8.8. ArrayList Summary¶
In this chapter you learned about ArrayLists which are dynamic re-sizable arrays. You learned how to declare and create ArrayLists, add and remove objects from them, set the object at an index, and get the object at an index.
List are like arrays in that you can store many objects of the same type in a list, just as you can in an array. Lists are different from arrays in that they can grow or shrink as needed. You can also add an element anywhere in a list and remove an element from any index. The first element in a list is at index 0 just like arrays.
Lists also differ from arrays in that you can have an array of any of the primitive types: int, double, or boolean, but you can only put objects in a list. You can use the wrapper classes Integer
, Double
, and Boolean
to wrap a primitive value in an object so that you can put it in a list. Java will also do this automatically for you if you try to add a primitive value to a list or set a primitive variable to an item of a list. This is called autoboxing and unboxing.
8.8.1. Concept Summary¶
Autoboxing - Automatically wrapping a primitive type in a wrapper class object. For instance if you try to add an
int
value to a list, it will automatically be converted to anInteger
object.Abstract Method - A method that only has a declaration and no method body (no code inside the method).
ArrayList - An ArrayList can hold many objects of the same type. It can grow or shrink as needed. You can add and remove items at any index.
Add - You can add an object to the end of a list using
listName.add(obj)
. You can add an object at an index of a list usingadd(index,obj)
. This will first move any objects at that index or higher to the right one position to make room for the new object.Declaration - To declare an ArrayList use
ArrayList<Type> name
, whereType
is the class name for the type of objects in the list. If you leave off the<Type>
it will default toObject
.Creation - To create an ArrayList use
new ArrayList<Type>
, whereType
is the class name for the type of objects you want to store in the list. There are other classes that implement theList
interface, but you only need to know theArrayList
class for the exam.Get - To get an object at an index from a list use
listName.get(index)
.Index - You can access and set values in a list using an index. The first element in a list called
list1
is at index 0list1.get(0)
. The last element in a list is at the length minus one -list1[list1.size() - 1]
.Remove - To remove the object at an index use
ListName.remove(index)
. This will move all object past that index to the left one index.Set - To set the value at an index in a list use
listName.set(index,obj)
.Size - Use
listName.size()
to get the number of objects in the list.Wrapper Class - Classes used to create objects that hold primitive type values like
Integer
forint
,Double
fordouble
andBoolean
forboolean
.Unboxing - Automatically converting a wrapper object like an
Integer
into a primitive type such as anint
.
8.8.2. Vocabulary Practice¶
-
8-8-1: Drag the item from the left and drop it on its corresponding answer on the right. Click the "Check Me" button to see if you are correct.
Review the summaries above.
- The index of the last element
- size() - 1
- The number of elements in the list
- size()
- The index of the first element
- 0
- The index of the second element
- 1
-
8-8-2: Drag the description from the left and drop it on the correct code on the right. Click the "Check Me" button to see if you are correct.
Review the summaries above.
- Declare an integer list named numList
- List<Integer> numList = null;
- Declare and create a list of strings named list1
- List<String> list1 = new ArrayList<String>();
- Declare and create a list of integers named list1
- List<Integer> list1 = new ArrayList<Integer>();
- Get the first object in a list named list1
- list1.get(0);
- Get the last object in a list named list1
- list1.get(list1.size() - 1);
For more practice, see this Quizlet.
8.8.3. Common Mistakes¶
forgetting that
set
replaces the item at the indexforgetting that
remove
at an index moves all items that were to the right of that index left one indexforgetting that
add
at an index moves everything that was at the index and greater to the right one indexincrementing an index when looping through a list even though you removed an item from the list
using
nameList[0]
instead ofnameList.get(0)
.using
nameList.length
instead ofnameList.size()
to get the number of elements in a list