How to Set Asset Scaling and Resolution for 2D Games

When I shared the post about Optimized Parallax Backgrounds, I got asked how our asset resolution and scaling system works.

Dealing with asset scaling in 2D games can be confusing, to say the least. There are many ways to handle it. Which one to chose depends on what you expect. The problem is, you usually do not know what to expect from a responsive interface.

So beware, most scaling strategies don’t respond well to display ratio changes. They will pretend to work on your test device, then they will fail you so bad you will wish you had bookmarked this blog post earlier, which is now. Seriously.

I will now explain one asset scaling strategy that worked great for us in all 4 games we released so far. It is not my invention. I found the original method here, and also influenced by this Cocos2d-x forum post, that uses a different approach to achieve similar behaviour.

Note: In order to make things easier to grasp, I will pretend your game always works full screen regardless of device type. For windowed-mode on a PC, interpret the term “display resolution” as “window resolution”.

Now there are four things you expect from your engine to handle for you.

  • Choosing the most suitable set of graphics according to display resolution.
  • Globally scaling the selected graphics to fit the screen.
  • Letting you ignore all these and totally forget about the display while coding the game itself.
  • Earning you money, success, and preferably a slice of New York Cheesecake.

Sadly, at 6×13 Games, we couldn’t come up with a reliable way for the engine to handle the last one, either. So I will only explain the asset scaling part.

We will use Cocos2d-x engine for the examples and rely on its terminology. But Cocos only provides a basic set of transform policies, so the same idea applies to any 2D engine. The engine source is available, so you can implement the missing stuff in your own engine as well.

Resolution Policy

This actually has nothing to do with resolution. It is about framing.

Cocos2d-x will autoscale the whole scene to somehow fit the frame. Resolution policy is where you tell the engine what your understanding of “fit” is, what kind of behaviour you expect from it. The options are:

  • Exact Fit
  • No Border
  • Show All
  • Fixed Height
  • Fixed Width

I know, you need No Border!

Maybe you do. But let me help you, you really don’t. What you really want is a little more complicated than that.

You do not want a weird display aspect ratio messing up with your precious interaction area, making your UI buttons too small to press. That is what you get with No Border. And that is why we are rolling a better solution.

So, keep reading.

Safe Area

You need a safe area! An area that is not only guaranteed to be shown to user, but also guaranteed to cover as much screen space as possible. So I present you, the safe area:

Anything but the yellow area is just decoration that prevents the user from seeing black border. You never, ever put something that user really needs to see outside the Safe Area.

This is the response we expect from our framework.

The safe area is the center 480×320 units portion of our 570×360 units game area -not pixels, units. It has an aspect ratio of 1,5f .

How do we guarantee that?

We calculate the reference axis first. Then we either choose the Fixed Height, or the Fixed Width policy, according to the reference axis. If the Reference Axis is y-axis, we choose Fixed Height, otherwise Fixed Width.

Whatever our Reference Axis is, it better be Fixed.

I believe the above animation clearly shows what a Reference Axis is. Below is what it mathematically means:

float aspect_ratio = display_res.width / display_res.height;

if ( 1.5f > aspect_ratio )
    // Reference Axis = X_AXIS
    // ...
    // Reference Axis = Y_AXIS
    // ...

You can download our Safe Area reference SVG as well as three sample sizes exported, as a single zip file.

Now that we have decided how the engine should behave, it needs to know what portion of the screen to use for that behaviour. In Cocos2d-x terms, this is the Design Size.

Design size

Scenes are sizeless. They are just cartesian space with an origin, and possibly some stupid protagonist running around, trying to rescue the damsel who can actually take care of herself. Go away, creepy protagonist!

Anyway. In order for Cocos to fit the scene contents into the frame, it needs to know which portion of the scene we actually consider to be “the scene”. Hence, the Design Size.

In our case, Design Size is the dimensions of our Safe Area.

The moment we set the Design Size and Resolution Policy, the engine will start acting like an adult. Below is how it reacts to both ratio and physical size changes.

Cool animation, right? I made it in Blender, yay!

To sum up:

  • Cocos will scale to fit.
  • Resolution Policy tells it “how” to fit.
  • Design size tells it “what” to fit.

Great, it works! That’s it!

Or not.

Multi-Resolution Support

This would be the happy ending of our asset scaling adventure, if the only crappy, non-standardized piece of hardware on our way was the display. Far from it.

We also need our runtime assets to be fast to process, fit the video memory nicely, and be effected from the least amount of aliasing possible during scaling.

All of them require one thing: having multiple versions of our assets and picking the set of assets to load according to the display resolution, at runtime.

More precisely, we want the density -the definition- of our assets to be close to the expectations of the particular hardware. Because if your mobile device has a Standard Definition display, chances are it also has the video processing power and memory that can only handle Standard Definition, or less. Mobile manufacturers rarely skip the leg day.

Also, there are many algorithms for image scaling, with varying quality and performance characteristics. You want your realtime scaling to be of the fastest kind, which also means less quality. Therefore, it’s best to have your images prescaled to -or reproduced at- closest size.

So, we need to support multiple resolutions as part of our asset scaling strategy.

In order to do that, we put each set of assets in a different resource directory.

We use three size variants, and a directory for each: “small”, “medium”, and “large”.

We will pick the best possible size according to the display dimension of our Reference Axis, in pixels. After that, there is no special procedure to “pick” the directory, you simply add that particular directory to the Resource Search Path of your engine, omitting the others so they will not even be visible to the engine.

Content Scale Factor

We also associate a scale factor with each of those directories, so that the engine knows how the assets map to the design size. It is simple. For example, if the assets in “medium” are twice the definition of your Design Size, the scale is 2. I do that in a resource JSON file that holds other information as well. The relevant parts of the file looks like this:

    "version": [
    "graphics": {
        "design": {
            "size": {
                "width": 480,
                "height": 320
            "full": {
                "width": 570,
                "height": 360
        "assets": [
                "scale": 1,
                "directory": "small"
                "scale": 2,
                "directory": "medium"
                "scale": 4,
                "directory": "large"

You are free to hardcode those.

There is a x13_gfx_s structure instance in our game data that holds graphics properties:

typedef struct
    // Scale
    int scale;

    // Safe size and full size
    vec2_s safe, full;

    // Directory
    std::string dir;

} x13_gfx_s;

We have an init function that fills it.

 x13_init_gfx( float width, float height )
    float aspect_ratio    = width / height;
    rapidjson::Value &gfx = x13_data.res.dom[ "graphics" ]; = gfx[ "design" ][ "size" ][ "width" ].GetUint( ); = gfx[ "design" ][ "size" ][ "height" ].GetUint( );
    x13_data.gfx.full.x = gfx[ "design" ][ "full" ][ "width" ].GetUint( );
    x13_data.gfx.full.y = gfx[ "design" ][ "full" ][ "height" ].GetUint( );
    int unsigned resource_index;

    if ( 1.5f > aspect_ratio )
        if ( width
             > gfx[ "assets" ][ 1u ][ "scale" ].GetUint( ) * )
            resource_index = 2u;
        else if ( width > gfx[ "assets" ][ 0u ][ "scale" ].GetUint( )
                           * )
            resource_index = 1u;
            resource_index = 0u;
        if ( height
             > gfx[ "assets" ][ 1u ][ "scale" ].GetUint( ) * )
            resource_index = 2u;
        else if ( height > gfx[ "assets" ][ 0u ][ "scale" ].GetUint( )
                            * )
            resource_index = 1u;
            resource_index = 0u;

     gfx[ "assets" ][ resource_index ][ "directory" ].GetString( ) );
    x13_data.gfx.scale = gfx[ "assets" ][ resource_index ][ "scale" ].GetInt( );

Don’t worry about the SAX stuff. Concentrate on the if statement. We call it in the Cocos2d-x specific AppDelegate::applicationDidFinishLaunching method, and then we:

  • Set design size
  • Set resolution policy
  • Set content scale factor
  • Add selected asset directory to Search Path
 AppDelegate::applicationDidFinishLaunching( )
    // ...

    // Set OpenGLView

    // ...

    auto frame_size = glview->getFrameSize( );
    x13_init_gfx( frame_size.width, frame_size.height );

    // Set design resolution and determine fix policy.
     ( 1.5f > ( frame_size.width / frame_size.height ) )
      ? ResolutionPolicy::FIXED_WIDTH
      : ResolutionPolicy::FIXED_HEIGHT );
    // Set content scaling factor.
    director->setContentScaleFactor( x13_data.gfx.scale );
    std::string res_path = "res";
    file_utils->addSearchPath( res_path );   // For scene description files.
    file_utils->addSearchPath( res_path + "/audio" );
    file_utils->addSearchPath( res_path + "/fonts" );
    file_utils->addSearchPath( res_path + "/" + x13_data.gfx.dir + "/ui" );
    file_utils->addSearchPath( res_path + "/" + x13_data.gfx.dir + "/game" );
    file_utils->addSearchPath( res_path + "/generic" );

    // ...
    return true;

As of this point, we can totally forget about the asset selection, resolution and PPI variations, retina displays, weird aspect ratios etc.

We just pretend the screen size is 480×320 when coding, except the few times where you might want to put some fancy, decorative animations outside the Safe Area.

Below is how the engine handles everything.

If you need more information about the above subjects, the following outdated docs from Cocos2d-x wiki are still relevant.

Detailed explanation of Cocos2d-x Multi-resolution adaptation

Multi resolution support


Ok, you are all set! Now you need to fill your scenes with beautiful assets.

~Pixel-Perfect Assets

Applying Safe Area strategy to your asset production is pretty straightforward. Just grab the reference assets I shared above, and comply with the boundaries.

But if you really want to preserve every bit of quality you can in a generic way, I have two more recommendations for you.

First, not everything has to be pixel perfect. Rather, try to keep your content scaling uniform among all the assets, because that will, in turn, keep the distortion and aliasing characteristics uniform. No one ever died from a little less definition. We lived just fine watching Video CDs for years, after all.


However, watching a VCD side-by-side with a 4K movie now? That would have lasting effects. The point is, don’t let the player’s eyes compare asset densities. Keep it uniform.

Second, raster and vector assets require opposite treatment. You use raster graphics for more organic asset types, which results better if you work with high resolution sources and scale down. Work with exactly four times the size of your biggest production asset version, and scale by %50, %25, %12,5. So if you used our asset scheme, your background textures would have the following attributes:

small/bg.png  PNG image data, 570 x 360, 8-bit/color RGBA
medium/bg.png PNG image data, 1140 x 720, 8-bit/color RGBA
large/bg.png  PNG image data, 2280 x 1440, 8-bit/color RGBA

source/bg.png PNG image data, 4560 x 2880, 8-bit/color RGBA

Easy! Everyone already knows that.

Now, with vector graphics, you want almost the exact opposite. You want your source asset dimensions to be 570x360px, precisely as your smallest production asset variant. And you want to export for each resolution one by one -not export once and scale up. Because if a line is at the pixel border in your smallest resolution, it will always be at the pixel borders at every resolution, as long as you keep doubling the resolution. This guarantees the pixel-perfect output.

Of course, you can use the same method for raster graphics as well, but with raster graphics, the priority is seldom the quality at the pixel level.

Lastly, exporting for multiple resolutions is boring labor. If you  want to automate your multi-resolution asset workflow with custom GUI tools, please check out my new post: Multi-Resolution Asset Workflow Automation.

Allright! That was long. It took me two full days to prepare this post. So please, do not hesitate to share and comment. Especially, if you tried the above method in your games and had problems, or success, drop me a line. Good luck!

Published by

Kenan Bölükbaşı

Founder, Project Leader and Developer at 6x13 Games. Game Developer & Designer, CG Generalist, Architect. Theoretical and applied knowledge in programming, design and media. Broad experience in project management. Experience in 3D (mesh, solid & CAD), 2D (raster, vector), and parametric graphics as well as asset pipelines and tools development. Blender 3D specialist (Blender Foundation Certified Trainer).

3 thoughts on “How to Set Asset Scaling and Resolution for 2D Games”

  1. Awesome post!
    This subject is one that confuses just about everyone – as can be seen by some of the threads on the cocos2d-x forum – I think the longest ever thread is on the subject.
    Your post is very clear – and I love the animations – if a picture paints 1,000 words then your animations evoke a novel 😉

    I posted on the subject previously at – but I feel I’ll refer people to your post in future!

    1. Wow, thank you very much for the very encouraging comments!

      Yes, it took me days to completely wrap my head around the subject back then. Also as you said in your own post, only while I was writing this blog post I was able to completely grasp it myself, despite the fact that I implemented and used it in production for more than two years.

      Soon, in a follow-up post, I will show how to implement extensions for open source graphics software that exports the different resolutions for our custom needs.

      Thanks again, both for the comment and for considering to refer to it!

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