mutter-performance-source/doc/clutter-rendering-model.md

# Clutter Rendering Model

Clutter renders the stage and actors in a 3D space. Most of the time, all the scene is composed of only 2D actors. Remember that common operations, like rotating on the Z axis, and scaling and translating on the X or Y axis, do not make actors 3D, which allows Clutter to optimize rendering for 2D.

## Camera

ClutterStage builds the view matrix (i.e. the matrix that transforms world coordinates into camera coordinates) assuming that the camera is placed at (0, 0, 0) with a normal (0, 0, -1). That means the camera is pointing *down*:

![camera](data/clutter_camera.png)

The camera is implicit, and as of now, hardcoded.

## Perspective

When setting up the projection, ClutterStage uses a traditional perspective projection, with the addition of a "2D plane". The 2D plane (`z-2d`) is a plane in the Z axis that all the stage will be rendered into. The perspective projection is build with the following parameters:

 * **field of view Y**: 60º (hardcoded)
 * **aspect**: width / height (depends on monitor configuration)
 * **z-near**: 1.0 (hardcoded)
 * **z-2d**: `z-near + z-near * 49,36` ( = 50,36)
 * **z-far**: `z-2d + z-2d * tan(30°) * 20` ( = 631,97)

![view cone](data/clutter_view_cone.png)

## Culling

Figuring out what **not** to draw is an important optimization of the rendering process. Clutter relies on clip frusta to detect which actors it can skip drawing.

### Depth Culling

The z-near and z-far values above are used to build the clip frusta, which culls out actors based on their position. If they're below than z-far, or above z-near, they are not rendered:

![view cone with z-culling](data/clutter_view_cone_with_z_culling.png)

### Clip Regions

Clutter supports defining which regions of the 2D screen changed. Suppose you hover a button; only the rectangle that that button cover is redrawn, instead of the entire screen. For example:

![clip region](data/clutter_clip_region.png)
*GNOME Shell with 3 clip regions (green)*

 This is translated to the 3D scene by using multiple clip frusta. Each frustum is a slice of the view cone, and only those actors and geometry and intersects it is rendered. If an actor doesn't touch any of the frusta, it is skipped when drawing.

![clip frusta](data/clutter_clip_frusta.png)
*View cone with 3 clip frusta (green)*
docs: Import `Clutter Rendering Model` wiki page This one was overlooked when we migrated the wiki to the repo, so let's add it before we delete the wiki. Part-of: <https://gitlab.gnome.org/GNOME/mutter/-/merge_requests/3485> 2024-01-03 22:34:30 +01:00			`# Clutter Rendering Model`

			`Clutter renders the stage and actors in a 3D space. Most of the time, all the scene is composed of only 2D actors. Remember that common operations, like rotating on the Z axis, and scaling and translating on the X or Y axis, do not make actors 3D, which allows Clutter to optimize rendering for 2D.`

			`## Camera`

			`ClutterStage builds the view matrix (i.e. the matrix that transforms world coordinates into camera coordinates) assuming that the camera is placed at (0, 0, 0) with a normal (0, 0, -1). That means the camera is pointing down:`

			`![camera](data/clutter_camera.png)`

			`The camera is implicit, and as of now, hardcoded.`

			`## Perspective`

			When setting up the projection, ClutterStage uses a traditional perspective projection, with the addition of a "2D plane". The 2D plane (`z-2d`) is a plane in the Z axis that all the stage will be rendered into. The perspective projection is build with the following parameters:

			`* field of view Y: 60º (hardcoded)`
			`* aspect: width / height (depends on monitor configuration)`
			`* z-near: 1.0 (hardcoded)`
			* z-2d: `z-near + z-near * 49,36` ( = 50,36)
			* z-far: `z-2d + z-2d * tan(30°) * 20` ( = 631,97)

			`![view cone](data/clutter_view_cone.png)`

			`## Culling`

			`Figuring out what not to draw is an important optimization of the rendering process. Clutter relies on clip frusta to detect which actors it can skip drawing.`

			`### Depth Culling`

			`The z-near and z-far values above are used to build the clip frusta, which culls out actors based on their position. If they're below than z-far, or above z-near, they are not rendered:`

			`![view cone with z-culling](data/clutter_view_cone_with_z_culling.png)`

			`### Clip Regions`

			`Clutter supports defining which regions of the 2D screen changed. Suppose you hover a button; only the rectangle that that button cover is redrawn, instead of the entire screen. For example:`

			`![clip region](data/clutter_clip_region.png)`
			`GNOME Shell with 3 clip regions (green)`

			`This is translated to the 3D scene by using multiple clip frusta. Each frustum is a slice of the view cone, and only those actors and geometry and intersects it is rendered. If an actor doesn't touch any of the frusta, it is skipped when drawing.`

			`![clip frusta](data/clutter_clip_frusta.png)`
			`View cone with 3 clip frusta (green)`