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1 Commits

Author SHA1 Message Date
Siwat Sirichai 5c55023829 adjust default ir send pin
so it does not overlapse with elcd
2023-12-26 23:52:24 +07:00
49 changed files with 30 additions and 362 deletions

2
Jenkinsfile vendored
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@ -4,7 +4,7 @@ pipeline {
stages {
stage('Build') {
steps {
git branch: 'ise', url: 'https://git.siwatsystem.com/ise-senior-iot/iot-firmware.git'
git branch: 'main', url: 'https://git.siwatsystem.com/ise-senior-iot/iot-firmware.git'
sh 'export PLATFORMIO_PATH=/root/.platformio/penv/bin/platformio'
sh '/usr/bin/python3 gen_release.py'
stash includes: 'release/**/*', name: 'release_binaries'

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@ -1,197 +1,20 @@
#include <user_code.hpp>
uint8_t user_acmode = 0;
//Timer Components
ESPMega_Timer timer1(0, 50, timer1_callback, 15001);
// Display Componets
// Link with Dual state button object with id 2 on page 1 named bt0
NexButton light_toggle = NexButton(1,2,"light_toggle");
NexButton row1_master = NexButton(1,11,"row1_master");
NexButton row2_master = NexButton(1,12,"row2_master");
NexButton row3_master = NexButton(1,14,"row3_master");
NexButton row4_master = NexButton(1,13,"row4_master");
NexButton row1_lv1 = NexButton(1,3,"row1_lv1");
NexButton row1_lv2 = NexButton(1,4,"row1_lv2");
NexButton row2_lv1 = NexButton(1,5,"row2_lv1");
NexButton row2_lv2 = NexButton(1,6,"row2_lv2");
NexButton row3_lv1 = NexButton(1,10,"row3_lv1");
NexButton row3_lv2 = NexButton(1,7,"row3_lv2");
NexButton row4_lv1 = NexButton(1,9,"row4_lv1");
NexButton row4_lv2 = NexButton(1,8,"row4_lv2");
NexButton temp_plus = NexButton(1,18,"temp_plus");
NexButton temp_neg = NexButton(1,17,"temp_neg");
NexButton fan = NexButton(1,16,"fan");
NexButton mode = NexButton(1,15,"mode");
NexButton ac_toggle = NexButton(1,1,"ac_toggle");
NexText cur_temp = NexText(1,19,"cur_temp");
NexDSButton bt0 = NexDSButton(1, 2, "bt0");
// List of Component ID Message to listen to
NexTouch *nex_listen_list[] =
{
&light_toggle,
&row1_master,
&row2_master,
&row3_master,
&row4_master,
&row1_lv1,
&row1_lv2,
&row2_lv1,
&row2_lv2,
&row3_lv1,
&row3_lv2,
&row4_lv1,
&row4_lv2,
&temp_plus,
&temp_neg,
&fan,
&mode,
&ac_toggle,
&bt0,
NULL};
bool row_is_on(int light1_pin, int light2_pin) {
return pwm_get_state(light1_pin) && pwm_get_state(light2_pin);
}
void light_toggle_pop_callback(void *ptr)
void bt0PopCallback(void *ptr)
{
Serial.println("Toggle Button Pressed");
bool new_state = !row_is_on(ROW1_LIGHT1,ROW1_LIGHT2) && !row_is_on(ROW2_LIGHT1,ROW2_LIGHT2) && !row_is_on(ROW3_LIGHT1,ROW3_LIGHT2) && !row_is_on(ROW4_LIGHT1,ROW4_LIGHT2);
pwm_set_state(ROW1_LIGHT1, new_state);
pwm_set_state(ROW1_LIGHT2, new_state);
pwm_set_state(ROW2_LIGHT1, new_state);
pwm_set_state(ROW2_LIGHT2, new_state);
pwm_set_state(ROW3_LIGHT1, new_state);
pwm_set_state(ROW3_LIGHT2, new_state);
pwm_set_state(ROW4_LIGHT1, new_state);
pwm_set_state(ROW4_LIGHT2, new_state);
}
void row1_lv1_pop_callback(void *ptr)
{
Serial.println("Row 1 Light 1 Button Pressed");
pwm_toggle(ROW1_LIGHT1);
}
void row1_lv2_pop_callback(void *ptr)
{
Serial.println("Row 1 Light 2 Button Pressed");
pwm_toggle(ROW1_LIGHT2);
}
void row2_lv1_pop_callback(void *ptr)
{
Serial.println("Row 2 Light 1 Button Pressed");
pwm_toggle(ROW2_LIGHT1);
}
void row2_lv2_pop_callback(void *ptr)
{
Serial.println("Row 2 Light 2 Button Pressed");
pwm_toggle(ROW2_LIGHT2);
}
void row3_lv1_pop_callback(void *ptr)
{
Serial.println("Row 3 Light 1 Button Pressed");
pwm_toggle(ROW3_LIGHT1);
}
void row3_lv2_pop_callback(void *ptr)
{
Serial.println("Row 3 Light 2 Button Pressed");
pwm_toggle(ROW3_LIGHT2);
}
void row4_lv1_pop_callback(void *ptr)
{
Serial.println("Row 4 Light 1 Button Pressed");
pwm_toggle(ROW4_LIGHT1);
}
void row4_lv2_pop_callback(void *ptr)
{
Serial.println("Row 4 Light 2 Button Pressed");
pwm_toggle(ROW4_LIGHT2);
}
void increase_temp() {
uint8_t current_temp = ac_get_temperature();
ac_set_state(ac_get_mode(), current_temp+1, ac_get_fan_speed());
}
void decrease_temp() {
uint8_t current_temp = ac_get_temperature();
ac_set_state(ac_get_mode(), current_temp-1, ac_get_fan_speed());
}
void temp_plus_pop_callback(void *ptr)
{
Serial.println("Temp Plus Button Pressed");
increase_temp();
}
void temp_neg_pop_callback(void *ptr)
{
Serial.println("Temp Neg Button Pressed");
decrease_temp();
}
void fan_pop_callback(void *ptr)
{
Serial.println("Fan Button Pressed");
uint8_t current_fan_speed = ac_get_fan_speed();
uint8_t new_fan_speed = (current_fan_speed + 1) % 4; // Loop back to 0 when reaching 3
ac_set_state(ac_get_mode(), ac_get_temperature(), new_fan_speed);
}
void mode_pop_callback(void *ptr)
{
Serial.println("Mode Button Pressed");
uint8_t current_mode = ac_get_mode();
uint8_t new_mode = (current_mode + 1) % 3; // Loop back to 0 when reaching 2
ac_set_state(new_mode, ac_get_temperature(), ac_get_fan_speed());
}
void ac_toggle_pop_callback(void *ptr)
{
Serial.println("AC Toggle Button Pressed");
//this function should set the state of the AC to toggle between off (mode 0) and the same state as before store in variable acmode
if (ac_get_mode() == 0) {
ac_set_state(user_acmode, ac_get_temperature(), ac_get_fan_speed());
} else {
user_acmode = ac_get_mode();
ac_set_state(0, ac_get_temperature(), ac_get_fan_speed());
}
}
void row1_master_pop_callback(void *ptr)
{
Serial.println("Row 1 Master Button Pressed");
bool new_state = !row_is_on(ROW1_LIGHT1,ROW1_LIGHT2);
pwm_set_state(ROW1_LIGHT1, new_state);
pwm_set_state(ROW1_LIGHT2, new_state);
}
void row2_master_pop_callback(void *ptr)
{
Serial.println("Row 2 Master Button Pressed");
bool new_state = !row_is_on(ROW2_LIGHT1,ROW2_LIGHT2);
pwm_set_state(ROW2_LIGHT1, new_state);
pwm_set_state(ROW2_LIGHT2, new_state);
}
void row3_master_pop_callback(void *ptr)
{
Serial.println("Row 3 Master Button Pressed");
bool new_state = !row_is_on(ROW3_LIGHT1,ROW3_LIGHT2);
pwm_set_state(ROW3_LIGHT1, new_state);
pwm_set_state(ROW3_LIGHT2, new_state);
}
void row4_master_pop_callback(void *ptr)
{
Serial.println("Row 4 Master Button Pressed");
bool new_state = !row_is_on(ROW4_LIGHT1,ROW4_LIGHT2);
pwm_set_state(ROW4_LIGHT1, new_state);
pwm_set_state(ROW4_LIGHT2, new_state);
pwm_toggle(2);
}
/*
@ -208,27 +31,14 @@ This code will run after every component is initialized
*/
void user_init()
{
elcd.print("page main");
elcd_send_stop_bit();
light_toggle.attachPop(light_toggle_pop_callback, &light_toggle);
row1_lv1.attachPop(row1_lv1_pop_callback, &row1_lv1);
row1_lv2.attachPop(row1_lv2_pop_callback, &row1_lv2);
row2_lv1.attachPop(row2_lv1_pop_callback, &row2_lv1);
row2_lv2.attachPop(row2_lv2_pop_callback, &row2_lv2);
row3_lv1.attachPop(row3_lv1_pop_callback, &row3_lv1);
row3_lv2.attachPop(row3_lv2_pop_callback, &row3_lv2);
row4_lv1.attachPop(row4_lv1_pop_callback, &row4_lv1);
row4_lv2.attachPop(row4_lv2_pop_callback, &row4_lv2);
row1_master.attachPop(row1_master_pop_callback, &row1_master);
row2_master.attachPop(row2_master_pop_callback, &row2_master);
row3_master.attachPop(row3_master_pop_callback, &row3_master);
row4_master.attachPop(row4_master_pop_callback, &row4_master);
temp_plus.attachPop(temp_plus_pop_callback, &temp_plus);
temp_neg.attachPop(temp_neg_pop_callback, &temp_neg);
fan.attachPop(fan_pop_callback, &fan);
mode.attachPop(mode_pop_callback, &mode);
ac_toggle.attachPop(ac_toggle_pop_callback, &ac_toggle);
timer1.begin();
ESPMega_EXTLCD.print("page home");
ESPMega_EXTLCD.write(0xFF);
ESPMega_EXTLCD.write(0xFF);
ESPMega_EXTLCD.write(0xFF);
bt0.attachPop(bt0PopCallback, &bt0);
}
/*
This code will run once every event loop
*/
@ -244,112 +54,12 @@ void virtual_interrupt_user_callback(int pin, int state)
{
}
void update_lcd_row1() {
bool master_state = row_is_on(ROW1_LIGHT1,ROW1_LIGHT2);
row1_master.Set_background_image_pic(master_state?9:10);
bool lt1_state = pwm_get_state(ROW1_LIGHT1);
bool lt2_state = pwm_get_state(ROW1_LIGHT2);
//also update the light1 and light2 buttons background to reflect the current state
row1_lv1.Set_background_image_pic(lt1_state?5:6);
row1_lv2.Set_background_image_pic(lt2_state?7:8);
}
void update_lcd_row2() {
bool master_state = row_is_on(ROW2_LIGHT1,ROW2_LIGHT2);
row2_master.Set_background_image_pic(master_state?11:12);
bool lt1_state = pwm_get_state(ROW2_LIGHT1);
bool lt2_state = pwm_get_state(ROW2_LIGHT2);
//also update the light1 and light2 buttons background to reflect the current state
row2_lv1.Set_background_image_pic(lt1_state?5:6);
row2_lv2.Set_background_image_pic(lt2_state?7:8);
}
void update_lcd_row3() {
bool master_state = row_is_on(ROW3_LIGHT1,ROW3_LIGHT2);
row3_master.Set_background_image_pic(master_state?13:14);
bool lt1_state = pwm_get_state(ROW3_LIGHT1);
bool lt2_state = pwm_get_state(ROW3_LIGHT2);
//also update the light1 and light2 buttons background to reflect the current state
row3_lv1.Set_background_image_pic(lt1_state?5:6);
row3_lv2.Set_background_image_pic(lt2_state?7:8);
}
void update_lcd_row4() {
bool master_state = row_is_on(ROW4_LIGHT1,ROW4_LIGHT2);
row4_master.Set_background_image_pic(master_state?15:16);
bool lt1_state = pwm_get_state(ROW4_LIGHT1);
bool lt2_state = pwm_get_state(ROW4_LIGHT2);
//also update the light1 and light2 buttons background to reflect the current state
row4_lv1.Set_background_image_pic(lt1_state?5:6);
row4_lv2.Set_background_image_pic(lt2_state?7:8);
}
void update_toggle_button() {
//calcuate the current state of the toggle button
bool current_state = row_is_on(ROW1_LIGHT1,ROW1_LIGHT2) || row_is_on(ROW2_LIGHT1,ROW2_LIGHT2) || row_is_on(ROW3_LIGHT1,ROW3_LIGHT2) || row_is_on(ROW4_LIGHT1,ROW4_LIGHT2);
light_toggle.Set_background_image_pic(current_state?3:4);
}
void update_lcd_ac() {
//update the current temperature
char temp_str[3];
sprintf(temp_str, "%d", ac_get_temperature());
cur_temp.setText(temp_str);
//update the fan speed auto is 18, high 19, medium 21, low 20
// Fan Speed 0: Auto, 1: High, 2: Mid, 3: Low
uint8_t fan_speed = ac_get_fan_speed();
if(fan_speed == 0) {
fan.Set_background_image_pic(18);
} else if(fan_speed == 1) {
fan.Set_background_image_pic(19);
} else if(fan_speed == 2) {
fan.Set_background_image_pic(21);
} else if(fan_speed == 3) {
fan.Set_background_image_pic(20);
} else {
fan.Set_background_image_pic(18);
}
//update the mode cool is 22, fan mode is 24, for off the toggle button act as indicator
//Mode 0: Off, 1: Cool, 2: Fan
uint8_t mode_state = ac_get_mode();
mode.Set_background_image_pic(mode_state==1?22:24);
//update the ac toggle button
ac_toggle.Set_background_image_pic(ac_get_mode()==0?1:2);
}
void pwm_changed_user_callback(int pin)
{
switch (pin)
if (pin == 2)
{
case ROW1_LIGHT1:
case ROW1_LIGHT2:
update_lcd_row1();
update_toggle_button();
break;
case ROW2_LIGHT1:
case ROW2_LIGHT2:
update_lcd_row2();
update_toggle_button();
break;
case ROW3_LIGHT1:
case ROW3_LIGHT2:
update_lcd_row3();
update_toggle_button();
break;
case ROW4_LIGHT1:
case ROW4_LIGHT2:
update_lcd_row4();
update_toggle_button();
break;
default:
break;
// inform the lcd when pwm 2 changed
bt0.setValue(pwm_get_state(2));
}
}
@ -360,6 +70,15 @@ void timer_tick_callback()
{
if (standalone)
{
timer1.loop();
}
}
void timer1_callback()
{
for (int i = 0; i < 16; i++)
{
pwm_set_state(i, 1);
}
}
@ -377,10 +96,4 @@ void user_state_request_callback() {
void user_mqtt_callback(char* topic, uint8_t topic_length, char* payload, unsigned int payload_length) {
}
void elcd_send_stop_bit() {
elcd.write(0xFF);
elcd.write(0xFF);
elcd.write(0xFF);
}

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@ -6,22 +6,6 @@
#include "espmega_iot_timer.hpp"
#include "espmega_iot_external_lcd.hpp"
// I/O Assignment
// Available Inputs 0-15
// Available Outputs 0-3, 7-11
// There are 4 rows of lights
// Each row has 2 lights
// Each light has 2 states
#define ROW1_LIGHT1 0
#define ROW1_LIGHT2 1
#define ROW2_LIGHT1 2
#define ROW2_LIGHT2 3
#define ROW3_LIGHT1 7
#define ROW3_LIGHT2 8
#define ROW4_LIGHT1 9
#define ROW4_LIGHT2 10
#define COMPUTER_DESK_CONTACTOR 12
// Bus Overclocking Configuration
// Do not enable if you are using external I/O cards as it will cause signal integrity issues.
// Choose only one mode
@ -41,7 +25,7 @@
// IR Kit Configuration
#define IR_RECIEVE_PIN 35
#define IR_SEND_PIN 17
#define IR_SEND_PIN 5
#define MARK_EXCESS_MICROS 20
#define IR_RAW_BUFFER_LENGTH 750
#define AC_MAX_TEMPERATURE 30
@ -60,38 +44,9 @@
// Analog Module Configuration
#define ANALOG_REPORTING_INTERVAL 500
// User Defined Variables
// User Defined Functions
#define elcd ESPMega_EXTLCD
void elcd_send_stop_bit();
bool row_is_on(int light1_pin, int light2_pin);
void update_lcd_row1();
void update_lcd_row2();
void update_lcd_row3();
void update_lcd_row4();
void update_toggle_button();
void light_toggle_pop_callback(void *ptr);
void row1_lv1_pop_callback(void *ptr);
void row1_lv2_pop_callback(void *ptr);
void row2_lv1_pop_callback(void *ptr);
void row2_lv2_pop_callback(void *ptr);
void row3_lv1_pop_callback(void *ptr);
void row3_lv2_pop_callback(void *ptr);
void row4_lv1_pop_callback(void *ptr);
void row4_lv2_pop_callback(void *ptr);
void row1_master_pop_callback(void *ptr);
void row2_master_pop_callback(void *ptr);
void row3_master_pop_callback(void *ptr);
void row4_master_pop_callback(void *ptr);
void increase_temp();
void decrease_temp();
void temp_plus_pop_callback(void *ptr);
void temp_neg_pop_callback(void *ptr);
void fan_pop_callback(void *ptr);
void mode_pop_callback(void *ptr);
void ac_toggle_pop_callback(void *ptr);
void timer1_callback();
void bt0PopCallback(void *ptr);
// User Defined IoT Core Callback Functions (Required)
void user_mqtt_callback(char* topic, uint8_t topic_length, char* payload, unsigned int payload_length);