Difference between revisions of "FTC Using methods 20203018"
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public void runOpMode() throws InterruptedException | public void runOpMode() throws InterruptedException | ||
{ | { | ||
| − | double TARGET_DISTANCE = 300; | + | double TARGET_DISTANCE = 300; // mm (about 12 inches) |
| − | double MAX_MOTOR_VELOCITY = 600; | + | double MAX_MOTOR_VELOCITY = 600; // mm / second |
double TARGET_VELOCITY = MAX_MOTOR_VELOCITY / 4; | double TARGET_VELOCITY = MAX_MOTOR_VELOCITY / 4; | ||
| − | double TARGET_TURN = 90; | + | double TARGET_TURN = 90; // degrees |
int SQUARE_SIDES = 4; | int SQUARE_SIDES = 4; | ||
Revision as of 12:18, 18 March 2022
Why Use Abstraction
- Makes it easier to reason about complex programs
- Easier to test programs - can test small part individually
- Code is reused making it more reliable
Code Outline
- Code based on FTC_Motor_Encoders_20200304
- Enhance the drive forward with encoders using the setVelocity to drive the robot in a square.
public class DriveInASquare extends LinearOpMode
{
@Override
public void runOpMode() throws InterruptedException
{
double TARGET_DISTANCE = 300; // mm (about 12 inches)
double MAX_MOTOR_VELOCITY = 600; // mm / second
double TARGET_VELOCITY = MAX_MOTOR_VELOCITY / 4;
double TARGET_TURN = 90; // degrees
int SQUARE_SIDES = 4;
waitForStart();
int count = 0;
while (opModeIsActive() && count < SQUARE_SIDES)
{
driveForMmAt (TARGET_DISTANCE, TARGET_VELOCITY);
turnForDegrees (TARGET_TURN);
count++;
}
}
void driveForMmAt (double distanceMm, double velocityMmPerSec)
{
}
void turnForDegrees (double turnDegrees)
{
}
}
Full Code One Method
- Exercise 1: The turn method is not completed. Your job is to complete it
- DriveInASquare.java
