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realtimeroboticsgroup.org / RealtimeRoboticsGroup / test / f774d2d88bb89cdee46664987a5c7dc0b76cd70a / . / y2020 / constants.cc
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#include "y2020/constants.h"
#include <cinttypes>
#include <map>
#if __has_feature(address_sanitizer)
#include "sanitizer/lsan_interface.h"
#endif
#include "absl/base/call_once.h"
#include "aos/logging/logging.h"
#include "aos/network/team_number.h"
#include "aos/stl_mutex/stl_mutex.h"
#include "y2020/control_loops/superstructure/control_panel/integral_control_panel_plant.h"
#include "y2020/control_loops/superstructure/hood/integral_hood_plant.h"
#include "y2020/control_loops/superstructure/intake/integral_intake_plant.h"
#include "y2020/control_loops/superstructure/turret/integral_turret_plant.h"
namespace y2020 {
namespace constants {
const int Values::kZeroingSampleSize;
namespace {
const uint16_t kCompTeamNumber = 971;
const uint16_t kPracticeTeamNumber = 9971;
const uint16_t kSpareRoborioTeamNumber = 6971;
const Values *DoGetValuesForTeam(uint16_t team) {
Values *const r = new Values();
::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
::frc971::zeroing::AbsoluteAndAbsoluteEncoderZeroingEstimator>
*const hood = &r->hood;
constexpr double kFeetToMeters = 0.0254 * 12.0;
// Approximate robot length, for converting estimates from the doc below.
// Rounded up from exact estimate, since I'm not sure if the original estimate
// includes bumpers.
constexpr double kRobotLength = 0.9;
// We found that the finisher velocity does not change ball velocity much, so
// keep it constant.
constexpr double kVelocityFinisher = 350.0;
r->shot_interpolation_table = InterpolationTable<Values::ShotParams>(
{{7.6 * kFeetToMeters + kRobotLength, {0.31, 16.9}},
{12.6 * kFeetToMeters + kRobotLength, {0.4, 20.4}}});
r->flywheel_shot_interpolation_table =
InterpolationTable<Values::FlywheelShotParams>(
{{10.6, {250.0, kVelocityFinisher}},
{12.0, {275.0, kVelocityFinisher}},
{13.2, {300.0, kVelocityFinisher}},
{14.0, {325.0, kVelocityFinisher}},
{14.6, {350.0, kVelocityFinisher}},
{15.2, {375.0, kVelocityFinisher}},
{15.6, {400.0, kVelocityFinisher}},
{16.1, {425.0, kVelocityFinisher}},
{16.3, {450.0, kVelocityFinisher}},
{16.6, {475.0, kVelocityFinisher}},
{17.0, {500.0, kVelocityFinisher}}});
// Hood constants.
hood->zeroing_voltage = 2.0;
hood->operating_voltage = 12.0;
hood->zeroing_profile_params = {0.5, 3.0};
hood->default_profile_params = {6.0, 30.0};
hood->range = Values::kHoodRange();
hood->make_integral_loop =
control_loops::superstructure::hood::MakeIntegralHoodLoop;
hood->zeroing_constants.average_filter_size = Values::kZeroingSampleSize;
hood->zeroing_constants.zeroing_threshold = 0.0005;
hood->zeroing_constants.moving_buffer_size = 20;
hood->zeroing_constants.allowable_encoder_error = 0.9;
hood->zeroing_constants.one_revolution_distance =
M_PI * 2.0 * constants::Values::kHoodEncoderRatio();
hood->zeroing_constants.single_turn_middle_position =
Values::kHoodRange().middle();
hood->zeroing_constants.single_turn_one_revolution_distance =
M_PI * 2.0 * constants::Values::kHoodSingleTurnEncoderRatio();
hood->zeroing_constants.measured_absolute_position = 0;
hood->zeroing_constants.single_turn_measured_absolute_position = 0;
::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
::frc971::zeroing::AbsoluteEncoderZeroingEstimator> *const intake =
&r->intake;
// Intake constants.
intake->zeroing_voltage = 3.0;
intake->operating_voltage = 12.0;
intake->zeroing_profile_params = {0.5, 3.0};
intake->default_profile_params = {6.0, 30.0};
intake->range = Values::kIntakeRange();
intake->make_integral_loop =
control_loops::superstructure::intake::MakeIntegralIntakeLoop;
intake->zeroing_constants.average_filter_size = Values::kZeroingSampleSize;
intake->zeroing_constants.one_revolution_distance =
M_PI * 2.0 * constants::Values::kIntakeEncoderRatio();
intake->zeroing_constants.zeroing_threshold = 0.0005;
intake->zeroing_constants.moving_buffer_size = 20;
intake->zeroing_constants.allowable_encoder_error = 0.9;
intake->zeroing_constants.middle_position = Values::kIntakeRange().middle();
Values::PotAndAbsEncoderConstants *const turret = &r->turret;
::frc971::control_loops::StaticZeroingSingleDOFProfiledSubsystemParams<
::frc971::zeroing::PotAndAbsoluteEncoderZeroingEstimator>
*const turret_params = &turret->subsystem_params;
// Turret Constants
turret_params->zeroing_voltage = 4.0;
turret_params->operating_voltage = 8.0;
// TODO(austin): Tune these.
turret_params->zeroing_profile_params = {0.5, 2.0};
turret_params->default_profile_params = {15.0, 40.0};
turret_params->range = Values::kTurretRange();
turret_params->make_integral_loop =
&control_loops::superstructure::turret::MakeIntegralTurretLoop;
turret_params->zeroing_constants.average_filter_size =
Values::kZeroingSampleSize;
turret_params->zeroing_constants.one_revolution_distance =
M_PI * 2.0 * constants::Values::kTurretEncoderRatio();
turret_params->zeroing_constants.zeroing_threshold = 0.0005;
turret_params->zeroing_constants.moving_buffer_size = 20;
turret_params->zeroing_constants.allowable_encoder_error = 0.9;
CHECK_LE(hood->range.range(),
hood->zeroing_constants.single_turn_one_revolution_distance);
CHECK_LE(intake->range.range(),
intake->zeroing_constants.one_revolution_distance);
switch (team) {
// A set of constants for tests.
case 1:
case kSpareRoborioTeamNumber:
break;
case kCompTeamNumber:
intake->zeroing_constants.measured_absolute_position =
1.42977866919024 - Values::kIntakeZero();
turret->potentiometer_offset = 5.52519370141247 + 0.00853506822980376 +
0.0109413725126625 - 0.223719825811759 +
0.261356551915472;
;
turret_params->zeroing_constants.measured_absolute_position =
0.588553036694566;
hood->zeroing_constants.measured_absolute_position = 0.0344482433884915;
hood->zeroing_constants.single_turn_measured_absolute_position =
0.31055891442198;
break;
case kPracticeTeamNumber:
hood->zeroing_constants.measured_absolute_position = 0.0;
intake->zeroing_constants.measured_absolute_position = 0.347;
turret->potentiometer_offset = 5.3931926228241;
turret_params->zeroing_constants.measured_absolute_position = 4.22;
break;
case Values::kCodingRobotTeamNumber:
hood->zeroing_constants.measured_absolute_position = 0.0;
intake->zeroing_constants.measured_absolute_position = 0.0;
turret->potentiometer_offset = 0.0;
turret_params->zeroing_constants.measured_absolute_position = 0.0;
break;
default:
AOS_LOG(FATAL, "unknown team #%" PRIu16 "\n", team);
}
return r;
}
void DoGetValues(const Values **result) {
uint16_t team = ::aos::network::GetTeamNumber();
AOS_LOG(INFO, "creating a Constants for team %" PRIu16 "\n", team);
*result = DoGetValuesForTeam(team);
}
} // namespace
const Values &GetValues() {
static absl::once_flag once;
static const Values *result;
absl::call_once(once, DoGetValues, &result);
return *result;
}
const Values &GetValuesForTeam(uint16_t team_number) {
static aos::stl_mutex mutex;
std::unique_lock<aos::stl_mutex> locker(mutex);
// IMPORTANT: This declaration has to stay after the mutex is locked to
// avoid race conditions.
static ::std::map<uint16_t, const Values *> values;
if (values.count(team_number) == 0) {
values[team_number] = DoGetValuesForTeam(team_number);
#if __has_feature(address_sanitizer)
__lsan_ignore_object(values[team_number]);
#endif
}
return *values[team_number];
}
} // namespace constants
} // namespace y2020