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https://github.com/wpilibsuite/allwpilib
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User code: - OpModeRobot used as the robot base class - LinearOpMode and PeriodicOpMode are provided opmode base classes - In Java, annotations can be used to automatically register opmode classes Additional user code functionality: - OpMode (string) is available in addition to the overall auto/teleop/test robot mode - OpMode does not indicate enable (enable/disable is still separate) - The HAL API uses integer UIDs; these are exposed at the user API level as well for faster checks - User code creates opmodes on startup (these have name, category, description, etc). DS: - DS will present opmode selection lists for auto and teleop for match/practice. During a match, the DS will automatically activate the selected opmode in the corresponding match period. - For testing, an overall mode is selected (e.g. teleop/auto/test) and a single opmode is selected Future work: - Command framework support/integration - Python annotation support - Unit tests (needs race-free DS sim updates) - Porting of examples Co-authored-by: Joseph Eng <91924258+KangarooKoala@users.noreply.github.com>
176 lines
5.5 KiB
C++
176 lines
5.5 KiB
C++
// Copyright (c) FIRST and other WPILib contributors.
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// Open Source Software; you can modify and/or share it under the terms of
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// the WPILib BSD license file in the root directory of this project.
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#include "wpi/framework/OpModeRobot.hpp"
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#include <sys/types.h>
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#include <gtest/gtest.h>
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#include "wpi/simulation/DriverStationSim.hpp"
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#include "wpi/simulation/SimHooks.hpp"
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#include "wpi/util/Color.hpp"
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namespace {
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class OpModeRobotTest : public ::testing::Test {
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protected:
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void SetUp() override {
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wpi::sim::PauseTiming();
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wpi::sim::SetProgramStarted(false);
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}
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void TearDown() override { wpi::sim::ResumeTiming(); }
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};
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class MockRobot;
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class MockOpMode : public wpi::OpMode {
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public:
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std::atomic<uint32_t> m_disabledPeriodicCount{0};
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std::atomic<uint32_t> m_opModeRunCount{0};
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std::atomic<uint32_t> m_opModeStopCount{0};
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MockOpMode() = default;
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void DisabledPeriodic() override { m_disabledPeriodicCount++; }
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void OpModeRun(int64_t opModeId) override { m_opModeRunCount++; }
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void OpModeStop() override { m_opModeStopCount++; }
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};
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class OneArgOpMode : public wpi::OpMode {
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public:
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explicit OneArgOpMode(MockRobot& robot) {}
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void OpModeRun(int64_t opModeId) override {}
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void OpModeStop() override {}
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};
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class MockRobot : public wpi::OpModeRobot<MockRobot> {
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public:
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std::atomic<uint32_t> m_driverStationConnectedCount{0};
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std::atomic<uint32_t> m_nonePeriodicCount{0};
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MockRobot() = default;
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void DriverStationConnected() override { m_driverStationConnectedCount++; }
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void NonePeriodic() override { m_nonePeriodicCount++; }
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};
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} // namespace
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static_assert(wpi::ConstructibleOpMode<MockOpMode, MockRobot>);
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static_assert(wpi::ConstructibleOpMode<OneArgOpMode, MockRobot>);
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TEST_F(OpModeRobotTest, AddOpMode) {
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struct MyMockRobot : public MockRobot {
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MyMockRobot() {
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AddOpMode<MockOpMode>(wpi::RobotMode::AUTONOMOUS, "NoArgOpMode-Auto",
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"Group", "Description", wpi::util::Color::kWhite,
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wpi::util::Color::kBlack);
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AddOpMode<OneArgOpMode>(wpi::RobotMode::TEST, "OneArgOpMode-Test",
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"Group", "Description", wpi::util::Color::kWhite,
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wpi::util::Color::kBlack);
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AddOpMode<MockOpMode>(wpi::RobotMode::TELEOPERATED, "NoArgOpMode");
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AddOpMode<OneArgOpMode>(wpi::RobotMode::TELEOPERATED, "OneArgOpMode");
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PublishOpModes();
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}
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};
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MyMockRobot robot;
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auto options = wpi::sim::DriverStationSim::GetOpModeOptions();
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ASSERT_EQ(options.size(), 4u);
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int indexes[4] = {-1, -1, -1, -1};
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for (size_t i = 0; i < options.size(); ++i) {
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auto name = wpi::util::to_string_view(&options[i].name);
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if (name == "NoArgOpMode-Auto") {
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indexes[0] = i;
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} else if (name == "OneArgOpMode-Test") {
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indexes[1] = i;
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} else if (name == "NoArgOpMode") {
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indexes[2] = i;
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} else if (name == "OneArgOpMode") {
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indexes[3] = i;
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}
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}
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int i = indexes[0];
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ASSERT_NE(i, -1);
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EXPECT_EQ(wpi::util::to_string_view(&options[i].group), "Group");
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EXPECT_EQ(wpi::util::to_string_view(&options[i].description), "Description");
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EXPECT_EQ(options[i].textColor, 0xffffff);
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EXPECT_EQ(options[i].backgroundColor, 0x000000);
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i = indexes[1];
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ASSERT_NE(i, -1);
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EXPECT_EQ(wpi::util::to_string_view(&options[i].group), "Group");
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EXPECT_EQ(wpi::util::to_string_view(&options[i].description), "Description");
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EXPECT_EQ(options[i].textColor, 0xffffff);
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EXPECT_EQ(options[i].backgroundColor, 0x000000);
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i = indexes[2];
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ASSERT_NE(i, -1);
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EXPECT_EQ(wpi::util::to_string_view(&options[i].group), "");
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EXPECT_EQ(wpi::util::to_string_view(&options[i].description), "");
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EXPECT_EQ(options[i].textColor, -1);
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EXPECT_EQ(options[i].backgroundColor, -1);
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i = indexes[3];
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ASSERT_NE(i, -1);
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EXPECT_EQ(wpi::util::to_string_view(&options[i].group), "");
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EXPECT_EQ(wpi::util::to_string_view(&options[i].description), "");
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EXPECT_EQ(options[i].textColor, -1);
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EXPECT_EQ(options[i].backgroundColor, -1);
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}
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TEST_F(OpModeRobotTest, ClearOpModes) {
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struct MyMockRobot : public MockRobot {
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MyMockRobot() {
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AddOpMode<MockOpMode>(wpi::RobotMode::TELEOPERATED, "NoArgOpMode");
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AddOpMode<OneArgOpMode>(wpi::RobotMode::TELEOPERATED, "OneArgOpMode");
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PublishOpModes();
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}
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};
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MyMockRobot robot;
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robot.ClearOpModes();
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auto options = wpi::sim::DriverStationSim::GetOpModeOptions();
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EXPECT_TRUE(options.empty());
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}
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TEST_F(OpModeRobotTest, RemoveOpMode) {
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struct MyMockRobot : public MockRobot {
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MyMockRobot() {
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AddOpMode<MockOpMode>(wpi::RobotMode::TELEOPERATED, "NoArgOpMode");
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AddOpMode<OneArgOpMode>(wpi::RobotMode::TELEOPERATED, "OneArgOpMode");
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PublishOpModes();
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}
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};
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MyMockRobot robot;
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robot.RemoveOpMode(wpi::RobotMode::TELEOPERATED, "NoArgOpMode");
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robot.PublishOpModes();
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auto options = wpi::sim::DriverStationSim::GetOpModeOptions();
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ASSERT_EQ(options.size(), 1u);
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EXPECT_EQ(wpi::util::to_string_view(&options[0].name), "OneArgOpMode");
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}
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TEST_F(OpModeRobotTest, NonePeriodic) {
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struct MyMockRobot : public MockRobot {
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MyMockRobot() {
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AddOpMode<MockOpMode>(wpi::RobotMode::TELEOPERATED, "NoArgOpMode");
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AddOpMode<OneArgOpMode>(wpi::RobotMode::TELEOPERATED, "OneArgOpMode");
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PublishOpModes();
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}
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};
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MyMockRobot robot;
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std::thread robotThread{[&] { robot.StartCompetition(); }};
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wpi::sim::WaitForProgramStart();
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// Time step to get periodic calls on 50 ms timeout
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wpi::sim::StepTiming(110_ms);
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EXPECT_EQ(robot.m_nonePeriodicCount.load(), 2u);
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robot.EndCompetition();
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robotThread.join();
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}
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