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HomePage.hpp
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HomePage.hpp
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#pragma once
#include "Speaker.hpp"
/**
* @brief Home Page class
*
*/
class HomePage
{
private:
/**
* @brief Total number of appliaces
*
*/
int total_appliances;
/**
* @brief Total number of operating appliances
*
*/
int operating_appliances;
/**
* @brief Total number of devices
*
*/
int total_devices;
/**
* @brief Total number of operating devices
*
*/
int operating_devices;
/**
* @brief Total number of lights
*
*/
int total_lights;
/**
* @brief Total number of operating lights
*
*/
int operating_lights;
/**
* @brief Contains state for appliances
*
*/
std::vector<bool> appliances;
/**
* @brief Contains state for devices
*
*/
std::vector<bool> devices;
/**
* @brief Contains state for lights
*
*/
std::vector<bool> lights;
/**
* @brief Security mode flag
*
*/
bool security_mode;
/**
* @brief Auto light mode flag
*
*/
bool auto_light;
/**
* @brief Auto AC mode flag
*
*/
bool auto_ac;
/**
* @brief The AC tempreature
*
*/
float ac_temp;
/**
* @brief The measured tempreature
*
*/
float actual_temp;
/**
* @brief The time object
*
*/
struct tm time;
/**
* @brief Get number of turned on objects for given vector
*
* @param a
* @return int
*/
int get_on(std::vector<bool> a){
int count = 0;
for(int i = 0; i < a.size(); i++){
if(a[i] == 1){
count++;
}
}
return count;
}
/**
* @brief Assigns the number of operating peripherals
*
*/
void check_on(){
operating_appliances = get_on(appliances);
operating_devices = get_on(devices);
operating_lights = get_on(lights);
}
public:
/**
* @brief Construct a new Home Page object
*
*/
HomePage(){
operating_lights = 0;
operating_appliances = 0;
operating_devices = 0;
security_mode = true;
auto_light = false;
auto_ac = true;
appliances.resize(N_APPLIANCES, 0);
devices.resize(N_DEVICES, 0);
lights.resize(N_LIGHTS, 0);
ac_temp = 24.0;
actual_temp = 25.0;
}
/**
* @brief Resets devices
*
*/
void reset_devices(){
for(int i = 0; i < N_DEVICES; i++){
devices_out[i] = devices[i];
}
}
/**
* @brief Resets appliances
*
*/
void reset_appliances(){
for(int i = 0; i < N_APPLIANCES; i++){
appliances_out[i] = appliances[i];
}
}
/**
* @brief Resets lights
*
*/
void reset_lights(){
for(int i = 0; i < N_LIGHTS; i++){
lights_out[i] = lights[i];
}
}
/**
* @brief Recets AC value
*
*/
void reset_ac(){
ac_out.write((ac_temp-MIN_TEMP)/(MAX_TEMP-MIN_TEMP));
}
/**
* @brief Set the total appliances
*
* @param n
*/
void set_total_appliances(int n){
appliances.resize(n);
}
/**
* @brief Set the total devices
*
* @param n
*/
void set_total_devices(int n){
devices.resize(n);
}
/**
* @brief Set the total lights
*
* @param n
*/
void set_total_lights(int n){
lights.resize(n);
}
/**
* @brief Set the auto light flag
*
* @param flag
*/
void set_auto_light(bool flag){
auto_light = flag;
}
/**
* @brief Set the security mode flag
*
* @param flag
*/
void set_security_mode(bool flag){
security_mode = flag;
}
/**
* @brief Set the auto ac flag
*
* @param flag
*/
void set_auto_ac(bool flag){
auto_ac = flag;
}
/**
* @brief Set the ac tempreature
*
* @param val
*/
void set_ac_temp(float val){
ac_temp = val;
reset_ac();
}
/**
* @brief Set the actual tempreature
*
* @param val
*/
void set_actual_temp(float val){
actual_temp = val;
}
/**
* @brief Set the time date object
*
* @param hour
* @param mins
* @param day
* @param month
* @param year
*/
void set_time_date(int hour, int mins, int day, int month, int year){
time.tm_hour = hour;
time.tm_min = mins;
time.tm_sec = 0;
time.tm_year = year-1900;
time.tm_mon = month-1;
time.tm_mday = day;
set_time(mktime(&time));
}
/**
* @brief Set the time only object
*
* @param hour
* @param mins
*/
void set_time_only(int hour, int mins){
time.tm_hour = hour;
time.tm_min = mins;
time.tm_sec = 0;
set_time(mktime(&time));
}
/**
* @brief Set the date only object
*
* @param day
* @param month
* @param year
*/
void set_date_only(int day, int month, int year){
time.tm_year = year-1900;
time.tm_mon = month-1;
time.tm_mday = day;
set_time(mktime(&time));
}
/**
* @brief Set the devices object
*
* @param a
*/
void set_devices(std::vector<bool> a){
devices = a;
reset_devices();
}
/**
* @brief Set the lights object
*
* @param a
*/
void set_lights(std::vector<bool> a){
lights = a;
reset_lights();
}
/**
* @brief Set the appliances object
*
* @param a
*/
void set_appliances(std::vector<bool> a){
appliances = a;
reset_appliances();
}
/**
* @brief Get the auto light flag
*
* @return true
* @return false
*/
bool get_auto_light(){
return auto_light;
}
/**
* @brief Get the security mode flag
*
* @return true
* @return false
*/
bool get_security_mode(){
return security_mode;
}
/**
* @brief Get the auto ac tempreature
*
* @return true
* @return false
*/
bool get_auto_ac(){
return auto_ac;
}
/**
* @brief Get the year
*
* @return int
*/
int get_year(){
return time.tm_year+1900;
}
/**
* @brief Get the month
*
* @return int
*/
int get_month(){
return time.tm_mon+1;
}
/**
* @brief Get the day
*
* @return int
*/
int get_day(){
return time.tm_mday;
}
/**
* @brief Get the hour
*
* @return int
*/
int get_hour(){
return time.tm_hour;
}
/**
* @brief Get the minute
*
* @return int
*/
int get_minute(){
return time.tm_min;
}
/**
* @brief Get the actual tempreature
*
* @return float
*/
float get_temp(){
return actual_temp;
}
/**
* @brief Get the devices object
*
* @return std::vector<bool>
*/
std::vector<bool> get_devices(){
return devices;
}
/**
* @brief Get the lights object
*
* @return std::vector<bool>
*/
std::vector<bool> get_lights(){
return lights;
}
/**
* @brief Get the appliances object
*
* @return std::vector<bool>
*/
std::vector<bool> get_appliances(){
return appliances;
}
/**
* @brief Shows the page
*
* @param seconds
*/
void show_page(time_t* seconds){
lcd.clear();
check_on();
// header
lcd.drawSprite(WIDTH-LEN(right_arrow[0]), 0, LEN(right_arrow), LEN(right_arrow[0]), (int *)right_arrow);
lcd.drawSprite(0.5*WIDTH-0.5*LEN(home_icon[0]), 0, LEN(home_icon), LEN(home_icon[0]), (int *)home_icon);
// Date and time
char date[9];
char time[9];
strftime(time, 9, "%I:%M %p", localtime(seconds));
strftime(date, 9, "%d/%m/%y", localtime(seconds));
lcd.printString(time, SP*2, 1);
lcd.printString(date, SP*2, 2);
// box[0,0]
lcd.drawRect(0, SP*7, 0.65*WIDTH, 0.4*HEIGHT-2*SP, FILL_TRANSPARENT);
// Tempreatures
char temp[6];
sprintf(temp,"%.0f C",ac_temp);
lcd.printString(temp,0.65*WIDTH+3*SP,1);
sprintf(temp,"%.0f C",actual_temp);
lcd.printString(temp,0.65*WIDTH+3*SP,2);
// box[1,0]
lcd.drawRect(0.65*WIDTH+SP, SP*7, WIDTH-(0.65*WIDTH), 0.4*HEIGHT-2*SP, FILL_TRANSPARENT);
// flags
lcd.drawSprite(0, 0.4*HEIGHT-2*SP+SP*7, LEN(light_icon), LEN(light_icon[0]), (int *)light_icon);
if(auto_light){
lcd.drawSprite(LEN(light_icon[0])+SP, 0.4*HEIGHT-2*SP+SP*7, LEN(correct_icon), LEN(correct_icon[0]), (int *)correct_icon);
}
else{
lcd.drawSprite(LEN(light_icon[0])+SP, 0.4*HEIGHT-2*SP+SP*7, LEN(false_icon), LEN(false_icon[0]), (int *)false_icon);
}
lcd.drawSprite(WIDTH-(LEN(lock_icon[0])+LEN(correct_icon[0])+3*SP), 0.4*HEIGHT-2*SP+SP*7, LEN(lock_icon), LEN(lock_icon[0]), (int *)lock_icon);
if(security_mode){
lcd.drawSprite(WIDTH-(LEN(lock_icon[0])+SP), 0.4*HEIGHT-2*SP+SP*7, LEN(correct_icon), LEN(correct_icon[0]), (int *)correct_icon);
}
else{
lcd.drawSprite(WIDTH-(LEN(lock_icon[0])+SP), 0.4*HEIGHT-2*SP+SP*7, LEN(false_icon), LEN(false_icon[0]), (int *)false_icon);
}
lcd.drawSprite(0.5*WIDTH-(LEN(ac_icon[0])+2*SP), 0.4*HEIGHT-2*SP+SP*7, LEN(ac_icon), LEN(ac_icon[0]), (int *)ac_icon);
if(auto_ac){
lcd.drawSprite(0.5*WIDTH-0.5*LEN(home_icon[0])+3*SP, 0.4*HEIGHT-2*SP+SP*7, LEN(correct_icon), LEN(correct_icon[0]), (int *)correct_icon);
}
else{
lcd.drawSprite(0.5*WIDTH-0.5*LEN(home_icon[0])+3*SP, 0.4*HEIGHT-2*SP+SP*7, LEN(false_icon), LEN(false_icon[0]), (int *)false_icon);
}
// Devices and appliances
char nd_np[9];
sprintf(nd_np,"D:%i A:%i", (int) devices.size(), (int) appliances.size());
lcd.printString(nd_np, SP*2, 4);
sprintf(nd_np,"%i %i",operating_devices, operating_appliances);
lcd.printString(nd_np, SP*2, 5);
// logos
lcd.drawCircle(15+SP, HEIGHT-(4+SP), 3, FILL_TRANSPARENT);
lcd.drawLine(15+SP, HEIGHT-(4+SP+3), 15+SP, HEIGHT-(4+SP), FILL_BLACK);
lcd.drawCircle(45+SP, HEIGHT-(4+SP), 3, FILL_TRANSPARENT);
lcd.drawLine(45+SP, HEIGHT-(4+SP+3), 45+SP, HEIGHT-(4+SP), FILL_BLACK);
// bpx[0,1]
lcd.drawRect(0, 0.65*HEIGHT, 0.65*WIDTH, HEIGHT-(0.65*HEIGHT)+SP, FILL_TRANSPARENT);
// On lights
char buff_lights[5];
sprintf(buff_lights,"L:%i",(int) lights.size());
lcd.printString(buff_lights,0.65*WIDTH+3*SP,4);
sprintf(buff_lights,"%i",operating_lights);
lcd.printString(buff_lights,0.65*WIDTH+3*SP,5);
// logos
lcd.drawCircle(0.65*WIDTH+15+2*SP, HEIGHT-(4+SP), 3, FILL_TRANSPARENT);
lcd.drawLine(0.65*WIDTH+15+2*SP, HEIGHT-(4+SP+3), 0.65*WIDTH+15+2*SP, HEIGHT-(4+SP), FILL_BLACK);
// box[1,1]
lcd.drawRect(0.65*WIDTH+SP, 0.65*HEIGHT, WIDTH-(0.65*WIDTH), HEIGHT-(0.65*HEIGHT)+SP, FILL_TRANSPARENT);
}
};