Legacy Documentation: Version 2018.2 (Go to current version)
Deferred shading rendering path
Legacy Deferred Lighting Rendering Path
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Forward Rendering Path Details

This page describes details of Forward rendering pathThe technique Unity uses to render graphics. Choosing a different path affects the performance of your game, and how lighting and shading are calculated. Some paths are more suited to different platforms and hardware than others. More info
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.

Forward 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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path renders each object in one or more passes, depending on lights that affect the object. Lights themselves are also treated differently by Forward Rendering, depending on their settings and intensity.

Implementation Details

In Forward Rendering, some number of brightest lights that affect each object are rendered in fully per-pixel lit mode. Then, up to 4 point lights are calculated per-vertex. The other lights are computed as Spherical Harmonics (SH), which is much faster but is only an approximation. Whether a light will be a per-pixel light or not is dependent on this:

  • Lights that have their Render Mode set to Not Important are always per-vertex or SH.
  • Brightest directional light is always per-pixel.
  • Lights that have their Render Mode set to Important are always per-pixel.
  • If the above results in less lights than current Pixel Light Count Quality Setting, then more lights are rendered per-pixel, in order of decreasing brightness.

Rendering of each object happens as follows:

  • Base Pass applies one per-pixel directional light and all per-vertex/SH lights.
  • Other per-pixel lights are rendered in additional passes, one pass for each light.

For example, if there is some object that’s affected by a number of lights (a circle in a picture below, affected by lights A to H):

Let’s assume lights A to H have the same color and intensity and all of them have Auto rendering modeA Standard Shader Material parameter that allows you to choose whether the object uses transparency, and if so, which type of blending mode to use. More info
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, so they would be sorted in exactly this order for this object. The brightest lights will be rendered in per-pixel lit mode (A to D), then up to 4 lights in per-vertex lit mode (D to G), and finally the rest of lights in SH (G to H):

Note that light groups overlap; for example last per-pixel light blends into per-vertex lit mode so there are less “light popping” as objects and lights move around.

Base Pass

Base pass renders object with one per-pixel directional light and all SH/vertex lights. This pass also adds any lightmapsA pre-rendered texture that contains the effects of light sources on static objects in the scene. Lightmaps are overlaid on top of scene geometry to create the effect of lighting. More info
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, ambient and emissive lighting from the shaderA small script that contains the mathematical calculations and algorithms for calculating the Color of each pixel rendered, based on the lighting input and the Material configuration. More info
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. Directional light rendered in this pass can have Shadows. Note that Lightmapped objects do not get illumination from SH lights.

Note that when “OnlyDirectional” pass flag is used in the shader, then the forward base pass only renders main directional light, ambient/lightprobe and lightmaps (SH and vertex lights are not included into pass data).

Additional Passes

Additional passes are rendered for each additional per-pixel light that affect this object. Lights in these passes by default do not have shadows (so in result, Forward Rendering supports one directional light with shadows), unless multi_compile_fwdadd_fullshadows variant shortcut is used.

Performance Considerations

Spherical Harmonics lights are very fast to render. They have a tiny cost on the CPU, and are actually free for the GPU to apply (that is, base pass always computes SH lighting; but due to the way SH lights work, the cost is exactly the same no matter how many SH lights are there).

The downsides of SH lights are:

  • They are computed at object’s vertices, not pixelsThe smallest unit in a computer image. Pixel size depends on your screen resolution. Pixel lighting is calculated at every screen pixel. More info
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    . This means they do not support light Cookies or normal maps.
  • SH lighting is very low frequency. You can’t have sharp lighting transitions with SH lights. They are also only affecting the diffuse lighting (too low frequency for specular highlights).
  • SH lighting is not local; point or spot SH lights close to some surface will “look wrong”.

In summary, SH lights are often good enough for small dynamic objects.

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