# Easy Nextion Library ## Description A simple library that uses only four functions. You can easily benefit from Nextion's wide range of features and advantages in just a few easy steps. The library uses a custom protocol that can prove to be a **powerful tool** for advanced users as it can be **easily modified** to meet one’s needs. This is an attempt to give a very simple method to use Nextion monitors for beginners at programming and at the same time to be a strong and reliable method that can be capable of satisfying the needs of the advance programming. The handling of Nextion should be as simple and at the same time as professional as a display of this kind deserves. I have invested time and resources providing open source codes, like this one. Please do not hesitate to support my work! If you found this work useful and has saved you time and effort, just simply paypal me at this Link: [seithagta@gmail.com](https://paypal.me/seithan) You can find more examples, tutorials and projects with Nextion on my website [seithan.com](https://seithan.com/) or at my YouTube channel [Thanasis Seitanis](https://www.youtube.com/channel/UCk_AjYtvzUC58ups5Lm053g) ## Installation ### First Method 1. In the Arduino IDE, navigate to Sketch > Include Library > Manage Libraries 1. Then the Library Manager will open and you will find a list of libraries that are already installed or ready for installation. 1. Then search for EasyNextionLibrary using the search bar. 1. Click on the text area and then select the latest version and install it. ![enter image description here](./extras/media/EasyNextionLibrary_Arduino_Library_Manager.png) ### Second Method 1. Download the latest release of EasyNextionLibrary. - From: [https://github.com/Seithan/EasyNextionLibrary](https://github.com/Seithan/EasyNextionLibrary) 2. Extract the `.zip` file 3. Copy the EasyNextionLibrary folder, to: ....\Arduino\libraries\ ***NOTE***: `.HMI` files for Nextion Editor are also included in every example's folder. All `.HMIs` are set for 2.8" Basic screens, so as to be easier to modify it for bigger screens. ## The main functions - `begin();` - `writeNum();` - `writeStr();` - `readNumber();` - `trigger();` - `readStr();` Added with version 1.0.4 ***And the public variables:*** * currentPageId (Data Type: **Integer**) * lastCurrentPageId (Data Type: **Integer**) **Functions for user custom command protocol** - `readByte();` Added with version 1.0.5 - `easyNexReadCustomCommand()` Added with version 1.0.5 and the public variables for user custom command protocol Added with version 1.0.5 - `cmdGroup` (Data Type: **Byte**) - `cmdLength` (Data Type: **Byte**) ### Details, examples and explanation on custom protocol, can be found on my website at: #### [https://seithan.com/Easy-Nextion-Library/Custom-Protocol/](https://seithan.com/Easy-Nextion-Library/Custom-Protocol/) ## 4-step Example 1. **Include** ***EasyNextionLibrary*** and create an object of `EasyNex` class ````Cpp #include "EasyNextionLibrary.h" // Include EasyNextionLibrary EasyNex myNex(Serial); // Create an object of EasyNex class with the name < myNex > // Set as parameter the Hardware Serial you are going to use ```` 2. **Begin the object** and give the desired baud rate as a parameter. Also, initialize the built-in LED as output ````Cpp void setup(){ myNex.begin(9600); // Begin the object with a baud rate of 9600 // If no parameter was given in the begin(), the default baud rate of 9600 will be used pinMode(LED_BUILTIN, OUTPUT); // The built-in LED is initialized as an output } ```` 3. **Place** the **NextionListen()** function in the loop. ````Cpp void loop(){ myNex.NextionListen(); // This function must be called repeatedly to response touch events // from Nextion touch panel. Actually, you should place it in your loop function. } ```` 4. **Select one of the 50 predefined trigger()** functions and use it as a simple void function (nothing returned). Declare the void function by simply writing: ````Cpp void trigger0(){ [ put your code here !!!!] } ```` * Write the code you want to run in there. The `trigger0()` function will run every time the following sequence of bytes (in HEX format) `23 02 54 00` comes to Arduino's Serial. To do that, write in the `Touch Release Event` of the button b0, this command: `printh 23 02 54 00` ````Cpp void trigger0(){ digitalWrite(LED_BUILTIN, !digitalRead(LED_BUILTIN)); if(digitalRead(LED_BUILTIN) == HIGH){ myNex.writeNum("b0.bco", 2016); // Set button b0 background color to GREEN (color code: 2016) myNex.writeStr("b0.txt", "ON"); // Set button b0 text to "ON" }else if(digitalRead(LED_BUILTIN) == LOW){ myNex.writeNum("b0.bco", 63488); // Set button b0 background color to RED (color code: 63488) myNex.writeStr("b0.txt", "OFF"); // Set button b0 text to "ON" } } ```` Enjoy the Easy Nextion Library!! Please do not forget the LED on :) ## Full Example Code ````Cpp /* * FourStepExample.ino - Simple example code * Copyright (c) 2020 Athanasios Seitanis < seithagta@gmail.com >. * All rights reserved. EasyNextionLibrary is licensed under the MIT License * https://opensource.org/licenses/MIT */ #include "EasyNextionLibrary.h" // Include EasyNextionLibrary EasyNex myNex(Serial); // Create an object of EasyNex class with the name < myNex > // Set as parameter the Hardware Serial you are going to use void setup(){ myNex.begin(9600); // Begin the object with a baud rate of 9600 // If no parameter was given in the begin(), the default baud rate of 9600 will be used pinMode(LED_BUILTIN, OUTPUT); // The built-in LED is initialized as an output } void loop(){ myNex.NextionListen(); // This function must be called repeatedly to response touch events // from Nextion touch panel. Actually, you should place it in your loop function. } void trigger0(){ /* Create a button on Nextion * Write in the Touch Release Event of the button * this command: printh 23 02 54 00 * Every time the button is pressed, the trigger0() function will run * and the code inside will be executed once */ digitalWrite(LED_BUILTIN, !digitalRead(LED_BUILTIN)); //If LED_BUILTIN is ON, turn it OFF, or the opposite if(digitalRead(LED_BUILTIN) == HIGH){ myNex.writeNum("b0.bco", 2016); // Set button b0 background color to GREEN (color code: 2016) myNex.writeStr("b0.txt", "ON"); // Set button b0 text to "ON" }else if(digitalRead(LED_BUILTIN) == LOW){ myNex.writeNum("b0.bco", 63488); // Set button b0 background color to RED (color code: 63488) myNex.writeStr("b0.txt", "OFF"); // Set button b0 text to "ON" } } ```` ## Function documentation ***The various combinations of attribute choices provide a wide range of expected behaviors with many combinations. This combined with the Nextion Instruction Set creates the opportunity for very powerful HMIs.*** ***NOTE***: As these commands are using the Serial port to read and write, it is more preferred not to run them in the loop() without delay(); or some other method of not running them with the frequency of the loop and use them only when it is needed. Using them in a loop, a delay in the loop can be noticed, especially when reading from the Serial. A Serial buffer overflow can also be caused. ***Also NOTE***: (from the Nextion Editor Guide) > In an HMI project a page is a localized unit. When changing pages, the existing page is removed from memory and the > > requested page is then loaded into memory. As such components with a variable scope of _**local**_ are only accessible while the page they are in is currently loaded. Components within a page that have a variable scope of _**global**_ are accessible by prefixing the page name to the global component .objname. As an Example: A global Number component n0 on page1 is accessed by **page1.n0** . A local Number component n0 on page1 can be accessed by page1.n0 or n0, but there is little sense to try access a local component if the page is not loaded. Only the component attributes of a global component are kept in memory. Event code is never global in nature. ### Function trigger(); **`Associated Library's Code Example:`** ***` Trigger`* **`and`** *`FourStepExample`*** ***Description:*** This is the most important function of the library. And this is because, it gives you the ability to use the predefined functions and run your code from there. These predefined functions are named `trigger0()`, `trigger1()`, `trigger2()`... up to `trigger50()`. You can use them as a simple void function out of the loop, in which you will have written a block of code to run every time it is called. You can call those `trigger()` functions and run the code they contain anytime by simply writing in a Nextion Event the command: `printh 23 02 54 XX` , where `XX` the id for the triggerXX() in HEX. For example in a button's Touch Release Event, write: |Command|Function| |--|--| |printh 23 02 54 00 |trigger0() | |printh 23 02 54 01 |trigger1() | |... |... | |printh 23 02 54 0A |trigger10() | |... up to |... up to | |printh 23 02 54 32 |trigger50() | In Arduino code, declare a void `trigger()` function with the predefined name you want to use and put your code there. Declare the void function by simply writing: ````Cpp void trigger0(){ [ put your code here !!!!] } ```` Example: ````Cpp #include "EasyNextionLibrary.h" EasyNex myObject(Serial); void setup(){ myObject.begin(9600); pinMode(LED_BUILTIN, OUTPUT); } void loop(){ myObject.NextionListen(); } void trigger0(){ digitalWrite(LED_BUILTIN, !digitalRead(LED_BUILTIN)); } ```` ***1st NOTE***: To change the predefined names of the `trigger()` functions, there are details inside the `trigger.cpp` file and you can add up to **255** functions of this kind. ***2nd NOTE***: You can send the same `printh` command, to call the same function, from more than one component from any page, depending on your needs *See Appendix at the end of the document for numbers in HEX table* ### Function begin(); ***Parameters:*** begin(``unsigned long``) **unsigned long**: unsigned long baud = **9600** (default) if nothing is written in the begin() function ***Description:*** **The begin()** method of the class in which we pass the initialization data to the objects. ***Syntax:*** ````Cpp myObject.begin(115200); // for baud rate 115200 ```` ### Function writeNum(); **`Associated Library's Code Example:` *`ReadAndWriteNumber`*** ***Parameters:*** writeNum(`String`, `uint32_t`) * **String** = objectname.numericAttribute (example: "n0.val" or "n0.bco".....etc) * **uint32_t** = value (example: 84)(number from 0 to 4,294,967,295) ***Description:*** For writing numbers in numeric attributes in components of any kind (variables, textboxes, etc.). * We can change the shown value of a number box * We can change the value of a numeric attribute of the design editing commands. Those commands are used to change the attribute of the components (button, text box, timer, numeric etc.) while Nextion is running. |Command|Result on n0 comp.|Syntax| |--|--|--| |n0.val=30|Sets n0 component’s shown value to 30|`myObject.writeNum("n0.val", 30);`| |va0.val=30|Sets va0 variable's value to 30|`myObject.writeNum("va0.val", 30);`| |n0.bco=63488|Sets background color to red|`myObject.writeNum("n0.bco", 63488);`| |n0.font=0|Sets font to font style with Id = 0|`myObject.writeNum("n0.font", 0);`| |n0.pco=1055|Sets font color to blue|`myObject.writeNum("n0.pco", 1055);`| |n0.format=0|Sets value format to decimal|`myObject.writeNum("n0.format", 0);`| With the same way you can change the xcen, ycen, length and isbr ***TIP:** In a timer component, at the attribute < **en** >, you can start or stop the timer by writing **0** or **1**.* Also, at the attribute < **tim** >, you can set the time the timer is going to repeat the commands written in timer's User-code event. ````Cpp myObject.writeNum("tm0.en", 0); // 0 = stop, 1 = start myObject.writeNum("tm0.tim", 1000); // repeat code every 1000ms ```` ***Syntax:*** ````Cpp myObject.writeNum("n0.val", 30); // Set the value of numeric n0 to 30 myObject.writeNum("n0.bco", 63488); // Set background color of n0 to 63488(red) myObject.writeNum("n0.font", 0); // Set font to font style with ID 0 myObject.writeNum("n0.pco", 1055); // Set font color to blue myObject.writeNum("n0.format", 0); // Set value format to decimal ```` ***NOTE:** Only attributes shown in green in the Editor can be both read and changed by user code at runtime.* ![Attribute panel](./extras/media/AttributePane.png) ### Send floating-point numbers, a number that has a decimal point. ### Or send a number on a textbox ***Description:*** Nextion **DOES NOT SUPPORT** float numbers. Instead, it uses integer math and does not have real or floating support. The Xfloat component is used for signed 32-bit integer values. The `.vvs0` sets the number of digits shown to the left of the decimal (useful for leading zeros). The `.vvs1` sets the number of digits shown to the right of the decimal. ***You can send Floating-point numbers with these two ways***: * On a **Xfloat component** after you convert the float to int and multiply it by 10, the Xfloat component will put a comma `,` (decimal point) automatically after the last digit if attribute `vvs1` is set to 1. ***Example:*** ````Cpp int tempInt = temperature*10; // Convert the float to int. Multiply it x10 myNex.writeNum("x0.val", tempInt); // Write it to x0 Xfloat component on Nextion ```` it is obvious that if you want 2 decimal places, you will set the attribute `vvs1` to `2` and you will multiply by `100` * On a **Textbox component** after you convert the float value to String ***Example:*** ````Cpp String tempString = String(temperature, 1); // Convert the float value to String, with 1 decimal place myNex.writeStr("t0.txt", tempString); // Write the String value to t0 Textbox component ```` ### Function writeStr(); **`Associated Library's Code Example:` *`WriteTextAndCommands`*** ***Parameters:*** - writeStr(`String`, `String`). *To change the `.txt` attribute in components* **String No1**: objectname.textAttribute (example: "t0.txt" or "b0.txt") **String No2**: value (example: "Hello World") - writeStr(`String`). *To send Designing and System Commands* **String**: The command to send on Nextion ***Description:*** For writing text in Nextion. The two ways the command can be used: **First Usage of the command**: Use **writeStr(** `String`, `String` **)** to change the text in a textbox Use both parameters to write text in textboxes. * In the first parameter, write the objectName.textAttribute example: t0.txt or b0.txt * In the second parameter, write the text you want to "print" ***1st Syntax:*** ````Cpp myObject.writeStr("t0.txt", "Hello World"); // Change t0 text to "Hello World" ```` Any previous text on the textbox is deleted Avoid using very big text Strings in the same command, as Nextion will not recognise them. Istead use a second command and in order to add to the existing text, use the **`+`** symbol, after the `.textAttribute("t0.txt+")`. ````Cpp myObject.writeStr("t0.txt", "You are now transferred to page2\\rThank you\\rfor choosing my library!!!"); myObject.writeStr("t0.txt+", "\\rEnjoy the library!!!"); myObject.writeStr("t0.txt+", "\\r\\rAthanasios Seitanis\\rseithagta@gmail.com"); /* By writing \\r, you send Nextion the change line character < \r > * The second \ is required, in order to print the \ as character * and not as an escape character. */ ```` **Second Usage of the command**: Use **writeStr(** `String` **)** to send Designing and System Commands according to the instructions of Nextion's Instruction Set. Use only the first parameter to send a command to Nextion. The commands must be syntaxed according to Nextion's Instruction Set. ***2nd Syntax:*** ***Design Commands Example:*** ````Cpp myObject.writeStr("page page0"); // Sending this command to change the page we are on Nextion using pageName myObject.writeStr("page 1"); // Sending this command to change the page we are on Nextion using pageId ```` ````Cpp myObject.writeStr("cir 100,100,30,RED"); // Renders a hollow Red circle with circle center at (100,100) ```` ***System Commands Example:*** ````Cpp myObject.writeStr("dim=50"); // Set the current brightness level to 50% ```` ````Cpp myObject.writeStr("sleep=1"); // sleep=1 (Enter sleep mode) or sleep=0 (Exit sleep mode) ```` ***NOTE**: When you decide to exit the sleep mode on Nextion, use a small delay of 50ms, in order to give Nextion some time to Exit sleep mode.* ***WARNING**: DO NOT send commands that causes data return over Serial to MCU, unless you know what you are doing.* Commands that cause data return over serial: `print`, `prints`, `printh`, `sendme`, `get`, `rept`, `rdfile`, `twfile` ***TIP**: Write in the debug mode the command to check if it is written correctly* ### Function readNumber(); **`Associated Library's Code Example:` *`ReadAndWriteNumber`*** ***Parameters:*** readNumber(`String`) * **String**: objectname.numericAttribute (example: "va0.val" "n0.val", "n0.pco", "n0.bco"...etc) ***Description:*** We use it to read the value of every components' numeric attribute from Nextion (value, bco color, pco color...etc) In case the function fails to read the new value, it will return the number `777777`. The reasons of getting `777777`: (from release 1.0.2 and above) - Waiting bytes have not come to Serial timeout - Command start character is not found in Serial timeout - The waiting length of the byte package has not come to Serial - Bytes on Serial are not the expected The chances of getting a wrong value is one in a million. You can use this, fail return value, feature in your code, in case you handle sensitive value data, to confirm that you have the right value. You can check it with an **`if()`** statement, in which you will ignore the value of `777777` and you can run the `readNumber()` again or set a safe value or use the last good known value method. ````Cpp uint32_t number = 0; uint32_t lastnumber = 0; number = myNex.readNumber("n0.val"); // We read the value of n0 and store it to number variable if(number != 777777){ // 777777is the return value if the code fails to read the new value lastnumber = number; } else if(number == 777777){ number = lastNumber; } ```` ***Syntax:*** ````Cpp unsigned long x = myObject.readNumber("n0.val"); // Store to x the value of numeric box n0 unsigned long x = myObject.readNumber("va0.val"); // Store to x the value of the variable va0 unsigned int y = myObject.readNumber("b0.bco"); // Strore to y the color number of the background of button b0 ```` ***NOTE:** Only attributes shown in **green** in the Editor can be both read and changed by user code at runtime.* To ### Function readStr(); **`Associated Library's Code Example:` *`ReadString`*** ***Parameters:*** readStr(`String`) * **String**: objectname.textAttribute (example: "t0.txt", "va0.txt", "b0.txt"...etc) ***Description:*** We use it to read the value of every components' text attribute from Nextion (txt etc...) In case the function fails to read the new value, it will return the text `ERROR`. The reasons of getting `ERROR`: (from release 1.0.4 and above) - Serial buffer occupied timeout - Waiting bytes have not come to Serial timeout - Command start character is not found in Serial timeout - The end of the command has not come to Serial The chances of getting a wrong value is one in a million. You can use this, fail return value, feature in your code, in case you handle sensitive value data, to confirm that you have the right value. You can check it with an **`if()`** statement, in which you will ignore the value of `ERROR` and you can run the `readStr()` again or set a safe value or use the last good known value method. ````Cpp String text = ""; String lastText = ""; text = myNex.readStr("t0.txt"); // We read the value of t0 and store it if(text.equals("ERROR") == false){ // ERROR is the return value if the code fails to read the new value lastText = text; } else if(text.equals("ERROR") == true){ text = lastText; } ```` ***Syntax:*** ````Cpp String x = myObject.readStr("t0.txt"); // Store to x the value of text box t0 ```` ## Library Public Variables **`Associated Library's Code Example:` *` ChangePagesAndSentFloatValues`*** ***1st Variable***: *currentPageId* A variable that stores the ID number of the current page loaded on Nextion. It is **VERY** important that Nextion and Arduino are synced and when you send data, the data goes to the right page. **NOTE**: In order to update this variable with the current Id of the page, you must write the Preinitialize Event of every page: `printh 23 02 50 XX` , where `XX` the id of the page in HEX. For page0: `printh 23 02 50 00` for page9: `printh23 02 50 09` for page10: `printh 23 02 50 0A` *See Appendix at the end of the document for numbers in HEX table* It can be called by writing: ````Cpp int x = myObject.currentPageId; // Store to x the currentPageId ```` **Example**: ````Cpp if(myObject.currentPageId == 0){ myObject.writeStr("t0.txt", "You are on page0!"); }else if(myObject.currentPageId == 1){ myObject.writeStr("t0.txt", "You are on page1!"); } ```` ***2nd Variable***: *lastCurrentPageId* This variable stores the last value of `currentPageId` before `currentPageId` is changed. We use it to check if the page we are on has changed, in order to send refreshing screen data to the components of the page. After that, it can be set to equal with the `currentPageId`, in order not to send unnecessary data for refreshing the components. ````Cpp if(myObject.currentPageId != myObject.lastCurrentPageId){ if(myObject.currentPageId == 0){ [send the data to refresh the page0] }else if(myObject.currentPageId == 1){ [send the data to refresh the page1] } myObject.lastCurrentPageId = myObject.currentPageId; } ```` Find more on the Library's Example: *`ChangePagesAndSentFloatValues`* ***TIP**: You can read the ID of the current Loaded page at anytime, without the use of the Library's commands using the `dp` system command* ````Cpp int x = myObject.readNumber("dp"); // Store to x the ID of the current Loaded page ```` ### Function easyNexReadCustomCommand() `easyNexReadCustomCommand()` has a weak attribute and will be created only when user declares this function in the main code. More for custom protocol and commands https://seithan.com/Easy-Nextion-Library/Custom-Protocol/ Our commands will have this format: `#` `len` `cmd` `id` `id2` and we must send them from Nextion as HEX with the printh command. For example: `printh 23 03 4C 01 01` - `#` start marker, declares that a command follows - `len` declares the number of bytes that will be received - `cmd` declares the task of the command or command group - `id` declares the properties of the command - `id2` a second property for the command When we send a custom command with the above format, the function NextionListen() will capture the start marker `#` and the `len` (first 2 bytes) and it will wait until all the bytes of the command, as we have declared with the `len` byte, arrive to the Serial buffer and inside the timeout limits. After that, the function will read the next byte, which is the command group and the function `readCommand()` takes over and through a switch command tries to match the `_cmd` variable that holds the command group value with the statements of the cases. If we do NOT have a match with the predefined, `cmd` of `P` for page and `T` for triggers, it will continue to the default where we store the `_cmd` and `_len` to the public variables `cmdGroup` and `cmdLenght` as we are going to need access to them from the main code in the next step. Next we call the the `easyNexReadCustomCommand()` with the precondition and ONLY if we have declared the function in the main code. From this point we can handle the assign of `cmdGroup` and `IDs` from the `easyNexReadCustomCommand()` in the user code, where we can go on with a switch case for the `cmdGroup`, the one that we have stored the `_cmd` for public use and we can call it with `myObject.cmdGroup`. This is why we made `cmdGroup` a public variable. As an example, we use 2 arrays (tables) of integers, where we are going to change the value of the position (element) with custom commands. ````Cpp int dataL[4] = {0,0,0,0}; //values 0 or 255, because we use only one byte int dataS[4] = {0,0,0,0}; // values from 0 to 255, because we use only one byte ```` The format is the known: `#` `len` `cmd` `id` `id2` - where the `id` referred to the position (element) of the array we want to write on - And `id2` carries the value to be written on the element of array. The custom command from Nextion: `printh 23 03 4C 00 0A` - 4C is the Hex for letter L and we refer to the array `dataL[]` - 00 Hex of Dec number 0 used as the index for each array element - 0A Hex of Dec number 10 is the value we are going to write on element 0 After the command is executed by our code, the values on `dataL[]` array will be - dataL[4] = {10,0,0,0} Same for the dataS[] intead that cmd is the 53 in Hex for letter `S` ````Cpp void easyNexReadCustomCommand(){ int arrayPlace; // temp variable int value; // temp variable switch(myNex.cmdGroup){ case 'L': // Or If 'L' matches // we are going to write values in specific places in the dataL[] table // read the next byte that determines the position on the table arrayPlace = myNex.readByte(); // read the next byte that keeps the value for the position value = myNex.readByte(); // update the array with the new values dataL[arrayPlace] = value; break; case 'S': // Or If 'S' matches // we are going to write values in specific places in the dataS[] table // from Nextion printh 23 03 53 00 00 // read the next byte that determines the position on the table arrayPlace = myNex.readByte(); // read the next byte that keeps the value for the position value = myNex.readByte(); // update the array with the new values dataS[arrayPlace] = value; break; } } ```` ## Usefull Tips **Manage Variables** You can read/write the variables as any other component. Use `readNumber()` to read the value of a numeric variable. Example: `myNex.readNumber("va0.val");` **BUT:** `myNex.readNumber("sys0");` Use `writeNum()` to change the value of a numeric variable. Example: `myNex.writeNum("va0.val", 255);` **BUT:** `myNex.readNumber("sys0", 375);` Use `readStr()` to read the text of a String variable. Example: `myNex.readStr("va0.txt");` Use `writeStr()` to change the text of a String variable. Example: `myNex.writeStr("va0.txt", "Hello World");` For this to happen, the variables you want to read/write must be at the page you are currently on. Otherwise, if the variables are of **global** scope, you will need to use a prefix with the page name that the variables are at. Example: `myNex.readNumber("page0.va0.val");` // If the variable is at page0 The same goes for the other functions as well. ## Compatibility * Arduino * ESP Tested MCUs: 1. Arduino NANO 2. Arduino MEGA 2560 3. Arduino UNO 4. WeMos D1 mini ESP8266 ## Releases: ### Release 1.0.6 - Corrected line 264 of EasyNextionLibrary.cpp, where the "=" should be "==". ````Cpp if(_endOfCommandFound == true) ```` Thank you Denis, Gixy31 ### Release 1.0.5 - Updated `readNumber()` function for faster response and more accurate reading. - Added the `readByte()` function for reading Serial buffer from user code - Added `easyNexReadCustomCommand()` function with a weak attribute and will be created only when user declares this function in the main code. The motivation to move this function out of the library's files, comes from Ricardo Reis thanks to his issue https://github.com/Seithan/EasyNextionLibrary/issues/15 - Added public variables `cmdGroup` and `cmdLength` **ONLY** for read custom commands, stores the command group ID and the length of the command ### Release 1.0.4 - Added the readStr() function for reading a String from Nextion ### Release 1.0.3 Two more examples were added. - The first one demonstrates how to use EasyNextionLibrary with waveforms. - The second one demonstrates how to use EasyNextionLibrary with progress bars ### Release 1.0.2 - Remove the private function `readCommand()` from the main `EasyNextionLibrary.cpp` file. A new file is created named `readCustomCommands.cpp`, in order to make easier the modifications for it when using the custom protocol. - Return Error code added and to other cases of `readNumberFromSerial()`. When failing to read a number, we return the number 777777 instead. The cases of having a 777777 return: - Waiting bytes have not come to Serial timeout - Command start character is not found in Serial timeout - The waiting length of the byte package has not come to Serial - Bytes on Serial are not the expected - The function readNumberFromSerial() is improved, making reading values more accurate, due to hardware or Serial problems. ## Licence This library is licensed under **MIT X11 license**. Copyright (C) <2020> Athanasios Seitanis Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of Athanasios Seitanis or the name of EasyNextionLibrary shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from Athanasios Seitanis. Also, prior written permission is required if this software or any part of it or any modifications of it, are used for commercial purposes. By using this software, you agree with the above terms and conditions as they are. The owner of the software has the right to change the terms of this license at any time without a prior notification. ## Appendix ### Numbers in HEX: | DEC | HEX |-| DEC | HEX |-| DEC | HEX |-| DEC | HEX | |--|--|--|--|--|--|--|--|--|--|--| | 0 | **00** |-| 16 | **10** |-| 32 | **20** |-| 48 | **30** | | 1 | **01** |-| 17 | **11** |-| 33 | **21** |-| 49 | **31** | | 2 | **02** |-| 18 | **12** |-| 34 | **22** |-| 50 | **32** | | 3 | **03** |-| 19 | **13** |-| 35 | **23** |-| 51 | **33** | | 4 | **04** |-| 20 | **14** |-| 36 | **24** |-| 52 | **34** | | 5 | **05** |-| 21 | **15** |-| 37 | **25** |-| 53 | **35** | | 6 | **06** |-| 22 | **16** |-| 38 | **26** |-| 54 | **36** | | 7 | **07** |-| 23 | **17** |-| 39 | **27** |-| 55 | **37** | | 8 | **08** |-| 24 | **18** |-| 40 | **28** |-| 56 | **38** | | 9 | **09** |-| 25 | **19** |-| 41 | **29** |-| 57 | **39** | | 10 | **0A** |-| 26 | **1A** |-| 42 | **2A** |-| 58 | **3A** | | 11 | **0B** |-| 27 | **1B** |-| 43 | **2B** |-| 59 | **3B** | | 12 | **0C** |-| 28 | **1C** |-| 44 | **2C** |-| 60 | **3C** | | 13 | **0D** |-| 29 | **1D** |-| 45 | **2D** |-| 61 | **3D** | | 14 | **0E** |-| 30 | **1E** |-| 46 | **2E** |-| 62 | **3E** | | 15 | **0F** |-| 31 | **1F** |-| 47 | **2F** |-| 63 | **3F** |