ese519
Lab3
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ESE519_Lab3_v4
by 
ese519
main.cpp
- Committer:
- jfields
- Date:
- 2015-10-16
- Revision:
- 5:5380953108bb
- Parent:
- 4:0b22363eb57c
File content as of revision 5:5380953108bb:
// ESE 519 Lab 3 Code //
#include "mbed.h"
#include "rtos.h"
Serial pc(USBTX,USBRX);
// functions
void check_floor();
void get_floor(); // uses floor period to set cur_floor
void get_period();
void led_update();
void update_q();
// Threads
void bpc_func(void const *args);
Thread * bpc_thread;
// init board
PwmOut dc_motor(p26);
PwmOut servo1(p25);
PwmOut servo2(p24);
DigitalOut in1(p11); // elevator direction
DigitalOut in2(p12); // elevator direction
InterruptIn IRSensor(p10); // read IR sensor
AnalogIn Button(p15); // elevator button press Voltage = 3.3*0.2*n ; n = Floor Number
// LEDs for testing
DigitalOut led1(LED1);
DigitalOut led2(LED2);
DigitalOut led3(LED3);
DigitalOut led4(LED4);
// init vars
Timer t;
float period = 0.02; // sec
float dty_dc = 0.75; // PCT [0-100]
float dty_servo_close = 0.1125; // PCT [3.75-11.25]
float dty_servo_open = 0.0375; // PCT [3.75-11.25]
int cur_floor = 0;
int desired_floor = 0;
int floor_period; // for period detection
int keyPressed = 0;
int count = 0;
int test_readings = 0; // need 4 consecutive readings to declare cur_floor
int test_floor = 0;
int el_q [4];
int el_q_size = 0;
int main() {
// init interrupt handler
IRSensor.fall(&get_period);
// init queue
for (int i=0;i<4;i++) el_q[i] = 0;
// set period (constant)
dc_motor.period(period);
servo1.period(period);
servo2.period(period);
// start with elevator stationary
dc_motor.write(0);
// start with closed doors
servo1.write(dty_servo_close);
servo2.write(dty_servo_close);
while(1) {
// get init floor
while (!cur_floor) { // wait for a floor to be detected
wait(0.25);
}
if (!desired_floor) {
desired_floor = cur_floor;
bpc_thread = new Thread(bpc_func); // start button checker thread
}
led_update();
// check for key press
//find_keys();
// execute elevator alg
if (!el_q_size) {
desired_floor = el_q[0];
update_q();
// check if need to move
if (cur_floor != desired_floor) {
// determine direction
if (cur_floor > desired_floor) { // move down
in1 = 1;
in2 = 0;
} else { // move up
in1 = 0;
in2 = 1;
}
// start car
servo1.write(dty_servo_close);
servo2.write(dty_servo_close);
dc_motor.write(dty_dc);
// check IR sensors
while (cur_floor != desired_floor) {
wait(0.2);
}
// stop car
dc_motor.write(0);
}
// open door
servo1.write(dty_servo_open);
servo2.write(dty_servo_open);
wait(2);
//keyPressed = 0;
}
}
}
void get_floor() {
if(floor_period > 9900 && floor_period < 10100) {
if (test_floor == 1) {
test_readings++;
} else {
test_readings = 0;
}
test_floor = 1;
if (test_readings > 3) cur_floor = 1;
} else if(floor_period > 3900 && floor_period < 4100) {
if (test_floor == 2) {
test_readings++;
} else {
test_readings = 0;
}
test_floor = 2;
if (test_readings > 3) cur_floor = 2;
} else if(floor_period > 1900 && floor_period < 2100) {
if (test_floor == 3) {
test_readings++;
} else {
test_readings = 0;
}
test_floor = 3;
if (test_readings > 3) cur_floor = 3;
} else if(floor_period > 1300 && floor_period < 1500) {
if (test_floor == 4) {
test_readings++;
} else {
test_readings = 0;
}
test_floor = 4;
if (test_readings > 3) cur_floor = 4;
} else if(floor_period > 900 && floor_period < 1100) {
if (test_floor == 5) {
test_readings++;
} else {
test_readings = 0;
}
test_floor = 5;
if (test_readings > 3) cur_floor = 5;
}
}
void get_period() {
count++;
if (count == 1)
t.start();
else if (count == 2) {
t.stop();
floor_period = t.read_us();
t.reset();
get_floor();
count = 0;
}
}
void led_update() {
if (cur_floor == 1) {
led1 = 1;
led2 = 0;
led3 = 0;
led4 = 0;
}
if (cur_floor == 2) {
led2 = 1;
led1 = 0;
led3 = 0;
led4 = 0;
}
if (cur_floor == 3) {
led3 = 1;
led2 = 0;
led1 = 0;
led4 = 0;
}
if (cur_floor == 4) {
led4 = 1;
led2 = 0;
led3 = 0;
led1 = 0;
}
if (cur_floor == 5) {
led4 = 1;
led1 = 1;
led2 = 0;
led3 = 0;
}
}
void bpc_func(void const *args) {
while (1) {
float ADC_val = Button.read();
int val = ADC_val*10;
if(val == 2) {
//desired_floor = 1;
//keyPressed = 1;
el_q[el_q_size] = 1;
el_q_size++;
} else if(val == 4) {
//desired_floor = 2;
//keyPressed = 1;
el_q[el_q_size] = 2;
el_q_size++;
} else if(val == 6) {
//desired_floor = 3;
//keyPressed = 1;
el_q[el_q_size] = 3;
el_q_size++;
} else if(val == 8) {
//desired_floor = 4;
//keyPressed = 1;
el_q[el_q_size] = 4;
el_q_size++;
} else if(val == 10) {
//desired_floor = 5;
//keyPressed = 1;
el_q[el_q_size] = 5;
el_q_size++;
}
wait(0.1);
while (el_q_size == 4) { // wait for queue to empty
wait(0.2);
}
}
}
void update_q() {
for (int i=1;i<el_q_size;i++) {
el_q[i-1] = el_q[i];
}
el_q_size--;
}