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101 lines
2.9 KiB
C
101 lines
2.9 KiB
C
#pragma config(I2C_Usage, I2C1, i2cSensors)
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#pragma config(Sensor, I2C_1, , sensorQuadEncoderOnI2CPort, , AutoAssign )
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#pragma config(Sensor, I2C_2, , sensorQuadEncoderOnI2CPort, , AutoAssign )
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#pragma config(Motor, port1, , tmotorVex393_HBridge, openLoop)
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#pragma config(Motor, port2, shoot, tmotorVex393_MC29, openLoop, reversed)
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#pragma config(Motor, port3, driveLB, tmotorVex393_MC29, openLoop, reversed, encoderPort, I2C_1)
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#pragma config(Motor, port4, driveLF, tmotorVex393_MC29, openLoop, reversed)
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#pragma config(Motor, port5, driveRB, tmotorVex393_MC29, openLoop, reversed, encoderPort, I2C_2)
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#pragma config(Motor, port6, driveRF, tmotorVex393_MC29, openLoop)
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#pragma config(Motor, port7, bintake, tmotorVex393_MC29, openLoop, reversed)
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#pragma config(Motor, port8, , tmotorVex393_MC29, openLoop)
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#pragma config(Motor, port9, , tmotorVex393_MC29, openLoop)
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#pragma config(Motor, port10, , tmotorVex393_HBridge, openLoop)
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//*!!Code automatically generated by 'ROBOTC' configuration wizard !!*//
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#pragma platform(VEX2)
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#pragma competitionControl(Competition)
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#include "Vex_Competition_Includes.c"
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// some variable definitions
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#define MAX_SPEED 127
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#define STOP 0
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#define DEADZONE 10
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/*
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23.4 / (2 * pi * 2.075) * 360
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23.4 = inches in a tile
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2.075 = exact radius of 4" omniwheels
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2 * pi * r is circumference of the wheel
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360 degrees in a circle
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final calculation is the amount of degrees of rotation per tile of movement
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*/
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#define TILE 646
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void shootBall() {
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motor[shoot] = MAX_SPEED;
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wait(1.25); // Shooting takes 1.25 seconds.
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motor[shoot] = STOP;
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}
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void joystickDrive() {
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if(abs(vexRT[Ch3]) > DEADZONE) {
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motor[driveLB] = vexRT[Ch3];
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motor[driveLF] = vexRT[Ch3];
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}
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else {
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motor[driveLB] = STOP;
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motor[driveLF] = STOP;
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}
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if(abs(vexRT[Ch2]) > DEADZONE) {
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motor[driveRB] = vexRT[Ch2];
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motor[driveRF] = vexRT[Ch2];
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}
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else {
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motor[driveRB] = STOP;
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motor[driveRF] = STOP;
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}
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}
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void buttonChecks() {
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if (vexRT[Btn5U] == 1) {
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motor[bintake] = MAX_SPEED;
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}
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else if (vexRT[Btn5D] == 1) {
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motor[bintake] = -MAX_SPEED;
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}
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else {
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motor[bintake] = STOP;
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}
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//Flipper Code
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if (vexRT[Btn8D] == 1) {
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shootBall();
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}
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}
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void pre_auton() {
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/* Set bStopTasksBetweenModes to false if you want to keep user created tasks
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running between Autonomous and Driver controlled modes. You will need to
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manage all user created tasks if set to false. */
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bStopTasksBetweenModes = true;
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}
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void driveTiles(int numberOfTiles) {
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while(numberOfTiles * TILE > nMotorEncoder[1]) [
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// TODO
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}
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}
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task autonomous() {
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shootBall();
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}
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task usercontrol() {
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while (true) {
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//Dual Driving
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joystickDrive();
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buttonChecks();
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}
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} |