FreeOfCharge2022-23/FtcRobotController/src/main/java/org/firstinspires/ftc/robotcontroller/external/samples/SensorKLNavxMicro.java

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package org.firstinspires.ftc.robotcontroller.external.samples;

import com.qualcomm.hardware.kauailabs.NavxMicroNavigationSensor;
import com.qualcomm.robotcore.eventloop.opmode.Disabled;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import com.qualcomm.robotcore.eventloop.opmode.TeleOp;
import com.qualcomm.robotcore.hardware.Gyroscope;
import com.qualcomm.robotcore.hardware.IntegratingGyroscope;
import com.qualcomm.robotcore.util.ElapsedTime;

import org.firstinspires.ftc.robotcore.external.navigation.AngleUnit;
import org.firstinspires.ftc.robotcore.external.navigation.AngularVelocity;
import org.firstinspires.ftc.robotcore.external.navigation.AxesOrder;
import org.firstinspires.ftc.robotcore.external.navigation.AxesReference;
import org.firstinspires.ftc.robotcore.external.navigation.Orientation;

/*
 * This is an example LinearOpMode that shows how to use Kauai Labs navX Micro Robotics Navigation
 * Sensor. It assumes that the sensor is configured with a name of "navx".
 *
 * Use Android Studio to Copy this Class, and Paste it into your team's code folder with a new name.
 * Remove or comment out the @Disabled line to add this opmode to the Driver Station OpMode list
 */
@TeleOp(name = "Sensor: KL navX Micro", group = "Sensor")
@Disabled
public class SensorKLNavxMicro extends LinearOpMode {

    /** In this sample, for illustration purposes we use two interfaces on the one gyro object.
     * That's likely atypical: you'll probably use one or the other in any given situation,
     * depending on what you're trying to do. {@link IntegratingGyroscope} (and it's base interface,
     * {@link Gyroscope}) are common interfaces supported by possibly several different gyro
     * implementations. {@link NavxMicroNavigationSensor}, by contrast, provides functionality that
     * is unique to the navX Micro sensor.
     */
    IntegratingGyroscope gyro;
    NavxMicroNavigationSensor navxMicro;

    // A timer helps provide feedback while calibration is taking place
    ElapsedTime timer = new ElapsedTime();

    @Override public void runOpMode() throws InterruptedException {
        // Get a reference to a Modern Robotics GyroSensor object. We use several interfaces
        // on this object to illustrate which interfaces support which functionality.
        navxMicro = hardwareMap.get(NavxMicroNavigationSensor.class, "navx");
        gyro = (IntegratingGyroscope)navxMicro;
        // If you're only interested int the IntegratingGyroscope interface, the following will suffice.
        // gyro = hardwareMap.get(IntegratingGyroscope.class, "navx");

        // The gyro automatically starts calibrating. This takes a few seconds.
        telemetry.log().add("Gyro Calibrating. Do Not Move!");

        // Wait until the gyro calibration is complete
        timer.reset();
        while (navxMicro.isCalibrating())  {
            telemetry.addData("calibrating", "%s", Math.round(timer.seconds())%2==0 ? "|.." : "..|");
            telemetry.update();
            Thread.sleep(50);
        }
        telemetry.log().clear(); telemetry.log().add("Gyro Calibrated. Press Start.");
        telemetry.clear(); telemetry.update();

        // Wait for the start button to be pressed
        waitForStart();
        telemetry.log().clear();

        while (opModeIsActive()) {

            // Read dimensionalized data from the gyro. This gyro can report angular velocities
            // about all three axes. Additionally, it internally integrates the Z axis to
            // be able to report an absolute angular Z orientation.
            AngularVelocity rates = gyro.getAngularVelocity(AngleUnit.DEGREES);
            Orientation angles = gyro.getAngularOrientation(AxesReference.INTRINSIC, AxesOrder.ZYX, AngleUnit.DEGREES);

            telemetry.addLine()
                .addData("dx", formatRate(rates.xRotationRate))
                .addData("dy", formatRate(rates.yRotationRate))
                .addData("dz", "%s deg/s", formatRate(rates.zRotationRate));

            telemetry.addLine()
                .addData("heading", formatAngle(angles.angleUnit, angles.firstAngle))
                .addData("roll", formatAngle(angles.angleUnit, angles.secondAngle))
                .addData("pitch", "%s deg", formatAngle(angles.angleUnit, angles.thirdAngle));
            telemetry.update();

            idle(); // Always call idle() at the bottom of your while(opModeIsActive()) loop
        }
    }

    String formatRate(float rate) {
        return String.format("%.3f", rate);
    }

    String formatAngle(AngleUnit angleUnit, double angle) {
        return formatDegrees(AngleUnit.DEGREES.fromUnit(angleUnit, angle));
    }

    String formatDegrees(double degrees){
        return String.format("%.1f", AngleUnit.DEGREES.normalize(degrees));
    }
}