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feat(autoware_trajectory): update autoware_trajectory interfaces
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Signed-off-by: Y.Hisaki <[email protected]>
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@yhisaki
yhisaki committed Jan 28, 2025
1 parent 2169394 commit 9cd2ce9
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107 changes: 107 additions & 0 deletions common/autoware_trajectory/examples/example_find_intervals.cpp
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// Copyright 2020 Tier IV, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "autoware/trajectory/path_point_with_lane_id.hpp"
#include "autoware/trajectory/utils/find_intervals.hpp"

#include <matplotlibcpp17/pyplot.h>

#include <vector>

using Trajectory = autoware::trajectory::Trajectory<tier4_planning_msgs::msg::PathPointWithLaneId>;

tier4_planning_msgs::msg::PathPointWithLaneId path_point_with_lane_id(
double x, double y, uint8_t lane_id)
{
tier4_planning_msgs::msg::PathPointWithLaneId point;
point.point.pose.position.x = x;
point.point.pose.position.y = y;
point.lane_ids.emplace_back(lane_id);
return point;
}

int main()
{
pybind11::scoped_interpreter guard{};
auto plt = matplotlibcpp17::pyplot::import();

std::vector<tier4_planning_msgs::msg::PathPointWithLaneId> points{
path_point_with_lane_id(0.41, 0.69, 0), path_point_with_lane_id(0.66, 1.09, 0),
path_point_with_lane_id(0.93, 1.41, 0), path_point_with_lane_id(1.26, 1.71, 0),
path_point_with_lane_id(1.62, 1.90, 0), path_point_with_lane_id(1.96, 1.98, 0),
path_point_with_lane_id(2.48, 1.96, 1), path_point_with_lane_id(3.02, 1.87, 1),
path_point_with_lane_id(3.56, 1.82, 1), path_point_with_lane_id(4.14, 2.02, 1),
path_point_with_lane_id(4.56, 2.36, 1), path_point_with_lane_id(4.89, 2.72, 1),
path_point_with_lane_id(5.27, 3.15, 1), path_point_with_lane_id(5.71, 3.69, 1),
path_point_with_lane_id(6.09, 4.02, 0), path_point_with_lane_id(6.54, 4.16, 0),
path_point_with_lane_id(6.79, 3.92, 0), path_point_with_lane_id(7.11, 3.60, 0),
path_point_with_lane_id(7.42, 3.01, 0)};

auto trajectory = Trajectory::Builder{}.build(points);

if (!trajectory) {
return 1;
}

const auto intervals = autoware::trajectory::find_intervals(
*trajectory, [](const tier4_planning_msgs::msg::PathPointWithLaneId & point) {
return point.lane_ids[0] == 1;
});

std::vector<double> x_id0;
std::vector<double> y_id0;
std::vector<double> x_id1;
std::vector<double> y_id1;
std::vector<double> x_all;
std::vector<double> y_all;

for (const auto & point : points) {
if (point.lane_ids[0] == 0) {
x_id0.push_back(point.point.pose.position.x);
y_id0.push_back(point.point.pose.position.y);
} else {
x_id1.push_back(point.point.pose.position.x);
y_id1.push_back(point.point.pose.position.y);
}
}

for (double s = 0.0; s < trajectory->length(); s += 0.01) {
auto p = trajectory->compute(s);
x_all.push_back(p.point.pose.position.x);
y_all.push_back(p.point.pose.position.y);
}

plt.plot(Args(x_all, y_all), Kwargs("color"_a = "blue"));
plt.scatter(Args(x_id0, y_id0), Kwargs("color"_a = "blue", "label"_a = "lane_id = 0"));
plt.scatter(Args(x_id1, y_id1), Kwargs("color"_a = "red", "label"_a = "lane_id = 1"));

std::vector<double> x_cropped;
std::vector<double> y_cropped;

trajectory->crop(intervals[0].start, intervals[0].end - intervals[0].start);

for (double s = 0.0; s < trajectory->length(); s += 0.01) {
auto p = trajectory->compute(s);
x_cropped.push_back(p.point.pose.position.x);
y_cropped.push_back(p.point.pose.position.y);
}

plt.plot(
Args(x_cropped, y_cropped),
Kwargs("color"_a = "red", "label"_a = "interval between lane_id = 1"));

plt.legend();
plt.show();

return 0;
}
187 changes: 187 additions & 0 deletions common/autoware_trajectory/examples/example_shift.cpp
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// Copyright 2025 TIER IV, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

#include "autoware/trajectory/point.hpp"
#include "autoware/trajectory/utils/shift.hpp"

#include <matplotlibcpp17/pyplot.h>

#include <iostream>
#include <vector>

geometry_msgs::msg::Point point(double x, double y)
{
geometry_msgs::msg::Point p;
p.x = x;
p.y = y;
return p;
}

int main()
{
pybind11::scoped_interpreter guard{};
auto plt = matplotlibcpp17::pyplot::import();

geometry_msgs::msg::Point p;
(void)(p);

std::vector<geometry_msgs::msg::Point> points = {
point(0.49, 0.59), point(0.61, 1.22), point(0.86, 1.93), point(1.20, 2.56), point(1.51, 3.17),
point(1.85, 3.76), point(2.14, 4.26), point(2.60, 4.56), point(3.07, 4.55), point(3.61, 4.30),
point(3.95, 4.01), point(4.29, 3.68), point(4.90, 3.25), point(5.54, 3.10), point(6.24, 3.18),
point(6.88, 3.54), point(7.51, 4.25), point(7.85, 4.93), point(8.03, 5.73), point(8.16, 6.52),
point(8.31, 7.28), point(8.45, 7.93), point(8.68, 8.45), point(8.96, 8.96), point(9.32, 9.36)};

auto trajectory =
autoware::trajectory::Trajectory<geometry_msgs::msg::Point>::Builder{}.build(points);

if (!trajectory) {
return 1;
}

std::cout << "length: " << trajectory->length() << std::endl;

{
std::vector<double> x;
std::vector<double> y;
for (double s = 0.0; s < trajectory->length(); s += 0.01) {
auto p = trajectory->compute(s);
x.push_back(p.x);
y.push_back(p.y);
}
plt.plot(Args(x, y), Kwargs("label"_a = "original"));

x.clear();
y.clear();

autoware::trajectory::ShiftInterval shift_interval;
shift_interval.end = -1.0;
shift_interval.length = 0.5;

auto shifted_trajectory = autoware::trajectory::shift(*trajectory, shift_interval);

for (double s = 0.0; s < shifted_trajectory.length(); s += 0.01) {
auto p = shifted_trajectory.compute(s);
x.push_back(p.x);
y.push_back(p.y);
}

plt.axis(Args("equal"));
plt.plot(Args(x, y), Kwargs("label"_a = "shifted"));
plt.legend();
plt.show();
}

{
std::vector<double> x;
std::vector<double> y;
for (double s = 0.0; s < trajectory->length(); s += 0.01) {
auto p = trajectory->compute(s);
x.push_back(p.x);
y.push_back(p.y);
}
plt.plot(Args(x, y), Kwargs("label"_a = "original"));

x.clear();
y.clear();

autoware::trajectory::ShiftInterval shift_interval;
shift_interval.start = trajectory->length() / 4.0;
shift_interval.end = trajectory->length() * 3.0 / 4.0;
shift_interval.length = 0.5;
auto shifted_trajectory = autoware::trajectory::shift(*trajectory, shift_interval);

for (double s = 0.0; s < shifted_trajectory.length(); s += 0.01) {
auto p = shifted_trajectory.compute(s);
x.push_back(p.x);
y.push_back(p.y);
}

plt.axis(Args("equal"));
plt.plot(Args(x, y), Kwargs("label"_a = "shifted"));
plt.legend();
plt.show();
}

{
std::vector<double> x;
std::vector<double> y;
for (double s = 0.0; s < trajectory->length(); s += 0.01) {
auto p = trajectory->compute(s);
x.push_back(p.x);
y.push_back(p.y);
}
plt.plot(Args(x, y), Kwargs("label"_a = "original"));

x.clear();
y.clear();

autoware::trajectory::ShiftInterval shift_interval;
shift_interval.start = trajectory->length() * 3.0 / 4.0;
shift_interval.end = trajectory->length() / 4.0;
shift_interval.length = 0.5;
auto shifted_trajectory = autoware::trajectory::shift(*trajectory, shift_interval);

for (double s = 0.0; s < shifted_trajectory.length(); s += 0.01) {
auto p = shifted_trajectory.compute(s);
x.push_back(p.x);
y.push_back(p.y);
}

plt.axis(Args("equal"));
plt.plot(Args(x, y), Kwargs("label"_a = "shifted"));
plt.legend();
plt.show();
}

{
std::vector<double> x;
std::vector<double> y;
for (double s = 0.0; s < trajectory->length(); s += 0.01) {
auto p = trajectory->compute(s);
x.push_back(p.x);
y.push_back(p.y);
}
plt.plot(Args(x, y), Kwargs("label"_a = "original"));

x.clear();
y.clear();

autoware::trajectory::ShiftInterval shift_interval1;
shift_interval1.start = trajectory->length() / 4.0;
shift_interval1.end = trajectory->length() * 2.0 / 4.0;
shift_interval1.length = 0.5;

autoware::trajectory::ShiftInterval shift_interval2;
shift_interval2.start = trajectory->length() * 2.0 / 4.0;
shift_interval2.end = trajectory->length() * 3.0 / 4.0;
shift_interval2.length = -0.5;

auto shifted_trajectory =
autoware::trajectory::shift(*trajectory, {shift_interval1, shift_interval2});

for (double s = 0.0; s < shifted_trajectory.length(); s += 0.01) {
auto p = shifted_trajectory.compute(s);
x.push_back(p.x);
y.push_back(p.y);
}

plt.axis(Args("equal"));
plt.plot(Args(x, y), Kwargs("label"_a = "shifted"));
plt.legend();
plt.show();
}

return 0;
}

Check warning on line 187 in common/autoware_trajectory/examples/example_shift.cpp

View check run for this annotation

CodeScene Delta Analysis / CodeScene Cloud Delta Analysis (main)

❌ New issue: Complex Method 

main has a cyclomatic complexity of 10, threshold = 9. This function has many conditional statements (e.g. if, for, while), leading to lower code health. Avoid adding more conditionals and code to it without refactoring.
24 changes: 14 additions & 10 deletions common/autoware_trajectory/examples/example_trajectory_path_point.cpp
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Expand Up @@ -13,10 +13,15 @@
// limitations under the License.

#include "autoware/trajectory/path_point.hpp"
#include "autoware/trajectory/utils/crossed.hpp"
#include "lanelet2_core/primitives/LineString.h"

#include <autoware_planning_msgs/msg/path_point.hpp>
#include <geometry_msgs/msg/point.hpp>

#include <boost/geometry/geometries/linestring.hpp>

#include <Eigen/src/Core/Matrix.h>
#include <matplotlibcpp17/pyplot.h>

#include <iostream>
Expand Down Expand Up @@ -69,25 +74,24 @@ int main()

trajectory->align_orientation_with_trajectory_direction();

geometry_msgs::msg::Point p1;
geometry_msgs::msg::Point p2;
p1.x = 7.5;
p1.y = 8.6;
p2.x = 10.2;
p2.y = 7.7;
lanelet::LineString2d line_string;
line_string.push_back(lanelet::Point3d(lanelet::InvalId, 7.5, 8.6, 0.0));
line_string.push_back(lanelet::Point3d(lanelet::InvalId, 10.2, 7.7, 0.0));

auto s = trajectory->crossed(p1, p2);
auto crossed = trajectory->compute(s.value());
auto s = autoware::trajectory::crossed(*trajectory, line_string);
auto crossed = trajectory->compute(s.at(0));

plt.plot(
Args(std::vector<double>{p1.x, p2.x}, std::vector<double>{p1.y, p2.y}),
Args(
std::vector<double>{line_string[0].x(), line_string[1].x()},
std::vector<double>{line_string[0].y(), line_string[1].y()}),
Kwargs("color"_a = "purple"));

plt.scatter(
Args(crossed.pose.position.x, crossed.pose.position.y),
Kwargs("label"_a = "Crossed on trajectory", "color"_a = "purple"));

trajectory->longitudinal_velocity_mps.range(s.value(), trajectory->length()).set(0.0);
trajectory->longitudinal_velocity_mps().range(s.at(0), trajectory->length()).set(0.0);

std::vector<double> x;
std::vector<double> y;
Expand Down
29 changes: 18 additions & 11 deletions common/autoware_trajectory/examples/example_trajectory_point.cpp
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Expand Up @@ -14,6 +14,9 @@

#include "autoware/trajectory/interpolator/cubic_spline.hpp"
#include "autoware/trajectory/point.hpp"
#include "autoware/trajectory/utils/closest.hpp"
#include "autoware/trajectory/utils/crossed.hpp"
#include "lanelet2_core/primitives/LineString.h"

#include <geometry_msgs/msg/point.hpp>

Expand Down Expand Up @@ -86,7 +89,8 @@ int main()
p.x = 5.37;
p.y = 6.0;

auto s = trajectory->closest(p);
double s = autoware::trajectory::closest(*trajectory, p);

auto closest = trajectory->compute(s);

plt.scatter(Args(p.x, p.y), Kwargs("color"_a = "green"));
Expand All @@ -98,18 +102,21 @@ int main()
Kwargs("color"_a = "green"));
}
{
geometry_msgs::msg::Point p1;
geometry_msgs::msg::Point p2;
p1.x = 6.97;
p1.y = 6.36;
p2.x = 9.23;
p2.y = 5.92;

auto s = trajectory->crossed(p1, p2);
auto crossed = trajectory->compute(s.value());
lanelet::LineString2d line_string;
line_string.push_back(lanelet::Point3d(lanelet::InvalId, 6.97, 6.36, 0.0));
line_string.push_back(lanelet::Point3d(lanelet::InvalId, 9.23, 5.92, 0.0));

auto s = autoware::trajectory::crossed(*trajectory, line_string);
if (s.empty()) {
std::cerr << "Failed to find a crossing point" << std::endl;
return 1;
}
auto crossed = trajectory->compute(s.at(0));

plt.plot(
Args(std::vector<double>{p1.x, p2.x}, std::vector<double>{p1.y, p2.y}),
Args(
std::vector<double>{line_string[0].x(), line_string[1].x()},
std::vector<double>{line_string[0].y(), line_string[1].y()}),

Check warning on line 119 in common/autoware_trajectory/examples/example_trajectory_point.cpp

View check run for this annotation

CodeScene Delta Analysis / CodeScene Cloud Delta Analysis (main)

❌ Getting worse: Large Method 

main increases from 81 to 84 lines of code, threshold = 70. Large functions with many lines of code are generally harder to understand and lower the code health. Avoid adding more lines to this function.
Kwargs("color"_a = "purple"));

plt.scatter(
Expand Down
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