How To Use Post Processes

Base postprocess

Every postprocess is based upon BABYLON.PostProcess which uses this constructor:

BABYLON.PostProcess = function (name, fragmentUrl, parameters, samplers, ratio, camera, samplingMode, engine, reusable)

We will get back to fragmentUrl, parameters and samplers parameters.

The ratio is used to define the size of the postprocess (0.5 means that your postprocess will have a width = canvas.width * 0.5 and a height = canvas.height * 0.5).

The camera parameter specifies which camera to attach to. If you're creating a post process that will be managed by a render pipeline, this should be set to null. See Post Process Pipeline

The samplingMode can be one of the following:


Please note that postprocesses with trilinear sampling will be forced to have a power of two size (256, 512, 1024, etc.)

The engine parameter is the engine where you want to attach your postprocess.

The reusable parameter indicates if your postprocess can be reused multiple times on the same camera (default is false).

Additional parameters

By default (and if you are not using trilinear sampling) postprocesses use the size of the screen scaled by the ratio you provide. But you can decide to force them to be rescaled to a power of two size in order to be more efficient. To enable this, just call mypostprocess.alwaysForcePOT = true.

You can also control how the size is chosen by setting mypostprocess.scaleMode to one of these values:

  • BABYLON.Engine.SCALEMODE_FLOOR: Will find the next lowest power of two.
  • BABYLON.Engine.SCALEMODE_NEAREST: Will find the nearest power of two.
  • BABYLON.Engine.SCALEMODE_CEILING: Will find the next highest power of two.

You can also control if the postprocess is cleared upon rendering with mypostprocess.autoClear = true. This is the default behavior.

If you turn off autoClear, you will be able to blend the render of the postprocess with its previous content by defining an alphaMode with mypostprocess.alphaMode = BABYLON.Engine.ALPHA_COMBINE.

This could be really useful when you have multiple postprocesses enabled together. You can even choose to share the output of several postprocesses with mypostprocess.shareOutputWith(anotherPostprocess).

Attach postprocess

Depending on how you have defined a postprocess, it can be attached one or more times to the same camera. The same instance can also be attached to multiple cameras.

A camera has two methods:


NUMBER function(PostProcess postProcess [,NUMBER atIndice])


NUMBER function(PostProcess postProcess [,NUMBER[] atIndices])

Builtin postprocesses

Babylon.js comes with a set of ready to use postprocesses.


Do nothing. Used to copy the framebuffer into a postprocess for further use

var postProcess = new BABYLON.PassPostProcess("Scene copy", 1.0, camera);

Black and white

Apply a black and white effect:

var postProcess = new BABYLON.BlackAndWhitePostProcess("bandw", 1.0, camera);


Apply a directional blur using a kernel-based blur:

var postProcess = new BABYLON.BlurPostProcess("Horizontal blur", new BABYLON.Vector2(1.0, 0), kernel, 0.25, camera);

The kernel value will define the ideal number of taps done by the postprocess. The postprocess will then adapt the kernel-based on screen size and DPI resolution.

For instance here is an example with a kernel value of 32: Blur Post Process Example Or 256: Blur Post Process With Kernel Value Of 256

Obviously, as usual, try to stay reasonable with kernel size as it will impact the overall rendering speed.


Apply a kernel matrix to every pixel:

var postProcess = new BABYLON.ConvolutionPostProcess("Sepia", BABYLON.ConvolutionPostProcess.EmbossKernel, 1.0, camera);


Apply a full screen antialiasing filter:

var postProcess = new BABYLON.FxaaPostProcess("fxaa", 1.0, camera);


Apply a full screen highlight filter which will increment the luminosity of highlights in your scene:

var postProcess = new BABYLON.HighlightsPostProcess("highlights", 1.0, camera);


Apply a full screen tone mapping filter:

var postProcess = new BABYLON.TonemapPostProcess("tonemap", BABYLON.TonemappingOperator.Hable, 1.0, camera);

The second parameter defines which operator will be used among the following ones:

  • BABYLON.TonemappingOperator.Hable
  • BABYLON.TonemappingOperator.Reinhard
  • BABYLON.TonemappingOperator.HejiDawson
  • BABYLON.TonemappingOperator.Photographic

The third parameter defines the exposure adjustment.

You can find a demo here: Tonemap Post Process


Apply a complete range of special image treatments (image processing):

var postProcess = new BABYLON.ImageProcessingPostProcess("processing", 1.0, camera);

You have several options available:

You can also use this postprocess to enable a vignette effect. The vignette is positioned thanks to the following parameters:

  • vignetteStretch: 0 by default
  • vignetteCentreX: X coordinate of the center (0,0 is the center of the screen)
  • vignetteCentreY: Y coordinate of the center (0,0 is the center of the screen)
  • vignetteWeight: 1.5 by default
  • vignetteColor: Color4 value to define the overall color
  • vignetteBlendMode: BABYLON.ImageProcessingPostProcess.VIGNETTEMODE_MULTIPLY or BABYLON.ImageProcessingPostProcess.VIGNETTEMODE_OPAQUE

You can find a demo of the vignette here: Vignette Post Process

All features can be turned on and off with the following booleans:

  • colorCurvesEnabled
  • vignetteEnabled
  • cameraToneMappingEnabled
  • colorGradingEnabled


Image postprocessing can be done with the ImageProcessingPostProcess, but you can also use the built-in image processing features in StandardMaterial and PBRMaterial. To simplify the overall configuration of your image processing setup, you can define the properties you want on scene.imageProcessingConfiguration. This object hosts the same properties as the ImageProcessingPostProcess.

By default, ImageProcessingPostProcess, StandardMaterial and PBRMaterial share the same configuration object (The one from the scene). This means that if you change a value on scene.imageProcessingConfiguration or directly on ImageProcessingPostProcess, StandardMaterial or PBRMaterial, this will affect all entities sharing the same configuration.

Here is an example of a global configuration: Post Process Global Configuration

Furthermore, as they share the same configuration, you can just dispose a postprocess you were using and automatically the image processing will be done at materials level. So here is an example of a configuration done at scene level, but with no postprocess to use it: Configuration At The Scene Level (As you can see the processing is then done by the material itself).

You can also decide to instantiate your own configuration and affect it to your material or to your postprocess with postProcess.imageProcessingConfiguration = new BABYLON.ImageProcessingConfiguration(). In this case, you will be able to configure this object independently.

Troubleshoot If you use post-processes with built-in image processing features, you might run into brighter color issues.
Read this if you want to know how to fix it.

Default rendering pipeline

The image processing post process is also included in a rendering pipeline: the DefaultRenderingPipeline. This pipeline adds support for FXAA and bloom on top of the image processing. You can find a complete interactive demo here: Default Rendering Pipeline Featuring Bloom

You can turn pipeline features on and off with the following booleans:

  • fxaaEnabled
  • bloomEnabled
  • imageProcessingEnabled


Apply a refraction texture:

var postProcess = new BABYLON.RefractionPostProcess("Refraction", "refMap.jpg", new BABYLON.Color3(1.0, 1.0, 1.0), 0.5, 0.5, 1.0, camera);

The constructor of this postprocess is the following:

BABYLON.RefractionPostProcess = function (name, refractionTextureUrl, color, depth, colorLevel, ratio, null, samplingMode, engine, reusable)

refractionTextureUrl is the URL of the refraction map. The luminance of every pixel is used to define the refraction level (white = min, black = max) color is the base color of the refraction (used to taint the rendering) depth is the simulated refraction depth colorLevel is the coefficient of the base color (0 to remove base color tainting)

Color Correction

Apply a color filter:

var postProcess = new BABYLON.ColorCorrectionPostProcess("color_correction", "./table.png", 1.0, camera);

The second parameter of the constructor is the URL of the color look-up table (also known as LUT) that contains the filter to apply. This must be a texture 16 pixels high and 256 pixels wide containing a modified set of RGB colors (x=red value, y=green value, z=blue value). The post-processing will then map the RGB values of the rendered pixels to the new values contained in the look-up table.

Here is what the default (without filter) look-up table looks like:


Examples of filtered LUT to use for various filters:

LUT  Inverted colors

LUT  High contrast

LUT  Posterize

You can easily create new filters by using a image editing software to alter the look-up table to fit your needs. Copy/paste the default look-up table on a screenshot or picture before altering it to see in real time what the filtered image will look like.

Custom postprocesses

You can also develop your own postprocess using BABYLON.PostProcess object.

To do so, you need to create a .fragment.fx file, a shader-storing DOM node, or a ShaderStore entry where you will store the GLSL shader code used for every pixel of the screen:

precision highp float;
// Samplers
varying vec2 vUV;
uniform sampler2D textureSampler;
// Parameters
uniform vec2 screenSize;
uniform float highlightThreshold;
float highlights(vec3 color)
 return smoothstep(highlightThreshold, 1.0, dot(color, vec3(0.3, 0.59, 0.11)));
void main(void)
 vec2 texelSize = vec2(1.0 / screenSize.x, 1.0 / screenSize.y);
 vec4 baseColor = texture2D(textureSampler, vUV + vec2(-1.0, -1.0) * texelSize) * 0.25;
 baseColor += texture2D(textureSampler, vUV + vec2(1.0, -1.0) * texelSize) * 0.25;
 baseColor += texture2D(textureSampler, vUV + vec2(1.0, 1.0) * texelSize) * 0.25;
 baseColor += texture2D(textureSampler, vUV + vec2(-1.0, 1.0) * texelSize) * 0.25;
 baseColor.a = highlights(baseColor.rgb);
 gl_FragColor = baseColor;

Your shader must define the following values:

  • Precision must be set to highp
  • A varying vUV must be used to read texture coordinates
  • The first sampler must be named textureSampler

Once you created your sampler, you can create a postprocess:

var postProcess = new BABYLON.PostProcess("Down sample", "./Scenes/Customs/postprocesses/downsample", ["screenSize", "highlightThreshold"], null, 0.25, camera);

You have to specify:

  • A name
  • The URL of the shader coder*
  • A list of your uniforms parameters
  • A list of additional samplers
  • The ratio
  • The parent camera (deprecated)
  • The sampling mode
  • The engine
  • Can be reusable

(*Please see the link at the bottom of this document to learn more ways to store shader code.)

You can set up things before the postprocess is applied by specifying a onApply function:

postProcess.onApply = function (effect) {
    effect.setFloat2("screenSize", postProcess1.width, postProcess1.height);
    effect.setFloat("highlightThreshold", 0.90);

You can find another example here: Custom Post Process Example

To use the output of a previous post process setTextureFromPostProcess can be used. Note: This will set sceneSampler to the output of the post process before postProcess0 NOT the output of postProcess0.

effect.setTextureFromPostProcess("sceneSampler", postProcess0);

Chaining postprocesses

You can chain postprocesses on a specific camera. They are processed using the creation order. For instance here is the code used to simulate a bloom effect:

var blurWidth = 1.0;
var postProcess0 = new BABYLON.PassPostProcess("Scene copy", 1.0, camera);
var postProcess1 = new BABYLON.PostProcess("Down sample", "./Scenes/Customs/postprocesses/downsample", ["screenSize", "highlightThreshold"], null, 0.25, camera, BABYLON.Texture.BILINEAR_SAMPLINGMODE);
postProcess1.onApply = function (effect) {
    effect.setFloat2("screenSize", postProcess1.width, postProcess1.height);
    effect.setFloat("highlightThreshold", 0.90);
var postProcess2 = new BABYLON.BlurPostProcess("Horizontal blur", new BABYLON.Vector2(1.0, 0), blurWidth, 0.25, camera);
var postProcess3 = new BABYLON.BlurPostProcess("Vertical blur", new BABYLON.Vector2(0, 1.0), blurWidth, 0.25, camera);
var postProcess4 = new BABYLON.PostProcess("Final compose", "./Scenes/Customs/postprocesses/compose", ["sceneIntensity", "glowIntensity", "highlightIntensity"], ["sceneSampler"], 1, camera);
postProcess4.onApply = function (effect) {
    effect.setTextureFromPostProcess("sceneSampler", postProcess0);
    effect.setFloat("sceneIntensity", 0.5);
    effect.setFloat("glowIntensity", 0.4);
    effect.setFloat("highlightIntensity", 1.0);

You might want to read more about shaders and try our CYOS shader editor.