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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / c73bb22a8045b51ee4db0665641588de15647a8b / . / y2017 / wpilib_interface.cc
blob: 12e57606e753f85515965157e1fdce9e5fe285c9 [file] [log] [blame]
#include <inttypes.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <array>
#include <chrono>
#include <cmath>
#include <functional>
#include <mutex>
#include <thread>
#include "frc971/wpilib/ahal/AnalogInput.h"
#include "frc971/wpilib/ahal/Compressor.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/Relay.h"
#include "frc971/wpilib/ahal/Servo.h"
#include "frc971/wpilib/ahal/VictorSP.h"
#undef ERROR
#include "aos/commonmath.h"
#include "aos/init.h"
#include "aos/logging/logging.h"
#include "aos/logging/queue_logging.h"
#include "aos/make_unique.h"
#include "aos/robot_state/robot_state.q.h"
#include "aos/stl_mutex/stl_mutex.h"
#include "aos/time/time.h"
#include "aos/util/compiler_memory_barrier.h"
#include "aos/util/log_interval.h"
#include "aos/util/phased_loop.h"
#include "aos/util/wrapping_counter.h"
#include "frc971/autonomous/auto.q.h"
#include "frc971/control_loops/control_loops.q.h"
#include "frc971/control_loops/drivetrain/drivetrain.q.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/dma_edge_counting.h"
#include "frc971/wpilib/drivetrain_writer.h"
#include "frc971/wpilib/encoder_and_potentiometer.h"
#include "frc971/wpilib/interrupt_edge_counting.h"
#include "frc971/wpilib/joystick_sender.h"
#include "frc971/wpilib/logging.q.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 "y2017/constants.h"
#include "y2017/control_loops/superstructure/superstructure.q.h"
#ifndef M_PI
#define M_PI 3.14159265358979323846
#endif
using ::frc971::control_loops::drivetrain_queue;
using ::y2017::control_loops::superstructure_queue;
using ::y2017::constants::Values;
using ::aos::monotonic_clock;
namespace chrono = ::std::chrono;
using namespace frc;
using aos::make_unique;
namespace y2017 {
namespace 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.
// TODO(brian): Use ::std::max instead once we have C++14 so that can be
// constexpr.
template <typename T>
constexpr T max(T a, T b) {
return (a > b) ? a : b;
}
template <typename T, typename... Rest>
constexpr T max(T a, T b, T c, Rest... rest) {
return max(max(a, b), c, rest...);
}
double drivetrain_translate(int32_t in) {
return static_cast<double>(in) /
Values::kDrivetrainEncoderCountsPerRevolution *
Values::kDrivetrainEncoderRatio * 2.0 * M_PI;
}
double drivetrain_velocity_translate(double in) {
return (1.0 / in) / Values::kDrivetrainCyclesPerRevolution *
Values::kDrivetrainEncoderRatio * 2.0 * M_PI;
}
// TODO(Travis): Make sure the number of turns is right.
double intake_pot_translate(double voltage) {
return voltage * Values::kIntakePotRatio * (3.0 /*turns*/ / 5.0 /*volts*/) *
(2 * M_PI /*radians*/);
}
constexpr double kMaxFastEncoderPulsesPerSecond =
max(Values::kMaxDrivetrainEncoderPulsesPerSecond,
Values::kMaxShooterEncoderPulsesPerSecond);
static_assert(kMaxFastEncoderPulsesPerSecond <= 1300000,
"fast encoders are too fast");
constexpr double kMaxMediumEncoderPulsesPerSecond =
max(Values::kMaxIntakeEncoderPulsesPerSecond,
Values::kMaxTurretEncoderPulsesPerSecond,
Values::kMaxIndexerEncoderPulsesPerSecond);
static_assert(kMaxMediumEncoderPulsesPerSecond <= 400000,
"medium encoders are too fast");
constexpr double kMaxSlowEncoderPulsesPerSecond =
Values::kMaxHoodEncoderPulsesPerSecond;
static_assert(kMaxSlowEncoderPulsesPerSecond <= 100000,
"slow encoders are too fast");
static_assert(kMaxSlowEncoderPulsesPerSecond < kMaxMediumEncoderPulsesPerSecond,
"slow encoders are faster than medium?");
// Class to send position messages with sensor readings to our loops.
class SensorReader : public ::frc971::wpilib::SensorReader {
public:
SensorReader() {
// Set to filter out anything shorter than 1/4 of the minimum pulse width
// we should ever see.
UpdateFastEncoderFilterHz(kMaxFastEncoderPulsesPerSecond);
UpdateMediumEncoderFilterHz(kMaxMediumEncoderPulsesPerSecond);
hall_filter_.SetPeriodNanoSeconds(100000);
}
void set_shooter_encoder(::std::unique_ptr<Encoder> encoder) {
fast_encoder_filter_.Add(encoder.get());
shooter_encoder_ = ::std::move(encoder);
}
void set_intake_encoder(::std::unique_ptr<Encoder> encoder) {
medium_encoder_filter_.Add(encoder.get());
intake_encoder_.set_encoder(::std::move(encoder));
}
void set_intake_potentiometer(::std::unique_ptr<AnalogInput> potentiometer) {
intake_encoder_.set_potentiometer(::std::move(potentiometer));
}
void set_intake_absolute(::std::unique_ptr<DigitalInput> input) {
intake_encoder_.set_absolute_pwm(::std::move(input));
}
void set_indexer_encoder(::std::unique_ptr<Encoder> encoder) {
medium_encoder_filter_.Add(encoder.get());
indexer_counter_.set_encoder(encoder.get());
indexer_encoder_ = ::std::move(encoder);
}
void set_indexer_hall(::std::unique_ptr<DigitalInput> input) {
hall_filter_.Add(input.get());
indexer_counter_.set_input(input.get());
indexer_hall_ = ::std::move(input);
}
void set_turret_encoder(::std::unique_ptr<Encoder> encoder) {
medium_encoder_filter_.Add(encoder.get());
turret_counter_.set_encoder(encoder.get());
turret_encoder_ = ::std::move(encoder);
}
void set_turret_hall(::std::unique_ptr<DigitalInput> input) {
hall_filter_.Add(input.get());
turret_counter_.set_input(input.get());
turret_hall_ = ::std::move(input);
}
void set_hood_encoder(::std::unique_ptr<Encoder> encoder) {
medium_encoder_filter_.Add(encoder.get());
hood_encoder_.set_encoder(::std::move(encoder));
}
void set_hood_index(::std::unique_ptr<DigitalInput> index) {
medium_encoder_filter_.Add(index.get());
hood_encoder_.set_index(::std::move(index));
}
void set_autonomous_mode(int i, ::std::unique_ptr<DigitalInput> sensor) {
autonomous_modes_.at(i) = ::std::move(sensor);
}
void Start() {
AddToDMA(&indexer_counter_);
AddToDMA(&hood_encoder_);
AddToDMA(&turret_counter_);
}
void RunIteration() {
{
auto drivetrain_message = drivetrain_queue.position.MakeMessage();
drivetrain_message->right_encoder =
drivetrain_translate(drivetrain_right_encoder_->GetRaw());
drivetrain_message->right_speed =
drivetrain_velocity_translate(drivetrain_right_encoder_->GetPeriod());
drivetrain_message->left_encoder =
-drivetrain_translate(drivetrain_left_encoder_->GetRaw());
drivetrain_message->left_speed =
drivetrain_velocity_translate(drivetrain_left_encoder_->GetPeriod());
drivetrain_message.Send();
}
}
void RunDMAIteration() {
const auto values = constants::GetValues();
{
auto superstructure_message = superstructure_queue.position.MakeMessage();
CopyPosition(intake_encoder_, &superstructure_message->intake,
Values::kIntakeEncoderCountsPerRevolution,
Values::kIntakeEncoderRatio, intake_pot_translate, true,
values.intake.pot_offset);
CopyPosition(indexer_counter_, &superstructure_message->column.indexer,
Values::kIndexerEncoderCountsPerRevolution,
Values::kIndexerEncoderRatio, true);
superstructure_message->theta_shooter =
encoder_translate(shooter_encoder_->GetRaw(),
Values::kShooterEncoderCountsPerRevolution,
Values::kShooterEncoderRatio);
CopyPosition(hood_encoder_, &superstructure_message->hood,
Values::kHoodEncoderCountsPerRevolution,
Values::kHoodEncoderRatio, true);
CopyPosition(turret_counter_, &superstructure_message->column.turret,
Values::kTurretEncoderCountsPerRevolution,
Values::kTurretEncoderRatio, false);
superstructure_message.Send();
}
{
auto auto_mode_message = ::frc971::autonomous::auto_mode.MakeMessage();
auto_mode_message->mode = 0;
for (size_t i = 0; i < autonomous_modes_.size(); ++i) {
if (autonomous_modes_[i] && autonomous_modes_[i]->Get()) {
auto_mode_message->mode |= 1 << i;
}
}
LOG_STRUCT(DEBUG, "auto mode", *auto_mode_message);
auto_mode_message.Send();
}
}
private:
DigitalGlitchFilter hall_filter_;
::frc971::wpilib::AbsoluteEncoderAndPotentiometer intake_encoder_;
::std::unique_ptr<Encoder> indexer_encoder_;
::std::unique_ptr<DigitalInput> indexer_hall_;
::frc971::wpilib::DMAEdgeCounter indexer_counter_;
::std::unique_ptr<Encoder> turret_encoder_;
::std::unique_ptr<DigitalInput> turret_hall_;
::frc971::wpilib::DMAEdgeCounter turret_counter_;
::frc971::wpilib::DMAEncoder hood_encoder_;
::std::unique_ptr<Encoder> shooter_encoder_;
::std::array<::std::unique_ptr<DigitalInput>, 4> autonomous_modes_;
};
class SolenoidWriter {
public:
SolenoidWriter()
: superstructure_(".y2017.control_loops.superstructure_queue.output") {}
::frc971::wpilib::BufferedPcm *pcm() { return &pcm_; }
void set_lights(::std::unique_ptr<::frc971::wpilib::BufferedSolenoid> s) {
lights_ = ::std::move(s);
}
void set_rgb_light(::std::unique_ptr<::frc971::wpilib::BufferedSolenoid> s) {
rgb_lights_ = ::std::move(s);
}
void operator()() {
::aos::SetCurrentThreadName("Solenoids");
::aos::SetCurrentThreadRealtimePriority(27);
::aos::time::PhasedLoop phased_loop(::std::chrono::milliseconds(20),
::std::chrono::milliseconds(1));
while (run_) {
{
const int iterations = phased_loop.SleepUntilNext();
if (iterations != 1) {
LOG(DEBUG, "Solenoids skipped %d iterations\n", iterations - 1);
}
}
{
superstructure_.FetchLatest();
if (superstructure_.get()) {
LOG_STRUCT(DEBUG, "solenoids", *superstructure_);
lights_->Set(superstructure_->lights_on);
rgb_lights_->Set(superstructure_->red_light_on |
superstructure_->green_light_on |
superstructure_->blue_light_on);
}
}
pcm_.Flush();
}
}
void Quit() { run_ = false; }
private:
::frc971::wpilib::BufferedPcm pcm_;
::std::unique_ptr<::frc971::wpilib::BufferedSolenoid> lights_, rgb_lights_;
::aos::Queue<::y2017::control_loops::SuperstructureQueue::Output>
superstructure_;
::std::atomic<bool> run_{true};
};
class SuperstructureWriter : public ::frc971::wpilib::LoopOutputHandler {
public:
void set_intake_victor(::std::unique_ptr<::frc::VictorSP> t) {
intake_victor_ = ::std::move(t);
}
void set_intake_rollers_victor(::std::unique_ptr<::frc::VictorSP> t) {
intake_rollers_victor_ = ::std::move(t);
}
void set_indexer_victor(::std::unique_ptr<::frc::VictorSP> t) {
indexer_victor_ = ::std::move(t);
}
void set_indexer_roller_victor(::std::unique_ptr<::frc::VictorSP> t) {
indexer_roller_victor_ = ::std::move(t);
}
void set_gear_servo(::std::unique_ptr<::frc::Servo> t) {
gear_servo_ = ::std::move(t);
}
void set_shooter_victor(::std::unique_ptr<::frc::VictorSP> t) {
shooter_victor_ = ::std::move(t);
}
void set_turret_victor(::std::unique_ptr<::frc::VictorSP> t) {
turret_victor_ = ::std::move(t);
}
void set_hood_victor(::std::unique_ptr<::frc::VictorSP> t) {
hood_victor_ = ::std::move(t);
}
void set_red_light(::std::unique_ptr<DigitalOutput> t) {
red_light_ = ::std::move(t);
}
void set_green_light(::std::unique_ptr<DigitalOutput> t) {
green_light_ = ::std::move(t);
}
void set_blue_light(::std::unique_ptr<DigitalOutput> t) {
blue_light_ = ::std::move(t);
}
private:
virtual void Read() override {
::y2017::control_loops::superstructure_queue.output.FetchAnother();
}
virtual void Write() override {
auto &queue = ::y2017::control_loops::superstructure_queue.output;
LOG_STRUCT(DEBUG, "will output", *queue);
intake_victor_->SetSpeed(::aos::Clip(queue->voltage_intake,
-kMaxBringupPower, kMaxBringupPower) /
12.0);
intake_rollers_victor_->SetSpeed(queue->voltage_intake_rollers / 12.0);
indexer_victor_->SetSpeed(-queue->voltage_indexer / 12.0);
indexer_roller_victor_->SetSpeed(queue->voltage_indexer_rollers / 12.0);
turret_victor_->SetSpeed(::aos::Clip(-queue->voltage_turret,
-kMaxBringupPower, kMaxBringupPower) /
12.0);
hood_victor_->SetSpeed(
::aos::Clip(queue->voltage_hood, -kMaxBringupPower, kMaxBringupPower) /
12.0);
shooter_victor_->SetSpeed(queue->voltage_shooter / 12.0);
red_light_->Set(queue->red_light_on);
green_light_->Set(queue->green_light_on);
blue_light_->Set(queue->blue_light_on);
gear_servo_->SetPosition(queue->gear_servo);
}
virtual void Stop() override {
LOG(WARNING, "Superstructure output too old.\n");
intake_victor_->SetDisabled();
intake_rollers_victor_->SetDisabled();
indexer_victor_->SetDisabled();
indexer_roller_victor_->SetDisabled();
turret_victor_->SetDisabled();
hood_victor_->SetDisabled();
shooter_victor_->SetDisabled();
gear_servo_->SetRaw(0);
red_light_->Set(true);
green_light_->Set(true);
blue_light_->Set(true);
}
::std::unique_ptr<::frc::VictorSP> intake_victor_, intake_rollers_victor_,
indexer_victor_, indexer_roller_victor_, shooter_victor_, turret_victor_,
hood_victor_;
::std::unique_ptr<::frc::Servo> gear_servo_;
::std::unique_ptr<DigitalOutput> red_light_, green_light_, blue_light_;
};
class WPILibRobot : public ::frc971::wpilib::WPILibRobotBase {
public:
::std::unique_ptr<Encoder> make_encoder(int index) {
return make_unique<Encoder>(10 + index * 2, 11 + index * 2, false,
Encoder::k4X);
}
void Run() override {
::aos::InitNRT();
::aos::SetCurrentThreadName("StartCompetition");
::frc971::wpilib::JoystickSender joystick_sender;
::std::thread joystick_thread(::std::ref(joystick_sender));
::frc971::wpilib::PDPFetcher pdp_fetcher;
::std::thread pdp_fetcher_thread(::std::ref(pdp_fetcher));
SensorReader reader;
// TODO(campbell): Update port numbers
reader.set_drivetrain_left_encoder(make_encoder(0));
reader.set_drivetrain_right_encoder(make_encoder(1));
reader.set_intake_encoder(make_encoder(3));
reader.set_intake_absolute(make_unique<DigitalInput>(0));
reader.set_intake_potentiometer(make_unique<AnalogInput>(4));
reader.set_indexer_encoder(make_encoder(5));
reader.set_indexer_hall(make_unique<DigitalInput>(4));
reader.set_turret_encoder(make_encoder(6));
reader.set_turret_hall(make_unique<DigitalInput>(2));
reader.set_hood_encoder(make_encoder(4));
reader.set_hood_index(make_unique<DigitalInput>(1));
reader.set_shooter_encoder(make_encoder(2));
reader.set_autonomous_mode(0, make_unique<DigitalInput>(9));
reader.set_autonomous_mode(1, make_unique<DigitalInput>(8));
reader.set_pwm_trigger(true);
::std::thread reader_thread(::std::ref(reader));
auto imu_trigger = make_unique<DigitalInput>(3);
::frc971::wpilib::ADIS16448 imu(SPI::Port::kOnboardCS1, imu_trigger.get());
imu.SetDummySPI(SPI::Port::kOnboardCS2);
auto imu_reset = make_unique<DigitalOutput>(6);
imu.set_reset(imu_reset.get());
::std::thread imu_thread(::std::ref(imu));
::frc971::wpilib::DrivetrainWriter drivetrain_writer;
drivetrain_writer.set_left_controller0(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(7)), true);
drivetrain_writer.set_right_controller0(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(3)), false);
::std::thread drivetrain_writer_thread(::std::ref(drivetrain_writer));
SuperstructureWriter superstructure_writer;
superstructure_writer.set_intake_victor(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(1)));
superstructure_writer.set_intake_rollers_victor(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(4)));
superstructure_writer.set_indexer_victor(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(6)));
superstructure_writer.set_indexer_roller_victor(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(5)));
superstructure_writer.set_turret_victor(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(9)));
superstructure_writer.set_hood_victor(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(2)));
superstructure_writer.set_shooter_victor(
::std::unique_ptr<::frc::VictorSP>(new ::frc::VictorSP(8)));
superstructure_writer.set_gear_servo(
::std::unique_ptr<Servo>(new Servo(0)));
superstructure_writer.set_red_light(
::std::unique_ptr<DigitalOutput>(new DigitalOutput(5)));
superstructure_writer.set_green_light(
::std::unique_ptr<DigitalOutput>(new DigitalOutput(24)));
superstructure_writer.set_blue_light(
::std::unique_ptr<DigitalOutput>(new DigitalOutput(25)));
::std::thread superstructure_writer_thread(
::std::ref(superstructure_writer));
SolenoidWriter solenoid_writer;
solenoid_writer.set_lights(solenoid_writer.pcm()->MakeSolenoid(0));
solenoid_writer.set_rgb_light(solenoid_writer.pcm()->MakeSolenoid(1));
::std::thread solenoid_thread(::std::ref(solenoid_writer));
// Wait forever. Not much else to do...
while (true) {
const int r = select(0, nullptr, nullptr, nullptr, nullptr);
if (r != 0) {
PLOG(WARNING, "infinite select failed");
} else {
PLOG(WARNING, "infinite select succeeded??\n");
}
}
LOG(ERROR, "Exiting WPILibRobot\n");
joystick_sender.Quit();
joystick_thread.join();
pdp_fetcher.Quit();
pdp_fetcher_thread.join();
reader.Quit();
reader_thread.join();
imu.Quit();
imu_thread.join();
drivetrain_writer.Quit();
drivetrain_writer_thread.join();
superstructure_writer.Quit();
superstructure_writer_thread.join();
::aos::Cleanup();
}
};
} // namespace
} // namespace wpilib
} // namespace y2017
AOS_ROBOT_CLASS(::y2017::wpilib::WPILibRobot);