website/content/ta/spring2018/cpsc220/mar13.md

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2020-01-15 21:51:49 -05:00
# Lecture for March 13th
## Methods
Methods are small blocks of statements that make it easier to solve a problem. It usually focuses on solving a small part of the overall problem.
Usually in methods you provide some sort of input and get some output out of it.
### Advantages
- Code readability
- Modular program development (break up the problem in chunks)
- Incremental development
- No redundant code!
### Method definition
Consists of a method name, input and output and the block of statements.
Usually this is succinctly written using JavaDocs which is what you see in the JavaAPI
### Method Call
A method call is the execution of the method. The statements defined in the method is what will execute.
### Method Stubs
Recall from method definition the parts of the method definition. Now look at the following method
```java
String[] split(String s)
```
The output here is `String[]`
The method name is `split`
The input is `String s`
## Modular Programming
Let us look at the following example:
The program should have a list of grocery prices. It should be able to calculate the total cost of groceries. The store gives a student discount of 5%. The program should calculate this discount and update the total, it should calculate and add the 2.5% tax.
- First you should add it all up
- Then compute the discount
- Then add the tax
## Parts of a method definition
```java
public static int timesTwo(int num) {
int two = num * 2;
return two;
}
```
It first starts off by declaring the visibility `public`
The return type if `int`
The method name is `timesTwo`
The input parameter is `int num`
Between the curly braces is the *body* of the method
## Calling a Method
```java
int a = 5;
int b = 3;
int ans = multiply(a, b)
```
The method call is `multiply(a, b)` and the result is stored in the variable `ans`