/
plant_sitter.ino
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plant_sitter.ino
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#include <LiquidCrystal.h>
#include <Wire.h>
#include "ds3231.h"
#define BUFF_MAX 128
LiquidCrystal lcd(12, 11, 5, 4, 3, 2);
int uvLight = 0;
int speakerPin = 10;
int length = 15;
int light = 13;
int water = 9;
char notes[] = "ccggaag ffeeddc ggffeed ggffeed ccggaag ffeeddc "; // a space represents a rest
int beats[] = { 1, 1, 1, 1, 1, 1, 2, 1, 1, 1, 1, 1, 1, 2, 4 };
int tempo = 300;
uint8_t time[8];
char recv[BUFF_MAX];
unsigned int recv_size = 0;
unsigned long prev, interval = 1000;
void parse_cmd(char *cmd, int cmdsize);
void playTone(int tone, int duration) {
for (long i = 0; i < duration * 1000L; i += tone * 2) {
digitalWrite(speakerPin, HIGH);
delayMicroseconds(tone);
digitalWrite(speakerPin, LOW);
delayMicroseconds(tone);
}
}
void playNote(char note, int duration) {
char names[] = { 'c', 'd', 'e', 'f', 'g', 'a', 'b', 'C' };
int tones[] = { 1915, 1700, 1519, 1432, 1275, 1136, 1014, 956 };
// play the tone corresponding to the note name
for (int i = 0; i < 8; i++) {
if (names[i] == note) {
playTone(tones[i], duration);
}
}
}
void playTinkleTinkle(){
for (int i = 0; i < length; i++) {
if (notes[i] == ' ') {
delay(beats[i] * tempo); // rest
} else {
playNote(notes[i], beats[i] * tempo);
}
// pause between notes
delay(tempo / 2);
}
}
void setup(){
Serial.begin(9600);
lcd.begin(16,2);
pinMode(light, OUTPUT);
pinMode(speakerPin, OUTPUT);
pinMode(water, OUTPUT);
Wire.begin();
DS3231_init(DS3231_INTCN);
memset(recv, 0, BUFF_MAX);
//parse_cmd("T381615622042017",16);
// TssmmhhWDDMMYYYY
}
void loop(){
char in;
char buff[BUFF_MAX];
unsigned long now = millis();
struct ts t;
// show time once in a while
if ((now - prev > interval) && (Serial.available() <= 0)) {
DS3231_get(&t);
// there is a compile time option in the library to include unixtime support
#ifdef CONFIG_UNIXTIME
snprintf(buff, BUFF_MAX, "%02d:%02d:%02d %ld", t.hour, t.min, t.sec, t.unixtime);
#else
snprintf(buff, BUFF_MAX, "%02d:%02d:%02d", t.hour, t.min, t.sec);
#endif
Serial.println(buff);
lcd.setCursor(6,1);
lcd.print(buff);
prev = now;
}
if (Serial.available() > 0) {
in = Serial.read();
if ((in == 10 || in == 13) && (recv_size > 0)) {
parse_cmd(recv, recv_size);
recv_size = 0;
recv[0] = 0;
} else if (in < 48 || in > 122) {; // ignore ~[0-9A-Za-z]
} else if (recv_size > BUFF_MAX - 2) { // drop lines that are too long
// drop
recv_size = 0;
recv[0] = 0;
} else if (recv_size < BUFF_MAX - 2) {
recv[recv_size] = in;
recv[recv_size + 1] = 0;
recv_size += 1;
}
}
//playTinkleTinkle();
lcd.setCursor(0,0);
int humidityRaw = analogRead(A0);
int humidityReal = map(humidityRaw, 1023, 0, 0, 100);
lcd.print("Soil Moisture is ");
lcd.setCursor(2,1);
lcd.print(humidityReal);
lcd.print("%");
delay(100);
if(t.hour == 15 && t.min == 00 && t.wday != 7){
playTinkleTinkle();
digitalWrite(light, HIGH);
delay(70000);
}
if(t.hour == 19 && t.min == 30 && humidityReal < 50){
playTinkleTinkle();
digitalWrite(water,HIGH);
delay(20000);
digitalWrite(water,LOW);
delay(70000);
}
if(t.hour == 20 && t.min == 00){
playTinkleTinkle();
digitalWrite(light, LOW);
delay(70000);
}
//to test the device
/*
if(t.hour == 21 && t.min == 02 && humidityReal < 70){
playTinkleTinkle();
digitalWrite(light, HIGH);
digitalWrite(water,HIGH);
delay(5000);
digitalWrite(water,LOW);
delay(70000);
}
*/
digitalWrite(water,LOW);
}
void parse_cmd(char *cmd, int cmdsize)
{
uint8_t i;
uint8_t reg_val;
char buff[BUFF_MAX];
struct ts t;
//snprintf(buff, BUFF_MAX, "cmd was '%s' %d\n", cmd, cmdsize);
//Serial.print(buff);
// TssmmhhWDDMMYYYY aka set time
if (cmd[0] == 84 && cmdsize == 16) {
//T355720619112011
t.sec = inp2toi(cmd, 1);
t.min = inp2toi(cmd, 3);
t.hour = inp2toi(cmd, 5);
t.wday = cmd[7] - 48;
t.mday = inp2toi(cmd, 8);
t.mon = inp2toi(cmd, 10);
t.year = inp2toi(cmd, 12) * 100 + inp2toi(cmd, 14);
DS3231_set(t);
Serial.println("OK");
} else if (cmd[0] == 49 && cmdsize == 1) { // "1" get alarm 1
DS3231_get_a1(&buff[0], 59);
Serial.println(buff);
} else if (cmd[0] == 50 && cmdsize == 1) { // "2" get alarm 1
DS3231_get_a2(&buff[0], 59);
Serial.println(buff);
} else if (cmd[0] == 51 && cmdsize == 1) { // "3" get aging register
Serial.print("aging reg is ");
Serial.println(DS3231_get_aging(), DEC);
} else if (cmd[0] == 65 && cmdsize == 9) { // "A" set alarm 1
DS3231_set_creg(DS3231_INTCN | DS3231_A1IE);
//ASSMMHHDD
for (i = 0; i < 4; i++) {
time[i] = (cmd[2 * i + 1] - 48) * 10 + cmd[2 * i + 2] - 48; // ss, mm, hh, dd
}
uint8_t flags[5] = { 0, 0, 0, 0, 0 };
DS3231_set_a1(time[0], time[1], time[2], time[3], flags);
DS3231_get_a1(&buff[0], 59);
Serial.println(buff);
} else if (cmd[0] == 66 && cmdsize == 7) { // "B" Set Alarm 2
DS3231_set_creg(DS3231_INTCN | DS3231_A2IE);
//BMMHHDD
for (i = 0; i < 4; i++) {
time[i] = (cmd[2 * i + 1] - 48) * 10 + cmd[2 * i + 2] - 48; // mm, hh, dd
}
uint8_t flags[5] = { 0, 0, 0, 0 };
DS3231_set_a2(time[0], time[1], time[2], flags);
DS3231_get_a2(&buff[0], 59);
Serial.println(buff);
} else if (cmd[0] == 67 && cmdsize == 1) { // "C" - get temperature register
Serial.print("temperature reg is ");
Serial.println(DS3231_get_treg(), DEC);
} else if (cmd[0] == 68 && cmdsize == 1) { // "D" - reset status register alarm flags
reg_val = DS3231_get_sreg();
reg_val &= B11111100;
DS3231_set_sreg(reg_val);
} else if (cmd[0] == 70 && cmdsize == 1) { // "F" - custom fct
reg_val = DS3231_get_addr(0x5);
Serial.print("orig ");
Serial.print(reg_val,DEC);
Serial.print("month is ");
Serial.println(bcdtodec(reg_val & 0x1F),DEC);
} else if (cmd[0] == 71 && cmdsize == 1) { // "G" - set aging status register
DS3231_set_aging(0);
} else if (cmd[0] == 83 && cmdsize == 1) { // "S" - get status register
Serial.print("status reg is ");
Serial.println(DS3231_get_sreg(), DEC);
} else {
Serial.print("unknown command prefix ");
Serial.println(cmd[0]);
Serial.println(cmd[0], DEC);
}
}