Replaced color sensor with distance sensor

HARDWARE.md

@@ -4,14 +4,14 @@
 
 ![Bird's eye view of robot.](/Robot.png "Bird's eye view of robot")
 
-Configuration Name: **cometBoTsChassis2023**
+Configuration Name: **CometBoTsChassis2023**
 
 There are two robots: 14493-DS, and FTC-992M.
 
 Below are the following configurations for our robots
 
 | physical port | hub       | robot  part                 | robot part location           | robot software config name |
-|---------------|-----------|----------------------------|-------------------------------|----------------------------|
+|---------------|-----------|-----------------------------|-------------------------------|----------------------------|
 | motor0        | control   | UltraPlanetary HD hex motor | right front leg frame         | Drive front rt             |
 | motor1        | control   | UltraPlanetary HD hex motor | right back leg frame          | Drive back rt              |
 | motor2        | control   | UltraPlanetary HD hex motor | left front leg frame          | Drive front lt             |
@@ -29,3 +29,4 @@ Below are the following configurations for our robots
 
 
 
+

TeamCode/build.gradle

@@ -26,8 +26,4 @@ android {
 dependencies {
     implementation project(':FtcRobotController')
     annotationProcessor files('lib/OpModeAnnotationProcessor.jar')
-
-    implementation 'org.apache.commons:commons-math3:3.6.1'
-    implementation 'com.fasterxml.jackson.core:jackson-databind:2.12.7'
-    implementation 'com.acmerobotics.roadrunner:core:0.5.6'
 }

TeamCode/src/main/java/org/firstinspires/ftc/teamcode/Autonomoustest.java

@@ -34,9 +34,12 @@ import com.qualcomm.robotcore.eventloop.opmode.LinearOpMode;
 import com.qualcomm.robotcore.hardware.ColorSensor;
 import com.qualcomm.robotcore.hardware.DcMotor;
 import com.qualcomm.robotcore.hardware.DcMotorSimple;
+import com.qualcomm.robotcore.hardware.DistanceSensor;
 import com.qualcomm.robotcore.hardware.Servo;
 import com.qualcomm.robotcore.util.ElapsedTime;
 
+import org.firstinspires.ftc.robotcore.external.navigation.DistanceUnit;
+
 /**
  * This file illustrates the concept of driving a path based on encoder counts.
  * The code is structured as a LinearOpMode
@@ -72,11 +75,12 @@ public class Autonomoustest extends LinearOpMode {
     private DcMotor rightDrive = null;
     private DcMotor backrightDrive = null;
     private DcMotor backleftDrive = null;
-    private ColorSensor colorRight = null;
-    private ColorSensor colorLeft = null;
+    private DistanceSensor distanceRight = null;
+    private DistanceSensor distanceLeft = null;
     private Servo wrist = null;
     private Servo gripper = null;
     private DcMotor arm = null;
+    private DistanceSensor distance = null;
 
 
     private ElapsedTime runtime = new ElapsedTime();
@@ -179,27 +183,6 @@ public class Autonomoustest extends LinearOpMode {
         encoderDrive(DRIVE_SPEED, turning_distance, turning_distance, LONG_TIMEOUT);
     }
 
-    public int readColorRight() {
-        telemetry.addData("Clear", colorRight.alpha());
-        telemetry.addData("Red  ", colorRight.red());
-        telemetry.addData("Green", colorRight.green());
-        telemetry.addData("Blue ", colorRight.blue());
-        //telemetry.update();
-        int bluenumber = colorRight.red();
-        return bluenumber;
-    }
-
-    public int readColorLeft() {
-        telemetry.addData("Clear Left", colorLeft.alpha());
-        telemetry.addData("Red left ", colorLeft.red());
-        telemetry.addData("Green left", colorLeft.green());
-        telemetry.addData("Blue left", colorLeft.blue());
-        //telemetry.update();
-        int bluenumber = colorLeft.red();
-        return bluenumber;
-
-
-    }
 
     public void raisearm(int degrees) {
         armEncoder(ARM_SPEED, degrees*TICKS_TO_DEGREES, LONG_TIMEOUT);
@@ -211,11 +194,12 @@ public class Autonomoustest extends LinearOpMode {
         rightDrive = hardwareMap.get(DcMotor.class, "Drive front rt");
         backleftDrive = hardwareMap.get(DcMotor.class, "Drive back lt");
         backrightDrive = hardwareMap.get(DcMotor.class, "Drive back rt");
-        colorRight = hardwareMap.get(ColorSensor.class, "color right");
-        colorLeft = hardwareMap.get(ColorSensor.class, "color left");
+        distanceRight = hardwareMap.get(DistanceSensor.class, "color right");
+        distanceLeft = hardwareMap.get(DistanceSensor.class, "color left");
         gripper = hardwareMap.get(Servo.class, "gripper");
         arm = hardwareMap.get(DcMotor.class, "arm raise");
         wrist = hardwareMap.get(Servo.class, "wrist");
+        distance = hardwareMap.get(DistanceSensor.class, "distance");
         wrist.setPosition(1);
         sleep(1000);
         // To drive forward, most robots need the motor on one side to be reversed, because the axles point in opposite directions.
@@ -254,16 +238,21 @@ public class Autonomoustest extends LinearOpMode {
     }
     public void executeAuto()
     {
+
         arm.setZeroPowerBehavior(DcMotor.ZeroPowerBehavior.BRAKE);
         driveForward(26);
-        int blueleft = readColorLeft();
-        int blueright = readColorRight();
-        double backboard = 29;
-        if (blueleft > 50 )
+
+            int distanceleft = (int)distanceLeft.getDistance(DistanceUnit.CM);
+            int distanceright = (int)distanceRight.getDistance(DistanceUnit.CM);
+            telemetry.addData("color left sensor",distanceleft);
+            telemetry.addData("color right sensor",distanceright);
+            telemetry.update();
+            sleep(500);
+
+        if (distanceleft < 30)
         {
             //telemetry.addData("color sensor","left");
-            if(blueleft > blueright)
-                telemetry.addData("color sensor","left");
+
             turnLeft(90);
             straightLeft(2);
             driveForward(6.5);
@@ -286,11 +275,9 @@ public class Autonomoustest extends LinearOpMode {
 
 
         }
-        if (blueright > 50)
+        if (distanceright < 30)
         {
-            if(blueleft < blueright)
-                telemetry.addData("color sensor","right");
-            straightRight(11);
+            straightRight(13.5);
             raisearm(80);
             arm.setPower(0);
             driveForward(-15.5);
@@ -309,9 +296,8 @@ public class Autonomoustest extends LinearOpMode {
 
 
         }
-        else
-            telemetry.addData("position","center");
-        driveForward(2.5);
+
+        driveForward(6.5);
         raisearm(80);
         arm.setPower(0);
         driveForward(-8);
@@ -322,6 +308,7 @@ public class Autonomoustest extends LinearOpMode {
         driveForward(8);
         driveForward(-26);
         straightRight(29);
+        driveForward(-1.5);
         raisearm(80);
         wrist.setPosition(0);
         raisearm(100);
@@ -370,7 +357,7 @@ public class Autonomoustest extends LinearOpMode {
             // Determine new target position, and pass to motor controller
             newLeftTarget = leftDrive.getCurrentPosition() + (int) (leftInches * COUNTS_PER_INCH);
             newRightTarget = rightDrive.getCurrentPosition() + (int) (rightInches * COUNTS_PER_INCH);
-            newBackLeftTarget = backleftDrive.getCurrentPosition() + (int) (rightInches * COUNTS_PER_INCH);
+            newBackLeftTarget = backleftDrive.getCurrentPosition() + (int) (leftInches * COUNTS_PER_INCH);
             newbackRightTarget = backrightDrive.getCurrentPosition() + (int) (rightInches * COUNTS_PER_INCH);
             leftDrive.setTargetPosition(newLeftTarget);
             rightDrive.setTargetPosition(newRightTarget);

TeamCode/src/main/java/org/firstinspires/ftc/teamcode/arm.java

@@ -100,7 +100,7 @@ public class arm extends OpMode {
 
     }
 
-    double num = 3;
+    double num = 2.5;
     /**
      * User defined loop method.
      * This method will be called repeatedly in a loop while this op mode is running
@@ -129,7 +129,7 @@ public class arm extends OpMode {
         }
         if(gamepad2.left_trigger > 0.35)
         {
-            gripper.setPosition(0.25);
+            gripper.setPosition(0.5);
         }
         if(gamepad2.right_trigger > 0.35){
             gripper.setPosition(1);
@@ -161,7 +161,7 @@ public class arm extends OpMode {
         }
         axial   = -gamepad1.left_stick_y/num;  // Note: pushing stick forward gives negative value
         lateral =  gamepad1.left_stick_x/num;
-        yaw     =  gamepad1.right_stick_x/(num+0.5);
+        yaw     =  gamepad1.right_stick_x/(num);
         // Combine the joystick requests for each axis-motion to determine each wheel's power.
         // Set up a variable for each drive wheel to save the power level for telemetry.
         double leftFrontPower  = axial + lateral + yaw;

TeamCode/src/main/java/org/firstinspires/ftc/teamcode/bluefront.java

@@ -265,7 +265,7 @@ public class bluefront extends LinearOpMode {
             if(blueleft > blueright)
                 telemetry.addData("color sensor","left");
 
-            straightLeft(11);
+            straightLeft(13.5);
             raisearm(80);
             arm.setPower(0);
             driveForward(-15.5);
@@ -311,7 +311,7 @@ public class bluefront extends LinearOpMode {
         }
         else
             telemetry.addData("position","center");
-        driveForward(2.5);
+        driveForward(6.5);
         raisearm(80);
         arm.setPower(0);
         driveForward(-8);