Control the game's UI with code¶
In this tutorial, you will connect a character to a life bar and animate the health loss.
You will learn:
- How to connect a character to a GUI with signals
- How to control a GUI with GDscript
- How to animate a life bar with the Tween node
If you want to learn how to set up the interface instead, check out the step-by-step UI tutorials:
When you code a game, you want to build the core gameplay first: the main mechanics, player input, win and loss conditions. The UI comes a bit later. You want to keep all the elements that make up your project separate if possible. Each character should be in its own scene, with its own scripts, and so should the UI elements. This prevents bugs, keeps your project manageable, and allows different team members to work on different parts of the game.
Once the core gameplay and the UI are ready, you'll need to connect them somehow. In our example, we have the Enemy who attacks the Player at constant time intervals. We want the life bar to update when the Player takes damage.
To do this, we will use signals.
Signals are Godot's version of the Observer pattern. They allow us to send out some message. Other nodes can connect to the object that emits the signal and receive the information. It's a powerful tool we use a lot for User Interface and achievement systems. You don't want to use them everywhere, though. Connecting two nodes adds some coupling between them. When there's a lot of connections, they become hard to manage. For more information, check out the signals video tutorial on GDquest.
Download and explore the start project¶
ui_code_life_bar.zip. Se sisältää kaikki aloittamiseen tarvitsemasi assetit ja skriptit. Pura .zip-arkisto saadaksesi kaksi hakemistoa: start ja end.
start project in Godot. In the
double click on LevelMockup.tscn to open it. It's an RPG game's mockup
where 2 characters face each other. The pink enemy attacks and damages
the green square at regular time intervals, until its death. Feel free
to try out the game: the basic combat mechanics already work. But as the
character isn't connected to the life bar, the
GUI doesn't do
This is typical of how you'd code a game: you implement the core gameplay first, handle the player's death, and only then you'll add the interface. That's because the UI listens to what's happening in the game. So it can't work if other systems aren't in place yet. If you design the UI before you prototype and test the gameplay, chances are it won't work well and you'll have to re-create it from scratch.
The scene contains a background sprite, a GUI, and two characters.
The GUI scene encapsulates all of the game's Graphical User Interface. It comes with a barebones script where we get the path to nodes that exist inside the scene:
number_labeldisplays a life count as a number. It's a
baris the life bar itself. It's a
tweenis a component-style node that can animate and control any value or method from any other node
The project uses a simple organization that works for game jams and tiny games.
At the root of the project, in the res:// folder, you will find the LevelMockup. That's the main game scene and the one we will work with. All the components that make up the game are in the scenes/ folder. The assets/ folder contains the game sprites and the font for the HP counter. In the scripts/ folder you will find the enemy, the player, and the GUI controller scripts.
Click the edit scene icon to the right of the node in the scene tree to open the scene in the editor. You'll see the LifeBar and EnergyBar are sub-scenes themselves.
Set up the Lifebar with the Player's max_health¶
We have to tell the GUI somehow what the player's current health is, to
update the lifebar's texture, and to display the remaining health in the
HP counter in the top left corner of the screen. To do this we send the
player's health to the GUI every time they take damage. The GUI will then
Number nodes with this value.
We could stop here to display the number, but we need to initialize the
max_value for it to update in the right proportions. The first
step is thus to tell the
GUI what the green character's
The bar, a TextureProgress, has a max_value of 100 by default. If you don't need to display the character's health with a number, you don't need to change its max_value property. You send a percentage from the Player to the GUI instead: health / max_health * 100.
Click the script icon to the right of the
GUI in the Scene dock to
open its script. In the
_ready function, we're going to store the
max_health in a new variable and use it to set the
Let's break it down.
$"../Characters/Player" is a shorthand that
goes one node up in the scene tree, and retrieves the
Characters/Player node from there. It gives us access to the node.
The second part of the statement,
.max_health, accesses the
max_health on the Player node.
The second line assigns this value to
bar.max_value. You could
combine the two lines into one, but we'll need to use
player_max_health again later in the tutorial.
Player.gd sets the
max_health at the start of the
game, so we could work with this. Why do we still use
There are two reasons:
We don't have the guarantee that
health will always equal
max_health: a future version of the game may load a level where
the player already lost some health.
When you open a scene in the game, Godot creates nodes one by one, following the order in your Scene dock, from top to bottom. GUI and Player are not part of the same node branch. To make sure they both exist when we access each other, we have to use the _ready function. Godot calls _ready right after it loaded all nodes, before the game starts. It's the perfect function to set everything up and prepare the game session. Learn more about _ready: Skriptaus (jatkuu)
Update health with a signal when the player takes a hit¶
Our GUI is ready to receive the
health value updates from the
Player. To achieve this we're going to use signals.
There are many useful built-in signals like enter_tree and exit_tree, that all nodes emit when they are respectively created and destroyed. You can also create your own using the signal keyword. On the Player node, you'll find two signals we created for you: died and health_changed.
Why don't we directly get the
Player node in the
function and look at the health value? Accessing nodes this way creates
tight coupling between them. If you did it sparingly it may work. As
your game grows bigger, you may have many more connections. If you get
nodes this way it gets complex quickly. Not only that: you
need to listen to the state change constantly in the
function. This check happens 60 times a second and you'll likely break
the game because of the order in which the code runs.
On a given frame you may look at another node's property before it was updated: you get a value from the last frame. This leads to obscure bugs that are hard to fix. On the other hand, a signal is emitted right after a change happened. It guarantees you're getting a fresh piece of information. And you will update the state of your connected node right after the change happened.
The Observer pattern, that signals derive from, still adds a bit of coupling between node branches. But it's generally lighter and more secure than accessing nodes directly to communicate between two separate classes. It can be okay for a parent node to get values from its children. But you'll want to favor signals if you're working with two separate branches. Read Game Programming Patterns for more information on the Observer pattern. The full book is available online for free.
With this in mind, let's connect the
GUI to the
Player. Click on
Player node in the scene dock to select it. Head down to the
Inspector and click on the Node tab. This is the place to connect nodes
to listen to the one you selected.
The first section lists custom signals defined in
diedis emitted when the character died. We will use it in a moment to hide the UI.
health_changedis emitted when the character got hit.
health_changed and click on the Connect button in the bottom
right corner to open the Connect Signal window. On the left side you can
pick the node that will listen to this signal. Select the
The right side of the screen lets you pack optional values with the
signal. We already took care of it in
Player.gd. In general I
recommend not to add too many arguments using this window as they're
less convenient than doing it from the code.
You can optionally connect nodes from the code. However doing it from the editor has two advantages:
- Godot can write new callback functions for you in the connected script
- An emitter icon appears next to the node that emits the signal in the Scene dock
At the bottom of the window you will find the path to the node you
selected. We're interested in the second row called "Method in Node".
This is the method on the
GUI node that gets called when the signal
is emitted. This method receives the values sent with the signal and
lets you process them. If you look to the right, there is a "Make
Function" radio button that is on by default. Click the connect button
at the bottom of the window. Godot creates the method inside the
node. The script editor opens with the cursor inside a new
When you connect nodes from the editor, Godot generates a
method name with the following pattern:
If you wrote the method already, the "Make Function" option will keep
it. You may replace the name with anything you'd like.
Inside the parentheses after the function name, add a
argument. When the player emits the
health_changed signal, it will send
health alongside it. Your code should look like:
The engine does not convert PascalCase to snake_case, for C# examples we'll be using PascalCase for method names & camelCase for method parameters, which follows the official C# naming conventions.
_on_Player_health_changed, let's call a second function called
update_health and pass it the
We could directly update the health value on LifeBar and Number. There are two reasons to use this method instead:
- The name makes it clear for our future selves and teammates that when the player took damage, we update the health count on the GUI
- We will reuse this method a bit later
Create a new
update_health method below
It takes a new_value as its only argument:
This method needs to:
- set the
new_valueconverted to a string
- set the
str is a built-in function that converts about any value to
text property requires a string, so we can't
assign it to
update_health at the end of the
_ready function to
text with the right value at the
start of the game. Press F5 to test the game: the life bar updates with
Animate the loss of life with the Tween node¶
Our interface is functional, but it could use some animation. That's a
good opportunity to introduce the
Tween node, an essential tool to
Tween animates anything you'd like from a start
to an end state over a certain duration. For example, it can animate the
health on the
TextureProgress from its current level to the
health when the character takes damage.
GUI scene already contains a
Tween child node stored in the
tween variable. Let's now use it. We have to make some changes to
We will use the
interpolate_property method. It
takes seven arguments:
- A reference to the node who owns the property to animate
- The property's identifier as a string
- The starting value
- The end value
- The animation's duration in seconds
- The type of the transition
- The easing to use in combination with the equation.
The last two arguments combined correspond to an easing equation. This controls how the value evolves from the start to the end point.
Click the script icon next to the
GUI node to open it again. The
Number node needs text to update itself, and the
Bar needs a
float or an integer. We can use
interpolate_property to animate a
number, but not to animate text directly. We're going to use it to
animate a new
GUI variable named
At the top of the script, define a new variable, name it
animated_health, and set its value to 0. Navigate back to the
update_health method and
clear its content. Let's animate the
animated_health value. Call the
Let's break down the call:
tween.interpolate_property(self, "animated_health", ...
self, that is to say the
Tween's interpolate_property takes the property's name as a
string. That's why we write it as
... _health", animated_health, new_value, 0.6 ...
The starting point is the current value the bar's at. We still have to
code this part, but it's going to be
animated_health. The end point
of the animation is the
health after the
0.6 is the animation's
duration in seconds.
The animation will not play until we activated the
Tween node with
tween.start(). We only have to do this once if the node is not
active. Add this code after the last line:
Although we could animate the health property on the Player, we shouldn't. Characters should lose life instantly when they get hit. It makes it a lot easier to manage their state, like to know when one died. You always want to store animations in a separate data container or node. The tween node is perfect for code-controlled animations. For hand-made animations, check out AnimationPlayer.
Assign the animated_health to the LifeBar¶
animated_health variable animates but we don't update the
Number nodes anymore. Let's fix this.
So far, the update_health method looks like this:
In this specific case, because
number_label takes text, we need to
_process method to animate it. Let's now update the
TextureProgress nodes like before, inside of
number_label and bar are variables that store references to the Number and TextureProgress nodes.
Play the game to see the bar animate smoothly. But the text displays decimal number and looks like a mess. And considering the style of the game, it'd be nice for the life bar to animate in a choppier fashion.
We can fix both problems by rounding out
animated_health. Use a
local variable named
round_value to store the rounded
animated_health. Then assign it to
Try the game again to see a nice blocky animation.
Every time the player takes a hit, the
_on_Player_health_changed, which in turn calls
updates the animation and the
bar follow in
_process. The animated life bar that shows the health going down gradually
is a trick. It makes the GUI feel alive. If the
Player takes 3 damage,
it happens in an instant.
Fade the bar when the Player dies¶
When the green character dies, it plays a death animation and fades out.
At this point, we shouldn't show the interface anymore. Let's fade the
bar as well when the character died. We will reuse the same
node as it manages multiple animations in parallel for us.
GUI needs to connect to the
to know when it died. Press F1 to jump back to the 2D
Workspace. Select the
Player node in the Scene dock and click on the
Node tab next to the Inspector.
died signal, select it, and click the Connect button.
In the Connecting Signal window, connect to the
GUI node again. The
Path to Node should be
../../GUI and the Method in Node should show
_on_Player_died. Leave the Make Function option on and click Connect
at the bottom of the window. This will take you to the
in the Script Workspace.
You should see a pattern by now: every time the GUI needs a new piece of information, we emit a new signal. Use them wisely: the more connections you add, the harder they are to track.
To animate a fade on a UI element, we have to use its
modulate is a
Color that multiplies the colors of our
modulate comes from the CanvasItem class, All 2D and UI nodes inherit from it. It lets you toggle the visibility of the node, assign a shader to it, and modify it using a color with modulate.
modulate takes a
Color value with 4 channels: red, green, blue
and alpha. If we darken any of the first three channels it darkens the
interface. If we lower the alpha channel, our interface fades out.
We're going to tween between two color values: from a white with an
1, that is to say at full opacity, to a pure white with an
alpha value of
0, completely transparent. Let's add two variables at
the top of the
_on_Player_died method and name them
end_color. Use the
Color() constructor to build two
Color(1.0, 1.0, 1.0) corresponds to white. The fourth argument,
is the alpha channel.
We then have to call the
interpolate_property method of the
Tween node again:
This time, we change the
modulate property and have it animate from
start_color to the
end_color. The duration is of one second,
with a linear transition. Here's the complete
And that is it. You may now play the game to see the final result!
Using the exact same techniques, you can change the color of the bar when the Player gets poisoned, turn the bar red when its health drops low, shake the UI when they take a critical hit... the principle is the same: emit a signal to forward the information from the Player to the GUI and let the GUI process it.