Lvgl 8.3.11 and QR code library

I'm trying to use the qr code library but it's not compiling.

I've searched online for the correct #include line but nothing works, either it doesn't find the include and stop compiling or it says "error: 'lv_qrcode_create' was not declared in this scope".

Currently I've got #include "extra/libs/qrcode/lv_qrcode.h and it doesn't complain about finding the include but it still has the compilation error as follows:

C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino: In function 'void DisplayMainStatusPanel(lv_obj_t*)':
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:1306:26: error: 'lv_qrcode_create' was not declared in this scope
   lv_obj_t *lv_SN_qrcode=lv_qrcode_create(obj,100,lv_color_hex3(0x000),lv_color_hex3(0xFFF));
                          ^~~~~~~~~~~~~~~~
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:1306:26: note: suggested alternative: 'lv_arc_create'
   lv_obj_t *lv_SN_qrcode=lv_qrcode_create(obj,100,lv_color_hex3(0x000),lv_color_hex3(0xFFF));
                          ^~~~~~~~~~~~~~~~
                          lv_arc_create
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:1307:3: error: 'lv_qrcode_update' was not declared in this scope
   lv_qrcode_update(lv_SN_qrcode, Temp.c_str(), Temp.length());
   ^~~~~~~~~~~~~~~~
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:1307:3: note: suggested alternative: 'lv_arc_create'
   lv_qrcode_update(lv_SN_qrcode, Temp.c_str(), Temp.length());
   ^~~~~~~~~~~~~~~~
   lv_arc_create

exit status 1

Compilation error: 'lv_qrcode_create' was not declared in this scope

To override the default lv_conf.h to add extra functionalities, the best method currently is:

• create a folder in $sketchbook/libraries (calling it, for example, lvgl_qrcode), inside this library create an empty lv_conf_qrcode.h and a valid lv_conf.h (copy the content of lv_conf_8.h and change LV_USE_QRCODE to 1)
• In your sketch, before any other include, include lv_conf_qrcode.h

This will make the lvgl header discovery pick your modified config file instead than the default one.

This is the same method used by this tutorial (an example of the overwriting library is in the downloadable section)

When you specified $sketchbook what does that resolve to? Is that the starting path for the project main ino file?

Assuming the above I created the folder structure (C:\Users\OBFUSCATED\Documents\Arduino\agsmac\libraries\lvgl_qrcode) and did as you indicated with files but there was no lv_conf_8.h but there was an lv_conf_template.h so I used that instead. Also as instructed I put in #include "lv_conf_qrcode.h" before all the other includes.

Unfortunately, the compiler immediately returned with the following:

 #include "lv_conf_qrcode.h"
          ^~~~~~~~~~~~~~~~~~
compilation terminated.
exit status 1

Compilation error: lv_conf_qrcode.h: No such file or directory```

It is the path you will see in the "Sketchbook location" field in the Arduino IDE preferences (File > Preferences).

image816×221 9.44 KB

Well, it's an improvement, but after moving the files to the specified location I got the following compilation errors:

In file included from c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\src/misc/lv_log.h:16:0,
                 from c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\lvgl.h:25,
                 from C:\Users\OBFUSCATED\Documents\Arduino\libraries\lvgl\src/lvgl.h:17,
                 from C:\Users\OBFUSCATED\Documents\Arduino\agsmac\logo.c:10:
c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\src\lv_conf_internal.h:46:17: note: #pragma message: Possible failure to include lv_conf.h, please read the comment in this file if you get errors
         #pragma message("Possible failure to include lv_conf.h, please read the comment in this file if you get errors")
                 ^~~~~~~
In file included from c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\src/misc/lv_log.h:16:0,
                 from c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\lvgl.h:25,
                 from C:\Users\OBFUSCATED\Documents\Arduino\libraries\lvgl\src/lvgl.h:17,
                 from C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:19:
c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\src\lv_conf_internal.h:46:120: note: #pragma message: Possible failure to include lv_conf.h, please read the comment in this file if you get errors
         #pragma message("Possible failure to include lv_conf.h, please read the comment in this file if you get errors")
                                                                                                                        ^
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino: In function 'void DisplayMainStatusPanel(lv_obj_t*)':
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:1308:26: error: 'lv_qrcode_create' was not declared in this scope
   lv_obj_t *lv_SN_qrcode=lv_qrcode_create(obj,100,lv_color_hex3(0x000),lv_color_hex3(0xFFF));
                          ^~~~~~~~~~~~~~~~
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:1308:26: note: suggested alternative: 'lv_arc_create'
   lv_obj_t *lv_SN_qrcode=lv_qrcode_create(obj,100,lv_color_hex3(0x000),lv_color_hex3(0xFFF));
                          ^~~~~~~~~~~~~~~~
                          lv_arc_create
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:1309:3: error: 'lv_qrcode_update' was not declared in this scope
   lv_qrcode_update(lv_SN_qrcode, Temp.c_str(), Temp.length());
   ^~~~~~~~~~~~~~~~
C:\Users\OBFUSCATED\Documents\Arduino\agsmac\agsmac.ino:1309:3: note: suggested alternative: 'lv_arc_create'
   lv_qrcode_update(lv_SN_qrcode, Temp.c_str(), Temp.length());
   ^~~~~~~~~~~~~~~~
   lv_arc_create
In file included from c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\src/misc/lv_log.h:16:0,
                 from c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\lvgl.h:25,
                 from C:\Users\OBFUSCATED\Documents\Arduino\libraries\lvgl\src/lvgl.h:17,
                 from C:\Users\OBFUSCATED\Documents\Arduino\agsmac\Logs.cpp:7:
c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\src\lv_conf_internal.h:46:120: note: #pragma message: Possible failure to include lv_conf.h, please read the comment in this file if you get errors
         #pragma message("Possible failure to include lv_conf.h, please read the comment in this file if you get errors")
                                                                                                                        ^
In file included from c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\src/misc/lv_log.h:16:0,
                 from c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\lvgl.h:25,
                 from C:\Users\OBFUSCATED\Documents\Arduino\libraries\lvgl\src/lvgl.h:17,
                 from C:\Users\OBFUSCATED\Documents\Arduino\agsmac\Times.cpp:7:
c:\users\OBFUSCATED\documents\arduino\libraries\lvgl\src\lv_conf_internal.h:46:120: note: #pragma message: Possible failure to include lv_conf.h, please read the comment in this file if you get errors
         #pragma message("Possible failure to include lv_conf.h, please read the comment in this file if you get errors")
                                                                                                                        ^

exit status 1

Compilation error: 'lv_qrcode_create' was not declared in this scope

Was there something supposed to go into lv_conf_qrcode.h?

What an absolutely convoluted mess to go through. These compiles also frustratingly take forever to compile anything before it spits out an error.

Please post the following things:

• Your sketch code
• The contents of the lv_conf.h file from your custom "lvgl_qrcode" library

Once I have those, I'll investigate and hopefully be able to provide you with guidance to solve the problem.

agsmac.ino:

/*
  agsmac by OBFUSCATED

  created 11/13/2024

  use version 4.1.5 of the [Arduino Mbed OS Giga Boards] library.
  use version 8.3.11 of the [lvgl] library.
  use version 0.3.1 of the [Arduino_USBHostMbed5] library.


*/

#include "lv_conf_qrcode.h"

#include "Arduino_H7_Video.h"
#include "Arduino_GigaDisplayTouch.h"

#include "lvgl.h"
#include "extra/libs/qrcode/lv_qrcode.h"

#include "KVStore.h"
#include "kvstore_global_api.h"
#include "mbed.h"

//#include <SPI.h>
#include <WiFi.h>

#include "ValidateRoutines.h"
#include "Logs.h"
#include "Times.h"
#include "SerialNumber.h"

Arduino_H7_Video          Display(800, 480, GigaDisplayShield); /* Arduino_H7_Video Display(1024, 768, USBCVideo); */
Arduino_GigaDisplayTouch  TouchDetector;

WiFiClient WiFi_client;

typedef void (*WiFiConfig4Callback)(bool IsBack);
typedef void (*WiFiConfig3Callback)(bool IsBack);
typedef void (*WiFiConfig2Callback)(bool IsBack);
typedef void (*WiFiConfig1Callback)(bool IsCancel);
enum WiFi_IP_Method_enum_t{WiFi_IP_Method_DHCP=0,WiFi_IP_Method_Static=1};

static String Debug_EventCodeToString(lv_event_code_t code);
constexpr unsigned long printInterval { 1000 };
unsigned long printNow {};
String timeServer("pool.ntp.org");

bool saveStringSetting(const String &Key,const String &Val)
{
  int ret = kv_set(Key.c_str(), Val.c_str(), Val.length(), 0);
  if (ret != MBED_SUCCESS) {
    return false;
  } else {
    return true;
  }
}

String loadStringSetting(const String &Key)
{
  char buffer[256];  // Adjust size as needed
  memset(buffer,0,sizeof(buffer));
  size_t actual_size;
  int ret = kv_get(Key.c_str(), buffer, sizeof(buffer)-1, &actual_size);
  if (ret != MBED_SUCCESS) {
    return "";
  } else {
    String Res=((char *)buffer);
    return Res;
  }
}

lv_obj_t * DateTimeDisplay_lbl=NULL;

struct WiFi_scan_list_parameters
{
  String SSID;
  wl_enc_type encryptionType;
};
const char * EncryptionTypeDisplayStrings[]={"WEP","WPA/TKIP","WPA2/CCMP","WPA3/GCMP","None","Unknown","Auto"};
const wl_enc_type EncryptionTypeDisplayMap[]={ENC_TYPE_WEP,ENC_TYPE_WPA,ENC_TYPE_WPA2,ENC_TYPE_WPA3,ENC_TYPE_NONE,ENC_TYPE_UNKNOWN,ENC_TYPE_AUTO};
const int EncryptionTypeToCBIMap[]={5,5,1,5,2,0,3,4,6,5};

const char * WiFi_IP_Method_DisplayStrings[]={"DHCP(Automatic)","Static (Manual)"};
const WiFi_IP_Method_enum_t WiFi_IP_Method_DisplayMap[]={WiFi_IP_Method_DHCP,WiFi_IP_Method_Static};
const int WiFi_IP_Method_ToCBIMap[]={0,1};

static lv_color_t *lv_QR_canvas_buffer=NULL;

lv_obj_t * WiFi_Config_Display_obj=NULL;
lv_obj_t * WiFi_scan_list=NULL;
lv_obj_t * WiFi_Rescan_btn=NULL;
lv_obj_t * WiFi_SSID_ta=NULL;
lv_obj_t * WiFi_Pass_ta=NULL;
lv_obj_t * WiFi_kb=NULL;
lv_obj_t * WiFi_SSID_label;
lv_obj_t * WiFi_Next1_btn=NULL;
lv_obj_t * WiFi_Back1_btn=NULL;
lv_obj_t * WiFi_Next3_btn=NULL;
lv_obj_t * WiFi_Back3_btn=NULL;
lv_obj_t * WiFi_EncType_dd=NULL;
lv_obj_t * WiFi_WepKeyIndex_dd=NULL;
lv_obj_t * WiFi_WepKeyIndex_lbl=NULL;
lv_obj_t * WiFi_IP_Method_dd=NULL;
lv_obj_t * WiFi_Static_IP_lbl=NULL;
lv_obj_t * WiFi_Static_IP_ta=NULL;
lv_obj_t * WiFi_Static_Netmask_lbl=NULL;
lv_obj_t * WiFi_Static_Netmask_ta=NULL;
lv_obj_t * WiFi_Static_Gateway_lbl=NULL;
lv_obj_t * WiFi_Static_Gateway_ta=NULL;
lv_obj_t * NTP_Server_ta=NULL;
lv_obj_t * NTP_Server_kb=NULL;

String WiFi_SSID="";
wl_enc_type WiFi_encryptionType=ENC_TYPE_AUTO;
String WiFi_Pass="";
int WiFi_keyIndex=1;
volatile int WiFi_status=WL_IDLE_STATUS;
WiFi_IP_Method_enum_t WiFi_IP_Method=WiFi_IP_Method_DHCP;
String WiFi_Static_IP="";
String WiFi_Static_Netmask="";
String WiFi_Static_Gateway="";

wl_enc_type WiFi_ConfigTemp_encryptionType=ENC_TYPE_AUTO;
String WiFi_ConfigTemp_SSID="";
String WiFi_ConfigTemp_Pass="";
int WiFi_ConfigTemp_keyIndex=1;
WiFi_IP_Method_enum_t WiFi_ConfigTemp_IP_Method=WiFi_IP_Method_DHCP;
String WiFi_ConfigTemp_Static_IP="";
String WiFi_ConfigTemp_Static_Netmask="";
String WiFi_ConfigTemp_Static_Gateway="";

void WiFi_config4_callback_mbox_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  lv_obj_t *current_target=lv_event_get_current_target(event);
  void *user_data=target->user_data;
  void *current_user_data=current_target->user_data;

  switch(code)
  {
    case LV_EVENT_VALUE_CHANGED:
    if(current_target!=target)
    {
      uint32_t id=lv_btnmatrix_get_selected_btn(target);
      switch(id)
      {
        case 0://Abort
        lv_msgbox_close(current_target);
        DisplayMainStatusPanel(WiFi_Config_Display_obj);
        return;
        case 1://Start Over
        lv_msgbox_close(current_target);
        lv_obj_clean(WiFi_Config_Display_obj);
        DisplayWiFiConfig1(WiFi_Config_Display_obj,WiFi_SSID,WiFi_config1_callback);
        return;
        case 2://Apply
        lv_msgbox_close(current_target);
        #define narf(x) WiFi_##x = WiFi_ConfigTemp_##x;
        narf(encryptionType)
        narf(SSID)
        narf(Pass)
        narf(keyIndex)
        narf(IP_Method)
        narf(Static_IP)
        narf(Static_Netmask)
        narf(Static_Gateway)
        #undef narf
        saveStringSetting("WiFi_encryptionType",String((int)WiFi_encryptionType));
        saveStringSetting("WiFi_SSID",WiFi_SSID);
        saveStringSetting("WiFi_Pass",WiFi_Pass);
        saveStringSetting("WiFi_keyIndex",String((int)WiFi_keyIndex));
        saveStringSetting("WiFi_IP_Method",String((int)WiFi_IP_Method));
        saveStringSetting("WiFi_Static_IP",WiFi_Static_IP);
        saveStringSetting("WiFi_Static_Netmask",WiFi_Static_Netmask);
        saveStringSetting("WiFi_Static_Gateway",WiFi_Static_Gateway);
        DisplayMainStatusPanel(WiFi_Config_Display_obj);
        break;
      }
    }
    break;
  }
}

void WiFi_config4_callback(bool IsBack)
{
  lv_refr_now(NULL);
  lv_obj_clean(WiFi_Config_Display_obj);
  lv_obj_t *ip_info_table=lv_table_create(WiFi_Config_Display_obj);
  #define narf(t,r) lv_table_set_cell_value(ip_info_table,r,0,t);
  narf("Mac Address",0);
  narf("IP",1);
  narf("Netmask",2);
  narf("Gateway",3);
  #undef narf
  #define narf(t,r) lv_table_set_cell_value(ip_info_table,r,1,t);
  String macAddress=WiFi.macAddress();
  macAddress.toUpperCase();
  narf(macAddress.c_str(),0);
  narf(WiFi.localIP().toString().c_str(),1);
  narf(WiFi.subnetMask().toString().c_str(),2);
  narf(WiFi.gatewayIP().toString().c_str(),3);
  #undef narf
  if(IsBack)
  {
    static const char * btnsF[]={"Abort","Start Over",""};
    lv_obj_t * mbox=lv_msgbox_create(NULL, "WiFi Connection", "Failed", btnsF, true);
    lv_obj_t * lv_mbox_btns=lv_msgbox_get_btns(mbox);
    lv_obj_align(mbox,LV_ALIGN_RIGHT_MID,0,-20);
    lv_obj_add_event_cb(mbox,WiFi_config4_callback_mbox_event_cb,LV_EVENT_VALUE_CHANGED/*LV_EVENT_ALL*/,NULL);
  }
  else
  {
    static const char * btnsS[]={"Abort","Start Over","Apply",""};
    lv_obj_t * mbox=lv_msgbox_create(NULL, "WiFi Connection", "Success", btnsS, true);
    lv_obj_t * lv_mbox_btns=lv_msgbox_get_btns(mbox);
    lv_obj_align(mbox,LV_ALIGN_RIGHT_MID,0,-20);
    lv_obj_add_event_cb(mbox,WiFi_config4_callback_mbox_event_cb,LV_EVENT_VALUE_CHANGED/*LV_EVENT_ALL*/,NULL);
  }
}

static void WiFi_SSID_ta_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  switch(code)
  {
    case LV_EVENT_FOCUSED:
    case LV_EVENT_PRESSED:
    case LV_EVENT_CLICKED:
    case LV_EVENT_LONG_PRESSED:
    case LV_EVENT_LONG_PRESSED_REPEAT:
    lv_keyboard_set_textarea(WiFi_kb,WiFi_SSID_ta);
    lv_obj_clear_flag(WiFi_kb, LV_OBJ_FLAG_HIDDEN);
    return;
    case LV_EVENT_DEFOCUSED:
    lv_keyboard_set_textarea(WiFi_kb,NULL);
    lv_obj_add_flag(WiFi_kb, LV_OBJ_FLAG_HIDDEN);
    return;
  }
}

static void WiFi_Pass_ta_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  switch(code)
  {
    case LV_EVENT_FOCUSED:
    case LV_EVENT_PRESSED:
    case LV_EVENT_CLICKED:
    case LV_EVENT_LONG_PRESSED:
    case LV_EVENT_LONG_PRESSED_REPEAT:
    lv_keyboard_set_textarea(WiFi_kb,WiFi_Pass_ta);
    lv_obj_clear_flag(WiFi_kb, LV_OBJ_FLAG_HIDDEN);
    return;
    case LV_EVENT_DEFOCUSED:
    lv_keyboard_set_textarea(WiFi_kb,NULL);
    lv_obj_add_flag(WiFi_kb, LV_OBJ_FLAG_HIDDEN);
    return;
  }
}

static void Password_Show_checkbox_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  switch(code)
  {
    case LV_EVENT_VALUE_CHANGED:
    lv_obj_t *target=lv_event_get_target(event);
    lv_state_t state=lv_obj_get_state(target);
    if(state & LV_STATE_CHECKED)
    {
      lv_textarea_set_password_mode(WiFi_Pass_ta,false);
    }
    else
    {
      lv_textarea_set_password_mode(WiFi_Pass_ta,true);
    }
    return;
  }
}

static void Next2_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  switch(code)
  {
    case LV_EVENT_CLICKED:
    lv_obj_t *target=lv_event_get_target(event);
    void *user_data=target->user_data;
    if(user_data)
    {
      WiFiConfig2Callback callback=(WiFiConfig2Callback)user_data;
      if(WiFi_SSID_ta!=NULL)
      {
        WiFi_ConfigTemp_SSID=lv_textarea_get_text(WiFi_SSID_ta);
      }
      if(WiFi_Pass_ta!=NULL)
      {
        WiFi_ConfigTemp_Pass=lv_textarea_get_text(WiFi_Pass_ta);
      }
      if(WiFi_WepKeyIndex_dd!=NULL)
      {
        WiFi_ConfigTemp_keyIndex=lv_dropdown_get_selected(WiFi_WepKeyIndex_dd)+1;
      }
      wl_enc_type encryptionType=ENC_TYPE_AUTO;
      if(WiFi_EncType_dd!=NULL)
      {
        WiFi_ConfigTemp_encryptionType=EncryptionTypeDisplayMap[lv_dropdown_get_selected(WiFi_EncType_dd)];
      }
      callback(false);
    }
    return;
  }
}

static void Back2_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  switch(code)
  {
    case LV_EVENT_CLICKED:
    lv_obj_t *target=lv_event_get_target(event);
    void *user_data=target->user_data;
    if(user_data)
    {
      WiFiConfig2Callback callback=(WiFiConfig2Callback)user_data;
      if(WiFi_SSID_ta!=NULL)
      {
        WiFi_ConfigTemp_SSID=lv_textarea_get_text(WiFi_SSID_ta);
      }
      WiFi_ConfigTemp_Pass="";
      callback(true);
    }
    return;
  }
}

lv_obj_t * WiFi_scan_current_btn=NULL;
WiFi_scan_list_parameters * WiFi_scan_current_slp=NULL;


void DisplayWiFiConfig1_Scan(void)
{
  WiFi_scan_current_btn=NULL;
  WiFi_scan_current_slp=NULL;
  WiFiConfig1Callback callback=(WiFiConfig1Callback)(WiFi_scan_list->user_data);
  lv_label_set_text(WiFi_SSID_label,"");
  lv_obj_add_state(WiFi_Rescan_btn, LV_STATE_DISABLED);
  lv_obj_add_state(WiFi_Next1_btn, LV_STATE_DISABLED);
  lv_obj_clean(WiFi_scan_list);
  lv_refr_now(NULL);
  int8_t numNetworks=WiFi.scanNetworks();
  for(int8_t i=0;i<numNetworks;i++)
  {
    String SSID=WiFi.SSID(i);
    if(SSID.isEmpty())continue;
    if(strcmp(SSID.c_str(),"")==0)continue;
    String Caption;
    wl_enc_type encryptionType=(wl_enc_type)(WiFi.encryptionType(i));
    String EType=EncryptionTypeDisplayStrings[EncryptionTypeToCBIMap[encryptionType]];
    //String EType(encryptionType);
    Caption=SSID+" ["+EType+"]";
    WiFi_scan_list_parameters *slp=new WiFi_scan_list_parameters;
    slp->SSID=SSID;
    slp->encryptionType=encryptionType;
    lv_obj_t *btn=lv_list_add_btn(WiFi_scan_list,LV_SYMBOL_WIFI,Caption.c_str());
    btn->user_data=(void *)slp;
    lv_obj_add_event_cb(btn,(lv_event_cb_t)WiFi_scan_list_btn_event_cb,LV_EVENT_ALL,NULL);
  }
  wl_enc_type encryptionType=(wl_enc_type)0;
  WiFi_scan_list_parameters *slp=new WiFi_scan_list_parameters;
  slp->SSID="";
  slp->encryptionType=encryptionType;
  lv_obj_t *btn=lv_list_add_btn(WiFi_scan_list,LV_SYMBOL_WIFI,"");
  btn->user_data=(void *)slp;
  lv_obj_add_event_cb(btn,(lv_event_cb_t)WiFi_scan_list_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_clear_state(WiFi_Rescan_btn, LV_STATE_DISABLED);
}

void WiFi_scan_list_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);
  void *user_data=target->user_data;
  WiFi_scan_list_parameters *slp=(WiFi_scan_list_parameters *)user_data;
  switch(code)
  {
    case LV_EVENT_DELETE:
    if(slp!=NULL)
    {
      target=NULL;
      delete slp;
    }
    return;
    case LV_EVENT_CLICKED:
    if(WiFi_scan_current_btn!=NULL && WiFi_scan_current_btn!=target)
    {
      lv_obj_clear_state(WiFi_scan_current_btn,LV_STATE_PRESSED);
    }
    if(slp!=NULL)
    {
      lv_obj_add_state(target,LV_STATE_PRESSED);
      lv_obj_clear_state(WiFi_Next1_btn, LV_STATE_DISABLED);
      WiFi_scan_current_btn=target;
      WiFi_scan_current_slp=slp;
      lv_label_set_text(WiFi_SSID_label,slp->SSID.c_str());
    }
    return;
  }
}

void WiFi_Rescan_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  switch(code)
  {
    case LV_EVENT_CLICKED:
    DisplayWiFiConfig1_Scan();
    return;
  }
}

void WiFi_Back1_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);
  void *user_data=target->user_data;
  WiFiConfig1Callback callback=(WiFiConfig1Callback)user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    if(callback)
    {
      WiFi_ConfigTemp_encryptionType=ENC_TYPE_AUTO;
      WiFi_ConfigTemp_SSID="";
      WiFi_ConfigTemp_Pass="";
      WiFi_ConfigTemp_keyIndex=0;
      callback(true);
    }
    return;
  }
}

void WiFi_Next1_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);
  void *user_data=target->user_data;
  WiFiConfig1Callback callback=(WiFiConfig1Callback)user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    if(callback)
    {
      String SSID=lv_label_get_text(WiFi_SSID_label);
      wl_enc_type encryptionType=ENC_TYPE_AUTO;
      if(WiFi_scan_current_slp)
      {
        encryptionType=WiFi_scan_current_slp->encryptionType;
      }
      WiFi_ConfigTemp_SSID=SSID;
      WiFi_ConfigTemp_encryptionType=encryptionType;
      callback(false);
    }
    return;
  }
}

void DisplayWiFiConfig1(lv_obj_t *obj,const String &Current_SSID,WiFiConfig1Callback callback)
{
  //LV_SYMBOL_WIFI
  lv_obj_t *label;

  WiFi_scan_list = lv_list_create(obj);
  lv_obj_set_size(WiFi_scan_list, 350, 391);
  WiFi_scan_list->user_data=(void *)callback;

  WiFi_Rescan_btn=lv_btn_create(obj);
  label=lv_label_create(WiFi_Rescan_btn);
  lv_label_set_text(label,"Rescan");
  lv_obj_set_x(WiFi_Rescan_btn,355);
  lv_obj_set_y(WiFi_Rescan_btn,0);

  WiFi_SSID_label=lv_label_create(obj);
  lv_label_set_text(WiFi_SSID_label,"");
  lv_obj_set_x(WiFi_SSID_label,355);
  lv_obj_set_y(WiFi_SSID_label,95);

  WiFi_Next1_btn=lv_btn_create(obj);
  label=lv_label_create(WiFi_Next1_btn);
  lv_label_set_text(label,"Next");
  lv_obj_add_state(WiFi_Next1_btn, LV_STATE_DISABLED);
  WiFi_Next1_btn->user_data=(void *)callback;

  WiFi_Back1_btn=lv_btn_create(obj);
  label=lv_label_create(WiFi_Back1_btn);
  lv_label_set_text(label,"Cancel");
  WiFi_Back1_btn->user_data=(void *)callback;

  lv_obj_set_x(WiFi_Back1_btn,355);
  lv_obj_set_y(WiFi_Back1_btn,120);

  lv_obj_align_to(WiFi_Next1_btn,WiFi_Back1_btn,LV_ALIGN_OUT_RIGHT_MID,5,0);

  lv_obj_add_event_cb(WiFi_Rescan_btn,(lv_event_cb_t)WiFi_Rescan_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(WiFi_Back1_btn,(lv_event_cb_t)WiFi_Back1_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(WiFi_Next1_btn,(lv_event_cb_t)WiFi_Next1_btn_event_cb,LV_EVENT_ALL,NULL);

  DisplayWiFiConfig1_Scan();
}

void WiFi_EncType_dd_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_READY:
    lv_obj_add_flag(WiFi_WepKeyIndex_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_WepKeyIndex_dd, LV_OBJ_FLAG_HIDDEN);
    return;
    case LV_EVENT_VALUE_CHANGED:
    case LV_EVENT_CANCEL:
    int selectedEncType=lv_dropdown_get_selected(WiFi_EncType_dd);
    if(EncryptionTypeDisplayMap[selectedEncType]!=ENC_TYPE_WEP)
    {
      lv_obj_add_flag(WiFi_WepKeyIndex_lbl, LV_OBJ_FLAG_HIDDEN);
      lv_obj_add_flag(WiFi_WepKeyIndex_dd, LV_OBJ_FLAG_HIDDEN);
    }
    else
    {
      lv_obj_clear_flag(WiFi_WepKeyIndex_lbl, LV_OBJ_FLAG_HIDDEN);
      lv_obj_clear_flag(WiFi_WepKeyIndex_dd, LV_OBJ_FLAG_HIDDEN);
    }
    return;
  }
}

void DisplayWiFiConfig2(lv_obj_t *obj,uint8_t encryptionType,bool Disable_SSID,const String &Current_SSID,const String &Current_Pass, int CurrentKeyIndex /*1-4*/,WiFiConfig2Callback callback)
{
  lv_obj_t * label;

  if(!Disable_SSID)
  {
    label=lv_label_create(obj);
    lv_label_set_text(label,"Security Type:");
    lv_obj_set_width(label,700);
    lv_obj_align(label,LV_ALIGN_OUT_TOP_MID,0,0);

    WiFi_EncType_dd=lv_dropdown_create(obj);
    int c=sizeof(EncryptionTypeDisplayStrings)/sizeof(char *);
    String dd_list;
    for(int i=0;i<c;i++)
    {
      if(i>0)
      {
        dd_list+="\n";
      }
      dd_list+=EncryptionTypeDisplayStrings[i];
    }
    lv_dropdown_set_options(WiFi_EncType_dd,dd_list.c_str());
    lv_dropdown_set_selected(WiFi_EncType_dd,EncryptionTypeToCBIMap[ENC_TYPE_AUTO]);
    lv_obj_align_to(WiFi_EncType_dd,label,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);
    
    label=lv_label_create(obj);
    lv_label_set_text(label,"SSID:");
    lv_obj_set_width(label,700);
    //lv_obj_align(label,LV_ALIGN_OUT_TOP_MID,0,0);
    lv_obj_align_to(label,WiFi_EncType_dd,LV_ALIGN_OUT_BOTTOM_LEFT,0,10);
    
    WiFi_SSID_ta = lv_textarea_create(obj);
    lv_textarea_set_one_line(WiFi_SSID_ta,true);
    lv_textarea_set_password_mode(WiFi_SSID_ta,false);
    lv_textarea_set_max_length(WiFi_SSID_ta,32);
    lv_textarea_set_accepted_chars(WiFi_SSID_ta,"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789_-");
    lv_obj_align_to(WiFi_SSID_ta,label,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);
    lv_obj_set_width(WiFi_SSID_ta,700);
    if(Current_SSID!=NULL)
    {
      lv_textarea_set_text(WiFi_SSID_ta,Current_SSID.c_str());
    }
  }
  else
  {
    WiFi_SSID_ta=NULL;
    WiFi_EncType_dd=NULL;
  }
  
  label=lv_label_create(obj);
  lv_label_set_text(label,"Password:");
  lv_obj_set_width(label,340);
  if(Disable_SSID)
  {
    lv_obj_align(label,LV_ALIGN_OUT_TOP_MID,0,0);
  }
  else
  {
    lv_obj_align_to(label,WiFi_SSID_ta,LV_ALIGN_OUT_BOTTOM_LEFT,0,10);
  }

  WiFi_Pass_ta = lv_textarea_create(obj);
  lv_textarea_set_one_line(WiFi_Pass_ta,true);
  lv_textarea_set_password_mode(WiFi_Pass_ta,true);
  lv_textarea_set_max_length(WiFi_Pass_ta,63);
  lv_textarea_set_accepted_chars(WiFi_Pass_ta," @`!Aa\"Bb#Cc$Dd%Ee&Ff'Gg(Hh)Ii*Jj+Kk,Ll-Mm.Nn/Oo0Pp1Qq2Rr3Ss4Tt5Uu6Vv7Ww8Xx9Yy:Zz;[{<\\|=]}>^~?_");
  lv_obj_align_to(WiFi_Pass_ta,label,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);
  lv_obj_set_width(WiFi_Pass_ta,340);
  if(Current_Pass!=NULL)
  {
    lv_textarea_set_text(WiFi_Pass_ta,Current_Pass.c_str());
  }

  WiFi_WepKeyIndex_lbl=lv_label_create(obj);
  lv_label_set_text(WiFi_WepKeyIndex_lbl,"Key Index:");
  lv_obj_set_width(WiFi_WepKeyIndex_lbl,340);
  lv_obj_align_to(WiFi_WepKeyIndex_lbl,label,LV_ALIGN_OUT_RIGHT_MID,10,0);

  WiFi_WepKeyIndex_dd=lv_dropdown_create(obj);
  lv_dropdown_set_options(WiFi_WepKeyIndex_dd,"1\n2\n3\n4");
  lv_dropdown_set_selected(WiFi_WepKeyIndex_dd,CurrentKeyIndex-1);
  lv_obj_align_to(WiFi_WepKeyIndex_dd,WiFi_WepKeyIndex_lbl,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);
  //lv_obj_set_width(WiFi_Pass_ta,340);

  if(Disable_SSID && encryptionType==ENC_TYPE_WEP)
  {
    lv_obj_clear_flag(WiFi_WepKeyIndex_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_clear_flag(WiFi_WepKeyIndex_dd, LV_OBJ_FLAG_HIDDEN);
  }
  else if(Disable_SSID && encryptionType!=ENC_TYPE_WEP)
  {
    lv_obj_add_flag(WiFi_WepKeyIndex_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_WepKeyIndex_dd, LV_OBJ_FLAG_HIDDEN);
  }
  else if(!Disable_SSID && encryptionType==ENC_TYPE_WEP)
  {
    lv_obj_clear_flag(WiFi_WepKeyIndex_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_clear_flag(WiFi_WepKeyIndex_dd, LV_OBJ_FLAG_HIDDEN);
  }
  else
  {
    lv_obj_add_flag(WiFi_WepKeyIndex_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_WepKeyIndex_dd, LV_OBJ_FLAG_HIDDEN);
  }


  lv_obj_t * Password_Show_checkbox = lv_checkbox_create(obj);
  lv_checkbox_set_text(Password_Show_checkbox,"Show password.");
  lv_obj_align_to(Password_Show_checkbox,WiFi_Pass_ta,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);

  lv_obj_t * Next_btn=lv_btn_create(obj);
  label=lv_label_create(Next_btn);
  lv_label_set_text(label, "Next");
  lv_obj_center(Next_btn);
  lv_obj_align_to(Next_btn,WiFi_WepKeyIndex_dd,LV_ALIGN_OUT_BOTTOM_RIGHT,0,5);
  Next_btn->user_data=(void *)callback;

  lv_obj_t * Back_btn=lv_btn_create(obj);
  label=lv_label_create(Back_btn);
  lv_label_set_text(label, "Back");
  lv_obj_center(Back_btn);
  lv_obj_align_to(Back_btn,Next_btn,LV_ALIGN_OUT_LEFT_MID,-5,0);
  Back_btn->user_data=(void *)callback;

  WiFi_kb = lv_keyboard_create(obj);
  lv_obj_add_flag(WiFi_kb, LV_OBJ_FLAG_HIDDEN);

  //lv_keyboard_set_textarea(WiFi_kb,WiFi_SSID_ta);
  if(!Disable_SSID)
  {
    lv_obj_add_event_cb(WiFi_SSID_ta, (lv_event_cb_t)WiFi_SSID_ta_event_cb,LV_EVENT_ALL,NULL);
  }
  lv_obj_add_event_cb(WiFi_Pass_ta, (lv_event_cb_t)WiFi_Pass_ta_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(Password_Show_checkbox, (lv_event_cb_t)Password_Show_checkbox_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(Next_btn,(lv_event_cb_t)Next2_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(Back_btn,(lv_event_cb_t)Back2_btn_event_cb,LV_EVENT_ALL,NULL);
  if(!Disable_SSID)
  {
    lv_obj_add_event_cb(WiFi_EncType_dd,(lv_event_cb_t)WiFi_EncType_dd_event_cb,LV_EVENT_ALL,NULL);
  }
}

void WiFi_config1_callback(bool IsCancel)
{
  if(IsCancel)
  {
    DisplayMainStatusPanel(WiFi_Config_Display_obj);
    return;
  }
  lv_obj_clean(WiFi_Config_Display_obj);
  bool DontNeedSSID=true;
  if(WiFi_ConfigTemp_SSID.isEmpty() || strcmp(WiFi_ConfigTemp_SSID.c_str(),"")==0)
  {
    DontNeedSSID=false;
  }
  DisplayWiFiConfig2(WiFi_Config_Display_obj,WiFi_ConfigTemp_encryptionType,DontNeedSSID,WiFi_ConfigTemp_SSID,WiFi_ConfigTemp_Pass,WiFi_ConfigTemp_keyIndex,WiFi_config2_callback);
}

void WiFi_config2_callback(bool IsBack)
{
  if(IsBack)
  {
    lv_obj_clean(WiFi_Config_Display_obj);
    DisplayWiFiConfig1(WiFi_Config_Display_obj,WiFi_SSID,WiFi_config1_callback);
    return;
  }
  else
  {
    lv_obj_clean(WiFi_Config_Display_obj);
    lv_refr_now(NULL);
    DisplayWiFiConfig3(WiFi_Config_Display_obj,WiFi_ConfigTemp_IP_Method,WiFi_ConfigTemp_Static_IP,WiFi_ConfigTemp_Static_Netmask,WiFi_ConfigTemp_Static_Gateway,WiFi_config3_callback);
    return;
  }
}

void WiFi_config3_callback(bool IsBack)
{
  lv_refr_now(NULL);
  lv_obj_clean(WiFi_Config_Display_obj);
  bool DontNeedSSID=true;
  if(WiFi_ConfigTemp_SSID.isEmpty() || strcmp(WiFi_ConfigTemp_SSID.c_str(),"")==0)
  {
    DontNeedSSID=false;
  }
  if(IsBack)
  {
    DisplayWiFiConfig2(WiFi_Config_Display_obj,WiFi_ConfigTemp_encryptionType,DontNeedSSID,WiFi_ConfigTemp_SSID,WiFi_ConfigTemp_Pass,WiFi_ConfigTemp_keyIndex,WiFi_config2_callback);
  }
  else
  {
    DisplayWiFiConfig4(WiFi_Config_Display_obj,WiFi_config4_callback);
  }
}

void WiFi_Back3_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);
  void *user_data=target->user_data;
  WiFiConfig3Callback callback=(WiFiConfig3Callback)user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    if(callback)
    {
      callback(true);
    }
    break;
  }
}

void WiFi_Next3_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);
  void *user_data=target->user_data;
  WiFiConfig3Callback callback=(WiFiConfig3Callback)user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    int selectedIPMethod=lv_dropdown_get_selected(WiFi_IP_Method_dd);
    WiFi_ConfigTemp_IP_Method=WiFi_IP_Method_DisplayMap[selectedIPMethod];
    if(WiFi_ConfigTemp_IP_Method!=WiFi_IP_Method_Static)
    {
      WiFi_ConfigTemp_Static_IP="";
      WiFi_ConfigTemp_Static_Netmask="";
      WiFi_ConfigTemp_Static_Gateway="";
    }
    else
    {
      WiFi_ConfigTemp_Static_IP=lv_textarea_get_text(WiFi_Static_IP_ta);
      WiFi_ConfigTemp_Static_Netmask=lv_textarea_get_text(WiFi_Static_Netmask_ta);
      WiFi_ConfigTemp_Static_Gateway=lv_textarea_get_text(WiFi_Static_Gateway_ta);
    }
    if(callback)
    {
      callback(false);
    }
    break;
  }
}

void WiFi_IP_Method_dd_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_READY:
    lv_obj_add_flag(WiFi_Static_IP_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_IP_ta, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_Netmask_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_Netmask_ta, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_Gateway_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_Gateway_ta, LV_OBJ_FLAG_HIDDEN);
    return;
    case LV_EVENT_VALUE_CHANGED:
    case LV_EVENT_CANCEL:
    int selectedIPMethod=lv_dropdown_get_selected(WiFi_IP_Method_dd);
    if(WiFi_IP_Method_DisplayMap[selectedIPMethod]!=WiFi_IP_Method_Static)
    {
      lv_obj_add_flag(WiFi_Static_IP_lbl, LV_OBJ_FLAG_HIDDEN);
      lv_obj_add_flag(WiFi_Static_IP_ta, LV_OBJ_FLAG_HIDDEN);
      lv_obj_add_flag(WiFi_Static_Netmask_lbl, LV_OBJ_FLAG_HIDDEN);
      lv_obj_add_flag(WiFi_Static_Netmask_ta, LV_OBJ_FLAG_HIDDEN);
      lv_obj_add_flag(WiFi_Static_Gateway_lbl, LV_OBJ_FLAG_HIDDEN);
      lv_obj_add_flag(WiFi_Static_Gateway_ta, LV_OBJ_FLAG_HIDDEN);
    }
    else
    {
      lv_obj_clear_flag(WiFi_Static_IP_lbl, LV_OBJ_FLAG_HIDDEN);
      lv_obj_clear_flag(WiFi_Static_IP_ta, LV_OBJ_FLAG_HIDDEN);
      lv_obj_clear_flag(WiFi_Static_Netmask_lbl, LV_OBJ_FLAG_HIDDEN);
      lv_obj_clear_flag(WiFi_Static_Netmask_ta, LV_OBJ_FLAG_HIDDEN);
      lv_obj_clear_flag(WiFi_Static_Gateway_lbl, LV_OBJ_FLAG_HIDDEN);
      lv_obj_clear_flag(WiFi_Static_Gateway_ta, LV_OBJ_FLAG_HIDDEN);
    }
    DisplayWiFiConfig3_CheckValid();
    return;
  }
}

void WiFi_Static_All_ta_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_FOCUSED:
    case LV_EVENT_PRESSED:
    case LV_EVENT_CLICKED:
    case LV_EVENT_LONG_PRESSED:
    case LV_EVENT_LONG_PRESSED_REPEAT:
    lv_keyboard_set_textarea(WiFi_kb,target);
    lv_obj_clear_flag(WiFi_kb, LV_OBJ_FLAG_HIDDEN);
    return;
    case LV_EVENT_DEFOCUSED:
    lv_keyboard_set_textarea(WiFi_kb,NULL);
    lv_obj_add_flag(WiFi_kb, LV_OBJ_FLAG_HIDDEN);
    return;
    case LV_EVENT_VALUE_CHANGED:
    DisplayWiFiConfig3_CheckValid();
    break;
  }
}

void DisplayWiFiConfig3_CheckValid(void)
{
  bool IsValid=false;
  int selectedIPMethod=lv_dropdown_get_selected(WiFi_IP_Method_dd);
  if(WiFi_IP_Method_DisplayMap[selectedIPMethod]==WiFi_IP_Method_Static)
  {
    String p1=lv_textarea_get_text(WiFi_Static_IP_ta);
    String p2=lv_textarea_get_text(WiFi_Static_Netmask_ta);
    String p3=lv_textarea_get_text(WiFi_Static_Gateway_ta);
    IsValid=ValidateIPv4Address(p1);
    IsValid&=ValidateIPv4Address(p2);
    IsValid&=ValidateIPv4Address(p3);
  }
  else IsValid=true;
  if(IsValid)
  {
    lv_obj_clear_state(WiFi_Next3_btn, LV_STATE_DISABLED);
  }
  else
  {
    lv_obj_add_state(WiFi_Next3_btn, LV_STATE_DISABLED);
  }
}

void DisplayWiFiConfig3(lv_obj_t *obj,WiFi_IP_Method_enum_t IP_Method,const String &Static_IP,const String &Static_Netmask,const String &Static_Gateway,WiFiConfig3Callback callback)
{
  lv_obj_t *label;
  
  label=lv_label_create(obj);
  lv_label_set_text(label,"IP Assignment Method:");

  WiFi_IP_Method_dd=lv_dropdown_create(obj);
  int c=sizeof(WiFi_IP_Method_DisplayStrings)/sizeof(char *);
  String dd_list;
  for(int i=0;i<c;i++)
  {
    if(i>0)
    {
      dd_list+="\n";
    }
    dd_list+=WiFi_IP_Method_DisplayStrings[i];
  }
  lv_dropdown_set_options(WiFi_IP_Method_dd,dd_list.c_str());
  lv_dropdown_set_selected(WiFi_IP_Method_dd,WiFi_IP_Method_ToCBIMap[IP_Method]);
  lv_obj_align_to(WiFi_IP_Method_dd,label,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);

  WiFi_Static_IP_lbl=lv_label_create(obj);
  lv_label_set_text(WiFi_Static_IP_lbl,"Static IP:");
  lv_obj_align_to(WiFi_Static_IP_lbl,WiFi_IP_Method_dd,LV_ALIGN_OUT_BOTTOM_LEFT,0,5);

  WiFi_Static_IP_ta=lv_textarea_create(obj);
  lv_textarea_set_one_line(WiFi_Static_IP_ta,true);
  lv_textarea_set_password_mode(WiFi_Static_IP_ta,false);
  lv_textarea_set_max_length(WiFi_Static_IP_ta,15);
  lv_textarea_set_accepted_chars(WiFi_Static_IP_ta,"0123456789.:");
  lv_obj_align_to(WiFi_Static_IP_ta,WiFi_Static_IP_lbl,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);
  lv_textarea_set_text(WiFi_Static_IP_ta,Static_IP.c_str());

  WiFi_Static_Netmask_lbl=lv_label_create(obj);
  lv_label_set_text(WiFi_Static_Netmask_lbl,"Netmask:");
  lv_obj_align_to(WiFi_Static_Netmask_lbl,WiFi_Static_IP_ta,LV_ALIGN_OUT_BOTTOM_LEFT,0,5);

  WiFi_Static_Netmask_ta=lv_textarea_create(obj);
  lv_textarea_set_one_line(WiFi_Static_Netmask_ta,true);
  lv_textarea_set_password_mode(WiFi_Static_Netmask_ta,false);
  lv_textarea_set_max_length(WiFi_Static_Netmask_ta,15);
  lv_textarea_set_accepted_chars(WiFi_Static_Netmask_ta,"0123456789.:");
  lv_obj_align_to(WiFi_Static_Netmask_ta,WiFi_Static_Netmask_lbl,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);
  lv_textarea_set_text(WiFi_Static_Netmask_ta,Static_Netmask.c_str());

  WiFi_Static_Gateway_lbl=lv_label_create(obj);
  lv_label_set_text(WiFi_Static_Gateway_lbl,"Gateway:");
  lv_obj_align_to(WiFi_Static_Gateway_lbl,WiFi_Static_Netmask_ta,LV_ALIGN_OUT_BOTTOM_LEFT,0,5);

  WiFi_Static_Gateway_ta=lv_textarea_create(obj);
  lv_textarea_set_one_line(WiFi_Static_Gateway_ta,true);
  lv_textarea_set_password_mode(WiFi_Static_Gateway_ta,false);
  lv_textarea_set_max_length(WiFi_Static_Gateway_ta,15);
  lv_textarea_set_accepted_chars(WiFi_Static_Gateway_ta,"0123456789.:");
  lv_obj_align_to(WiFi_Static_Gateway_ta,WiFi_Static_Gateway_lbl,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);
  lv_textarea_set_text(WiFi_Static_Gateway_ta,Static_Gateway.c_str());

  WiFi_Back3_btn=lv_btn_create(obj);
  label=lv_label_create(WiFi_Back3_btn);
  lv_label_set_text(label,"Back");
  lv_obj_align_to(WiFi_Back3_btn,WiFi_Static_Gateway_ta,LV_ALIGN_OUT_RIGHT_TOP,10,0);
  WiFi_Back3_btn->user_data=(void *)callback;

  WiFi_Next3_btn=lv_btn_create(obj);
  label=lv_label_create(WiFi_Next3_btn);
  lv_label_set_text(label,"Next");
  lv_obj_align_to(WiFi_Next3_btn,WiFi_Back3_btn,LV_ALIGN_OUT_RIGHT_TOP,0,0);
  WiFi_Next3_btn->user_data=(void *)callback;

  WiFi_kb = lv_keyboard_create(obj);
  lv_obj_add_flag(WiFi_kb, LV_OBJ_FLAG_HIDDEN);
  lv_keyboard_set_mode(WiFi_kb,LV_KEYBOARD_MODE_NUMBER);
  lv_obj_set_height(WiFi_kb,lv_obj_get_content_height(obj)-(lv_obj_get_y(WiFi_Static_Gateway_ta)+lv_obj_get_height(WiFi_Static_Gateway_ta)));
  

  switch(IP_Method)
  {
    case WiFi_IP_Method_DHCP:
    lv_obj_add_flag(WiFi_Static_IP_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_IP_ta, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_Netmask_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_Netmask_ta, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_Gateway_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_add_flag(WiFi_Static_Gateway_ta, LV_OBJ_FLAG_HIDDEN);
    break;
    case WiFi_IP_Method_Static:
    lv_obj_clear_flag(WiFi_Static_IP_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_clear_flag(WiFi_Static_IP_ta, LV_OBJ_FLAG_HIDDEN);
    lv_obj_clear_flag(WiFi_Static_Netmask_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_clear_flag(WiFi_Static_Netmask_ta, LV_OBJ_FLAG_HIDDEN);
    lv_obj_clear_flag(WiFi_Static_Gateway_lbl, LV_OBJ_FLAG_HIDDEN);
    lv_obj_clear_flag(WiFi_Static_Gateway_ta, LV_OBJ_FLAG_HIDDEN);
    break;
  }

  lv_obj_add_event_cb(WiFi_Static_IP_ta,WiFi_Static_All_ta_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(WiFi_Static_Netmask_ta,WiFi_Static_All_ta_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(WiFi_Static_Gateway_ta,WiFi_Static_All_ta_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(WiFi_IP_Method_dd,WiFi_IP_Method_dd_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(WiFi_Back3_btn,WiFi_Back3_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(WiFi_Next3_btn,WiFi_Next3_btn_event_cb,LV_EVENT_ALL,NULL);

  DisplayWiFiConfig3_CheckValid();
}

void DisplayWiFiConfig4(lv_obj_t *obj,WiFiConfig4Callback callback)
{
  lv_obj_t * label;

  lv_obj_t * WiFi_wait_sp=lv_spinner_create(obj,800,240);
  lv_obj_align_to(WiFi_wait_sp,obj,LV_ALIGN_CENTER,0,0);
  lv_refr_now(NULL);

  if(WiFi_client.connected())
  {
    WiFi_client.stop();
  }

  WiFi.disconnect();
  WiFi.end();
  switch(WiFi_ConfigTemp_IP_Method)
  {
    case WiFi_IP_Method_DHCP:
    WiFi.config("");
    break;
    case WiFi_IP_Method_Static:
    WiFi.config(WiFi_ConfigTemp_Static_IP.c_str(),WiFi_ConfigTemp_Static_Netmask.c_str(),WiFi_ConfigTemp_Static_Gateway.c_str());
    break;
  }
  WiFi_status=WiFi.begin(WiFi_ConfigTemp_SSID.c_str(),WiFi_ConfigTemp_Pass.c_str(),WiFi_ConfigTemp_encryptionType);
  lv_refr_now(NULL);
  if(WiFi_status!=WL_CONNECTED)
  {
    if(callback)
    {
      callback(true);
    }
  }
  else
  {
    if(callback)
    {
      setNtpTime(timeServer);
      DataLog("Synchronized NTP time.");    
      callback(false);
    }
  }
}

void NTP_Server_ta_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_FOCUSED:
    case LV_EVENT_PRESSED:
    case LV_EVENT_CLICKED:
    case LV_EVENT_LONG_PRESSED:
    case LV_EVENT_LONG_PRESSED_REPEAT:
    lv_keyboard_set_textarea(NTP_Server_kb,NTP_Server_ta);
    lv_obj_clear_flag(NTP_Server_kb, LV_OBJ_FLAG_HIDDEN);
    return;
    case LV_EVENT_DEFOCUSED:
    lv_keyboard_set_textarea(NTP_Server_kb,NULL);
    lv_obj_add_flag(NTP_Server_kb, LV_OBJ_FLAG_HIDDEN);
    return;
  }
}

void NTPServer_Apply_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    String Temp=lv_textarea_get_text(NTP_Server_ta);
    if(!Temp.isEmpty() && Temp!="")
    {
      saveStringSetting("timeServer",Temp);
      timeServer=Temp;
    }
    else
    {
      saveStringSetting("timeServer","pool.ntp.org");
      timeServer="pool.ntp.org";
      lv_textarea_set_text(NTP_Server_ta,"pool.ntp.org");
    }
    DataLog("Time server set to: "+timeServer);
    lv_obj_clean(WiFi_Config_Display_obj);
    lv_obj_t * WiFi_wait_sp=lv_spinner_create(WiFi_Config_Display_obj,800,240);
    lv_obj_align_to(WiFi_wait_sp,WiFi_Config_Display_obj,LV_ALIGN_CENTER,0,0);
    lv_refr_now(NULL);
    setNtpTime(timeServer);
    DataLog("Synchronized NTP time.");    
    DisplayMainStatusPanel(WiFi_Config_Display_obj);
    return;
  }
}

void NTPServer_Cancel_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    DisplayMainStatusPanel(WiFi_Config_Display_obj);
    return;
  }
}

void DisplayNTPServerConfig(lv_obj_t *obj)
{
  lv_obj_t *label;

  label=lv_label_create(obj);
  lv_label_set_text(label,"NTP Server Address:");
  NTP_Server_ta=lv_textarea_create(obj);
  lv_textarea_set_one_line(NTP_Server_ta,true);
  lv_textarea_set_password_mode(NTP_Server_ta,false);
  lv_textarea_set_accepted_chars(NTP_Server_ta,"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-.");
  lv_textarea_set_text(NTP_Server_ta,timeServer.c_str());
  lv_obj_align_to(NTP_Server_ta,label,LV_ALIGN_OUT_BOTTOM_LEFT,0,0);
  lv_obj_set_width(NTP_Server_ta,700);

  NTP_Server_kb=lv_keyboard_create(obj);
  lv_obj_add_flag(NTP_Server_kb, LV_OBJ_FLAG_HIDDEN);

  lv_obj_t * NTPServer_Apply_btn=lv_btn_create(obj);
  label=lv_label_create(NTPServer_Apply_btn);
  lv_label_set_text(label,"Apply");
  lv_obj_align_to(NTPServer_Apply_btn,NTP_Server_ta,LV_ALIGN_OUT_BOTTOM_RIGHT,0,5);

  lv_obj_t * NTPServer_Cancel_btn=lv_btn_create(obj);
  label=lv_label_create(NTPServer_Cancel_btn);
  lv_label_set_text(label,"Cancel");
  lv_obj_align_to(NTPServer_Cancel_btn,NTPServer_Apply_btn,LV_ALIGN_OUT_LEFT_BOTTOM,-5,0);

  lv_obj_add_event_cb(NTP_Server_ta, (lv_event_cb_t)NTP_Server_ta_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(NTPServer_Cancel_btn,(lv_event_cb_t)NTPServer_Cancel_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(NTPServer_Apply_btn, (lv_event_cb_t)NTPServer_Apply_btn_event_cb,LV_EVENT_ALL,NULL);
}

void MainStatus_WiFiConfig_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    lv_obj_clean(WiFi_Config_Display_obj);
    DisplayWiFiConfig1(WiFi_Config_Display_obj,WiFi_SSID,WiFi_config1_callback);
    return;
  }

}

void MainStatus_WiFiStatus_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    lv_obj_clean(WiFi_Config_Display_obj);
    DisplayWiFiStatusPanel(WiFi_Config_Display_obj);
    return;
  }
}

void MainStatus_NTPServer_btn_event_cb(lv_event_t * event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    lv_obj_clean(WiFi_Config_Display_obj);
    DisplayNTPServerConfig(WiFi_Config_Display_obj);
    return;
  }
}

void WiFiStatus_Back_btn_event_cb(lv_event_t *event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_CLICKED:
    DisplayMainStatusPanel(WiFi_Config_Display_obj);
    return;
  }
}

void DisplayWiFiStatusPanel(lv_obj_t *obj)
{
  lv_obj_clean(obj);

  lv_obj_t *label;

  wl_status_t status=(wl_status_t)(WiFi.status());
  String StatusString;
  switch(status)
  {
    #define narf(x) case x: StatusString=#x;break;
    narf(WL_NO_MODULE)
    narf(WL_IDLE_STATUS)
    narf(WL_NO_SSID_AVAIL)
    narf(WL_SCAN_COMPLETED)
    narf(WL_CONNECTED)
    narf(WL_CONNECT_FAILED)
    narf(WL_CONNECTION_LOST)
    narf(WL_DISCONNECTED)
    narf(WL_AP_LISTENING)
    narf(WL_AP_CONNECTED)
    narf(WL_AP_FAILED)
    default:
    StatusString="Unknown";
    break;
    #undef narf
  }

  lv_obj_t *ip_info_table=lv_table_create(WiFi_Config_Display_obj);
  #define narf(t,r) lv_table_set_cell_value(ip_info_table,r,0,t);
  narf("Status",0);
  narf("Mac Address",1);
  narf("SSID",2);
  narf("IP",3);
  narf("Netmask",4);
  narf("Gateway",5);
  #undef narf
  #define narf(t,r) lv_table_set_cell_value(ip_info_table,r,1,t);
  narf(StatusString.c_str(),0);
  String macAddress=WiFi.macAddress();
  if(!macAddress.isEmpty())
  {
    macAddress.toUpperCase();
    narf(macAddress.c_str(),1);
  }
  String SSID_and_Enc=WiFi.SSID();
  wl_enc_type encryptionType=(wl_enc_type)(WiFi.encryptionType());
  String Enc=EncryptionTypeDisplayStrings[EncryptionTypeToCBIMap[encryptionType]];
  SSID_and_Enc+=" ["+Enc+"]";
  narf(SSID_and_Enc.c_str(),2)
  narf(WiFi.localIP().toString().c_str(),3);
  narf(WiFi.subnetMask().toString().c_str(),4);
  narf(WiFi.gatewayIP().toString().c_str(),5);
  #undef narf
  lv_table_set_col_width(ip_info_table,0,150);
  lv_table_set_col_width(ip_info_table,1,300);
  lv_obj_t *WiFiStatus_Back_btn=lv_btn_create(obj);
  label=lv_label_create(WiFiStatus_Back_btn);
  lv_label_set_text(label,"Back");
  lv_obj_align_to(WiFiStatus_Back_btn,ip_info_table,LV_ALIGN_OUT_RIGHT_BOTTOM,10,0);

  lv_obj_add_event_cb(WiFiStatus_Back_btn,WiFiStatus_Back_btn_event_cb,LV_EVENT_ALL,NULL);
}

void DateTimeDisplay_lbl_event_cb(lv_event_t *event)
{
  lv_event_code_t code = lv_event_get_code(event);
  lv_obj_t *target=lv_event_get_target(event);//button matrix
  void *user_data=target->user_data;
  switch(code)
  {
    case LV_EVENT_RELEASED:
    case LV_EVENT_DELETE:
    DateTimeDisplay_lbl=NULL;
    return;
  }
}

void DisplayMainStatusPanel(lv_obj_t *obj)
{
  lv_obj_clean(obj);

  lv_obj_t *label;

  lv_obj_t *lv_WiFiConfig_btn=lv_btn_create(obj);
  label=lv_label_create(lv_WiFiConfig_btn);
  lv_label_set_text(label,"WiFi Config");

  lv_obj_t *lv_WiFiStatus_btn=lv_btn_create(obj);
  label=lv_label_create(lv_WiFiStatus_btn);
  lv_label_set_text(label,"WiFi Status");
  lv_obj_align_to(lv_WiFiStatus_btn,lv_WiFiConfig_btn,LV_ALIGN_OUT_RIGHT_MID,0,0);

  lv_obj_t *lv_NTPServer_btn=lv_btn_create(obj);
  label=lv_label_create(lv_NTPServer_btn);
  lv_label_set_text(label,"NTP Server");
  lv_obj_align_to(lv_NTPServer_btn,lv_WiFiStatus_btn,LV_ALIGN_OUT_RIGHT_MID,0,0);

  LV_IMG_DECLARE(logo);
  lv_obj_t *lv_Logo_img=lv_img_create(obj);
  lv_img_set_src(lv_Logo_img, &logo);
  lv_obj_align(lv_Logo_img, LV_ALIGN_RIGHT_MID, -20, 0);

  label=lv_label_create(obj);
  lv_obj_align(label,LV_ALIGN_BOTTOM_LEFT,0,0);
  String Temp=getLocaltime();
  lv_label_set_text(label,Temp.c_str());
  DateTimeDisplay_lbl=label;

  lv_obj_t *lv_SN_label=lv_label_create(obj);
  lv_obj_align(lv_SN_label,LV_ALIGN_BOTTOM_RIGHT,0,0);
  Temp=GetSerialNumber();
  if(!Temp.isEmpty())
  {
    lv_label_set_text(lv_SN_label,Temp.c_str());
  }

  /*int w=100;
  int h=100;
  if(lv_QR_canvas_buffer==NULL)
  {
    lv_QR_canvas_buffer=(lv_color_t *)(lv_mem_alloc(LV_CANVAS_BUF_SIZE_TRUE_COLOR(w,h)));
  }
  lv_obj_t *lv_QR_canvas=lv_canvas_create(obj);
  lv_canvas_set_buffer(lv_QR_canvas,lv_QR_canvas_buffer,w,h,LV_IMG_CF_TRUE_COLOR);
  lv_canvas_fill_bg(lv_QR_canvas, lv_palette_lighten(LV_PALETTE_GREY, 3), LV_OPA_COVER);
  lv_obj_align_to(lv_QR_canvas,lv_SN_label,LV_ALIGN_OUT_TOP_MID,0,0);*/

  lv_obj_t *lv_SN_qrcode=lv_qrcode_create(obj,100,lv_color_hex3(0x000),lv_color_hex3(0xFFF));
  lv_qrcode_update(lv_SN_qrcode, Temp.c_str(), Temp.length());
  lv_obj_align_to(lv_SN_qrcode,lv_SN_label,LV_ALIGN_OUT_TOP_MID,0,0);

  lv_obj_add_event_cb(lv_WiFiConfig_btn,MainStatus_WiFiConfig_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(lv_WiFiStatus_btn,MainStatus_WiFiStatus_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(lv_NTPServer_btn,MainStatus_NTPServer_btn_event_cb,LV_EVENT_ALL,NULL);
  lv_obj_add_event_cb(DateTimeDisplay_lbl,DateTimeDisplay_lbl_event_cb,LV_EVENT_ALL,NULL);
}

void setup() {
  //Serial.begin(115200);
  delay(1000);

  String Temp=loadStringSetting("WiFi_encryptionType");
  WiFi_encryptionType=(wl_enc_type)(Temp.toInt());

  WiFi_SSID=loadStringSetting("WiFi_SSID");

  WiFi_Pass=loadStringSetting("WiFi_Pass");

  Temp=loadStringSetting("WiFi_keyIndex");
  WiFi_keyIndex=(int)(Temp.toInt());

  Temp=loadStringSetting("WiFi_IP_Method");
  WiFi_IP_Method=(WiFi_IP_Method_enum_t)(Temp.toInt());

  WiFi_Static_IP=loadStringSetting("WiFi_Static_IP");

  WiFi_Static_Netmask=loadStringSetting("WiFi_Static_Netmask");

  WiFi_Static_Gateway=loadStringSetting("WiFi_Static_Gateway");

  Temp=loadStringSetting("timeServer");
  if(!Temp.isEmpty() && Temp!="")
  {
    timeServer=Temp;
  }
  
  Display.begin();
  TouchDetector.begin();
  DataLogStart();

  /* Create a container with grid 1x1 */
  static lv_coord_t col_dsc[] = {755, 755, LV_GRID_TEMPLATE_LAST};
  static lv_coord_t row_dsc[] = {436, 436, LV_GRID_TEMPLATE_LAST};
  lv_obj_t * cont = lv_obj_create(lv_scr_act());
  lv_obj_set_grid_dsc_array(cont, col_dsc, row_dsc);
  lv_obj_set_size(cont, Display.width(), Display.height());
  lv_obj_set_style_bg_color(cont, lv_color_hex(0x03989e), LV_PART_MAIN);
  lv_obj_center(cont);

  lv_obj_t * label;
  lv_obj_t * obj;

  obj = lv_obj_create(cont);
  lv_obj_set_grid_cell(obj, LV_GRID_ALIGN_STRETCH, 0, 1,
                        LV_GRID_ALIGN_STRETCH, 0, 1);

  WiFi_Config_Display_obj=obj;

  if(WiFi_SSID!="" && !WiFi_SSID.isEmpty())
  {
    lv_obj_t * WiFi_wait_sp=lv_spinner_create(obj,800,240);
    lv_obj_align_to(WiFi_wait_sp,obj,LV_ALIGN_CENTER,0,0);
    lv_refr_now(NULL);

    switch(WiFi_IP_Method)
    {
      case WiFi_IP_Method_DHCP:
      WiFi.config("");
      break;
      case WiFi_IP_Method_Static:
      WiFi.config(WiFi_Static_IP.c_str(),WiFi_Static_Netmask.c_str(),WiFi_Static_Gateway.c_str());
      break;
    }
    WiFi_status=WiFi.begin(WiFi_SSID.c_str(),WiFi_Pass.c_str(),WiFi_encryptionType);
    /*if(WiFi_status!=WL_CONNECTED)
    {
      if(callback)
      {
        callback(true);
      }
    }
    else
    {
      if(callback)
      {
        callback(false);
      }
    }*/
    if(WiFi_status==WL_CONNECTED)
    {
      setNtpTime(timeServer);
    }
    lv_obj_del(WiFi_wait_sp);
  }

  DataLog("Start");
  String SN=GetSerialNumber();
  DataLog("SN: "+SN);

  DisplayMainStatusPanel(obj);
}

void loop() { 
  /* Feed LVGL engine */
  lv_timer_handler();
  if(millis()>printNow)
  {
    if(DateTimeDisplay_lbl!=NULL)
    {
      String Temp=getLocaltime();
      lv_label_set_text(DateTimeDisplay_lbl,Temp.c_str());
    }
    printNow = millis() + printInterval;
  }
}

static String Debug_EventCodeToString(lv_event_code_t code)
{
  String Res="Unknown";
  #define narf(x) case x: Res=#x; break;
  switch(code)
  {
    narf(LV_EVENT_PRESSED)
    narf(LV_EVENT_PRESSING)
    narf(LV_EVENT_PRESS_LOST)
    narf(LV_EVENT_SHORT_CLICKED)
    narf(LV_EVENT_LONG_PRESSED)
    narf(LV_EVENT_LONG_PRESSED_REPEAT)
    narf(LV_EVENT_CLICKED)
    narf(LV_EVENT_RELEASED)
    narf(LV_EVENT_SCROLL_BEGIN)
    narf(LV_EVENT_SCROLL_END)
    narf(LV_EVENT_SCROLL)
    narf(LV_EVENT_GESTURE)
    narf(LV_EVENT_KEY)
    narf(LV_EVENT_FOCUSED)
    narf(LV_EVENT_DEFOCUSED)
    narf(LV_EVENT_LEAVE)
    narf(LV_EVENT_HIT_TEST)
    narf(LV_EVENT_COVER_CHECK)
    narf(LV_EVENT_REFR_EXT_DRAW_SIZE)
    narf(LV_EVENT_DRAW_MAIN_BEGIN)
    narf(LV_EVENT_DRAW_MAIN)
    narf(LV_EVENT_DRAW_MAIN_END)
    narf(LV_EVENT_DRAW_POST_BEGIN)
    narf(LV_EVENT_DRAW_POST)
    narf(LV_EVENT_DRAW_POST_END)
    narf(LV_EVENT_DRAW_PART_BEGIN)
    narf(LV_EVENT_DRAW_PART_END)
    narf(LV_EVENT_VALUE_CHANGED)
    narf(LV_EVENT_INSERT)
    narf(LV_EVENT_REFRESH)
    narf(LV_EVENT_READY)
    narf(LV_EVENT_CANCEL)
    narf(LV_EVENT_DELETE)
    narf(LV_EVENT_CHILD_CHANGED)
    narf(LV_EVENT_CHILD_CREATED)
    narf(LV_EVENT_CHILD_DELETED)
    narf(LV_EVENT_SCREEN_UNLOAD_START)
    narf(LV_EVENT_SCREEN_LOAD_START)
    narf(LV_EVENT_SCREEN_LOADED)
    narf(LV_EVENT_SCREEN_UNLOADED)
    narf(LV_EVENT_SIZE_CHANGED)
    narf(LV_EVENT_STYLE_CHANGED)
    narf(LV_EVENT_LAYOUT_CHANGED)
    narf(LV_EVENT_GET_SELF_SIZE)
  }
  #undef narf
  return Res;
}

lv_conf.h inside of C:\Users\OBFUSCATED\Documents\Arduino\libraries\lvgl_qrcode

/**
 * @file lv_conf.h
 * Configuration file for v8.3.11
 */

/*
 * Copy this file as `lv_conf.h`
 * 1. simply next to the `lvgl` folder
 * 2. or any other places and
 *    - define `LV_CONF_INCLUDE_SIMPLE`
 *    - add the path as include path
 */

/* clang-format off */
#if 0 /*Set it to "1" to enable content*/

#ifndef LV_CONF_H
#define LV_CONF_H

#include <stdint.h>

/*====================
   COLOR SETTINGS
 *====================*/

/*Color depth: 1 (1 byte per pixel), 8 (RGB332), 16 (RGB565), 32 (ARGB8888)*/
#define LV_COLOR_DEPTH 16

/*Swap the 2 bytes of RGB565 color. Useful if the display has an 8-bit interface (e.g. SPI)*/
#define LV_COLOR_16_SWAP 0

/*Enable features to draw on transparent background.
 *It's required if opa, and transform_* style properties are used.
 *Can be also used if the UI is above another layer, e.g. an OSD menu or video player.*/
#define LV_COLOR_SCREEN_TRANSP 0

/* Adjust color mix functions rounding. GPUs might calculate color mix (blending) differently.
 * 0: round down, 64: round up from x.75, 128: round up from half, 192: round up from x.25, 254: round up */
#define LV_COLOR_MIX_ROUND_OFS 0

/*Images pixels with this color will not be drawn if they are chroma keyed)*/
#define LV_COLOR_CHROMA_KEY lv_color_hex(0x00ff00)         /*pure green*/

/*=========================
   MEMORY SETTINGS
 *=========================*/

/*1: use custom malloc/free, 0: use the built-in `lv_mem_alloc()` and `lv_mem_free()`*/
#define LV_MEM_CUSTOM 0
#if LV_MEM_CUSTOM == 0
    /*Size of the memory available for `lv_mem_alloc()` in bytes (>= 2kB)*/
    #define LV_MEM_SIZE (48U * 1024U)          /*[bytes]*/

    /*Set an address for the memory pool instead of allocating it as a normal array. Can be in external SRAM too.*/
    #define LV_MEM_ADR 0     /*0: unused*/
    /*Instead of an address give a memory allocator that will be called to get a memory pool for LVGL. E.g. my_malloc*/
    #if LV_MEM_ADR == 0
        #undef LV_MEM_POOL_INCLUDE
        #undef LV_MEM_POOL_ALLOC
    #endif

#else       /*LV_MEM_CUSTOM*/
    #define LV_MEM_CUSTOM_INCLUDE <stdlib.h>   /*Header for the dynamic memory function*/
    #define LV_MEM_CUSTOM_ALLOC   malloc
    #define LV_MEM_CUSTOM_FREE    free
    #define LV_MEM_CUSTOM_REALLOC realloc
#endif     /*LV_MEM_CUSTOM*/

/*Number of the intermediate memory buffer used during rendering and other internal processing mechanisms.
 *You will see an error log message if there wasn't enough buffers. */
#define LV_MEM_BUF_MAX_NUM 16

/*Use the standard `memcpy` and `memset` instead of LVGL's own functions. (Might or might not be faster).*/
#define LV_MEMCPY_MEMSET_STD 0

/*====================
   HAL SETTINGS
 *====================*/

/*Default display refresh period. LVG will redraw changed areas with this period time*/
#define LV_DISP_DEF_REFR_PERIOD 30      /*[ms]*/

/*Input device read period in milliseconds*/
#define LV_INDEV_DEF_READ_PERIOD 30     /*[ms]*/

/*Use a custom tick source that tells the elapsed time in milliseconds.
 *It removes the need to manually update the tick with `lv_tick_inc()`)*/
#define LV_TICK_CUSTOM 0
#if LV_TICK_CUSTOM
    #define LV_TICK_CUSTOM_INCLUDE "Arduino.h"         /*Header for the system time function*/
    #define LV_TICK_CUSTOM_SYS_TIME_EXPR (millis())    /*Expression evaluating to current system time in ms*/
    /*If using lvgl as ESP32 component*/
    // #define LV_TICK_CUSTOM_INCLUDE "esp_timer.h"
    // #define LV_TICK_CUSTOM_SYS_TIME_EXPR ((esp_timer_get_time() / 1000LL))
#endif   /*LV_TICK_CUSTOM*/

/*Default Dot Per Inch. Used to initialize default sizes such as widgets sized, style paddings.
 *(Not so important, you can adjust it to modify default sizes and spaces)*/
#define LV_DPI_DEF 130     /*[px/inch]*/

/*=======================
 * FEATURE CONFIGURATION
 *=======================*/

/*-------------
 * Drawing
 *-----------*/

/*Enable complex draw engine.
 *Required to draw shadow, gradient, rounded corners, circles, arc, skew lines, image transformations or any masks*/
#define LV_DRAW_COMPLEX 1
#if LV_DRAW_COMPLEX != 0

    /*Allow buffering some shadow calculation.
    *LV_SHADOW_CACHE_SIZE is the max. shadow size to buffer, where shadow size is `shadow_width + radius`
    *Caching has LV_SHADOW_CACHE_SIZE^2 RAM cost*/
    #define LV_SHADOW_CACHE_SIZE 0

    /* Set number of maximally cached circle data.
    * The circumference of 1/4 circle are saved for anti-aliasing
    * radius * 4 bytes are used per circle (the most often used radiuses are saved)
    * 0: to disable caching */
    #define LV_CIRCLE_CACHE_SIZE 4
#endif /*LV_DRAW_COMPLEX*/

/**
 * "Simple layers" are used when a widget has `style_opa < 255` to buffer the widget into a layer
 * and blend it as an image with the given opacity.
 * Note that `bg_opa`, `text_opa` etc don't require buffering into layer)
 * The widget can be buffered in smaller chunks to avoid using large buffers.
 *
 * - LV_LAYER_SIMPLE_BUF_SIZE: [bytes] the optimal target buffer size. LVGL will try to allocate it
 * - LV_LAYER_SIMPLE_FALLBACK_BUF_SIZE: [bytes]  used if `LV_LAYER_SIMPLE_BUF_SIZE` couldn't be allocated.
 *
 * Both buffer sizes are in bytes.
 * "Transformed layers" (where transform_angle/zoom properties are used) use larger buffers
 * and can't be drawn in chunks. So these settings affects only widgets with opacity.
 */
#define LV_LAYER_SIMPLE_BUF_SIZE          (24 * 1024)
#define LV_LAYER_SIMPLE_FALLBACK_BUF_SIZE (3 * 1024)

/*Default image cache size. Image caching keeps the images opened.
 *If only the built-in image formats are used there is no real advantage of caching. (I.e. if no new image decoder is added)
 *With complex image decoders (e.g. PNG or JPG) caching can save the continuous open/decode of images.
 *However the opened images might consume additional RAM.
 *0: to disable caching*/
#define LV_IMG_CACHE_DEF_SIZE 0

/*Number of stops allowed per gradient. Increase this to allow more stops.
 *This adds (sizeof(lv_color_t) + 1) bytes per additional stop*/
#define LV_GRADIENT_MAX_STOPS 2

/*Default gradient buffer size.
 *When LVGL calculates the gradient "maps" it can save them into a cache to avoid calculating them again.
 *LV_GRAD_CACHE_DEF_SIZE sets the size of this cache in bytes.
 *If the cache is too small the map will be allocated only while it's required for the drawing.
 *0 mean no caching.*/
#define LV_GRAD_CACHE_DEF_SIZE 0

/*Allow dithering the gradients (to achieve visual smooth color gradients on limited color depth display)
 *LV_DITHER_GRADIENT implies allocating one or two more lines of the object's rendering surface
 *The increase in memory consumption is (32 bits * object width) plus 24 bits * object width if using error diffusion */
#define LV_DITHER_GRADIENT 0
#if LV_DITHER_GRADIENT
    /*Add support for error diffusion dithering.
     *Error diffusion dithering gets a much better visual result, but implies more CPU consumption and memory when drawing.
     *The increase in memory consumption is (24 bits * object's width)*/
    #define LV_DITHER_ERROR_DIFFUSION 0
#endif

/*Maximum buffer size to allocate for rotation.
 *Only used if software rotation is enabled in the display driver.*/
#define LV_DISP_ROT_MAX_BUF (10*1024)

/*-------------
 * GPU
 *-----------*/

/*Use Arm's 2D acceleration library Arm-2D */
#define LV_USE_GPU_ARM2D 0

/*Use STM32's DMA2D (aka Chrom Art) GPU*/
#define LV_USE_GPU_STM32_DMA2D 0
#if LV_USE_GPU_STM32_DMA2D
    /*Must be defined to include path of CMSIS header of target processor
    e.g. "stm32f7xx.h" or "stm32f4xx.h"*/
    #define LV_GPU_DMA2D_CMSIS_INCLUDE
#endif

/*Enable RA6M3 G2D GPU*/
#define LV_USE_GPU_RA6M3_G2D 0
#if LV_USE_GPU_RA6M3_G2D
    /*include path of target processor
    e.g. "hal_data.h"*/
    #define LV_GPU_RA6M3_G2D_INCLUDE "hal_data.h"
#endif

/*Use SWM341's DMA2D GPU*/
#define LV_USE_GPU_SWM341_DMA2D 0
#if LV_USE_GPU_SWM341_DMA2D
    #define LV_GPU_SWM341_DMA2D_INCLUDE "SWM341.h"
#endif

/*Use NXP's PXP GPU iMX RTxxx platforms*/
#define LV_USE_GPU_NXP_PXP 0
#if LV_USE_GPU_NXP_PXP
    /*1: Add default bare metal and FreeRTOS interrupt handling routines for PXP (lv_gpu_nxp_pxp_osa.c)
    *   and call lv_gpu_nxp_pxp_init() automatically during lv_init(). Note that symbol SDK_OS_FREE_RTOS
    *   has to be defined in order to use FreeRTOS OSA, otherwise bare-metal implementation is selected.
    *0: lv_gpu_nxp_pxp_init() has to be called manually before lv_init()
    */
    #define LV_USE_GPU_NXP_PXP_AUTO_INIT 0
#endif

/*Use NXP's VG-Lite GPU iMX RTxxx platforms*/
#define LV_USE_GPU_NXP_VG_LITE 0

/*Use SDL renderer API*/
#define LV_USE_GPU_SDL 0
#if LV_USE_GPU_SDL
    #define LV_GPU_SDL_INCLUDE_PATH <SDL2/SDL.h>
    /*Texture cache size, 8MB by default*/
    #define LV_GPU_SDL_LRU_SIZE (1024 * 1024 * 8)
    /*Custom blend mode for mask drawing, disable if you need to link with older SDL2 lib*/
    #define LV_GPU_SDL_CUSTOM_BLEND_MODE (SDL_VERSION_ATLEAST(2, 0, 6))
#endif

/*-------------
 * Logging
 *-----------*/

/*Enable the log module*/
#define LV_USE_LOG 0
#if LV_USE_LOG

    /*How important log should be added:
    *LV_LOG_LEVEL_TRACE       A lot of logs to give detailed information
    *LV_LOG_LEVEL_INFO        Log important events
    *LV_LOG_LEVEL_WARN        Log if something unwanted happened but didn't cause a problem
    *LV_LOG_LEVEL_ERROR       Only critical issue, when the system may fail
    *LV_LOG_LEVEL_USER        Only logs added by the user
    *LV_LOG_LEVEL_NONE        Do not log anything*/
    #define LV_LOG_LEVEL LV_LOG_LEVEL_WARN

    /*1: Print the log with 'printf';
    *0: User need to register a callback with `lv_log_register_print_cb()`*/
    #define LV_LOG_PRINTF 0

    /*Enable/disable LV_LOG_TRACE in modules that produces a huge number of logs*/
    #define LV_LOG_TRACE_MEM        1
    #define LV_LOG_TRACE_TIMER      1
    #define LV_LOG_TRACE_INDEV      1
    #define LV_LOG_TRACE_DISP_REFR  1
    #define LV_LOG_TRACE_EVENT      1
    #define LV_LOG_TRACE_OBJ_CREATE 1
    #define LV_LOG_TRACE_LAYOUT     1
    #define LV_LOG_TRACE_ANIM       1

#endif  /*LV_USE_LOG*/

/*-------------
 * Asserts
 *-----------*/

/*Enable asserts if an operation is failed or an invalid data is found.
 *If LV_USE_LOG is enabled an error message will be printed on failure*/
#define LV_USE_ASSERT_NULL          1   /*Check if the parameter is NULL. (Very fast, recommended)*/
#define LV_USE_ASSERT_MALLOC        1   /*Checks is the memory is successfully allocated or no. (Very fast, recommended)*/
#define LV_USE_ASSERT_STYLE         0   /*Check if the styles are properly initialized. (Very fast, recommended)*/
#define LV_USE_ASSERT_MEM_INTEGRITY 0   /*Check the integrity of `lv_mem` after critical operations. (Slow)*/
#define LV_USE_ASSERT_OBJ           0   /*Check the object's type and existence (e.g. not deleted). (Slow)*/

/*Add a custom handler when assert happens e.g. to restart the MCU*/
#define LV_ASSERT_HANDLER_INCLUDE <stdint.h>
#define LV_ASSERT_HANDLER while(1);   /*Halt by default*/

/*-------------
 * Others
 *-----------*/

/*1: Show CPU usage and FPS count*/
#define LV_USE_PERF_MONITOR 0
#if LV_USE_PERF_MONITOR
    #define LV_USE_PERF_MONITOR_POS LV_ALIGN_BOTTOM_RIGHT
#endif

/*1: Show the used memory and the memory fragmentation
 * Requires LV_MEM_CUSTOM = 0*/
#define LV_USE_MEM_MONITOR 0
#if LV_USE_MEM_MONITOR
    #define LV_USE_MEM_MONITOR_POS LV_ALIGN_BOTTOM_LEFT
#endif

/*1: Draw random colored rectangles over the redrawn areas*/
#define LV_USE_REFR_DEBUG 0

/*Change the built in (v)snprintf functions*/
#define LV_SPRINTF_CUSTOM 0
#if LV_SPRINTF_CUSTOM
    #define LV_SPRINTF_INCLUDE <stdio.h>
    #define lv_snprintf  snprintf
    #define lv_vsnprintf vsnprintf
#else   /*LV_SPRINTF_CUSTOM*/
    #define LV_SPRINTF_USE_FLOAT 0
#endif  /*LV_SPRINTF_CUSTOM*/

#define LV_USE_USER_DATA 1

/*Garbage Collector settings
 *Used if lvgl is bound to higher level language and the memory is managed by that language*/
#define LV_ENABLE_GC 0
#if LV_ENABLE_GC != 0
    #define LV_GC_INCLUDE "gc.h"                           /*Include Garbage Collector related things*/
#endif /*LV_ENABLE_GC*/

/*=====================
 *  COMPILER SETTINGS
 *====================*/

/*For big endian systems set to 1*/
#define LV_BIG_ENDIAN_SYSTEM 0

/*Define a custom attribute to `lv_tick_inc` function*/
#define LV_ATTRIBUTE_TICK_INC

/*Define a custom attribute to `lv_timer_handler` function*/
#define LV_ATTRIBUTE_TIMER_HANDLER

/*Define a custom attribute to `lv_disp_flush_ready` function*/
#define LV_ATTRIBUTE_FLUSH_READY

/*Required alignment size for buffers*/
#define LV_ATTRIBUTE_MEM_ALIGN_SIZE 1

/*Will be added where memories needs to be aligned (with -Os data might not be aligned to boundary by default).
 * E.g. __attribute__((aligned(4)))*/
#define LV_ATTRIBUTE_MEM_ALIGN

/*Attribute to mark large constant arrays for example font's bitmaps*/
#define LV_ATTRIBUTE_LARGE_CONST

/*Compiler prefix for a big array declaration in RAM*/
#define LV_ATTRIBUTE_LARGE_RAM_ARRAY

/*Place performance critical functions into a faster memory (e.g RAM)*/
#define LV_ATTRIBUTE_FAST_MEM

/*Prefix variables that are used in GPU accelerated operations, often these need to be placed in RAM sections that are DMA accessible*/
#define LV_ATTRIBUTE_DMA

/*Export integer constant to binding. This macro is used with constants in the form of LV_<CONST> that
 *should also appear on LVGL binding API such as Micropython.*/
#define LV_EXPORT_CONST_INT(int_value) struct _silence_gcc_warning /*The default value just prevents GCC warning*/

/*Extend the default -32k..32k coordinate range to -4M..4M by using int32_t for coordinates instead of int16_t*/
#define LV_USE_LARGE_COORD 0

/*==================
 *   FONT USAGE
 *===================*/

/*Montserrat fonts with ASCII range and some symbols using bpp = 4
 *https://fonts.google.com/specimen/Montserrat*/
#define LV_FONT_MONTSERRAT_8  0
#define LV_FONT_MONTSERRAT_10 0
#define LV_FONT_MONTSERRAT_12 0
#define LV_FONT_MONTSERRAT_14 1
#define LV_FONT_MONTSERRAT_16 0
#define LV_FONT_MONTSERRAT_18 0
#define LV_FONT_MONTSERRAT_20 0
#define LV_FONT_MONTSERRAT_22 0
#define LV_FONT_MONTSERRAT_24 0
#define LV_FONT_MONTSERRAT_26 0
#define LV_FONT_MONTSERRAT_28 0
#define LV_FONT_MONTSERRAT_30 0
#define LV_FONT_MONTSERRAT_32 0
#define LV_FONT_MONTSERRAT_34 0
#define LV_FONT_MONTSERRAT_36 0
#define LV_FONT_MONTSERRAT_38 0
#define LV_FONT_MONTSERRAT_40 0
#define LV_FONT_MONTSERRAT_42 0
#define LV_FONT_MONTSERRAT_44 0
#define LV_FONT_MONTSERRAT_46 0
#define LV_FONT_MONTSERRAT_48 0

/*Demonstrate special features*/
#define LV_FONT_MONTSERRAT_12_SUBPX      0
#define LV_FONT_MONTSERRAT_28_COMPRESSED 0  /*bpp = 3*/
#define LV_FONT_DEJAVU_16_PERSIAN_HEBREW 0  /*Hebrew, Arabic, Persian letters and all their forms*/
#define LV_FONT_SIMSUN_16_CJK            0  /*1000 most common CJK radicals*/

/*Pixel perfect monospace fonts*/
#define LV_FONT_UNSCII_8  0
#define LV_FONT_UNSCII_16 0

/*Optionally declare custom fonts here.
 *You can use these fonts as default font too and they will be available globally.
 *E.g. #define LV_FONT_CUSTOM_DECLARE   LV_FONT_DECLARE(my_font_1) LV_FONT_DECLARE(my_font_2)*/
#define LV_FONT_CUSTOM_DECLARE

/*Always set a default font*/
#define LV_FONT_DEFAULT &lv_font_montserrat_14

/*Enable handling large font and/or fonts with a lot of characters.
 *The limit depends on the font size, font face and bpp.
 *Compiler error will be triggered if a font needs it.*/
#define LV_FONT_FMT_TXT_LARGE 0

/*Enables/disables support for compressed fonts.*/
#define LV_USE_FONT_COMPRESSED 0

/*Enable subpixel rendering*/
#define LV_USE_FONT_SUBPX 0
#if LV_USE_FONT_SUBPX
    /*Set the pixel order of the display. Physical order of RGB channels. Doesn't matter with "normal" fonts.*/
    #define LV_FONT_SUBPX_BGR 0  /*0: RGB; 1:BGR order*/
#endif

/*Enable drawing placeholders when glyph dsc is not found*/
#define LV_USE_FONT_PLACEHOLDER 1

/*=================
 *  TEXT SETTINGS
 *=================*/

/**
 * Select a character encoding for strings.
 * Your IDE or editor should have the same character encoding
 * - LV_TXT_ENC_UTF8
 * - LV_TXT_ENC_ASCII
 */
#define LV_TXT_ENC LV_TXT_ENC_UTF8

/*Can break (wrap) texts on these chars*/
#define LV_TXT_BREAK_CHARS " ,.;:-_"

/*If a word is at least this long, will break wherever "prettiest"
 *To disable, set to a value <= 0*/
#define LV_TXT_LINE_BREAK_LONG_LEN 0

/*Minimum number of characters in a long word to put on a line before a break.
 *Depends on LV_TXT_LINE_BREAK_LONG_LEN.*/
#define LV_TXT_LINE_BREAK_LONG_PRE_MIN_LEN 3

/*Minimum number of characters in a long word to put on a line after a break.
 *Depends on LV_TXT_LINE_BREAK_LONG_LEN.*/
#define LV_TXT_LINE_BREAK_LONG_POST_MIN_LEN 3

/*The control character to use for signalling text recoloring.*/
#define LV_TXT_COLOR_CMD "#"

/*Support bidirectional texts. Allows mixing Left-to-Right and Right-to-Left texts.
 *The direction will be processed according to the Unicode Bidirectional Algorithm:
 *https://www.w3.org/International/articles/inline-bidi-markup/uba-basics*/
#define LV_USE_BIDI 0
#if LV_USE_BIDI
    /*Set the default direction. Supported values:
    *`LV_BASE_DIR_LTR` Left-to-Right
    *`LV_BASE_DIR_RTL` Right-to-Left
    *`LV_BASE_DIR_AUTO` detect texts base direction*/
    #define LV_BIDI_BASE_DIR_DEF LV_BASE_DIR_AUTO
#endif

/*Enable Arabic/Persian processing
 *In these languages characters should be replaced with an other form based on their position in the text*/
#define LV_USE_ARABIC_PERSIAN_CHARS 0

/*==================
 *  WIDGET USAGE
 *================*/

/*Documentation of the widgets: https://docs.lvgl.io/latest/en/html/widgets/index.html*/

#define LV_USE_ARC        1

#define LV_USE_BAR        1

#define LV_USE_BTN        1

#define LV_USE_BTNMATRIX  1

#define LV_USE_CANVAS     1

#define LV_USE_CHECKBOX   1

#define LV_USE_DROPDOWN   1   /*Requires: lv_label*/

#define LV_USE_IMG        1   /*Requires: lv_label*/

#define LV_USE_LABEL      1
#if LV_USE_LABEL
    #define LV_LABEL_TEXT_SELECTION 1 /*Enable selecting text of the label*/
    #define LV_LABEL_LONG_TXT_HINT 1  /*Store some extra info in labels to speed up drawing of very long texts*/
#endif

#define LV_USE_LINE       1

#define LV_USE_ROLLER     1   /*Requires: lv_label*/
#if LV_USE_ROLLER
    #define LV_ROLLER_INF_PAGES 7 /*Number of extra "pages" when the roller is infinite*/
#endif

#define LV_USE_SLIDER     1   /*Requires: lv_bar*/

#define LV_USE_SWITCH     1

#define LV_USE_TEXTAREA   1   /*Requires: lv_label*/
#if LV_USE_TEXTAREA != 0
    #define LV_TEXTAREA_DEF_PWD_SHOW_TIME 1500    /*ms*/
#endif

#define LV_USE_TABLE      1

/*==================
 * EXTRA COMPONENTS
 *==================*/

/*-----------
 * Widgets
 *----------*/
#define LV_USE_ANIMIMG    1

#define LV_USE_CALENDAR   1
#if LV_USE_CALENDAR
    #define LV_CALENDAR_WEEK_STARTS_MONDAY 0
    #if LV_CALENDAR_WEEK_STARTS_MONDAY
        #define LV_CALENDAR_DEFAULT_DAY_NAMES {"Mo", "Tu", "We", "Th", "Fr", "Sa", "Su"}
    #else
        #define LV_CALENDAR_DEFAULT_DAY_NAMES {"Su", "Mo", "Tu", "We", "Th", "Fr", "Sa"}
    #endif

    #define LV_CALENDAR_DEFAULT_MONTH_NAMES {"January", "February", "March",  "April", "May",  "June", "July", "August", "September", "October", "November", "December"}
    #define LV_USE_CALENDAR_HEADER_ARROW 1
    #define LV_USE_CALENDAR_HEADER_DROPDOWN 1
#endif  /*LV_USE_CALENDAR*/

#define LV_USE_CHART      1

#define LV_USE_COLORWHEEL 1

#define LV_USE_IMGBTN     1

#define LV_USE_KEYBOARD   1

#define LV_USE_LED        1

#define LV_USE_LIST       1

#define LV_USE_MENU       1

#define LV_USE_METER      1

#define LV_USE_MSGBOX     1

#define LV_USE_SPAN       1
#if LV_USE_SPAN
    /*A line text can contain maximum num of span descriptor */
    #define LV_SPAN_SNIPPET_STACK_SIZE 64
#endif

#define LV_USE_SPINBOX    1

#define LV_USE_SPINNER    1

#define LV_USE_TABVIEW    1

#define LV_USE_TILEVIEW   1

#define LV_USE_WIN        1

/*-----------
 * Themes
 *----------*/

/*A simple, impressive and very complete theme*/
#define LV_USE_THEME_DEFAULT 1
#if LV_USE_THEME_DEFAULT

    /*0: Light mode; 1: Dark mode*/
    #define LV_THEME_DEFAULT_DARK 0

    /*1: Enable grow on press*/
    #define LV_THEME_DEFAULT_GROW 1

    /*Default transition time in [ms]*/
    #define LV_THEME_DEFAULT_TRANSITION_TIME 80
#endif /*LV_USE_THEME_DEFAULT*/

/*A very simple theme that is a good starting point for a custom theme*/
#define LV_USE_THEME_BASIC 1

/*A theme designed for monochrome displays*/
#define LV_USE_THEME_MONO 1

/*-----------
 * Layouts
 *----------*/

/*A layout similar to Flexbox in CSS.*/
#define LV_USE_FLEX 1

/*A layout similar to Grid in CSS.*/
#define LV_USE_GRID 1

/*---------------------
 * 3rd party libraries
 *--------------------*/

/*File system interfaces for common APIs */

/*API for fopen, fread, etc*/
#define LV_USE_FS_STDIO 0
#if LV_USE_FS_STDIO
    #define LV_FS_STDIO_LETTER '\0'     /*Set an upper cased letter on which the drive will accessible (e.g. 'A')*/
    #define LV_FS_STDIO_PATH ""         /*Set the working directory. File/directory paths will be appended to it.*/
    #define LV_FS_STDIO_CACHE_SIZE 0    /*>0 to cache this number of bytes in lv_fs_read()*/
#endif

/*API for open, read, etc*/
#define LV_USE_FS_POSIX 0
#if LV_USE_FS_POSIX
    #define LV_FS_POSIX_LETTER '\0'     /*Set an upper cased letter on which the drive will accessible (e.g. 'A')*/
    #define LV_FS_POSIX_PATH ""         /*Set the working directory. File/directory paths will be appended to it.*/
    #define LV_FS_POSIX_CACHE_SIZE 0    /*>0 to cache this number of bytes in lv_fs_read()*/
#endif

/*API for CreateFile, ReadFile, etc*/
#define LV_USE_FS_WIN32 0
#if LV_USE_FS_WIN32
    #define LV_FS_WIN32_LETTER '\0'     /*Set an upper cased letter on which the drive will accessible (e.g. 'A')*/
    #define LV_FS_WIN32_PATH ""         /*Set the working directory. File/directory paths will be appended to it.*/
    #define LV_FS_WIN32_CACHE_SIZE 0    /*>0 to cache this number of bytes in lv_fs_read()*/
#endif

/*API for FATFS (needs to be added separately). Uses f_open, f_read, etc*/
#define LV_USE_FS_FATFS 0
#if LV_USE_FS_FATFS
    #define LV_FS_FATFS_LETTER '\0'     /*Set an upper cased letter on which the drive will accessible (e.g. 'A')*/
    #define LV_FS_FATFS_CACHE_SIZE 0    /*>0 to cache this number of bytes in lv_fs_read()*/
#endif

/*API for LittleFS (library needs to be added separately). Uses lfs_file_open, lfs_file_read, etc*/
#define LV_USE_FS_LITTLEFS 0
#if LV_USE_FS_LITTLEFS
    #define LV_FS_LITTLEFS_LETTER '\0'     /*Set an upper cased letter on which the drive will accessible (e.g. 'A')*/
    #define LV_FS_LITTLEFS_CACHE_SIZE 0    /*>0 to cache this number of bytes in lv_fs_read()*/
#endif

/*PNG decoder library*/
#define LV_USE_PNG 0

/*BMP decoder library*/
#define LV_USE_BMP 0

/* JPG + split JPG decoder library.
 * Split JPG is a custom format optimized for embedded systems. */
#define LV_USE_SJPG 0

/*GIF decoder library*/
#define LV_USE_GIF 0

/*QR code library*/
#define LV_USE_QRCODE 1

/*FreeType library*/
#define LV_USE_FREETYPE 0
#if LV_USE_FREETYPE
    /*Memory used by FreeType to cache characters [bytes] (-1: no caching)*/
    #define LV_FREETYPE_CACHE_SIZE (16 * 1024)
    #if LV_FREETYPE_CACHE_SIZE >= 0
        /* 1: bitmap cache use the sbit cache, 0:bitmap cache use the image cache. */
        /* sbit cache:it is much more memory efficient for small bitmaps(font size < 256) */
        /* if font size >= 256, must be configured as image cache */
        #define LV_FREETYPE_SBIT_CACHE 0
        /* Maximum number of opened FT_Face/FT_Size objects managed by this cache instance. */
        /* (0:use system defaults) */
        #define LV_FREETYPE_CACHE_FT_FACES 0
        #define LV_FREETYPE_CACHE_FT_SIZES 0
    #endif
#endif

/*Tiny TTF library*/
#define LV_USE_TINY_TTF 0
#if LV_USE_TINY_TTF
    /*Load TTF data from files*/
    #define LV_TINY_TTF_FILE_SUPPORT 0
#endif

/*Rlottie library*/
#define LV_USE_RLOTTIE 0

/*FFmpeg library for image decoding and playing videos
 *Supports all major image formats so do not enable other image decoder with it*/
#define LV_USE_FFMPEG 0
#if LV_USE_FFMPEG
    /*Dump input information to stderr*/
    #define LV_FFMPEG_DUMP_FORMAT 0
#endif

/*-----------
 * Others
 *----------*/

/*1: Enable API to take snapshot for object*/
#define LV_USE_SNAPSHOT 0

/*1: Enable Monkey test*/
#define LV_USE_MONKEY 0

/*1: Enable grid navigation*/
#define LV_USE_GRIDNAV 0

/*1: Enable lv_obj fragment*/
#define LV_USE_FRAGMENT 0

/*1: Support using images as font in label or span widgets */
#define LV_USE_IMGFONT 0

/*1: Enable a published subscriber based messaging system */
#define LV_USE_MSG 0

/*1: Enable Pinyin input method*/
/*Requires: lv_keyboard*/
#define LV_USE_IME_PINYIN 0
#if LV_USE_IME_PINYIN
    /*1: Use default thesaurus*/
    /*If you do not use the default thesaurus, be sure to use `lv_ime_pinyin` after setting the thesauruss*/
    #define LV_IME_PINYIN_USE_DEFAULT_DICT 1
    /*Set the maximum number of candidate panels that can be displayed*/
    /*This needs to be adjusted according to the size of the screen*/
    #define LV_IME_PINYIN_CAND_TEXT_NUM 6

    /*Use 9 key input(k9)*/
    #define LV_IME_PINYIN_USE_K9_MODE      1
    #if LV_IME_PINYIN_USE_K9_MODE == 1
        #define LV_IME_PINYIN_K9_CAND_TEXT_NUM 3
    #endif // LV_IME_PINYIN_USE_K9_MODE
#endif

/*==================
* EXAMPLES
*==================*/

/*Enable the examples to be built with the library*/
#define LV_BUILD_EXAMPLES 1

/*===================
 * DEMO USAGE
 ====================*/

/*Show some widget. It might be required to increase `LV_MEM_SIZE` */
#define LV_USE_DEMO_WIDGETS 0
#if LV_USE_DEMO_WIDGETS
#define LV_DEMO_WIDGETS_SLIDESHOW 0
#endif

/*Demonstrate the usage of encoder and keyboard*/
#define LV_USE_DEMO_KEYPAD_AND_ENCODER 0

/*Benchmark your system*/
#define LV_USE_DEMO_BENCHMARK 0
#if LV_USE_DEMO_BENCHMARK
/*Use RGB565A8 images with 16 bit color depth instead of ARGB8565*/
#define LV_DEMO_BENCHMARK_RGB565A8 0
#endif

/*Stress test for LVGL*/
#define LV_USE_DEMO_STRESS 0

/*Music player demo*/
#define LV_USE_DEMO_MUSIC 0
#if LV_USE_DEMO_MUSIC
    #define LV_DEMO_MUSIC_SQUARE    0
    #define LV_DEMO_MUSIC_LANDSCAPE 0
    #define LV_DEMO_MUSIC_ROUND     0
    #define LV_DEMO_MUSIC_LARGE     0
    #define LV_DEMO_MUSIC_AUTO_PLAY 0
#endif

/*--END OF LV_CONF_H--*/

#endif /*LV_CONF_H*/

#endif /*End of "Content enable"*/

I don't know if this helps or not but I was able to confirm that the lv_conf.h file is getting picked up. I verified by inserting a #pragma message(...) in the first line and it showed up during the compile.

I see the problem here in your lv_conf.h:

Change that line to this:

#if 1 /*Set it to "1" to enable content*/

after that, try uploading the sketch to your GIGA R1 WiFi board again. Hopefully this time everything will work as expected.

Finally! Compiled.

Well, it compiled once and now it won't compile again:

sketch\agsmac.ino.cpp.o: In function `DisplayMainStatusPanel(_lv_obj_t*)':
C:\Users\OBFUSCATED\Documents\Arduino\agsmac/agsmac.ino:1314: undefined reference to `lv_qrcode_create'
C:\Users\OBFUSCATED\Documents\Arduino\agsmac/agsmac.ino:1315: undefined reference to `lv_qrcode_update'
collect2.exe: error: ld returned 1 exit status

exit status 1

Compilation error: exit status 1

If I didn't know any better I'd say that there's a linker issue, some kind of cache problem. But I'm not familiar with the Arduino IDE build environment like I am with other C/C++ compilers so I'm holding off on that notion.

Fabulously neat organised code. There is quite a lot to learn from this, so thank you for posting it.
How come you didn't use SquareLine Studio to generate the lvgl code?
cheers, Giles

I found the file "agsmac.ino.cpp.o" mentioned in the log inside of C:\Users\OBFUSCATED\AppData\Local\arduino\sketches directory hierarchy. Closed the IDE, deleted everything I found in there, then restarted the IDE. It compiled. How it got all screwball the first time I have no idea.

However, now that it compiles the lvgl UI seems to have gone wonko. The code is running but the screen is stuck on a throbber created while connecting WiFi on startup.

Because it's not free for commercial use when I last checked.

You don't need to check again, their pricing has not changed. If it is for commercial use then you're looking at a time/cost equation and $66 a month for small business rate may be affordable in relation to the cost of your coding time. I've found it to be very helpful. I can create a fairly detailed multi-screen UI in about 20 mins and bolt it into my standard starting Giga Display Module code and get straight to programming functionality. kind regards, Giles

I apologize for not acknowledging your compliment earlier. Thank you.

I'm glad it is at least compiling now. That is good progress!

My recommendation is to add some Serial.println calls at strategic locations in your code, upload the updated code to the board, then run the program with Serial Monitor open. This will give you a better indication of what is happening under the hood. Perhaps the board is not able to connect to the Wi-Fi network. Or maybe it is connecting, but the "throbber" is not being cleared for some reason. A different troubleshooting approach would be indicated for one than for the other.

I already did. I found that setup() is completed (which is where the WiFi is connected if configured) and loop() is doing it's thing as well, looping and refreshing the time display label at the correct intervals. It just looks like lvgl just croaks during the WiFi connection attempt whenever lv_qrcode is available, even if it's not being used.

My suggestion is to create the most minimal possible sketch that can still reproduce the problem. Often by the time I have completed this task I identify the problem and solution. Even if you don't end up resolving the problem yourself, that "minimal, reproducible, verifiable example" (MCVE) will be very useful to the helpers.