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Programming basics
The goal of this section is to give artist fast understanding of core programming concepts to be able to follow VEX tutorials if the programming is Terra Incognita for him (or her). To explain complex things (and programming could be sophisticated for those who never have a deal with it or who consider himself an artist but not technician) we will use simplification and analogies. This is not even a first steps, we learn how to crawl here.
Simplification is a focus on the main topic ignoring all surrounding exceptions and details. Analogies — explaining unknown with the notions which are intuitive (familiar without any extra knowledge to a majority of humans in the world). Both simplification and analogies yields to a faster understanding but less precision. Keep in mind that you may not pass an exam on computer science with such kind of knowledge but from the other side it would be possible to start applied developing without finishing computer science class.
At the end of the lesson, you should be comfortable with syntax, data types, variables, commands, functions, loops, conditions.
Let's define what is programming. Sure we can say that programming is a process of creating computer programs, it would be correct, but not very useful. Let's say, programming — is communication with a computer, it`s how you can "speak" with this device. The more accurate definition would be: giving precise instructions to a computer to perform specific tasks. Moreover, anything you want your computer to execute should be expressed in a way that your computer will understand. And the only thing computers understand is a program written in particular programming language.
You can imagine programs as blocks. The program could be simple (like a lonely small block of code), or it could be more sophisticated and combined with numerous small blocks linked together. How we link blocks we will describe later in data types section.
One important aspect of programming which worth to learn at the early stages is comments. Comment is a note in program code for humans, for those people who could read the code later, including a program author. One of the basement law of programming speaks:
Code is read much more often than it is written.
So you can expect that you write a comment for yourself and its a must follow practice. Always comment your code precisely!
A particular example: when you copy a file from one folder to another your OS execute specific program.
As you can speak different languages, computers understand different programming languages also. The written rules for each language (the alphabet, words and sentence structure, etc) is what we can call a syntax. Each programming language has its own syntax. Once you learn one of them it's more and more easy to learn another.
A particular examples:
- You should end every sentence in VEX with a semicolon:
;
- Comments line should start with double slash:
//
The concept of data type is much more easy to understand than to explain. Let's define what is data first. Data is any piece of information you are dealing with inside your program (code). It's important to understand that data is not a part of the code (program) itself. It is something that "comes inside" your program from the outer environment (everything around your program block).
You can imagine data pieces as blocks as well, but this blocks, unlike programs, do not do anything, just holds information.
Now we can clarify links between different programs we speak above in Programming section. In addition to program input (when something come inside the program), the program can produce something (data) and give it away (output data). And usually, programs modify input data and output (return) the results of the modifications. This data flow between blocks of programs can be imagined as lines between blocks and this is how we link blocks (programs) together.
For example, if we have a program which copies files from folder A
to a folder B
(when user selects a file in explorer and press Ctrl + C in folder A and Ctrl + V in folder B) the input data here is a name with a path of the copied file (C:/temp/myFile.py). Giving a program file path as input we let it know what file it needs to copy, so the program can do the job. Another data examples: list of students in a class, the current time in Michigan, number of wheels in a car, etc.
Obviously, if data could be any piece of information that comes into a program we need to sort out (structure) somehow all varieties of this information, otherwise, we would not be able to deal with it efficiently. The number of options in which form the information could be presented is limited. A number of wheels in a car is a digit. List of students is a stack of characters (students names). Time is also a digit. And a path to a file is also a stack of characters.
Data type — is exact form in which any piece of information in a computer program can be represented.
We will examine most used in VEX data types:
Integer — a whole numbers: int numberOfIterations = 256;
Float — a fractional number: float PI = 3.14159;
Vector — a set of 3 floats: vector color = {1.0, 0.0, 0.256};
String — a text, set of characters: string phrase = 'Hello, World!';
Array — a set of values with the same data type: string letters[] = {'A', 'B', 'C'};
To process array data type we use loop construction, the loop allows applying some actions to each element of the array.
Variable — is a container served to store data. Imagine a variable like a box with coins (or any other volume with any other items of the same type inside).
The current variable can hold only one data type. For example, you can`t store integer and string in one variable. In other words, each data type requires its own variable.
In VEX when you create (declare) a variable you should define the data type and variable name:
// Set path to the source file
string pathToFile = 'C:/temp/myFile.py';
Where "string" is definition of string data type for variable which has name "pathToFile" and C:/temp/myFile.py
is a value for the variable.
A command is the smallest fraction of a program which performs a specific task. The definition of command may look almost the same as a program definition, but the program is a more general concept. In other words, a program consists of the commands. You can imagine commands as bricks which form the block of the program.
Commands exist within the given programming language, it predefined by the language itself. You write your programs using existing commands. For example, you will use copyfile()
Python command to copy a file from one location to another if you will write your own copying program with a Python language.
So basically coding process happens like this: you break your global program task into small command pieces and search for commands which could solve this pieces within a given programming language.
Commands also can have inputs and outputs of data as we discover with programs. The input for the command is called an argument:
// Command with argument example: print "Hello, World!"
printf('Hello, World!');
What if there is no appropriate command to solve your task in a given programming language? Write and use your own! Let`s define a function as a custom command to perform a specific task inside your programm.
Now we can assume that command is a built-in function in a certain language.
We define functions in VEX with data type that function will output (return) and function name, we place code for function in curly brackets { ... }
:
// Define Hello World message function
string printHello(){
printf('Hello, World!');
}
// Run Hello World functiion
printHello();
Where:
- "string" is data type that function returns,
- "printHello" is function name,
-
printf('Hello, World!')
is a code of our function which consist of one commandprintf()
recieving "Hello, World!" string as an argument.
Loop is a concept which allows performing a specific task several times. It's repeating one or more command, function, program. It is used when you need to solve the same task with a numerous amount of objects. Loops are used widely to process arrays (see data types), so you can do something with each element of the array one by one.
For example, if you need to delete a bottom face of several cubes in your scene, you will write a function which would be able to delete bottom face of one cube (and this cube would be passed as input data (argument) into your function) and then repeat this function for every cube with a help of loop.
Check one more example — double intensity of all lights in the scene for Maya and Python.
Let's see how deleting cube face looks in pseudocode:
// Create a container for all cubes in scene (list variable)
listOfCubes = ['Cube_01', 'Cube_02', ... 'Cube_N']
// Create a procedure which will delete the bottom face of input cube
deleteFace(inputCube)
find the bottom face of inputCube
delete the bottom face of inputCube
// Apply deletion procedure for all cubes
for each object in listOfCubes run deleteFace()
Loop syntax in VEX:
// Create array with a list of students
string listStudents[] = {'John','Dan','Sarah'};
// Print each student name
foreach ( string student; listStudents){
printf(student);
}
Where string listStudents[] = {'John','Dan','Sarah'}
is a definition of string array holding students names, foreach(string student; listStudents)
is a loop definition: for each member student
of array listStudents
execute code in {}
. And printf()
is a VEX command which prints an argument student
(student name), so each iteration we print a new name from the given array.
The printf()
command expects arguments of string data type (you should "place" inside this command only string data: printf(stringInput)
). So if we would process integer array we would need to convert integer data type to a string data type and it could be done with a construction printf('%d', integerItem)
, where'%d', integerItem
means: substitute '%d'
with current processed integer element of array integerItem
.
// Create array with a students grades
int listGrades[] = {10, 2, 9, 0};
// Print each grade from array
foreach(int grade; listGrades){
printf('%d', grade);
}
Another option for loops in VEX:
// Print "Hello, World!" 10 tims
for (int n=0; n<10; n++){
printf('Hello, World!');
}
Where for (int n=0; n<9; n++)
is a loop definition: start from 0 (n=0
), until we reach 9 (n<9
), with a step of 1 (n++
) execute everything located in {}
— print "Hello, World!".
Going deeper, n++
is a "syntaxis sugar" (more readble or short form) for n = n + 1
and a step of 1 means we will run code inside the curly brackets every step from 0 to 9 (what will give us 10 times repetition). We can run a code with a different step value, n = n + 2
will skip every second iteration, but never mind, most of the time n++
will work for you.
Conditions are used when you need to act differently depending on circumstances. You check if a particular condition is true or false and run different code depending on the answer. Conditions represented as an if-else
statements almost in any programming language. If there is rain outside I would take an umbrella, otherwise, I will leave the umbrella at home.
The else
statement is optional: "if there is a rain outside I would take an umbrella" will work as well. Conditions could be nested and combined to describe more complex algorithm: if there is rain outside and the rain is heavy I would stay at home, but if the rain is not so bad I would take an umbrella and go out.
// Define constant variables
int a = 10;
int b = 10;
// Check if vriables are equal
if (a/b == 1){
printf ('A egual B');
}
Where (a/b == 1)
is a checked condition: if A divided by B is an equal of one. Why we use ==
instead of =
? In a case with conditions, the sign you are checking condition with (sign between compared items, a/b
and 1
) is called condition operator. The equal sign =
means that you assign a value to a variable, to check equality in a condition we have to use ==
operator.
Common condition operators:
- Does A equal to B:
A == B
- Does A not equal to B:
A != B
- Does A grater or equel to B:
A >= B
In conjunction with the conditional operators you may use logical operator like AND, OR and NOT. If the rain is heavy and I have an umbrella and i dont have a cold — go outside.
Now you are hopefully ready to complete VEX tutorials. If you are interested in more fancy coding stuff, go ahead and read the next section.
This is not a necessary section for starting VEX experiments but it could be useful for curious minds. Here we can go further from the basics and learn about pseudocode, dictionaries, algorithms and abstraction.
Pseudocode — is a form of a computer program for human reading. It's a computer program brief written in usual sentences. Usually its a first stage of program creation, you formalize all tasks as a pseudocode and then "convert" this code to a computer program with a desirable computer language.
Dictionary is an extended data type.