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Mixly is a free open-source graphical Arduino programming software, based on Google’s Blockly graphical programming framework, and developed by Mixly Team@ BNU.
It is a free open-source graphical programming tool for creative electronic development; a complete support ecosystem for creative e-education; a stage for maker educators to realize their dreams.
Although there is an Ardublock graphical programming software launched by Arduino official, Ardublock is not perfect enough, and many common functions cannot be realized.

The figure below shows the functional comparison between Ardublock and Mixly.

It can be said that Mixly is the most versatile and smoothest Arduino graphical programming software, which can replace the Arduino programming tool IDE.

Design Concept and User Groups

Design Concept

(1) Usability
Mixly is designed to be completely green. Currently Mixly supports win, ubuntu, mac. Windows users can download the Mixly package directly from the Internet, and unzip it to run on Windows XP and above (download link is attached below).

(2) Simplicity
Mixly uses the Blockly graphical programming engine to replace complex text manipulation with graphical building blocks, providing a good foundation for beginners to get started quickly.
 Use the different color icons to represent different types of functional blocks, very convenient for users to classify.
 Provide default options in the composite function block to effectively reduce the number of user drags.
 Integrate all the features of the software in the same interface.
 Provide the reference tutorial and code examples.

(3) Functionality
It has versatile functions. Mixly can almost implement all the functions that Arduino IDE has. Support all official development boards of arduino.

(4) Continuity
The goal of the graphical programming system is definitely not to replace the original text programming method, but to better understand the programming principles and program thinking through graphical programming, and lay the foundation for future text programming.
It is also the design philosophy for Mixly. More continuous content has been added to the design of the software to protect the user’s learning outcomes. To be specific, it includes the introduction of variable types, the consistency of text programming as much as possible in the design of the module, and the support of both graphical and text programming.

(5) Ecological
The most important design concept of Mixly is its ecological feature, which can distinguish it from other Arduino graphical programming.
In order to achieve sustainable development, Mixly is designed to allow manufacturers to develop their own unique modules (currently supports DfRobot, StartLab, MakeBlock, Sense, Seeed, Lubot. But users require JavaScript programming foundation to make this part of the module).
It also allows users directly use Mixly’s graphical programming function to generate common modules (such as LED digital display, buzzer broadcast, etc. Users are able to make this part of the module only using Mixly).
Both of the two kinds of modules mentioned above can be imported into the Mixly system through the “Import” function, thereby realizing the user’s own value in the popularity of Mixly software.

User Groups

From the above design concept, it can be seen that Mixly is suitable for primary and secondary school students to cultivate programming thinking. It is also available for quick programming when creating a work. Of course, it is good for those lovely friends who don’t want to learn text programming, but want to do some small works with intelligent control.

Mixly Interface Functions

System Functions

Look at the main interface of Mixly, it includes five parts, that is, Blocks selection, code edit, text code (hidden), system function and message prompt area. Shown below.

Some common functions:
Through this interface, you can complete the code compile、upload、save and manage. It support four remove methods: drag it left out code window, or drag to Recycle Bin, delete key, or right-click to delete block. It supports four languages: English、Español (Spanish)、中文简体(Chinese Simplified)、中文繁体(Chinese Traditional).

In/Out Block

1 3.2-2.png Returns HIGH or LOW voltage
2 3.2-3.png Write digital value to a specific Port.
Digital Output: set the HIGH or LOW output for IO pins
3 3.2-4.png Returns a digital value of a specific Port.
Digital IO Read Pin, generally used to read the HIGH or LOW level detected by Digital sensor
4 3.2-5.png Write analog value between 2 and 255 to a specific Port.
Analog Output: set the Analog value output by Analog IO pins (0~255).
5 3.2-6.png Returns value between 0 and 1023 of a specific Port.
Analog IO Read Pin, generally used to read the Analog value detected by Analog sensor.
6 3.2-7.png External Interrupts function, with three trigger interrupt modes RISING, FALLING, CHANGE.
7 3.2-8.png Detachs interrupt to a specific Port.
Turn off the given interrupt function.
8 3.2-9.png Set the IO pins as Output or Input state
9 3.2-10.png Read the continuous time of HIGH or LOW pulse from IO pins.( generally used for ultrasonic ranging)
10 Read a pulse (either HIGH or LOW) on a pin within a time set in timeout.
11 Set the ShiftOut data pin, clock pin. Output the data needed from the bitOrder MSBFIRST or LSBFIRST (Most Significant Bit First, or, Least Significant Bit First).
Generally used for controlling the 74HC595 CHIP.
12 This is the function interface under Normal mode. If select Advanced mode, the functions will be more.

For example:
Connect your Arduino Uno board, then follow the steps below to light the Pin13 led on Arduino UNO.

Control Block

1 3.3-1.png Initialization (run only once)
2 3.3-2.png End the program, means the program will stop running when use this block.
3 3.3-3.png Delay function, click to select ms or us
(pause the program for the amount of time (in milliseconds) specified as parameter. There are 1000 milliseconds in a second.)
4 3.3-4.png if_do function (first evaluate a value be true or false, if a value is true, then do some statement.
You can click the blue gear icon to select the else if block or else block.)
5 3.3-5.png switch function. You can click the blue gear icon to select the case block or default block. (used to evaluate several programs then execute the corresponding function matched with program.)
6 3.3-6.png Equal to for statement.
7 3.3-7.png while loop statement.
8 3.3-8.png break function, used to exit from the containing loop.
9 3.3-9.png millis() function, returns the system running time since the program started.(The unit can be ms (milliseconds) or μs(microsecond)).
10 3.3-10.png Timer interrupt function, that is, set a trigger interrupt for the amount of time (in milliseconds) specified as parameter.
11 3.3-11.png Timer interrupt start block
12 3.3-12.png Timer interrupt stop block

For example:
Compile and upload the program below to your Arduino board, you should see Pin13 LED on Arduino UNO continue to flash.(with an interval of 1s, equal to 1000ms)
3.3 flash.PNG

Math Block


1 3.4-1.png A number
2 Click to select the Arithmetic Operators:
+(addition)-(subtraction)x (Multiplication)÷(division) %(remainder)^(bitwise xor)
3 Click to select the & (bitwise end)l (bitwise or)<< (bitshift left)>> (bitshift right)
4 Click to select the sincostan; asin; acos; atan; ln; log10; e^; 10^; ++ (increment) ;— (decrement)
5 Click to select the Round; Ceil; Floor; abs; sq; sqrt
Round: Returns the integer part a number using around.
Ceil: Returns the integer part a number using ceil.
Floor: Returns the integer part a number using floor.
abs: Return the absolute value of a number.
sq: Return the square of a number.
sqrt: Return the square root of a number.
6 If select the max, returns the larger number;
if select the min, returns the smaller number.
7 3.4-7.png Initialize the random seed
8 Return a random integer between the two specified limits, inclusive.
9 Constrain a number to be between the specified limits (inclusive).
(generally used to constrain an analog value read from sensor)
10 Map a number from the first interval to the second interval.
(For instance, potentiometer-controlled servo, map the range of potentiometer (0, 1023) to the angle of servo (0, 180)).

Text Block


1 3.5-1.png character string: a letter, word, or line of text.
2 3.5-2.png A character
3 3.5-3.png Creates a piece of text by joining together two piece of text.
( Here Hello join Mixly equals HelloMixly)
4 3.5-4.png Converts a string into an integer or an float.
5 3.5-5.png Returns the char corresponding to an ASCII code
(Decimal number 97 corresponding to a)
6 3.5-6.png Returns the ASCII code corresponding to a char.
7 3.5-7.png Converts a number into a string.
8 3.5-8.png Calculates the length of a string
9 3.5-9.png Output the char of a string (the char at 0 of hello is h)
10 3.5-10.png The first string equals or startsWith or endsWith the second string, returns 1, otherwise returns 0.
(if equals, both strings are abc, returns 1.)
11 3.5-11.png Returns a decimal value of the first string subtracts the second string.

List Block

1 Create a list with any number of items
2 3.6-2.png Creats a list from a text. (int mylist [ ]={0,0,0};)
3 3.6-3.png Creats a list from a text. (int mylist [ ]={0,0,0};)
4 3.6-4.png Returns the value of at the specified position in a list.
5 3.6-5.png Sets the value of at the specified position in a list.
Set the first item in mylist to another item.

Logic Block

1 3.7-1.png logic comparision
=: Return true if both inputs equal each other.
≠: Return true if both inputs are not equal to each other.
<: Return true if the first input is smaller than the second input.
≤ : Return true if the first input is smaller than or equal to the second input.
>: Return true if the first input is greater than the second input.
≥ : Return true if the first input is greater than or equal to the second input.
2 3.7-2.png and:Return true if both inputs are true;or: Return true if at least one of the inputs is true
3 3.7-3.png Returns true if the input is false. Returns false if the input is true.
4 3.7-4.png Returns either true or false.
5 3.7-5.png Returns null
6 3.7-6.png If the first number is true, the second number is returned, otherwise the third number.

Variable Block


1 3.8-1.png Declare and initialize a variable.
Click to select intlong,floatbooleanbyte,charstring
2 3.8-2.png Define the data types

For example: LED breath
You need an Arduino Uno and one LED module. Connect the control pin of LED module to Pin 3 of Uno board (or other pins with “~”,that is, those pins can output PWM signal). LED will gradually light then gradually dim, repeatedly.
3.8 LED breath.PNG

SerialPort Block


1 3.9-1.png Set the serial buad rate to 9600
2 3.9-2.png Write the specified number, text or other value.
3 3.9-3.png Print the specified number, text or other value on monitor.
4 3.9-4.png Print the specified number, text or other value on newline of monitor.
5 3.9-5.png Print the specified number in hexademical format on newline of monitor.
6 3.9-6.png If the serial port is available, it returns true, otherwise returns false.
(generally used in Bluetooth communication)
7 3.9-7.png Returns a string in serial port
8 3.9-8.png A string read from serial port to a string variable, pause until read the specified character.
9 3.9-9.png Read the serial data by byte (generally used to read the value sent from Bluetooth) (delete the data has been read)
10 3.9-10.png Wait for the output data completed
11 3.9-11.png Set the software serial port
(call this function if need to use several serial ports)
12 3.9-12.png Event function trigger by serial port data, that is, serial port is ready to call this function.
(equal to an interrupt function)

For example: serial communication
Done uploading the code, open the Arduino monitor, then enter a “hello” on the top bar, and click Send, it will print out “hello,world”.
3.9 Serial port -1.PNG


Communicate Block

1 3.10-1.png Do something when receiving infrared signals.
2 3.10-2.png Sends infrared signals of the specified types.
IR transmitter sends the data, here use the libraries, only PIN3 port.
3 3.10-3.png Enable IR decoding
4 3.10-4.png Print the Infrared signal in RAW types when receiving it.
5 3.10-5.png Sends RAW infrared signals (set the pin number, list, length of list and IR frequency)

For example:
You need an Arduino Uno board, an IR receiver module and an IR remote control.
Connect the signal pin of IR receiver to Digital pin 3 of Uno board, then upload the code and open the monitor. If send a signal to an IR receiver module using an IR remote control, you should see the monitor show the corresponding signal data.
3.10 ir.PNG

Sensor Block


1 3.11-1.png Set the Trig and Echo pin of ultrasonic sensor.
Returns the distance of ultrasonic sensor measured. (unit: cm)
2 3.11-2.png Set the control pin of DHT11 temperature and humidity sensor.
Returns the temperature or humidity of DHT 11 sensor measured.
3 3.11-3.png Set the control pin of DHT11 temperature and humidity sensor.
Returns the temperature or humidity of DHT 11 sensor measured.

For example: ultrasonic ranging
Connect the Trig pin of ultrasonic sensor to Digital 1 of Uno, Echo pin to D2, then upload the code and open the monitor, you should see the distance value, updating once per 100ms.

Actuator Block


1 3.12-1.png Sets the servo pin;
Moves between 0-180 degree;
Delay time for servo to rotate.
2 3.12-2.png Returns that degree with the last servo move.
Read the degree of servo connected to IO pin set
3 3.12-3.png Set the pin and specified frequency for buzzer to play sound.
4 3.12-4.png Stop playing sound

For example:
Connect the signal end of servo to Digital 0 of Uno, then upload the code below, servo will rotate 90 degrees.
Note: Delay 100ms is the time required for servo to move.

Monitor Block

1 3.13-1.png Set the IIC LCD1602 address
2 3.13-2.png Input the value on LCD line 1 and line 2 from left to right.
3 3.13-3.png Set the row and column of LCD to print the char
4 3.13-4.png Clear the LCD screen
5 3.13-5.png Set the control pin and the number of RGB light.
6 3.13-6.png Set the RGB light pin, light number and brightness
7 3.13-7.png Set the control pin, light number and color. (click to select the color)
8 3.13-8.png Clear the data, namely turn off digital display
9 3.13-9.png Four-digit display, displaying abcd.
10 3.13-10.png Turn on or off the digitdisplay
(here turn on the first digitdisplay)

For example: serial communication
Separately connect the SDA (A4) and SCL (A5) of Arduino Uno to SDA and SCL pins of IIC LCD1602, then set the address of your LCD1602 screen, the LCD address we used here is 0x27. Then upload the code, LCD screen has two lines, you should see the line 1 print HELLO, and line 2 print 123456789.

Functions Block

1 3.14-1.png Creates a function with no output.
Click the blue icon to set the procedure parameter.(no return value)
2 3.14-2.png Creates a function with an output.
Click the blue icon to set the procedure parameter.
(with return value and can set the data types)
3 3.14-3.png If a value is true, then return a second value.

For example: ultrasonic ranging
Below is an example code for line tracking car. We use three tracking modules (left to D6, middle to D7, right to D8). of course you need a tracking car to test it. First edit the forward, backward, turn left, turn right and stop into functions block. Then compile and upload the code below.
图片1-mixly 3.14.png


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