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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / c3bf9a3d51eeadc8772b8ed7377ff1c7e2f25f16 / . / y2022_bot3 / wpilib_interface.cc
blob: 278e8694ba2648a57eca1b54c2f82ddcc8b10d67 [file] [log] [blame]
#include <unistd.h>
#include <array>
#include <chrono>
#include <cinttypes>
#include <cmath>
#include <cstdio>
#include <cstring>
#include <functional>
#include <memory>
#include <mutex>
#include <thread>
#include "ctre/phoenix/CANifier.h"
#include "frc971/wpilib/ahal/AnalogInput.h"
#include "frc971/wpilib/ahal/Counter.h"
#include "frc971/wpilib/ahal/DigitalGlitchFilter.h"
#include "frc971/wpilib/ahal/DriverStation.h"
#include "frc971/wpilib/ahal/Encoder.h"
#include "frc971/wpilib/ahal/Servo.h"
#include "frc971/wpilib/ahal/TalonFX.h"
#include "frc971/wpilib/ahal/VictorSP.h"
#undef ERROR
#include "aos/commonmath.h"
#include "aos/events/event_loop.h"
#include "aos/events/shm_event_loop.h"
#include "aos/init.h"
#include "aos/logging/logging.h"
#include "aos/realtime.h"
#include "aos/time/time.h"
#include "aos/util/log_interval.h"
#include "aos/util/phased_loop.h"
#include "aos/util/wrapping_counter.h"
#include "frc971/autonomous/auto_mode_generated.h"
#include "frc971/control_loops/drivetrain/drivetrain_position_generated.h"
#include "frc971/input/robot_state_generated.h"
#include "frc971/queues/gyro_generated.h"
#include "frc971/wpilib/ADIS16448.h"
#include "frc971/wpilib/buffered_pcm.h"
#include "frc971/wpilib/buffered_solenoid.h"
#include "frc971/wpilib/dma.h"
#include "frc971/wpilib/drivetrain_writer.h"
#include "frc971/wpilib/encoder_and_potentiometer.h"
#include "frc971/wpilib/joystick_sender.h"
#include "frc971/wpilib/logging_generated.h"
#include "frc971/wpilib/loop_output_handler.h"
#include "frc971/wpilib/pdp_fetcher.h"
#include "frc971/wpilib/sensor_reader.h"
#include "frc971/wpilib/wpilib_robot_base.h"
#include "y2022_bot3/constants.h"
#include "y2022_bot3/control_loops/superstructure/superstructure_output_generated.h"
#include "y2022_bot3/control_loops/superstructure/superstructure_position_static.h"
using ::aos::monotonic_clock;
using ::y2022_bot3::constants::Values;
namespace superstructure = ::y2022_bot3::control_loops::superstructure;
namespace chrono = ::std::chrono;
using std::make_unique;
namespace y2022_bot3::wpilib {
namespace {
constexpr double kMaxBringupPower = 12.0;
// TODO(Brian): Fix the interpretation of the result of GetRaw here and in the
// DMA stuff and then removing the * 2.0 in *_translate.
// The low bit is direction.
double drivetrain_velocity_translate(double in) {
return (((1.0 / in) / Values::kDrivetrainCyclesPerRevolution()) *
(2.0 * M_PI)) *
Values::kDrivetrainEncoderRatio() *
control_loops::drivetrain::kWheelRadius;
}
double intake_pot_translate(double voltage) {
return voltage * Values::kIntakePotRatio() * (3.0 /*turns*/ / 5.0 /*volts*/) *
(2 * M_PI /*radians*/);
}
double climber_pot_translate(double voltage) {
return voltage * Values::kClimberPotRatio() *
(3.0 /*turns*/ / 5.0 /*volts*/) *
Values::kClimberPotMetersPerRevolution();
}
// TODO(niko): Might have to move these to medium once we know the actual values
constexpr double kMaxFastEncoderPulsesPerSecond =
std::max({Values::kMaxDrivetrainEncoderPulsesPerSecond(),
Values::kMaxIntakeEncoderPulsesPerSecond(),
Values::kMaxClimberEncoderPulsesPerSecond()});
static_assert(kMaxFastEncoderPulsesPerSecond <= 1300000,
"fast encoders are too fast");
constexpr double kMaxMediumEncoderPulsesPerSecond = 0;
static_assert(kMaxMediumEncoderPulsesPerSecond <= 400000,
"medium encoders are too fast");
} // namespace
// Class to send position messages with sensor readings to our loops.
class SensorReader : public ::frc971::wpilib::SensorReader {
public:
SensorReader(::aos::ShmEventLoop *event_loop,
std::shared_ptr<const Values> values)
: ::frc971::wpilib::SensorReader(event_loop),
values_(std::move(values)),
auto_mode_sender_(
event_loop->MakeSender<::frc971::autonomous::AutonomousMode>(
"/autonomous")),
superstructure_position_sender_(
event_loop->MakeSender<superstructure::PositionStatic>(
"/superstructure")),
drivetrain_position_sender_(
event_loop
->MakeSender<::frc971::control_loops::drivetrain::Position>(
"/drivetrain")),
gyro_sender_(event_loop->MakeSender<::frc971::sensors::GyroReading>(
"/drivetrain")) {
// Set to filter out anything shorter than 1/4 of the minimum pulse width
// we should ever see.
UpdateFastEncoderFilterHz(kMaxFastEncoderPulsesPerSecond);
UpdateMediumEncoderFilterHz(kMaxMediumEncoderPulsesPerSecond);
}
void Start() override {
// TODO(Ravago): Figure out why adding multiple DMA readers results in weird
// behavior
// AddToDMA(&imu_heading_reader_);
AddToDMA(&imu_yaw_rate_reader_);
}
// Auto mode switches.
void set_autonomous_mode(int i, ::std::unique_ptr<frc::DigitalInput> sensor) {
autonomous_modes_.at(i) = ::std::move(sensor);
}
void set_heading_input(::std::unique_ptr<frc::DigitalInput> sensor) {
imu_heading_input_ = ::std::move(sensor);
imu_heading_reader_.set_input(imu_heading_input_.get());
}
void set_yaw_rate_input(::std::unique_ptr<frc::DigitalInput> sensor) {
imu_yaw_rate_input_ = ::std::move(sensor);
imu_yaw_rate_reader_.set_input(imu_yaw_rate_input_.get());
}
void set_intake_encoder(::std::unique_ptr<frc::Encoder> encoder) {
fast_encoder_filter_.Add(encoder.get());
intake_encoder_.set_encoder(::std::move(encoder));
}
void set_intake_absolute_pwm(
::std::unique_ptr<frc::DigitalInput> absolute_pwm) {
intake_encoder_.set_absolute_pwm(::std::move(absolute_pwm));
}
void set_intake_potentiometer(
::std::unique_ptr<frc::AnalogInput> potentiometer) {
intake_encoder_.set_potentiometer(::std::move(potentiometer));
}
void set_climber_encoder_right(::std::unique_ptr<frc::Encoder> encoder) {
fast_encoder_filter_.Add(encoder.get());
climber_encoder_right_.set_encoder(::std::move(encoder));
}
void set_climber_right_absolute_pwm(
::std::unique_ptr<frc::DigitalInput> absolute_pwm) {
climber_encoder_right_.set_absolute_pwm(::std::move(absolute_pwm));
}
void set_climber_right_potentiometer(
::std::unique_ptr<frc::AnalogInput> potentiometer) {
climber_encoder_right_.set_potentiometer(::std::move(potentiometer));
}
void set_climber_encoder_left(::std::unique_ptr<frc::Encoder> encoder) {
fast_encoder_filter_.Add(encoder.get());
climber_encoder_left_.set_encoder(::std::move(encoder));
}
void set_climber_left_absolute_pwm(
::std::unique_ptr<frc::DigitalInput> absolute_pwm) {
climber_encoder_left_.set_absolute_pwm(::std::move(absolute_pwm));
}
void set_climber_left_potentiometer(
::std::unique_ptr<frc::AnalogInput> potentiometer) {
climber_encoder_left_.set_potentiometer(::std::move(potentiometer));
}
void RunIteration() override {
{
aos::Sender<superstructure::PositionStatic>::StaticBuilder builder =
superstructure_position_sender_.MakeStaticBuilder();
// Climbers
CopyPosition(climber_encoder_right_, builder->add_climber_right(),
Values::kClimberEncoderCountsPerRevolution(),
(Values::kClimberEncoderRatio() *
Values::kClimberEncoderCountsPerRevolution()) /
(2.0 * M_PI),
climber_pot_translate, true,
values_->climber_right.potentiometer_offset);
CopyPosition(climber_encoder_left_, builder->add_climber_left(),
Values::kClimberEncoderCountsPerRevolution(),
(Values::kClimberEncoderRatio() *
Values::kClimberEncoderCountsPerRevolution()) /
(2.0 * M_PI),
climber_pot_translate, true,
values_->climber_left.potentiometer_offset);
// Intake
CopyPosition(intake_encoder_, builder->add_intake(),
Values::kIntakeEncoderCountsPerRevolution(),
Values::kIntakeEncoderRatio(), intake_pot_translate, true,
values_->intake.potentiometer_offset);
builder.CheckOk(builder.Send());
}
{
auto builder = drivetrain_position_sender_.MakeBuilder();
frc971::control_loops::drivetrain::Position::Builder drivetrain_builder =
builder.MakeBuilder<frc971::control_loops::drivetrain::Position>();
drivetrain_builder.add_left_encoder(
constants::Values::DrivetrainEncoderToMeters(
drivetrain_left_encoder_->GetRaw()));
drivetrain_builder.add_left_speed(
drivetrain_velocity_translate(drivetrain_left_encoder_->GetPeriod()));
drivetrain_builder.add_right_encoder(
-constants::Values::DrivetrainEncoderToMeters(
drivetrain_right_encoder_->GetRaw()));
drivetrain_builder.add_right_speed(-drivetrain_velocity_translate(
drivetrain_right_encoder_->GetPeriod()));
builder.CheckOk(builder.Send(drivetrain_builder.Finish()));
}
{
auto builder = gyro_sender_.MakeBuilder();
::frc971::sensors::GyroReading::Builder gyro_reading_builder =
builder.MakeBuilder<::frc971::sensors::GyroReading>();
// +/- 2000 deg / sec
constexpr double kMaxVelocity = 4000; // degrees / second
constexpr double kVelocityRadiansPerSecond =
kMaxVelocity / 360 * (2.0 * M_PI);
// Only part of the full range is used to prevent being 100% on or off.
constexpr double kScaledRangeLow = 0.1;
constexpr double kScaledRangeHigh = 0.9;
constexpr double kPWMFrequencyHz = 200;
double heading_duty_cycle =
imu_heading_reader_.last_width() * kPWMFrequencyHz;
double velocity_duty_cycle =
imu_yaw_rate_reader_.last_width() * kPWMFrequencyHz;
constexpr double kDutyCycleScale =
1 / (kScaledRangeHigh - kScaledRangeLow);
// scale from 0.1 - 0.9 to 0 - 1
double rescaled_heading_duty_cycle =
(heading_duty_cycle - kScaledRangeLow) * kDutyCycleScale;
double rescaled_velocity_duty_cycle =
(velocity_duty_cycle - kScaledRangeLow) * kDutyCycleScale;
if (!std::isnan(rescaled_heading_duty_cycle)) {
gyro_reading_builder.add_angle(rescaled_heading_duty_cycle *
(2.0 * M_PI));
}
if (!std::isnan(rescaled_velocity_duty_cycle)) {
gyro_reading_builder.add_velocity((rescaled_velocity_duty_cycle - 0.5) *
kVelocityRadiansPerSecond);
}
builder.CheckOk(builder.Send(gyro_reading_builder.Finish()));
}
{
auto builder = auto_mode_sender_.MakeBuilder();
uint32_t mode = 0;
for (size_t i = 0; i < autonomous_modes_.size(); ++i) {
if (autonomous_modes_[i] && autonomous_modes_[i]->Get()) {
mode |= 1 << i;
}
}
auto auto_mode_builder =
builder.MakeBuilder<frc971::autonomous::AutonomousMode>();
auto_mode_builder.add_mode(mode);
builder.CheckOk(builder.Send(auto_mode_builder.Finish()));
}
}
private:
std::shared_ptr<const Values> values_;
aos::Sender<frc971::autonomous::AutonomousMode> auto_mode_sender_;
aos::Sender<superstructure::PositionStatic> superstructure_position_sender_;
aos::Sender<frc971::control_loops::drivetrain::Position>
drivetrain_position_sender_;
::aos::Sender<::frc971::sensors::GyroReading> gyro_sender_;
std::array<std::unique_ptr<frc::DigitalInput>, 2> autonomous_modes_;
std::unique_ptr<frc::DigitalInput> imu_heading_input_, imu_yaw_rate_input_;
frc971::wpilib::DMAPulseWidthReader imu_heading_reader_, imu_yaw_rate_reader_;
frc971::wpilib::AbsoluteEncoderAndPotentiometer intake_encoder_,
climber_encoder_left_, climber_encoder_right_;
};
class WPILibRobot : public ::frc971::wpilib::WPILibRobotBase {
public:
::std::unique_ptr<frc::Encoder> make_encoder(int index) {
return make_unique<frc::Encoder>(10 + index * 2, 11 + index * 2, false,
frc::Encoder::k4X);
}
void Run() override {
std::shared_ptr<const Values> values =
std::make_shared<const Values>(constants::MakeValues());
aos::FlatbufferDetachedBuffer<aos::Configuration> config =
aos::configuration::ReadConfig("aos_config.json");
// Thread 1.
::aos::ShmEventLoop joystick_sender_event_loop(&config.message());
::frc971::wpilib::JoystickSender joystick_sender(
&joystick_sender_event_loop);
AddLoop(&joystick_sender_event_loop);
// Thread 2.
::aos::ShmEventLoop pdp_fetcher_event_loop(&config.message());
::frc971::wpilib::PDPFetcher pdp_fetcher(&pdp_fetcher_event_loop);
AddLoop(&pdp_fetcher_event_loop);
// Thread 3.
::aos::ShmEventLoop sensor_reader_event_loop(&config.message());
SensorReader sensor_reader(&sensor_reader_event_loop, values);
sensor_reader.set_pwm_trigger(true);
sensor_reader.set_drivetrain_left_encoder(make_encoder(0));
sensor_reader.set_drivetrain_right_encoder(make_encoder(1));
sensor_reader.set_heading_input(make_unique<frc::DigitalInput>(8));
sensor_reader.set_yaw_rate_input(make_unique<frc::DigitalInput>(9));
sensor_reader.set_intake_encoder(make_encoder(2));
sensor_reader.set_climber_encoder_right(make_encoder(3));
sensor_reader.set_climber_encoder_left(make_encoder(4));
sensor_reader.set_intake_absolute_pwm(make_unique<frc::DigitalInput>(0));
sensor_reader.set_climber_right_absolute_pwm(
make_unique<frc::DigitalInput>(1));
sensor_reader.set_climber_left_absolute_pwm(
make_unique<frc::DigitalInput>(2));
sensor_reader.set_intake_potentiometer(make_unique<frc::AnalogInput>(0));
sensor_reader.set_climber_right_potentiometer(
make_unique<frc::AnalogInput>(1));
sensor_reader.set_climber_left_potentiometer(
make_unique<frc::AnalogInput>(2));
AddLoop(&sensor_reader_event_loop);
// Thread 4.
::aos::ShmEventLoop output_event_loop(&config.message());
::frc971::wpilib::DrivetrainWriter drivetrain_writer(&output_event_loop);
drivetrain_writer.set_left_controller0(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(0)), false);
drivetrain_writer.set_left_controller1(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(1)), false);
drivetrain_writer.set_right_controller0(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(2)), true);
drivetrain_writer.set_right_controller1(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(3)), true);
AddLoop(&output_event_loop);
// Thread 5.
RunLoops();
}
};
} // namespace y2022_bot3::wpilib
AOS_ROBOT_CLASS(::y2022_bot3::wpilib::WPILibRobot);