Zhang Xin yu
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Joystick.h
- Committer:
- Jenny121
- Date:
- 2019-05-06
- Revision:
- 1:dfa872e88821
- Parent:
- 0:649b59b2fb26
File content as of revision 1:dfa872e88821:
#ifndef JOYSTICK_H
#define JOYSTICK_H
#include "mbed.h"
// this value can be tuned to alter tolerance of joystick movement
#define TOL 0.1f
#define RAD2DEG 57.2957795131f
enum Direction {
CENTRE, // 0
N, // 1
NE, // 2
E, // 3
SE, // 4
S, // 5
SW, // 6
W, // 7
NW // 8
};
struct Vector2D {
float x;
float y;
};
struct Polar {
float mag;
float angle;
};
/** Joystick Class
@author Dr Craig A. Evans, University of Leeds
@brief Library for interfacing with analogue joystick
Example:
@code
#include "mbed.h"
#include "Joystick.h"
// y x button
Joystick joystick(PTB10,PTB11,PTC16);
int main() {
joystick.init();
while(1) {
Vector2D coord = joystick.get_coord();
printf("Coord = %f,%f\n",coord.x,coord.y);
Vector2D mapped_coord = joystick.get_mapped_coord();
printf("Mapped coord = %f,%f\n",mapped_coord.x,mapped_coord.y);
float mag = joystick.get_mag();
float angle = joystick.get_angle();
printf("Mag = %f Angle = %f\n",mag,angle);
Direction d = joystick.get_direction();
printf("Direction = %i\n",d);
if (joystick.button_pressed() ) {
printf("Button Pressed\n");
}
wait(0.5);
}
}
* @endcode
*/
class Joystick
{
public:
// y-pot x-pot button
Joystick(PinName vertPin,PinName horizPin,PinName clickPin);
void init(); // needs to be called at start with joystick centred
float get_mag(); // polar
float get_angle(); // polar
Vector2D get_coord(); // cartesian co-ordinates x,y
Vector2D get_mapped_coord(); // x,y mapped to circle
Direction get_direction(); // N,NE,E,SE etc.
Polar get_polar(); // mag and angle in struct form
bool button_pressed(); // read button flag set in ISR when button pressed
private:
AnalogIn *vert;
AnalogIn *horiz;
InterruptIn *click;
int _click_flag; // flag set in ISR
void click_isr(); // ISR on button press
// centred x,y values
float _x0;
float _y0;
};
#endif