Syntax of Code Flow

Code Flow #

Inside of functions, there are a number of different ways to change how code executes. Without messing with code flow, and just having a bunch of statements, code will execute top to bottom, left to right. Code flow is how we get more complicated.

There are 2 main ways to manipulate code flow: Branches and Loops.

Branches, which will likely never be referred to as “branches” again, are a way of executing functions only in some situations. We have two main forms: The If Statement and Switch Statements. Lets ignore switch statements for now, and focus on the if statement.

Statement #

A statement is an action of a program. Usually, a single line of code is a statement. We generally end our statements with semicolons. Statements are the code doing some single thing.

Declaring a variable? Thats a statement. Assigning it a new value? That’s a statement.

Statement Blocks #

Any code inside of curly braces could be considered a block, or statement block. We contain a number of statements inside some curly braces, and now we can put multiple statements, wrapped up in curly’s, and treat it like one statement from the outside.

The If Statement #

The If statement takes a conditional and will only execute statment if the conditional is true.

The syntax is: the word if, followed immediately by parenthesis that contain a conditional. The code will execute or not execute the statement that follows it depending on the conditional.

if(conditional == true)
    DoSomething();

Except, you should basically never write your if statements without using a statment block – curly braces. We use a curly braces basically 100% of the time. The above is valid, and considered a shorthand, but we want our code to be consistent and readable. So, in practice, the syntax of an if statement is:

The keyword ‘if’, followed by parenthesis that contain a conditional, immediately followed by curly braces.

if(conditional == true)
{
    DoSomething();
}

The If-Else Statement #

The ’else’ keyword can be added to after the if statement to provide some code that will only happen if the conditional is false. It’s like an “otherwise” clause.

if(conditional == true)
{
    DoSomething();
}
else
{
    DoADifferentThing();
}

if(conditional == true)
{
    DoSomething();
} else //programmers will fight over the appropriate line spacing of the else statement. I have no strong opinions. 
{
    DoADifferentThing();
}

You can chain if-else statements together

if(inputDir == Vector2.left)
{
    MoveInDir(Vector2.left);
}
else if(inputDir == Vector2.right)
{
    MoveInDir(Vector2.right);
}else if(inputDir == Vector2.up)
{
    MoveInDir(Vector2.up);
}
else if(inputDir == Vector2.down)
{
    MoveInDir(Vector2.down);
}else
{
    StopMoving();
}

Loops #

Loops allow us to execute a statement block multiple times.

The simplest loop is the while loop.

The While Loop #

It’s basically the same syntax as a simple if statement, but with the keyword while.

So long as the conditional is true, the code in the blocks will execute.

while(true)
{
    //The word 'true' is always true, so this code will run over and over again forever and crash your computer.
    //This is called an infinite loop, and every programmer has made this mistake at least once.
}

We can use a while loop and an integer to build a simple counter.

int i = 0;//A
while(i < 10)//B
{
    //Some code we want to run multiple times.
    Debug.Log(i);
    i = i + 1;//C
}
//This will spit out 0 - 9 in the console. 10 numbers, starting at 0, and going to 9 - not including 10.

It turns out this little pattern is really common. We have some code that happens before the while loop (labeled A, above). Then some conditional we check every loop (i<10, labeled B). Then some code we run every single time in the loop (labeled C).

This pattern is so common, that the programming deities gave us a nicer way to type it out: the for loop.

The For Loop #

Actually, the for loop first appeared in ALGOL 58, a programming language developed in 1958, 63 years ago as I type this.

The for loop is simple loop that is much less prone to accidentally writing infinite loops. It’s syntax is:

The keyword for, followed by three statements inside of the parenthesis, seperated by commas. Then a curly brace containing our loop.

for(A;B;C){}

The A,B,and C’s here match the functionality of the code labeled A,B, and C in the while loop example above.

The statements are:

  • A: something that happens once at the top of a loop.
  • B: a conditional
  • C: something that happens every loop.

99% of the time we:

  • A: Create a variable. int i = 0;
  • B: Compare it to something. A < 10;
  • C: Increment it: i++;
for(int i = 0;i<10;i++)
{
    //do something 10 times, with access to the variable i.
    Debug.Log(i);
}
We always use the variable “i” for a counter integer. i for iterator.

i++; is shorthand for writing i = i + 1; It’s just a little bit tidier. “++” as an operator will add 1 to the variable to it’s left.

Similarly, i– will subtract one from a number.