RPG with Godot

Building an RPG using the Godot Game Engine

Updated: 03 September 2023

From the Action RPG Series by HeartBeast

Getting Started

You will first need to download the Godot Engine. You can use C# as the language but will require you to have the Visual Studio Build tools prereqs installed as well

Next, extract and launch the Godot executable and select a location for your game’s folder

YOu can then go to Project > Project Settings to confugire your project settings

An appropriate window size for pixel art you can go to Display > Window and set a Width of 320 and Height of 180, since this will make your game’s preview window really small you’ll also want to change the Test Height and Width, something like 1280 / 720 may work, and set a Stretch Mode to 2d in the same menu

Adding Game Resources

To import resources you can select the Import tab at the top of the left panel to configure the import settings before importing your resources

If you’re importing assets for 2D or 2D pixel art, set this appropriately prior to importing

Therafter, you can just drag the resources into the bottom left FileSystem panel

You can then drag an image into the game area to see what it looks like in the scene

Setup the Scene Type

Before you can start working you’ll need to setup your Root Scene node, select 2D or 3D for the root scene node as appropriate, I’ll be using 2D

Then click Scene > Save to save the Scene

You can then run by clicking the play icon in the top right of the window

Godot uses a collection of Scenes and Nodes to organize game content

  • Zoom in and out with your scroll wheel
  • Pan the scene by right clicking and dragging

Create a Character

To add a Character to a game we will add a KinematicBody2D node and we can add this via the + button in the Scene panel

Godot has a few different PhysicsBody2D types:

  • KinematicBody2D - will let us apply kinematic motion to it
  • RigidBody2D - will use physics to control their behaviour
  • StaticBody2D - will not move

Next, we can right click on the KinematicBody2D node to rename it as Player, and we can click on the Player node and add a Sprite node as a child and then drag an image to use into the Texture field of the Sprite node

To only show a single image in the Sprite you need to go to the Animation section of the Sprite and set the number of HFrames or WFrames

When moving things around you may accidentally move around a child of a selected node instead of the node itself, to avoid this select the Player node on the left, and the icon with the two squares to Make sure the object's children are not selectable which will make sure that child elements of the Player node are not moved accidentally. To move a child, you can select it in the node list and move it while holding alt

Add a Script

To make your Player movable you can add a script to it from the Attach Script button on the top of the left scene panel, and add a name for the script, I’m going to use Player.gd. The initialized script will look something like this:

Player.gd

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extends KinematicBody2D
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# Declare member variables here. Examples:
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# var a = 2
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# var b = "text"
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# Called when the node enters the scene tree for the first time.
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func _ready():
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  pass # Replace with function body.
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# Called every frame. 'delta' is the elapsed time since the previous frame.
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#func _process(delta):
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#  pass

We can see that the above extends KinematicBody2D and a script must extend the type of the object it is attached to. The _ready function runs when the object is added to a scene. Functions starting with _ are callback functions on an object and are called on a specific event

GD Script is based on Python, other languages are supported by GD is the best supported, you can use the geequlim.godot-tools VSCode Extension as well as the Godot Editor

It’s also possible to drag an existing script from the resources panel onto an object to attach it

To move our character we use the _physics_process(delta) callback, where the delta is the amount of time since the last physics process, the delta here is constant as opposed to the _process function in which it varies based on framerate

Any user inputs are stored in the Input object, we can use this to read the input

down and right are positive, up and left are negative

The code to handle basic direction inputs would look like so:

Player.gd

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extends KinematicBody2D
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var velocity = Vector2.ZERO
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func set_velocity_from_input():
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  var input_vector = Vector2.ZERO
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  input_vector.x = Input.get_action_strength("ui_right") - Input.get_action_strength("ui_left")
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  input_vector.y = Input.get_action_strength("ui_down") - Input.get_action_strength("ui_up")
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  if input_vector != Vector2.ZERO:
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     velocity =  input_vector
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  else:
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    velocity = Vector2.ZERO
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  move_and_collide(velocity)
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func _physics_process(_delta):
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  set_velocity_from_input()

Adding acceleration and deceleration as well as exporting the configuration variables we end up with the code as follows:

Player.gd

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extends KinematicBody2D
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export var MAX_SPEED    : float = 120
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export var ACCELERATION : float = 480
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export var FRICTION     : float = 480
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var velocity = Vector2.ZERO
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func set_velocity_from_input(delta):
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  var input_vector = Vector2.ZERO
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  input_vector.x = Input.get_action_strength("ui_right") - Input.get_action_strength("ui_left")
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  input_vector.y = Input.get_action_strength("ui_down") - Input.get_action_strength("ui_up")
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  # if the input is non-zero update using input
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  if input_vector != Vector2.ZERO:
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    # use a normalized (unit) vector
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    velocity = velocity.move_toward(input_vector * MAX_SPEED,
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                    ACCELERATION * delta)
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  else:
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    velocity = velocity.move_toward(Vector2.ZERO, FRICTION * delta)
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  # move the player and update with the returned velocity
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  velocity = move_and_slide(velocity)
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func _physics_process(delta):
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  set_velocity_from_input(delta)

The inclusion of delta ensures the speed remains constant regardless of the user’s device or frame rate, however you can consider leaving this out as the _physics_process function should be called at a constant rate unless the user’s device starts lagging

Collisions

We can add a collider to handle collisions on objects, you can add a CollisionShape2D which will allow you to handle this, you will then need to select the shape that you want to use, our collisions will then be handled correctly using the move_and_slide function we set above

Scenes

Godot has the ability to convert anything to a scene, this allows us to re-use a specific collection of preconfigured nodes - similar to prefabs in Unity

To save a node and its children as a scene you can right click on Save Branch as Scene

Make sure that when creating a scene you’ve got the location set to the origin so that the location isn’t off when reusing the scene

By default, the order of elements in the scene is based on the position in the heirarchy, but if we’ve got a 2D world scene and we want our collisions to allow us to go behind or in front of an element, and it should do this based on some kind of sorting, we can change our root 2D node, we can right click on the Node2D and select Change Type and pick YSort, depending on our usecase this may be a really quick solution to the problem mentioned

A Potential problem using YSort can be that it will sort based on the center of node, so you may need to consider the effects of that

Animation

Sprite animation can either be done with the AnimationPlayer or AnimatedSprite nodes. The AnimationPlayer is a more generic form of the latter

Adding an AnimationPlayer node to our Player will allow us to define an animation

When the AnimationPlayer is selected click Animation > New in the bottom panel

Next, set your snap to 0.1 at the bottom, and set the duration to the time you’d want to use

In our case, we would want to animate the Frame of our sprite, to do this select the sprite, set the frame you want to use as the first animation frame, and click on the key icon next to the frame number then click Create, Godot will automatically move the frame by the snap and increment the Frame so that you can very easily add the next frame

You can also set the animation to loop, as well as play or stop the animation and view it in the editor

Next, we’ll need access to our animation player node from our parent node, we can access any children using the $ and react our node based on its path. We do it in the _ready function so we can access it once it’s ready, like so:

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var animationPlayer : AnimationPlayer = null
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func _ready():
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  animationPlayer = $AnimationPlayer

Alternatively, we can use an onready var to define an instance variable in Gedot which will assign the variable once it’s ready, instead of using the _ready function:

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onready var animationPlayer : AnimationPlayer = $AnimationPlayer

You can implement a basic animation setting function using the animationPlayer.play("animationName") but an easier solution would be using an AnimationTree

Create an AnimationTree by adding a node to the hierarchy for the Player node

Once we’ve added an AnimationTree we will need to set the Anim Player property to the node we want to use. Next, for the Tree Root we will select New AnimationNodeStateMachine and check off Active

Right click in the empty area in the Animation Editor, and click Add Animation to get an animation to start with. You can then add another node, and use the Connect nodes button at the top left of the animation editor and click and drag between nodes to connect them. You can also set properties for the animation transitions if needed by clicking on the joining line

To have direction-based animation states we’ll want to add a BlendSpace2D inside of the Animation Editor section of the AnimationNodeStateMachine

To add animation nodes click on the pencil icon on the node to go to the visual layout for the BlendSpace2D you just added, then click on the pencil icon at the top left of the 2D Blend Space editor (Create Points) and click in the relative positions that your animation would be. E.g run up would be upwards, etc. Add a few animations in here with their relative positions

You can then click at the Set blending position icon at the top right and click within the internal animation space to set an animation based on a specific location. Since we’re using sprites here you also need to set the Blend to the ... option and start the animation in root to preview the animation changing

You may also want to set a specific animation in the tree (if you have multiple) to run on load, you can do this from an animation in the AnimationTree while an animation is selected by clicking the Toggle autoplay this animation on start at the top of the Animation Editor

We will want to manipulate the blend_position for the respective animation is what we’ll want to set programatically. To get the path for a parameter, like the blend_position, you need to view the AnimationTree properties and howver over the Blend Position for the animation you want to target, and look at the path shown, you would set this like so:

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animationTree.set("parameters/Idle/blend_position", input_vector)

Overall, using the above logic for setting an animation we can start an animation from the AnimationState using the travel function. Taking all this into consideration, a Player script would look something like this:

Player.gd

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extends KinematicBody2D
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export var MAX_SPEED    : float = 120
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export var ACCELERATION : float = 120*4
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export var FRICTION     : float = 120*8
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onready var animationTree  : AnimationTree = $AnimationTree
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onready var animationState : AnimationNodeStateMachinePlayback = animationTree.get("parameters/playback")
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var velocity : Vector2 = Vector2.ZERO
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func set_velocity_from_input(delta):
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  var input_vector = Vector2.ZERO
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  input_vector.x = Input.get_action_strength("ui_right") - Input.get_action_strength("ui_left")
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  input_vector.y = Input.get_action_strength("ui_down") - Input.get_action_strength("ui_up")
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  # if the input is non-zero update using input
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  if input_vector != Vector2.ZERO:
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    # setup blend_position for each animation
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    animationTree.set("parameters/Idle/blend_position", input_vector)
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    animationTree.set("parameters/Run/blend_position", input_vector)
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        # set animation to use
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        animationState.travel("Run")
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    # use a normalized (unit) vector
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    velocity = velocity.move_toward(input_vector * MAX_SPEED,
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                    ACCELERATION * delta)
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  else:
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        # set animation to use
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    animationState.travel("Idle")
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    velocity = velocity.move_toward(Vector2.ZERO, FRICTION * delta)
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  # move the player and update with the returned velocity
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  velocity = move_and_slide(velocity)
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func _physics_process(delta):
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  set_velocity_from_input(delta)

Backgrounds

If your world is a YSort you may need to change it back to a Node2D and have separte nodes for your background and environment, with a new YSort inside of it

If you want to set a background for the game, drag a sprite into the scene, and enable Region, and then open the TextureRegion panel at the bottom of the screen with the sprite selected

Next, reimport your texture by clicking on it in the FileSystem, the clicking Import on the left panel, selecting the Repeat as Enabled and then click Reimport

You can then resize the sprite in the TextureRegion to fit your game space

Tilemaps

To create a tilemap you need to add a TileMap node, set the Cell Size and then set the Tile Set to New TileSet

If you then click on the TileSet resource a TileSet window will pop up below. You can then drag sprites from the FileSystem panel into the left section of the TileSet panel at the bottom

Once we’ve imported a tileset you can select one of the tile types at the top:

  • Single Tile
  • Auto Tile
  • Tile Atlas

Once you click on one of the tiles you’ll get a region that you’ll need to drag and configure in your TileSet panel. YOu can also click the Snap icon so that you have a grid to snap to when creating your region

Now that the region has been created you’ll see a Snap Options section on the Inspector on the right. You can then set your Step options to match what your tilemap uses and go and reselect your region to fit

Next, click inside the region and go to Selected Tile, from there you need to ensure the Subtile Size is set to your tilemap size again and select 3x3 (minimal) as the Autotile Bitmask Mode, then click Bitmask at the top of the TileSet panel

Then ext step is to set when each tile should be placed by the autotile, you then need to highlight the sections of the tile that are not the wall (e.g. the parts that a character would walk on). Take a look at this explanation because the process is a bit difficult to explain

Right clicking in the bitmask erases

Next, save and click back on the TileMap in your scene heirarchy, select the tile, and set the Cell size for your tile. You can then click and drag around the map space and it will add tiles from your tile set

You can add collissions to tiles in the tileset using the TileSet editor, on the panel select the tileset click on collision, you can then select the square or polygon tool from the actions menu and click on the tile you’d want to make collide-able. If you’d like to make your tiles be “higher” than the ground you can also setup the z-index option

On Tilesets you can also setup Occulsion which allows the tiles to interact with Godot’s lighting system and Navigation which allows Godot’s navigation system for NPC’s to understand tilesets

You can also setup some elements of differing placement for the same tile positions for different tiles in a set by giving different ones different priority levels