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GZod01 2024-02-11 15:10:49 +01:00
parent 6d2ed0fb44
commit 2c42078e53
2 changed files with 214 additions and 213 deletions
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144
ftc2024-autonome.java
View file

@ -17,82 +17,82 @@ import com.qualcomm.robotcore.util.ElapsedTime;
@Autonomous
public class ftc2024_autonome extends LinearOpMode {
private DcMotor rm;
private DcMotor lm;
private ElapsedTime runtime = new ElapsedTime();
private DcMotor rm;
private DcMotor lm;
private ElapsedTime runtime = new ElapsedTime();
public double time_for_dist(double speed, double dist){
return (double) (dist/speed);
}
public double time_for_dist(double speed, double dist){
return (double) (dist/speed);
}
@Override
public void runOpMode() {
lm = hardwareMap.get(DcMotor.class, "blm");
rm = hardwareMap.get(DcMotor.class, "brm");
rm.setDirection(DcMotorSimple.Direction.REVERSE);
telemetry.addData("Status", "Initialized");
telemetry.update();
double tour_par_minute = 300.0;
double wheel_width = 9.0e-2;
double wheel_rayon = (wheel_width)/2;
double wheel_perimeter = wheel_rayon*2*Math.PI;
double speed = (tour_par_minute/60)*wheel_perimeter;//dist per second
boolean mode = false;
// Wait for the game to start (driver presses PLAY)
waitForStart();
@Override
public void runOpMode() {
lm = hardwareMap.get(DcMotor.class, "blm");
rm = hardwareMap.get(DcMotor.class, "brm");
rm.setDirection(DcMotorSimple.Direction.REVERSE);
telemetry.addData("Status", "Initialized");
telemetry.update();
double tour_par_minute = 300.0;
double wheel_width = 9.0e-2;
double wheel_rayon = (wheel_width)/2;
double wheel_perimeter = wheel_rayon*2*Math.PI;
double speed = (tour_par_minute/60)*wheel_perimeter;//dist per second
boolean mode = false;
// Wait for the game to start (driver presses PLAY)
waitForStart();
runtime.reset();
if (mode){
//mode Elina
while (opModeIsActive() && (runtime.seconds() <= 41e-2*Math.PI/4/speed)) {
lm.setPower(1);
rm.setPower(-1);
telemetry.addData("Leg 1", runtime.seconds());
telemetry.update();
}
runtime.reset();
while (opModeIsActive() && (runtime.seconds() <= 121.92e-2/speed)) {
lm.setPower(1);
rm.setPower(1);
telemetry.addData("Leg 2", runtime.seconds());
telemetry.update();
}
}
else {
double[][] operations = {
{-1.0,1.0}, // vectors
{1.0,1.0},
{-1.0,1.0},
{-1.0,-1.0},
{1.0,-1.0}
};
//mode Aurelien
for(int i = 0; i<operations.length; i++){
double[] vec = operations[i];
double x = vec[0];
double y = vec[1];
double total_dist = (double) Math.sqrt(Math.pow(y,2)+Math.pow(x,2));
double time = time_for_dist(speed, time);
double a = (-y+x)/Math.pow(2,1/2);
double b = (-y-x)/Math.pow(2,1/2);
double vmean = (Math.abs(a)+Math.abs(b))/2;
double lmvalue = (a/vmean);
double rmvalue = (b/vmean);
runtime.reset();
while (opModeIsActive() && (runtime.seconds() <= time)) {
lm.setPower(lmvalue);
rm.setPower(rmvalue);
telemetry.addData("Runtime Seconds", runtime.seconds());
telemetry.addData("current_operation",operations[i]);
telemetry.addData("current_op_id",i);
telemetry.update();
}
}
}
// run until the end of the match (driver presses STOP
runtime.reset();
if (mode){
//mode Elina
while (opModeIsActive() && (runtime.seconds() <= 41e-2*Math.PI/4/speed)) {
lm.setPower(1);
rm.setPower(-1);
telemetry.addData("Leg 1", runtime.seconds());
telemetry.update();
}
runtime.reset();
while (opModeIsActive() && (runtime.seconds() <= 121.92e-2/speed)) {
lm.setPower(1);
rm.setPower(1);
telemetry.addData("Leg 2", runtime.seconds());
telemetry.update();
}
}
else {
double[][] operations = {
{-1.0,1.0}, // vectors
{1.0,1.0},
{-1.0,1.0},
{-1.0,-1.0},
{1.0,-1.0}
};
//mode Aurelien
for(int i = 0; i<operations.length; i++){
double[] vec = operations[i];
double x = vec[0];
double y = vec[1];
double total_dist = (double) Math.sqrt(Math.pow(y,2)+Math.pow(x,2));
double time = time_for_dist(speed, total_dist);
double a = (-y+x)/Math.pow(2,1/2);
double b = (-y-x)/Math.pow(2,1/2);
double vmean = (Math.abs(a)+Math.abs(b))/2;
double lmvalue = (a/vmean);
double rmvalue = (b/vmean);
runtime.reset();
while (opModeIsActive() && (runtime.seconds() <= time)) {
lm.setPower(lmvalue);
rm.setPower(rmvalue);
telemetry.addData("Runtime Seconds", runtime.seconds());
telemetry.addData("current_operation",operations[i]);
telemetry.addData("current_op_id",i);
telemetry.update();
}
}
}
// run until the end of the match (driver presses STOP
}
}
}

283
ftc2024-carlike.java
View file

@ -1,6 +1,7 @@
package org.firstinspires.ftc.teamcode;
import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
import org.firstinspires.ftc.robotcore.external.navigation.YawPitchRollAngles;
import com.qualcomm.robotcore.robot.Robot;
import org.firstinspires.ftc.robotcore.external.Telemetry;
import com.qualcomm.robotcore.hardware.Gamepad;
@ -24,155 +25,155 @@ import org.firstinspires.ftc.robotcore.external.navigation.Velocity;
//test
@TeleOp(name="WeRobot: FTC2024 Carlike", group="WeRobot")
public class Werobot_FTC2024_carlike extends LinearOpMode {
private DcMotor rm;
private DcMotor lm;
private DcMotor moissoneuse;
private IMU imu;
private double helloexp(double t){
return (Math.exp(5*t)-1)/(Math.exp(5)-1);
}
@Override
public void runOpMode() throws InterruptedException {
float x;
double y;
double t;
double t2;
double t3;
String mode = "normal";
boolean already_b = false;
boolean already_a = false;
telemetry.addData("Status", "Initialized");
telemetry.update();
lm = hardwareMap.get(DcMotor.class, "blm");
rm = hardwareMap.get(DcMotor.class, "brm");
moissoneuse = hardwareMap.get(DCMotor.class, "flm");
private DcMotor rm;
private DcMotor lm;
private DcMotor moissoneuse;
private IMU imu;
private double helloexp(double t){
return (Math.exp(5*t)-1)/(Math.exp(5)-1);
}
@Override
public void runOpMode() throws InterruptedException {
float x;
double y;
double t;
double t2;
double t3;
String mode = "normal";
boolean already_b = false;
boolean already_a = false;
telemetry.addData("Status", "Initialized");
telemetry.update();
lm = hardwareMap.get(DcMotor.class, "blm");
rm = hardwareMap.get(DcMotor.class, "brm");
moissoneuse = hardwareMap.get(DcMotor.class, "flm");
imu = hardwareMap.get(IMU.class, "imu");
imu.initialize(
new IMU.Parameters(
new RevHubOrientationOnRobot(
RevHubOrientationOnRobot.LogoFacingDirection.UP,
RevHubOrientationOnRobot.UsbFacingDirection.FORWARD
)
)
);
imu.resetYaw();
rm.setDirection(DcMotorSimple.Direction.REVERSE);
//telemetry.addData("Mode", "calibrating...");
//telemetry.update();
imu = hardwareMap.get(IMU.class, "imu");
imu.initialize(
new IMU.Parameters(
new RevHubOrientationOnRobot(
RevHubOrientationOnRobot.LogoFacingDirection.UP,
RevHubOrientationOnRobot.UsbFacingDirection.FORWARD
)
)
);
imu.resetYaw();
rm.setDirection(DcMotorSimple.Direction.REVERSE);
//telemetry.addData("Mode", "calibrating...");
//telemetry.update();
// make sure the imu gyro is calibrated before continuing.
//while (!isStopRequested() && !imu.isGyroCalibrated())
//{
// sleep(50);
// idle();
//}
// make sure the imu gyro is calibrated before continuing.
//while (!isStopRequested() && !imu.isGyroCalibrated())
//{
// sleep(50);
// idle();
//}
telemetry.addData("Mode", "waiting for start");
//telemetry.addData("imu calib status", imu.getCalibrationStatus().toString());
telemetry.update();
waitForStart();
telemetry.addData("Mode", "waiting for start");
//telemetry.addData("imu calib status", imu.getCalibrationStatus().toString());
telemetry.update();
waitForStart();
//test
while (opModeIsActive()) {
x = gamepad1.left_stick_x;
y = gamepad1.left_stick_y;
t= gamepad1.right_trigger;
t2 = helloexp(t);
t3 = helloexp(Math.sqrt(Math.pow(x,2)+Math.pow(y,2)));
telemetry.addData("Status", "Running");
if(gamepad1.a && !already_a){
if(mode=="normal"){
mode="tank";
}else if(mode=="tank"){
mode = "essaifranck";
}else if (mode == "essaifranck"){
mode = "elina";
}else{
mode="normal";
}
already_a = true;
}
if(!gamepad1.a && already_a){
already_a = false;
}
double lpower = 0.0;
double rpower = 0.0;
if(mode=="normal"){
double ysign = y>0?1.0:(y<0?-1.0:0.0);
double xsign = x>0?1.0:(x<0?-1.0:0.0);
lpower = -ysign * t + (xsign-2*x)*t;
rpower = ysign * t + (xsign-2*x)*t;
}
else if (mode=="tank"){
lpower = -y;
rpower = gamepad1.right_stick_y;
}
else if (mode=="essaifranck"){
double a = (-y+x)/Math.pow(2,1/2);
double b = (-y-x)/Math.pow(2,1/2);
double vmean = (Math.abs(a)+Math.abs(b))/2;
lpower = (a/vmean)*t2;
rpower = (b/vmean)*t2;
}
else if (mode=="elina"){
double a = (-y+x)/Math.pow(2,1/2);
double b = (-y-x)/Math.pow(2,1/2);
double vmean = (Math.abs(a)+Math.abs(b))/2;
lpower = (a/vmean)*t3;
rpower = (b/vmean)*t3;
}
if(!(gamepad1.left_bumper)){
lpower/=3;
rpower/=3;
}
lm.setPower(lpower);
rm.setPower(rpower);
//test
while (opModeIsActive()) {
x = gamepad1.left_stick_x;
y = gamepad1.left_stick_y;
t= gamepad1.right_trigger;
t2 = helloexp(t);
t3 = helloexp(Math.sqrt(Math.pow(x,2)+Math.pow(y,2)));
telemetry.addData("Status", "Running");
if(gamepad1.a && !already_a){
if(mode=="normal"){
mode="tank";
}else if(mode=="tank"){
mode = "essaifranck";
}else if (mode == "essaifranck"){
mode = "elina";
}else{
mode="normal";
}
already_a = true;
}
if(!gamepad1.a && already_a){
already_a = false;
}
double lpower = 0.0;
double rpower = 0.0;
if(mode=="normal"){
double ysign = y>0?1.0:(y<0?-1.0:0.0);
double xsign = x>0?1.0:(x<0?-1.0:0.0);
lpower = -ysign * t + (xsign-2*x)*t;
rpower = ysign * t + (xsign-2*x)*t;
}
else if (mode=="tank"){
lpower = -y;
rpower = gamepad1.right_stick_y;
}
else if (mode=="essaifranck"){
double a = (-y+x)/Math.pow(2,1/2);
double b = (-y-x)/Math.pow(2,1/2);
double vmean = (Math.abs(a)+Math.abs(b))/2;
lpower = (a/vmean)*t2;
rpower = (b/vmean)*t2;
}
else if (mode=="elina"){
double a = (-y+x)/Math.pow(2,1/2);
double b = (-y-x)/Math.pow(2,1/2);
double vmean = (Math.abs(a)+Math.abs(b))/2;
lpower = (a/vmean)*t3;
rpower = (b/vmean)*t3;
}
if(!(gamepad1.left_bumper)){
lpower/=3;
rpower/=3;
}
lm.setPower(lpower);
rm.setPower(rpower);
if(gamepad1.b && !already_b){
already_b = !already_b;
if(moissoneuse.getPowerFloat == (float) 1){
moissoneuse.setPower(0);
}else{
moissoneuse.setPower(1);
}
}
if(!gamepad1.b && already_b){
already_b = !already_b;
}
if(gamepad1.a && !already_a){
already_a = !already_a;
if(moissoneuse.getPowerFloat == (float) -1){
moissoneuse.setPower(0);
}else{
moissoneuse.setPower(-1);
}
if(!gamepad1.a && already_a){
already_a = !already_a;
}
}
if(gamepad1.b && !already_b){
already_b = !already_b;
if(moissoneuse.getPower() == 1.0){
moissoneuse.setPower(0);
}else{
moissoneuse.setPower(1);
}
}
if(!gamepad1.b && already_b){
already_b = !already_b;
}
if(gamepad1.a && !already_a){
already_a = !already_a;
if(moissoneuse.getPower() == -1.0){
moissoneuse.setPower(0);
}else{
moissoneuse.setPower(-1);
}
if(!gamepad1.a && already_a){
already_a = !already_a;
}
}
telemetry.addData("x",x);
telemetry.addData("y",y);
telemetry.addData("lpow",lpower);
telemetry.addData("rpow",rpower);
telemetry.addData("ltrigg",t);
telemetry.addData("t2",t2);
telemetry.addData("mode",mode);
// Create an object to receive the IMU angles
YawPitchRollAngles robotOrientation;
robotOrientation = imu.getRobotYawPitchRollAngles();
telemetry.addData("x",x);
telemetry.addData("y",y);
telemetry.addData("lpow",lpower);
telemetry.addData("rpow",rpower);
telemetry.addData("ltrigg",t);
telemetry.addData("t2",t2);
telemetry.addData("mode",mode);
// Create an object to receive the IMU angles
YawPitchRollAngles robotOrientation;
robotOrientation = imu.getRobotYawPitchRollAngles();
// Now use these simple methods to extract each angle
// (Java type double) from the object you just created:
double Yaw = robotOrientation.getYaw(AngleUnit.DEGREES);
double Pitch = robotOrientation.getPitch(AngleUnit.DEGREES);
double Roll = robotOrientation.getRoll(AngleUnit.DEGREES);
telemetry.addData("yaw",Yaw);
// Now use these simple methods to extract each angle
// (Java type double) from the object you just created:
double Yaw = robotOrientation.getYaw(AngleUnit.DEGREES);
double Pitch = robotOrientation.getPitch(AngleUnit.DEGREES);
double Roll = robotOrientation.getRoll(AngleUnit.DEGREES);
telemetry.addData("yaw",Yaw);
telemetry.update();
}
}
telemetry.update();
}
}
}