Version: 2020.1
Important Classes
Important Classes - MonoBehaviour

Important Classes - GameObject

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Unity’s GameObject class is used to represent anything which can exist in a SceneA Scene contains the environments and menus of your game. Think of each unique Scene file as a unique level. In each Scene, you place your environments, obstacles, and decorations, essentially designing and building your game in pieces. More info
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.

This page relates to scripting with Unity’s GameObject class. To learn about using GameObjects in the Scene and Hierarchy in the Unity Editor, see the GameObjects section of the user manual. For an exhaustive reference of every member of the GameObject class, see the GameObject script reference.

GameObjects are the building blocks for scenes in Unity, and act as a container for functional components which determine how the GameObject looks, and what the GameObject does.

In scripting, the GameObject class provides a collection of methods which allow you to work with them in your code, including finding, making connections and sending messages between GameObjects, as well as adding or removing components attached to the GameObject, and setting values relating to their status within the scene.

Scene Status properties

There are a number of properties you can modify via script which relate to the GameObject’s status in the scene. These typically correspond to the controls visible near the top of the inspectorA Unity window that displays information about the currently selected GameObject, asset or project settings, allowing you to inspect and edit the values. More info
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when you have a GameObject selected in the Editor.

They don’t relate to any particular component, and are visible in the inspector of a GameObject at the top, above the list of components.

A typical GameObject viewed in the Inspector. In this case, a directional light. The Scene status properties are outlined in red.
A typical GameObject viewed in the Inspector. In this case, a directional light. The Scene status properties are outlined in red.

All GameObjects share a set of controls at the top of the inspector relating to the GameObject’s status within the scene, and these can be controlled via the GameObject’s scripting API.

If you want a quick list of all the available API for the GameObject class, see the GameObject Script Reference.

Active Status

The Active status of a GameObject
The Active status of a GameObject

GameObjects are active by default, but can be deactivated, which turns off all components attached to the GameObject. This generally means it will become invisible, and not receive any of the normal callbacks or events such as Update or FixedUpdate.

The GameObject’s active status is represented by the checkbox to the left of the GameObject’s name. You can control this using GameObject.SetActive.

You can also read the current active state using GameObject.activeSelf, and whether or not the GameObject is actually active in the scene using GameObject.activeInHierarchy. The latter of these two is necessary because whether a GameObject is actually active is determined by its own active state, plus the active state of all of its parents. If any of its parents are not active, then it will not be active despite its own active setting.

Static Status

The Static status of a GameObject
The Static status of a GameObject

Some of Unity’s systems, such as Global IlluminationA group of techniques that model both direct and indirect lighting to provide realistic lighting results. Unity has two global illumination systems that combine direct and indirect lighting.: Baked Global Illumination, and Realtime Global Illumination (deprecated).
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, Occlusion, Batching, Navigation, and Reflection ProbesA rendering component that captures a spherical view of its surroundings in all directions, rather like a camera. The captured image is then stored as a Cubemap that can be used by objects with reflective materials. More info
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, rely on .You can control which of Unity’s systems consider the GameObject to be static by using GameObjectUtility.SetStaticEditorFlags. Read more about Static GameObjects here.

Tags and Layers

The Static status of a GameObject
The Static status of a GameObject

Tags provide a way of marking and identifying types of GameObject in your scene and Layers provide a similar but distinct way of including or excluding groups of GameObjects from certain built-in actions, such as renderingThe process of drawing graphics to the screen (or to a render texture). By default, the main camera in Unity renders its view to the screen. More info
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or physics collisions.

For more information about how to use Tags and Layers in the editor, see the main user manual pages for TagsA reference word which you can assign to one or more GameObjects to help you identify GameObjects for scripting purposes. For example, you might define and “Edible” Tag for any item the player can eat in your game. More info
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and LayersLayers in Unity can be used to selectively opt groups of GameObjects in or out of certain processes or calculations. This includes camera rendering, lighting, physics collisions, or custom calculations in your own code. More info
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.

You can modify tag and layer values via script using the GameObject.tag and GameObject.layer properties. You can also check a GameObject’s tag efficiently by using the CompareTag method, which includes validation of whether the tag exists, and does not cause any memory allocation.

Adding and Removing components

You can add or remove components at runtime, which can be useful for procedurally creating GameObjects, or modifying how a GameObject behaves. Note, you can also enable or disable script components, and some types of built-in component, via script without destroying them.

The best way to add a component at runtime is to use AddComponent<Type>, specifying the type of component within angle brackets as shown. To remove a component, you must use Object.Destroy method on the component itself.

Accessing components

The simplest case is where a script on a GameObject needs to access another Component attached to the same GameObject (remember, other scripts attached to a GameObject are also Components themselves). To do this, the first step is to get a reference to the Component instance you want to work with. This is done with the GetComponent method. Typically, you want to assign the Component object to a variable, which is done in using the following code. In this example the script is getting a reference to a RigidbodyA component that allows a GameObject to be affected by simulated gravity and other forces. More info
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component on the same GameObject:

void Start () 
{
    Rigidbody rb = GetComponent<Rigidbody>();
}

Once you have a reference to a Component instance, you can set the values of its properties much as you would in the Inspector:

void Start () 
{
    Rigidbody rb = GetComponent<Rigidbody>();
    
    // Change the mass of the object's Rigidbody.
    rb.mass = 10f;
}

You can also call methods on the Component reference, for example:

void Start ()
{
    Rigidbody rb = GetComponent<Rigidbody>();
    
    // Add a force to the Rigidbody.
    rb.AddForce(Vector3.up * 10f);
}

Note: you can have multiple custom scriptsA piece of code that allows you to create your own Components, trigger game events, modify Component properties over time and respond to user input in any way you like. More info
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attached to the same GameObject. If you need to access one script from another, you can use GetComponent as usual and just use the name of the script class (or the filename) to specify the Component type you want.

If you attempt to retrieve a Component type that hasn’t actually been added to the GameObject then GetComponent will return null; you will get a null reference error at runtime if you try to change any values on a null object.

Accessing components on other GameObjects

Although they sometimes operate in isolation, it is common for scripts to keep track of other GameObjects, or more commonly, components on other GameObjects. For example, in a cooking game, a chef might need to know the position of the stove. Unity provides a number of different ways to retrieve other objects, each appropriate to certain situations.

Linking to GameObjects with variables in the inspector

The most straightforward way to find a related GameObject is to add a public GameObject variable to the script:

public class Chef : MonoBehaviour
{
    public GameObject stove;
    
    // Other variables and functions...
}

This variable will be visible in the Inspector, as a GameObject field.

You can now drag an object from the scene or Hierarchy panel onto this variable to assign it.

Dragging a Prefab from the Project window into a GameObject field in the Inspector window
Dragging a Prefab from the Project window into a GameObject field in the Inspector window

The GetComponent function and Component access variables are available for this object as with any other, so you can use code like the following:

public class Chef : MonoBehaviour {

    public GameObject stove;
    
    void Start() {
        // Start the chef 2 units in front of the stove.
        transform.position = stove.transform.position + Vector3.forward * 2f;
    }
}

Additionally, if you declare a public variable of a Component type in your script, you can drag any GameObject that has that Component attached onto it. This accesses the Component directly rather than the GameObject itself.

public Transform playerTransform;

Linking objects together with variables is most useful when you are dealing with individual objects that have permanent connections. You can use an array variable to link several objects of the same type, but the connections must still be made in the Unity editor rather than at runtime. It is often convenient to locate objects at runtime and Unity provides two basic ways to do this, as described below.

Finding child GameObjects

Sometimes, a game Scene makes use of a number of GameObjects of the same type, such as collectibles, waypoints and obstacles. These may need to be tracked by a particular script that supervises or reacts to them (for example, all waypoints might need to be available to a pathfinding script). Using variables to link these GameObjects is a possibility but it makes the design process tedious if each new waypoint has to be dragged to a variable on a script. Likewise, if a waypoint is deleted, then it is a nuisance to have to remove the variable reference to the missing GameObject. In cases like this, it is often better to manage a set of GameObjects by making them all children of one parent GameObject. The child GameObjects can be retrieved using the parent’s Transform componentA Transform component determines the Position, Rotation, and Scale of each object in the scene. Every GameObject has a Transform. More info
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(because all GameObjects implicitly have a Transform):

using UnityEngine;

public class WaypointManager : MonoBehaviour {
    public Transform[] waypoints;
    
    void Start() 
    {
        waypoints = new Transform[transform.childCount];
        int i = 0;
        
        foreach (Transform t in transform)
        {
            waypoints[i++] = t;
        }
    }
}

You can also locate a specific child object by name using the Transform.Find method: transform.Find("Frying Pan");

This can be useful when a GameObject has a child GameObject that can be added and removed during gameplay. A tool or utensil that can be picked up and put down during gameplay is a good example of this.

Sending and Broadcasting messages

While editing your project you can set up references between GameObjects in the Inspector. However, sometimes it is impossible to set up these in advance (for example, finding the nearest item to a character in your game, or making references to GameObjects that were instantiated after the Scene loaded). In these cases, you can find references and send messages between GameObjects at runtime.

BroadcastMessage allows you to send out a call to a named method, without being specific about where that method should be implemented. You can use it to call a named method on every MonoBehaviour on a particular GameObject or any of its children. You can optionally choose to enforce that there must be at least one receiver (or an error is generated).

SendMessage is a little more specific, and only sends the call to a named method on the GameObject itself, and not its children.

SendMessageUpwards is similar, but sends out the call to a named method on the GameObject and all its parents.

Finding GameObjects by Name or Tag

It is always possible to locate GameObjects anywhere in the Scene hierarchy as long as you have some information to identify them. Individual objects can be retrieved by name using the GameObject.Find function:

GameObject player;

void Start() 
{
    player = GameObject.Find("MainHeroCharacter");
}

An object or a collection of objects can also be located by their tag using the GameObject.FindWithTag and GameObject.FindGameObjectsWithTag methods.

For example, in a cooking game with one chef character, and multiple stoves in the kitchen (each tagged “Stove”):

GameObject chef;
GameObject[] stoves;

void Start() 
{
    chef = GameObject.FindWithTag("Chef");
    stoves = GameObject.FindGameObjectsWithTag("Stove");
}

Creating and Destroying GameObjects

You can create and destroy GameObjects while your project is running. In Unity, a GameObject can be created using the Instantiate method which makes a new copy of an existing object.

For a full description and examples of how to instantiate GameObjects, see Instantiating Prefabs at Runtime.

There is also a Destroy method that will destroy an object after the frame update has finished or optionally after a short time delay:

void OnCollisionEnter(Collision otherObj) {
    if (otherObj.gameObject.tag == "Garbage can") {
        Destroy(gameObject, 0.5f);
    }
}

Note that the Destroy function can destroy individual components without affecting the GameObject itself. A common mistake is to write this, assuming it will destroy the GameObject the script it’s attached to…

 Destroy(this);

…whereas, because “this” represents the script, and not the GameObject, it will actually just destroy the script component that calls it, leaving the GameObject behind, with the script component removed.

Primitives

The GameObject class offers script-based alternatives to the options available in Unity’s GameObject menu that allows you to create primitive objects.

To create instances of Unity’s built-in primitives, use GameObject.CreatePrimitive, which instantiates a primitive of the type that you specify. The available primitive types are Sphere, Capsule, Cylinder, Cube, Plane and QuadA primitive object that resembles a plane but its edges are only one unit long, it uses only 4 vertices, and the surface is oriented in the XY plane of the local coordinate space. More info
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.

The Primitive shapes available in Unitys GameObject menu
The Primitive shapes available in Unity’s GameObject menu
Important Classes
Important Classes - MonoBehaviour
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