test program
Dependencies: LSM9DS1_Library2 MotorV2 SRF05 Tracker2 mbed nRF24L01P
Fork of DUMP_TRUCK_SPR2017 by
DumpTruck.cpp
- Committer:
- pvela
- Date:
- 2017-02-14
- Revision:
- 6:5cc6a9b6f60e
- Parent:
- 5:dc4cf6cc24b3
- Child:
- 10:cf77da9be0b8
File content as of revision 6:5cc6a9b6f60e:
#include "DumpTruck.h" /*#include "stdlib.h" #include "stdio.h" #include "string.h"*/ //Serial pc(USBTX, USBRX); DumpTruck::DumpTruck(int truckId) : truckNumber(truckId) { truckNumber = truckId; } PwmOut DrivePin(p24); DigitalOut DirPin(p30); float travelled; //void Calibrate(){} //void DumpTruck::drive() { // // get desired distance and speed // distance = 0; // placeholder // // speed = 0.5; // // distance = setTruckDistance(); // speed = setTruckSpeed(); // // terminal confirmation of distance and speed // pc.printf("Truck will drive a distance of %f at a speed of %f\r\n",distance,speed); // // insert while loop here which relates to distance travelled // while(1) { // // if the speed is greater than zero, go forward at specified speed // if (speed >= 0) { // DirPin = 1; // DrivePin = speed; // } // else, go backwards at specified speed // else { // DirPin = 0; // DrivePin = -1*speed; // } // } // // stop motors // // stop(); // // calibrate motors // Calibrate(); // // // travelled = 0; //} void DumpTruck::drive() { // get desired distance and speed // placeholder // speed = 0.5; //distance = 5.0; distance = setTruckDistance(); speed = setTruckSpeed(); // terminal confirmation of distance and speed pc.printf("Truck will drive a distance of %f inches at a speed of %f\r\n",distance,speed); // insert while loop here which relates to distance travelled travelled = getDistance(); //pc.printf("Check 1: %f, %f\r\n", distance, travelled); while(travelled < distance) { //pc.printf("Check 2:\r\n"); travelled = getDistance(); pc.printf("Travelling...: %f\n\r", (distance - travelled)); // if the speed is greater than zero, go forward at specified speed if (speed >= 0) { DirPin = 1; DrivePin = speed; } // else, go backwards at specified speed else { DirPin = 0; DrivePin = -1*speed; } } //pc.printf("Check 3:\r\n"); // stop motors // stop(); // calibrate motors //Calibrate(); } float DumpTruck::setTruckDistance(){ // terminal prompt for distance pc.printf("Please enter the truck distance:\r\n"); // sets return value to given value //float input = pc.getc(); //input = input - 48; // returns value //return input; char c; char buffer[128]; pc.gets(buffer, 4); float input = strtod(buffer,NULL); return input; } float DumpTruck::setTruckSpeed(){ // float mod = 0; // float div = 10; // pc.printf("Enter a direction - 1 = forward, 0 = backward:\r\n"); // float dir = pc.getc(); // while ((dir<48)||(dir>49)){ // pc.printf("Invalid input. Please enter a valid direction, 1 or 0: \r\n"); // dir = pc.getc(); // } // if (dir == 48) { // mod = -1; } // else { // mod = 1; } // // // terminal prompt for speed // pc.printf("Please enter a truck speed from 0-9 or F for full speed:\r\n"); // // sets return value to given value // float input = pc.getc(); // while ((input<48)||(input>57)){ // if((input == 70) || (input == 102)) { // input = 1; // input = input * mod; // return input; // } // pc.printf("Invalid input. Please enter a valid speed from 0-9 or F: \r\n"); // input = pc.getc(); // } // input = input - 48; // input = input * (1/div); // // returns value // input = input * mod; pc.printf("Enter a speed from -10 to +10:\r\n"); char c; char buffer[128]; pc.gets(buffer, 4); float input = strtod(buffer,NULL); while ((buffer[0] < 43) || (buffer[0] > 45)) { pc.printf("Invalid input. Please correct input and try again:\r\n"); setTruckSpeed(); } pc.printf("buffer[0]: %d\r\n",buffer[0]); pc.printf("buffer[1]: %d\r\n",buffer[1]); pc.printf("buffer[2]: %d\r\n",buffer[2]); input = input / 10; return input;} void DumpTruck::stop(){ pc.printf("Truck will now stop.\r\n"); //stop motors DrivePin = 0; } float DumpTruck::getDistance() { //while(1){ pulseCount = (float) wheel.getPulses(); travelled = pulseCount*d/encoding/20/68; wait(0.1); //pc.printf("Inches travelled: %f\n\r", travelled); return travelled; //(pulse count / X * N) * (1 / PPI) //} } //void DumpTruck::RotateTo() { // pc.printf("Desired Angle: "); // DesiredPivotAngle = pc.getc(); // float CurrentPivotAngle = getPivotAngle(); // Difference = DesiredPivotAngle-CurrentPivotAngle; // if (Difference > limit) // { // PivotSpeed = setPivotSpeed(); // pc.printf("Rotating to %s /n", DesiredPivotAngle); // //Drive Motors // } // else // {stop()} // //} // void DumpTruck::BedUp() { } void DumpTruck::BedDown() { // SwitchState = bool GetBedUpperSwitch(); // if SwitchState // {return 0;} // else // // while(SwitchState == 0) // { // //driveMotor // } // calibrate(); } //void DumpTruck::LowerBed() { // SwitchState = bool GetLowerUpperSwitch(); // if SwitchState // {return 0;} // else // // while(SwitchState == 0) // { // //driveMotor // } // calibrate(); // } //} void DumpTruck::raiseTo(int angle) { // pc.printf("Desired Angle: "); // DesiredBedAngle = pc.getc(); // float CurrentBedAngle = getBedAngle(); // Difference = DesiredBedAngle-CurrentBedAngle; // if (Difference > limit) // { // BedSpeed = setBedSpeed(); // pc.printf("Rotating to %s /n", DesiredBedAngle); // //Drive Motors // } // else // {stop()} } // //float DumpTruck::getPivotAngle(){ // float input = AnalogIn(x); // return input // } //float DumpTruck::setPivotSpeed(){ // pc.printf("Please enter the Pivot speed /n"); // float input = pc.getc(); // return input; // } // //float DumpTruck::setBedSpeed(){ // pc.printf("Please enter the Bed speed /n"); // float input = pc.getc(); // return input; // } //float DumpTruck::getBedAngle(){ // float input = AnalogIn(x); // data from potentiometer // return input; // } // */