
"Is Connected", [this] { return this->IsConnected(); }, nullptr);
}
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