mcopy/ino/mcopy_projector_tests/mcopy_projector_tests.ino

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//Test lighting with NeoPixels instead of Pixies to prevent eye damage.
//LIGHT HEADERS
//#include "SoftwareSerial.h"
//#include "Adafruit_Pixie.h"
#include <Adafruit_NeoPixel.h>
#define NUMPIXELS 1 // Number of Pixies in the strip
//#define PIXIEPIN 6 // Pin number for SoftwareSerial output
#define PIXELPIN 3 // Pin number for SoftwareSerial output
//SoftwareSerial pixieSerial(-1, PIXIEPIN);
//Adafruit_Pixie light = Adafruit_Pixie(NUMPIXELS, &pixieSerial);
Adafruit_NeoPixel light = Adafruit_NeoPixel(1, PIXELPIN, NEO_GRB + NEO_KHZ800);
//PROJECTOR HEADERS
String color = "000,000,000";
volatile int commaR = 0;
volatile int commaG = 0;
String strR = "000";
String strG = "000";
String strB = "000";
volatile int r = 0;
volatile int g = 0;
volatile int b = 0;
boolean debug_state = false;
//const int proj_pin = 5; //relay 4
//const int proj_time = {{proj.time}};
//const int proj_delay = {{proj.delay}};
//LIGHT VARIABLES
//PROJECTOR VARIABLES
boolean proj_dir = true;
const char cmd_light = 'l';
const char cmd_projector = 'p';
const char cmd_proj_forward = 'g';
const char cmd_proj_backward = 'h';
const char cmd_mcopy_identifier = 'm';
const char cmd_proj_identifier = 'j';
const char cmd_debug = 'd';
const char cmd_connect = 'i';
volatile char cmd_char = 'z';
const int serialDelay = 5;
void setup() {
Serial.begin(57600);
Serial.flush();
Serial.setTimeout(serialDelay);
//pixieSerial.begin(115200); // Pixie REQUIRES this baud rate
light.begin();
light.setPixelColor(0, 0, 0, 0);
light.show();
}
void loop() {
if (Serial.available()) {
/* read the most recent byte */
cmd_char = (char)Serial.read();
}
if (cmd_char != 'z') {
cmd(cmd_char);
cmd_char = 'z';
}
}
void cmd (char val) {
if (val == cmd_debug) {
debug();
} else if (val == cmd_connect) {
connect();
} else if (val == cmd_mcopy_identifier) {
identify();
} else if (val == cmd_projector) {
projector();
} else if (val == cmd_proj_forward) {
proj_direction(true);
} else if (val == cmd_proj_backward) {
proj_direction(false);
} else if (val == cmd_light) {
colorString();
Serial.println(cmd_light);//confirm light change
}
}
void debug () {
debug_state = true;
Serial.println(cmd_debug);
log("debugging enabled");
}
void connect () {
Serial.println(cmd_connect);
log("connect()");
}
void identify () {
Serial.println(cmd_proj_identifier);
log("identify()");
}
void colorString () {
while (Serial.available() == 0) {
//Wait for color string
}
color = Serial.readString();
//Serial.println(color);
commaR = color.indexOf(','); //comma trailing R
commaG = color.indexOf(',', commaR + 1);
strR = color.substring(0, commaR);
strG = color.substring(commaR + 1, commaG);
strB = color.substring(commaG + 1);
r = strR.toInt();
g = strG.toInt();
b = strB.toInt();
light.setPixelColor(0, r, g, b);
light.show();
}
void projector () {
/* FROM INTVAL
* WILL USE OPTICAL ENDSTOP
* Time_start();
cam_dir = dir;
if (cam_dir) {
analogWrite(PIN_MOTOR_FORWARD, fwd_speed);
analogWrite(PIN_MOTOR_BACKWARD, 0);
} else {
analogWrite(PIN_MOTOR_BACKWARD, bwd_speed);
analogWrite(PIN_MOTOR_FORWARD, 0);
}
running = true;
if (fwd_speed == 255) {
delay(300);
} else {
delay(600);
}
micro_primed = false;*/
delay(1300); //TEMPORARY DELAY FOR TESTING TIMING
Serial.println(cmd_projector);
log("projector()");
}
void proj_direction (boolean state) {
proj_dir = state;
if (state) {
Serial.println(cmd_proj_forward);
log("proj_direction -> true");
} else {
Serial.println(cmd_proj_backward);
log("proj_direction -> false");
}
}
void log (String msg) {
if (debug_state) {
Serial.println(msg);
}
}